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var __create = Object.create;
var __defProp = Object.defineProperty;
var __defProps = Object.defineProperties;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropDescs = Object.getOwnPropertyDescriptors;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getOwnPropSymbols = Object.getOwnPropertySymbols;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __propIsEnum = Object.prototype.propertyIsEnumerable;
var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp.call(b, prop))
      __defNormalProp(a, prop, b[prop]);
  if (__getOwnPropSymbols)
    for (var prop of __getOwnPropSymbols(b)) {
      if (__propIsEnum.call(b, prop))
        __defNormalProp(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps = (a, b) => __defProps(a, __getOwnPropDescs(b));
var __export = (target, all) => {
  for (var name in all)
    __defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
  if (from && typeof from === "object" || typeof from === "function") {
    for (let key of __getOwnPropNames(from))
      if (!__hasOwnProp.call(to, key) && key !== except)
        __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
  }
  return to;
};
var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
  isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
  mod
));
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
var __publicField = (obj, key, value) => {
  __defNormalProp(obj, typeof key !== "symbol" ? key + "" : key, value);
  return value;
};
var __async = (__this, __arguments, generator) => {
  return new Promise((resolve3, reject) => {
    var fulfilled = (value) => {
      try {
        step(generator.next(value));
      } catch (e) {
        reject(e);
      }
    };
    var rejected = (value) => {
      try {
        step(generator.throw(value));
      } catch (e) {
        reject(e);
      }
    };
    var step = (x) => x.done ? resolve3(x.value) : Promise.resolve(x.value).then(fulfilled, rejected);
    step((generator = generator.apply(__this, __arguments)).next());
  });
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/migrations/after-render-phase/index.mjs
var after_render_phase_exports = {};
__export(after_render_phase_exports, {
  default: () => after_render_phase_default
});
module.exports = __toCommonJS(after_render_phase_exports);
var import_schematics = require("@angular-devkit/schematics");
var import_path3 = require("path");

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/project_tsconfig_paths.mjs
var import_core = require("@angular-devkit/core");
function getProjectTsConfigPaths(tree) {
  return __async(this, null, function* () {
    const buildPaths = /* @__PURE__ */ new Set();
    const testPaths = /* @__PURE__ */ new Set();
    const workspace = yield getWorkspace(tree);
    for (const [, project] of workspace.projects) {
      for (const [name, target] of project.targets) {
        if (name !== "build" && name !== "test") {
          continue;
        }
        for (const [, options] of allTargetOptions(target)) {
          const tsConfig = options["tsConfig"];
          if (typeof tsConfig !== "string" || !tree.exists(tsConfig)) {
            continue;
          }
          if (name === "build") {
            buildPaths.add((0, import_core.normalize)(tsConfig));
          } else {
            testPaths.add((0, import_core.normalize)(tsConfig));
          }
        }
      }
    }
    return {
      buildPaths: [...buildPaths],
      testPaths: [...testPaths]
    };
  });
}
function* allTargetOptions(target) {
  if (target.options) {
    yield [void 0, target.options];
  }
  if (!target.configurations) {
    return;
  }
  for (const [name, options] of Object.entries(target.configurations)) {
    if (options) {
      yield [name, options];
    }
  }
}
function createHost(tree) {
  return {
    readFile(path2) {
      return __async(this, null, function* () {
        const data = tree.read(path2);
        if (!data) {
          throw new Error("File not found.");
        }
        return import_core.virtualFs.fileBufferToString(data);
      });
    },
    writeFile(path2, data) {
      return __async(this, null, function* () {
        return tree.overwrite(path2, data);
      });
    },
    isDirectory(path2) {
      return __async(this, null, function* () {
        return !tree.exists(path2) && tree.getDir(path2).subfiles.length > 0;
      });
    },
    isFile(path2) {
      return __async(this, null, function* () {
        return tree.exists(path2);
      });
    }
  };
}
function getWorkspace(tree) {
  return __async(this, null, function* () {
    const host = createHost(tree);
    const { workspace } = yield import_core.workspaces.readWorkspace("/", host);
    return workspace;
  });
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/typescript/compiler_host.mjs
var import_path = require("path");
var import_typescript2 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/typescript/parse_tsconfig.mjs
var path = __toESM(require("path"), 1);
var import_typescript = __toESM(require("typescript"), 1);
function parseTsconfigFile(tsconfigPath, basePath) {
  const { config } = import_typescript.default.readConfigFile(tsconfigPath, import_typescript.default.sys.readFile);
  const parseConfigHost = {
    useCaseSensitiveFileNames: import_typescript.default.sys.useCaseSensitiveFileNames,
    fileExists: import_typescript.default.sys.fileExists,
    readDirectory: import_typescript.default.sys.readDirectory,
    readFile: import_typescript.default.sys.readFile
  };
  if (!path.isAbsolute(basePath)) {
    throw Error("Unexpected relative base path has been specified.");
  }
  return import_typescript.default.parseJsonConfigFileContent(config, parseConfigHost, basePath, {});
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/typescript/compiler_host.mjs
function createMigrationProgram(tree, tsconfigPath, basePath, fakeFileRead, additionalFiles) {
  const { rootNames, options, host } = createProgramOptions(tree, tsconfigPath, basePath, fakeFileRead, additionalFiles);
  return import_typescript2.default.createProgram(rootNames, options, host);
}
function createProgramOptions(tree, tsconfigPath, basePath, fakeFileRead, additionalFiles, optionOverrides) {
  tsconfigPath = (0, import_path.resolve)(basePath, tsconfigPath);
  const parsed = parseTsconfigFile(tsconfigPath, (0, import_path.dirname)(tsconfigPath));
  const options = optionOverrides ? __spreadValues(__spreadValues({}, parsed.options), optionOverrides) : parsed.options;
  const host = createMigrationCompilerHost(tree, options, basePath, fakeFileRead);
  return { rootNames: parsed.fileNames.concat(additionalFiles || []), options, host };
}
function createMigrationCompilerHost(tree, options, basePath, fakeRead) {
  const host = import_typescript2.default.createCompilerHost(options, true);
  const defaultReadFile = host.readFile;
  host.readFile = (fileName) => {
    var _a2;
    const treeRelativePath = (0, import_path.relative)(basePath, fileName);
    let result = fakeRead == null ? void 0 : fakeRead(treeRelativePath);
    if (typeof result !== "string") {
      result = treeRelativePath.startsWith("..") ? defaultReadFile.call(host, fileName) : (_a2 = tree.read(treeRelativePath)) == null ? void 0 : _a2.toString();
    }
    return typeof result === "string" ? result.replace(/^\uFEFF/, "") : void 0;
  };
  return host;
}
function canMigrateFile(basePath, sourceFile, program) {
  if (sourceFile.fileName.endsWith(".ngtypecheck.ts") || sourceFile.isDeclarationFile || program.isSourceFileFromExternalLibrary(sourceFile)) {
    return false;
  }
  return !(0, import_path.relative)(basePath, sourceFile.fileName).startsWith("..");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/migrations/after-render-phase/migration.mjs
var import_typescript95 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/change_tracker.mjs
var import_typescript93 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/selector.mjs
var _SELECTOR_REGEXP = new RegExp(
  `(\\:not\\()|(([\\.\\#]?)[-\\w]+)|(?:\\[([-.\\w*\\\\$]+)(?:=(["']?)([^\\]"']*)\\5)?\\])|(\\))|(\\s*,\\s*)`,
  "g"
);
var CssSelector = class {
  constructor() {
    this.element = null;
    this.classNames = [];
    this.attrs = [];
    this.notSelectors = [];
  }
  static parse(selector) {
    const results = [];
    const _addResult = (res, cssSel) => {
      if (cssSel.notSelectors.length > 0 && !cssSel.element && cssSel.classNames.length == 0 && cssSel.attrs.length == 0) {
        cssSel.element = "*";
      }
      res.push(cssSel);
    };
    let cssSelector = new CssSelector();
    let match;
    let current = cssSelector;
    let inNot = false;
    _SELECTOR_REGEXP.lastIndex = 0;
    while (match = _SELECTOR_REGEXP.exec(selector)) {
      if (match[1]) {
        if (inNot) {
          throw new Error("Nesting :not in a selector is not allowed");
        }
        inNot = true;
        current = new CssSelector();
        cssSelector.notSelectors.push(current);
      }
      const tag = match[2];
      if (tag) {
        const prefix = match[3];
        if (prefix === "#") {
          current.addAttribute("id", tag.slice(1));
        } else if (prefix === ".") {
          current.addClassName(tag.slice(1));
        } else {
          current.setElement(tag);
        }
      }
      const attribute2 = match[4];
      if (attribute2) {
        current.addAttribute(current.unescapeAttribute(attribute2), match[6]);
      }
      if (match[7]) {
        inNot = false;
        current = cssSelector;
      }
      if (match[8]) {
        if (inNot) {
          throw new Error("Multiple selectors in :not are not supported");
        }
        _addResult(results, cssSelector);
        cssSelector = current = new CssSelector();
      }
    }
    _addResult(results, cssSelector);
    return results;
  }
  unescapeAttribute(attr) {
    let result = "";
    let escaping = false;
    for (let i = 0; i < attr.length; i++) {
      const char = attr.charAt(i);
      if (char === "\\") {
        escaping = true;
        continue;
      }
      if (char === "$" && !escaping) {
        throw new Error(`Error in attribute selector "${attr}". Unescaped "$" is not supported. Please escape with "\\$".`);
      }
      escaping = false;
      result += char;
    }
    return result;
  }
  escapeAttribute(attr) {
    return attr.replace(/\\/g, "\\\\").replace(/\$/g, "\\$");
  }
  isElementSelector() {
    return this.hasElementSelector() && this.classNames.length == 0 && this.attrs.length == 0 && this.notSelectors.length === 0;
  }
  hasElementSelector() {
    return !!this.element;
  }
  setElement(element2 = null) {
    this.element = element2;
  }
  getAttrs() {
    const result = [];
    if (this.classNames.length > 0) {
      result.push("class", this.classNames.join(" "));
    }
    return result.concat(this.attrs);
  }
  addAttribute(name, value = "") {
    this.attrs.push(name, value && value.toLowerCase() || "");
  }
  addClassName(name) {
    this.classNames.push(name.toLowerCase());
  }
  toString() {
    let res = this.element || "";
    if (this.classNames) {
      this.classNames.forEach((klass) => res += `.${klass}`);
    }
    if (this.attrs) {
      for (let i = 0; i < this.attrs.length; i += 2) {
        const name = this.escapeAttribute(this.attrs[i]);
        const value = this.attrs[i + 1];
        res += `[${name}${value ? "=" + value : ""}]`;
      }
    }
    this.notSelectors.forEach((notSelector) => res += `:not(${notSelector})`);
    return res;
  }
};
var SelectorMatcher = class {
  constructor() {
    this._elementMap = /* @__PURE__ */ new Map();
    this._elementPartialMap = /* @__PURE__ */ new Map();
    this._classMap = /* @__PURE__ */ new Map();
    this._classPartialMap = /* @__PURE__ */ new Map();
    this._attrValueMap = /* @__PURE__ */ new Map();
    this._attrValuePartialMap = /* @__PURE__ */ new Map();
    this._listContexts = [];
  }
  static createNotMatcher(notSelectors) {
    const notMatcher = new SelectorMatcher();
    notMatcher.addSelectables(notSelectors, null);
    return notMatcher;
  }
  addSelectables(cssSelectors, callbackCtxt) {
    let listContext = null;
    if (cssSelectors.length > 1) {
      listContext = new SelectorListContext(cssSelectors);
      this._listContexts.push(listContext);
    }
    for (let i = 0; i < cssSelectors.length; i++) {
      this._addSelectable(cssSelectors[i], callbackCtxt, listContext);
    }
  }
  _addSelectable(cssSelector, callbackCtxt, listContext) {
    let matcher = this;
    const element2 = cssSelector.element;
    const classNames = cssSelector.classNames;
    const attrs = cssSelector.attrs;
    const selectable = new SelectorContext(cssSelector, callbackCtxt, listContext);
    if (element2) {
      const isTerminal = attrs.length === 0 && classNames.length === 0;
      if (isTerminal) {
        this._addTerminal(matcher._elementMap, element2, selectable);
      } else {
        matcher = this._addPartial(matcher._elementPartialMap, element2);
      }
    }
    if (classNames) {
      for (let i = 0; i < classNames.length; i++) {
        const isTerminal = attrs.length === 0 && i === classNames.length - 1;
        const className = classNames[i];
        if (isTerminal) {
          this._addTerminal(matcher._classMap, className, selectable);
        } else {
          matcher = this._addPartial(matcher._classPartialMap, className);
        }
      }
    }
    if (attrs) {
      for (let i = 0; i < attrs.length; i += 2) {
        const isTerminal = i === attrs.length - 2;
        const name = attrs[i];
        const value = attrs[i + 1];
        if (isTerminal) {
          const terminalMap = matcher._attrValueMap;
          let terminalValuesMap = terminalMap.get(name);
          if (!terminalValuesMap) {
            terminalValuesMap = /* @__PURE__ */ new Map();
            terminalMap.set(name, terminalValuesMap);
          }
          this._addTerminal(terminalValuesMap, value, selectable);
        } else {
          const partialMap = matcher._attrValuePartialMap;
          let partialValuesMap = partialMap.get(name);
          if (!partialValuesMap) {
            partialValuesMap = /* @__PURE__ */ new Map();
            partialMap.set(name, partialValuesMap);
          }
          matcher = this._addPartial(partialValuesMap, value);
        }
      }
    }
  }
  _addTerminal(map, name, selectable) {
    let terminalList = map.get(name);
    if (!terminalList) {
      terminalList = [];
      map.set(name, terminalList);
    }
    terminalList.push(selectable);
  }
  _addPartial(map, name) {
    let matcher = map.get(name);
    if (!matcher) {
      matcher = new SelectorMatcher();
      map.set(name, matcher);
    }
    return matcher;
  }
  match(cssSelector, matchedCallback) {
    let result = false;
    const element2 = cssSelector.element;
    const classNames = cssSelector.classNames;
    const attrs = cssSelector.attrs;
    for (let i = 0; i < this._listContexts.length; i++) {
      this._listContexts[i].alreadyMatched = false;
    }
    result = this._matchTerminal(this._elementMap, element2, cssSelector, matchedCallback) || result;
    result = this._matchPartial(this._elementPartialMap, element2, cssSelector, matchedCallback) || result;
    if (classNames) {
      for (let i = 0; i < classNames.length; i++) {
        const className = classNames[i];
        result = this._matchTerminal(this._classMap, className, cssSelector, matchedCallback) || result;
        result = this._matchPartial(this._classPartialMap, className, cssSelector, matchedCallback) || result;
      }
    }
    if (attrs) {
      for (let i = 0; i < attrs.length; i += 2) {
        const name = attrs[i];
        const value = attrs[i + 1];
        const terminalValuesMap = this._attrValueMap.get(name);
        if (value) {
          result = this._matchTerminal(terminalValuesMap, "", cssSelector, matchedCallback) || result;
        }
        result = this._matchTerminal(terminalValuesMap, value, cssSelector, matchedCallback) || result;
        const partialValuesMap = this._attrValuePartialMap.get(name);
        if (value) {
          result = this._matchPartial(partialValuesMap, "", cssSelector, matchedCallback) || result;
        }
        result = this._matchPartial(partialValuesMap, value, cssSelector, matchedCallback) || result;
      }
    }
    return result;
  }
  _matchTerminal(map, name, cssSelector, matchedCallback) {
    if (!map || typeof name !== "string") {
      return false;
    }
    let selectables = map.get(name) || [];
    const starSelectables = map.get("*");
    if (starSelectables) {
      selectables = selectables.concat(starSelectables);
    }
    if (selectables.length === 0) {
      return false;
    }
    let selectable;
    let result = false;
    for (let i = 0; i < selectables.length; i++) {
      selectable = selectables[i];
      result = selectable.finalize(cssSelector, matchedCallback) || result;
    }
    return result;
  }
  _matchPartial(map, name, cssSelector, matchedCallback) {
    if (!map || typeof name !== "string") {
      return false;
    }
    const nestedSelector = map.get(name);
    if (!nestedSelector) {
      return false;
    }
    return nestedSelector.match(cssSelector, matchedCallback);
  }
};
var SelectorListContext = class {
  constructor(selectors) {
    this.selectors = selectors;
    this.alreadyMatched = false;
  }
};
var SelectorContext = class {
  constructor(selector, cbContext, listContext) {
    this.selector = selector;
    this.cbContext = cbContext;
    this.listContext = listContext;
    this.notSelectors = selector.notSelectors;
  }
  finalize(cssSelector, callback) {
    let result = true;
    if (this.notSelectors.length > 0 && (!this.listContext || !this.listContext.alreadyMatched)) {
      const notMatcher = SelectorMatcher.createNotMatcher(this.notSelectors);
      result = !notMatcher.match(cssSelector, null);
    }
    if (result && callback && (!this.listContext || !this.listContext.alreadyMatched)) {
      if (this.listContext) {
        this.listContext.alreadyMatched = true;
      }
      callback(this.selector, this.cbContext);
    }
    return result;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/core.mjs
var ViewEncapsulation;
(function(ViewEncapsulation2) {
  ViewEncapsulation2[ViewEncapsulation2["Emulated"] = 0] = "Emulated";
  ViewEncapsulation2[ViewEncapsulation2["None"] = 2] = "None";
  ViewEncapsulation2[ViewEncapsulation2["ShadowDom"] = 3] = "ShadowDom";
})(ViewEncapsulation || (ViewEncapsulation = {}));
var ChangeDetectionStrategy;
(function(ChangeDetectionStrategy2) {
  ChangeDetectionStrategy2[ChangeDetectionStrategy2["OnPush"] = 0] = "OnPush";
  ChangeDetectionStrategy2[ChangeDetectionStrategy2["Default"] = 1] = "Default";
})(ChangeDetectionStrategy || (ChangeDetectionStrategy = {}));
var InputFlags;
(function(InputFlags2) {
  InputFlags2[InputFlags2["None"] = 0] = "None";
  InputFlags2[InputFlags2["SignalBased"] = 1] = "SignalBased";
  InputFlags2[InputFlags2["HasDecoratorInputTransform"] = 2] = "HasDecoratorInputTransform";
})(InputFlags || (InputFlags = {}));
var CUSTOM_ELEMENTS_SCHEMA = {
  name: "custom-elements"
};
var NO_ERRORS_SCHEMA = {
  name: "no-errors-schema"
};
var SecurityContext;
(function(SecurityContext2) {
  SecurityContext2[SecurityContext2["NONE"] = 0] = "NONE";
  SecurityContext2[SecurityContext2["HTML"] = 1] = "HTML";
  SecurityContext2[SecurityContext2["STYLE"] = 2] = "STYLE";
  SecurityContext2[SecurityContext2["SCRIPT"] = 3] = "SCRIPT";
  SecurityContext2[SecurityContext2["URL"] = 4] = "URL";
  SecurityContext2[SecurityContext2["RESOURCE_URL"] = 5] = "RESOURCE_URL";
})(SecurityContext || (SecurityContext = {}));
var MissingTranslationStrategy;
(function(MissingTranslationStrategy2) {
  MissingTranslationStrategy2[MissingTranslationStrategy2["Error"] = 0] = "Error";
  MissingTranslationStrategy2[MissingTranslationStrategy2["Warning"] = 1] = "Warning";
  MissingTranslationStrategy2[MissingTranslationStrategy2["Ignore"] = 2] = "Ignore";
})(MissingTranslationStrategy || (MissingTranslationStrategy = {}));
function parserSelectorToSimpleSelector(selector) {
  const classes = selector.classNames && selector.classNames.length ? [8, ...selector.classNames] : [];
  const elementName = selector.element && selector.element !== "*" ? selector.element : "";
  return [elementName, ...selector.attrs, ...classes];
}
function parserSelectorToNegativeSelector(selector) {
  const classes = selector.classNames && selector.classNames.length ? [8, ...selector.classNames] : [];
  if (selector.element) {
    return [
      1 | 4,
      selector.element,
      ...selector.attrs,
      ...classes
    ];
  } else if (selector.attrs.length) {
    return [1 | 2, ...selector.attrs, ...classes];
  } else {
    return selector.classNames && selector.classNames.length ? [1 | 8, ...selector.classNames] : [];
  }
}
function parserSelectorToR3Selector(selector) {
  const positive = parserSelectorToSimpleSelector(selector);
  const negative = selector.notSelectors && selector.notSelectors.length ? selector.notSelectors.map((notSelector) => parserSelectorToNegativeSelector(notSelector)) : [];
  return positive.concat(...negative);
}
function parseSelectorToR3Selector(selector) {
  return selector ? CssSelector.parse(selector).map(parserSelectorToR3Selector) : [];
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/digest.mjs
var textEncoder;
function computeDigest(message) {
  return sha1(serializeNodes(message.nodes).join("") + `[${message.meaning}]`);
}
function decimalDigest(message, preservePlaceholders) {
  return message.id || computeDecimalDigest(message, preservePlaceholders);
}
function computeDecimalDigest(message, preservePlaceholders) {
  const visitor = new _SerializerIgnoreExpVisitor(preservePlaceholders);
  const parts = message.nodes.map((a) => a.visit(visitor, null));
  return computeMsgId(parts.join(""), message.meaning);
}
var _SerializerVisitor = class {
  visitText(text2, context) {
    return text2.value;
  }
  visitContainer(container, context) {
    return `[${container.children.map((child) => child.visit(this)).join(", ")}]`;
  }
  visitIcu(icu, context) {
    const strCases = Object.keys(icu.cases).map((k) => `${k} {${icu.cases[k].visit(this)}}`);
    return `{${icu.expression}, ${icu.type}, ${strCases.join(", ")}}`;
  }
  visitTagPlaceholder(ph, context) {
    return ph.isVoid ? `` : `${ph.children.map((child) => child.visit(this)).join(", ")}`;
  }
  visitPlaceholder(ph, context) {
    return ph.value ? `${ph.value}` : ``;
  }
  visitIcuPlaceholder(ph, context) {
    return `${ph.value.visit(this)}`;
  }
  visitBlockPlaceholder(ph, context) {
    return `${ph.children.map((child) => child.visit(this)).join(", ")}`;
  }
};
var serializerVisitor = new _SerializerVisitor();
function serializeNodes(nodes) {
  return nodes.map((a) => a.visit(serializerVisitor, null));
}
var _SerializerIgnoreExpVisitor = class extends _SerializerVisitor {
  constructor(preservePlaceholders) {
    super();
    this.preservePlaceholders = preservePlaceholders;
  }
  visitPlaceholder(ph, context) {
    return this.preservePlaceholders ? super.visitPlaceholder(ph, context) : ``;
  }
  visitIcu(icu) {
    let strCases = Object.keys(icu.cases).map((k) => `${k} {${icu.cases[k].visit(this)}}`);
    return `{${icu.type}, ${strCases.join(", ")}}`;
  }
};
function sha1(str) {
  textEncoder != null ? textEncoder : textEncoder = new TextEncoder();
  const utf8 = [...textEncoder.encode(str)];
  const words32 = bytesToWords32(utf8, Endian.Big);
  const len = utf8.length * 8;
  const w = new Uint32Array(80);
  let a = 1732584193, b = 4023233417, c = 2562383102, d = 271733878, e = 3285377520;
  words32[len >> 5] |= 128 << 24 - len % 32;
  words32[(len + 64 >> 9 << 4) + 15] = len;
  for (let i = 0; i < words32.length; i += 16) {
    const h0 = a, h1 = b, h2 = c, h3 = d, h4 = e;
    for (let j = 0; j < 80; j++) {
      if (j < 16) {
        w[j] = words32[i + j];
      } else {
        w[j] = rol32(w[j - 3] ^ w[j - 8] ^ w[j - 14] ^ w[j - 16], 1);
      }
      const fkVal = fk(j, b, c, d);
      const f = fkVal[0];
      const k = fkVal[1];
      const temp = [rol32(a, 5), f, e, k, w[j]].reduce(add32);
      e = d;
      d = c;
      c = rol32(b, 30);
      b = a;
      a = temp;
    }
    a = add32(a, h0);
    b = add32(b, h1);
    c = add32(c, h2);
    d = add32(d, h3);
    e = add32(e, h4);
  }
  return toHexU32(a) + toHexU32(b) + toHexU32(c) + toHexU32(d) + toHexU32(e);
}
function toHexU32(value) {
  return (value >>> 0).toString(16).padStart(8, "0");
}
function fk(index, b, c, d) {
  if (index < 20) {
    return [b & c | ~b & d, 1518500249];
  }
  if (index < 40) {
    return [b ^ c ^ d, 1859775393];
  }
  if (index < 60) {
    return [b & c | b & d | c & d, 2400959708];
  }
  return [b ^ c ^ d, 3395469782];
}
function fingerprint(str) {
  textEncoder != null ? textEncoder : textEncoder = new TextEncoder();
  const utf8 = textEncoder.encode(str);
  const view = new DataView(utf8.buffer, utf8.byteOffset, utf8.byteLength);
  let hi = hash32(view, utf8.length, 0);
  let lo = hash32(view, utf8.length, 102072);
  if (hi == 0 && (lo == 0 || lo == 1)) {
    hi = hi ^ 319790063;
    lo = lo ^ -1801410264;
  }
  return BigInt.asUintN(32, BigInt(hi)) << BigInt(32) | BigInt.asUintN(32, BigInt(lo));
}
function computeMsgId(msg, meaning = "") {
  let msgFingerprint = fingerprint(msg);
  if (meaning) {
    msgFingerprint = BigInt.asUintN(64, msgFingerprint << BigInt(1)) | msgFingerprint >> BigInt(63) & BigInt(1);
    msgFingerprint += fingerprint(meaning);
  }
  return BigInt.asUintN(63, msgFingerprint).toString();
}
function hash32(view, length, c) {
  let a = 2654435769, b = 2654435769;
  let index = 0;
  const end = length - 12;
  for (; index <= end; index += 12) {
    a += view.getUint32(index, true);
    b += view.getUint32(index + 4, true);
    c += view.getUint32(index + 8, true);
    const res = mix(a, b, c);
    a = res[0], b = res[1], c = res[2];
  }
  const remainder = length - index;
  c += length;
  if (remainder >= 4) {
    a += view.getUint32(index, true);
    index += 4;
    if (remainder >= 8) {
      b += view.getUint32(index, true);
      index += 4;
      if (remainder >= 9) {
        c += view.getUint8(index++) << 8;
      }
      if (remainder >= 10) {
        c += view.getUint8(index++) << 16;
      }
      if (remainder === 11) {
        c += view.getUint8(index++) << 24;
      }
    } else {
      if (remainder >= 5) {
        b += view.getUint8(index++);
      }
      if (remainder >= 6) {
        b += view.getUint8(index++) << 8;
      }
      if (remainder === 7) {
        b += view.getUint8(index++) << 16;
      }
    }
  } else {
    if (remainder >= 1) {
      a += view.getUint8(index++);
    }
    if (remainder >= 2) {
      a += view.getUint8(index++) << 8;
    }
    if (remainder === 3) {
      a += view.getUint8(index++) << 16;
    }
  }
  return mix(a, b, c)[2];
}
function mix(a, b, c) {
  a -= b;
  a -= c;
  a ^= c >>> 13;
  b -= c;
  b -= a;
  b ^= a << 8;
  c -= a;
  c -= b;
  c ^= b >>> 13;
  a -= b;
  a -= c;
  a ^= c >>> 12;
  b -= c;
  b -= a;
  b ^= a << 16;
  c -= a;
  c -= b;
  c ^= b >>> 5;
  a -= b;
  a -= c;
  a ^= c >>> 3;
  b -= c;
  b -= a;
  b ^= a << 10;
  c -= a;
  c -= b;
  c ^= b >>> 15;
  return [a, b, c];
}
var Endian;
(function(Endian2) {
  Endian2[Endian2["Little"] = 0] = "Little";
  Endian2[Endian2["Big"] = 1] = "Big";
})(Endian || (Endian = {}));
function add32(a, b) {
  return add32to64(a, b)[1];
}
function add32to64(a, b) {
  const low = (a & 65535) + (b & 65535);
  const high = (a >>> 16) + (b >>> 16) + (low >>> 16);
  return [high >>> 16, high << 16 | low & 65535];
}
function rol32(a, count) {
  return a << count | a >>> 32 - count;
}
function bytesToWords32(bytes, endian) {
  const size = bytes.length + 3 >>> 2;
  const words32 = [];
  for (let i = 0; i < size; i++) {
    words32[i] = wordAt(bytes, i * 4, endian);
  }
  return words32;
}
function byteAt(bytes, index) {
  return index >= bytes.length ? 0 : bytes[index];
}
function wordAt(bytes, index, endian) {
  let word = 0;
  if (endian === Endian.Big) {
    for (let i = 0; i < 4; i++) {
      word += byteAt(bytes, index + i) << 24 - 8 * i;
    }
  } else {
    for (let i = 0; i < 4; i++) {
      word += byteAt(bytes, index + i) << 8 * i;
    }
  }
  return word;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/output_ast.mjs
var TypeModifier;
(function(TypeModifier2) {
  TypeModifier2[TypeModifier2["None"] = 0] = "None";
  TypeModifier2[TypeModifier2["Const"] = 1] = "Const";
})(TypeModifier || (TypeModifier = {}));
var Type = class {
  constructor(modifiers = TypeModifier.None) {
    this.modifiers = modifiers;
  }
  hasModifier(modifier) {
    return (this.modifiers & modifier) !== 0;
  }
};
var BuiltinTypeName;
(function(BuiltinTypeName2) {
  BuiltinTypeName2[BuiltinTypeName2["Dynamic"] = 0] = "Dynamic";
  BuiltinTypeName2[BuiltinTypeName2["Bool"] = 1] = "Bool";
  BuiltinTypeName2[BuiltinTypeName2["String"] = 2] = "String";
  BuiltinTypeName2[BuiltinTypeName2["Int"] = 3] = "Int";
  BuiltinTypeName2[BuiltinTypeName2["Number"] = 4] = "Number";
  BuiltinTypeName2[BuiltinTypeName2["Function"] = 5] = "Function";
  BuiltinTypeName2[BuiltinTypeName2["Inferred"] = 6] = "Inferred";
  BuiltinTypeName2[BuiltinTypeName2["None"] = 7] = "None";
})(BuiltinTypeName || (BuiltinTypeName = {}));
var BuiltinType = class extends Type {
  constructor(name, modifiers) {
    super(modifiers);
    this.name = name;
  }
  visitType(visitor, context) {
    return visitor.visitBuiltinType(this, context);
  }
};
var ExpressionType = class extends Type {
  constructor(value, modifiers, typeParams = null) {
    super(modifiers);
    this.value = value;
    this.typeParams = typeParams;
  }
  visitType(visitor, context) {
    return visitor.visitExpressionType(this, context);
  }
};
var TransplantedType = class extends Type {
  constructor(type, modifiers) {
    super(modifiers);
    this.type = type;
  }
  visitType(visitor, context) {
    return visitor.visitTransplantedType(this, context);
  }
};
var DYNAMIC_TYPE = new BuiltinType(BuiltinTypeName.Dynamic);
var INFERRED_TYPE = new BuiltinType(BuiltinTypeName.Inferred);
var BOOL_TYPE = new BuiltinType(BuiltinTypeName.Bool);
var INT_TYPE = new BuiltinType(BuiltinTypeName.Int);
var NUMBER_TYPE = new BuiltinType(BuiltinTypeName.Number);
var STRING_TYPE = new BuiltinType(BuiltinTypeName.String);
var FUNCTION_TYPE = new BuiltinType(BuiltinTypeName.Function);
var NONE_TYPE = new BuiltinType(BuiltinTypeName.None);
var UnaryOperator;
(function(UnaryOperator2) {
  UnaryOperator2[UnaryOperator2["Minus"] = 0] = "Minus";
  UnaryOperator2[UnaryOperator2["Plus"] = 1] = "Plus";
})(UnaryOperator || (UnaryOperator = {}));
var BinaryOperator;
(function(BinaryOperator2) {
  BinaryOperator2[BinaryOperator2["Equals"] = 0] = "Equals";
  BinaryOperator2[BinaryOperator2["NotEquals"] = 1] = "NotEquals";
  BinaryOperator2[BinaryOperator2["Identical"] = 2] = "Identical";
  BinaryOperator2[BinaryOperator2["NotIdentical"] = 3] = "NotIdentical";
  BinaryOperator2[BinaryOperator2["Minus"] = 4] = "Minus";
  BinaryOperator2[BinaryOperator2["Plus"] = 5] = "Plus";
  BinaryOperator2[BinaryOperator2["Divide"] = 6] = "Divide";
  BinaryOperator2[BinaryOperator2["Multiply"] = 7] = "Multiply";
  BinaryOperator2[BinaryOperator2["Modulo"] = 8] = "Modulo";
  BinaryOperator2[BinaryOperator2["And"] = 9] = "And";
  BinaryOperator2[BinaryOperator2["Or"] = 10] = "Or";
  BinaryOperator2[BinaryOperator2["BitwiseOr"] = 11] = "BitwiseOr";
  BinaryOperator2[BinaryOperator2["BitwiseAnd"] = 12] = "BitwiseAnd";
  BinaryOperator2[BinaryOperator2["Lower"] = 13] = "Lower";
  BinaryOperator2[BinaryOperator2["LowerEquals"] = 14] = "LowerEquals";
  BinaryOperator2[BinaryOperator2["Bigger"] = 15] = "Bigger";
  BinaryOperator2[BinaryOperator2["BiggerEquals"] = 16] = "BiggerEquals";
  BinaryOperator2[BinaryOperator2["NullishCoalesce"] = 17] = "NullishCoalesce";
})(BinaryOperator || (BinaryOperator = {}));
function nullSafeIsEquivalent(base, other) {
  if (base == null || other == null) {
    return base == other;
  }
  return base.isEquivalent(other);
}
function areAllEquivalentPredicate(base, other, equivalentPredicate) {
  const len = base.length;
  if (len !== other.length) {
    return false;
  }
  for (let i = 0; i < len; i++) {
    if (!equivalentPredicate(base[i], other[i])) {
      return false;
    }
  }
  return true;
}
function areAllEquivalent(base, other) {
  return areAllEquivalentPredicate(base, other, (baseElement, otherElement) => baseElement.isEquivalent(otherElement));
}
var Expression = class {
  constructor(type, sourceSpan) {
    this.type = type || null;
    this.sourceSpan = sourceSpan || null;
  }
  prop(name, sourceSpan) {
    return new ReadPropExpr(this, name, null, sourceSpan);
  }
  key(index, type, sourceSpan) {
    return new ReadKeyExpr(this, index, type, sourceSpan);
  }
  callFn(params, sourceSpan, pure) {
    return new InvokeFunctionExpr(this, params, null, sourceSpan, pure);
  }
  instantiate(params, type, sourceSpan) {
    return new InstantiateExpr(this, params, type, sourceSpan);
  }
  conditional(trueCase, falseCase = null, sourceSpan) {
    return new ConditionalExpr(this, trueCase, falseCase, null, sourceSpan);
  }
  equals(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Equals, this, rhs, null, sourceSpan);
  }
  notEquals(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.NotEquals, this, rhs, null, sourceSpan);
  }
  identical(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Identical, this, rhs, null, sourceSpan);
  }
  notIdentical(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.NotIdentical, this, rhs, null, sourceSpan);
  }
  minus(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Minus, this, rhs, null, sourceSpan);
  }
  plus(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Plus, this, rhs, null, sourceSpan);
  }
  divide(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Divide, this, rhs, null, sourceSpan);
  }
  multiply(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Multiply, this, rhs, null, sourceSpan);
  }
  modulo(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Modulo, this, rhs, null, sourceSpan);
  }
  and(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.And, this, rhs, null, sourceSpan);
  }
  bitwiseOr(rhs, sourceSpan, parens = true) {
    return new BinaryOperatorExpr(BinaryOperator.BitwiseOr, this, rhs, null, sourceSpan, parens);
  }
  bitwiseAnd(rhs, sourceSpan, parens = true) {
    return new BinaryOperatorExpr(BinaryOperator.BitwiseAnd, this, rhs, null, sourceSpan, parens);
  }
  or(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Or, this, rhs, null, sourceSpan);
  }
  lower(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Lower, this, rhs, null, sourceSpan);
  }
  lowerEquals(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.LowerEquals, this, rhs, null, sourceSpan);
  }
  bigger(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.Bigger, this, rhs, null, sourceSpan);
  }
  biggerEquals(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.BiggerEquals, this, rhs, null, sourceSpan);
  }
  isBlank(sourceSpan) {
    return this.equals(TYPED_NULL_EXPR, sourceSpan);
  }
  nullishCoalesce(rhs, sourceSpan) {
    return new BinaryOperatorExpr(BinaryOperator.NullishCoalesce, this, rhs, null, sourceSpan);
  }
  toStmt() {
    return new ExpressionStatement(this, null);
  }
};
var ReadVarExpr = class extends Expression {
  constructor(name, type, sourceSpan) {
    super(type, sourceSpan);
    this.name = name;
  }
  isEquivalent(e) {
    return e instanceof ReadVarExpr && this.name === e.name;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitReadVarExpr(this, context);
  }
  clone() {
    return new ReadVarExpr(this.name, this.type, this.sourceSpan);
  }
  set(value) {
    return new WriteVarExpr(this.name, value, null, this.sourceSpan);
  }
};
var TypeofExpr = class extends Expression {
  constructor(expr, type, sourceSpan) {
    super(type, sourceSpan);
    this.expr = expr;
  }
  visitExpression(visitor, context) {
    return visitor.visitTypeofExpr(this, context);
  }
  isEquivalent(e) {
    return e instanceof TypeofExpr && e.expr.isEquivalent(this.expr);
  }
  isConstant() {
    return this.expr.isConstant();
  }
  clone() {
    return new TypeofExpr(this.expr.clone());
  }
};
var WrappedNodeExpr = class extends Expression {
  constructor(node, type, sourceSpan) {
    super(type, sourceSpan);
    this.node = node;
  }
  isEquivalent(e) {
    return e instanceof WrappedNodeExpr && this.node === e.node;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitWrappedNodeExpr(this, context);
  }
  clone() {
    return new WrappedNodeExpr(this.node, this.type, this.sourceSpan);
  }
};
var WriteVarExpr = class extends Expression {
  constructor(name, value, type, sourceSpan) {
    super(type || value.type, sourceSpan);
    this.name = name;
    this.value = value;
  }
  isEquivalent(e) {
    return e instanceof WriteVarExpr && this.name === e.name && this.value.isEquivalent(e.value);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitWriteVarExpr(this, context);
  }
  clone() {
    return new WriteVarExpr(this.name, this.value.clone(), this.type, this.sourceSpan);
  }
  toDeclStmt(type, modifiers) {
    return new DeclareVarStmt(this.name, this.value, type, modifiers, this.sourceSpan);
  }
  toConstDecl() {
    return this.toDeclStmt(INFERRED_TYPE, StmtModifier.Final);
  }
};
var WriteKeyExpr = class extends Expression {
  constructor(receiver, index, value, type, sourceSpan) {
    super(type || value.type, sourceSpan);
    this.receiver = receiver;
    this.index = index;
    this.value = value;
  }
  isEquivalent(e) {
    return e instanceof WriteKeyExpr && this.receiver.isEquivalent(e.receiver) && this.index.isEquivalent(e.index) && this.value.isEquivalent(e.value);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitWriteKeyExpr(this, context);
  }
  clone() {
    return new WriteKeyExpr(this.receiver.clone(), this.index.clone(), this.value.clone(), this.type, this.sourceSpan);
  }
};
var WritePropExpr = class extends Expression {
  constructor(receiver, name, value, type, sourceSpan) {
    super(type || value.type, sourceSpan);
    this.receiver = receiver;
    this.name = name;
    this.value = value;
  }
  isEquivalent(e) {
    return e instanceof WritePropExpr && this.receiver.isEquivalent(e.receiver) && this.name === e.name && this.value.isEquivalent(e.value);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitWritePropExpr(this, context);
  }
  clone() {
    return new WritePropExpr(this.receiver.clone(), this.name, this.value.clone(), this.type, this.sourceSpan);
  }
};
var InvokeFunctionExpr = class extends Expression {
  constructor(fn2, args, type, sourceSpan, pure = false) {
    super(type, sourceSpan);
    this.fn = fn2;
    this.args = args;
    this.pure = pure;
  }
  get receiver() {
    return this.fn;
  }
  isEquivalent(e) {
    return e instanceof InvokeFunctionExpr && this.fn.isEquivalent(e.fn) && areAllEquivalent(this.args, e.args) && this.pure === e.pure;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitInvokeFunctionExpr(this, context);
  }
  clone() {
    return new InvokeFunctionExpr(this.fn.clone(), this.args.map((arg) => arg.clone()), this.type, this.sourceSpan, this.pure);
  }
};
var TaggedTemplateExpr = class extends Expression {
  constructor(tag, template2, type, sourceSpan) {
    super(type, sourceSpan);
    this.tag = tag;
    this.template = template2;
  }
  isEquivalent(e) {
    return e instanceof TaggedTemplateExpr && this.tag.isEquivalent(e.tag) && areAllEquivalentPredicate(this.template.elements, e.template.elements, (a, b) => a.text === b.text) && areAllEquivalent(this.template.expressions, e.template.expressions);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitTaggedTemplateExpr(this, context);
  }
  clone() {
    return new TaggedTemplateExpr(this.tag.clone(), this.template.clone(), this.type, this.sourceSpan);
  }
};
var InstantiateExpr = class extends Expression {
  constructor(classExpr, args, type, sourceSpan) {
    super(type, sourceSpan);
    this.classExpr = classExpr;
    this.args = args;
  }
  isEquivalent(e) {
    return e instanceof InstantiateExpr && this.classExpr.isEquivalent(e.classExpr) && areAllEquivalent(this.args, e.args);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitInstantiateExpr(this, context);
  }
  clone() {
    return new InstantiateExpr(this.classExpr.clone(), this.args.map((arg) => arg.clone()), this.type, this.sourceSpan);
  }
};
var LiteralExpr = class extends Expression {
  constructor(value, type, sourceSpan) {
    super(type, sourceSpan);
    this.value = value;
  }
  isEquivalent(e) {
    return e instanceof LiteralExpr && this.value === e.value;
  }
  isConstant() {
    return true;
  }
  visitExpression(visitor, context) {
    return visitor.visitLiteralExpr(this, context);
  }
  clone() {
    return new LiteralExpr(this.value, this.type, this.sourceSpan);
  }
};
var TemplateLiteral = class {
  constructor(elements, expressions) {
    this.elements = elements;
    this.expressions = expressions;
  }
  clone() {
    return new TemplateLiteral(this.elements.map((el) => el.clone()), this.expressions.map((expr) => expr.clone()));
  }
};
var TemplateLiteralElement = class {
  constructor(text2, sourceSpan, rawText) {
    var _a2;
    this.text = text2;
    this.sourceSpan = sourceSpan;
    this.rawText = (_a2 = rawText != null ? rawText : sourceSpan == null ? void 0 : sourceSpan.toString()) != null ? _a2 : escapeForTemplateLiteral(escapeSlashes(text2));
  }
  clone() {
    return new TemplateLiteralElement(this.text, this.sourceSpan, this.rawText);
  }
};
var LiteralPiece = class {
  constructor(text2, sourceSpan) {
    this.text = text2;
    this.sourceSpan = sourceSpan;
  }
};
var PlaceholderPiece = class {
  constructor(text2, sourceSpan, associatedMessage) {
    this.text = text2;
    this.sourceSpan = sourceSpan;
    this.associatedMessage = associatedMessage;
  }
};
var MEANING_SEPARATOR = "|";
var ID_SEPARATOR = "@@";
var LEGACY_ID_INDICATOR = "\u241F";
var LocalizedString = class extends Expression {
  constructor(metaBlock, messageParts, placeHolderNames, expressions, sourceSpan) {
    super(STRING_TYPE, sourceSpan);
    this.metaBlock = metaBlock;
    this.messageParts = messageParts;
    this.placeHolderNames = placeHolderNames;
    this.expressions = expressions;
  }
  isEquivalent(e) {
    return false;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitLocalizedString(this, context);
  }
  clone() {
    return new LocalizedString(this.metaBlock, this.messageParts, this.placeHolderNames, this.expressions.map((expr) => expr.clone()), this.sourceSpan);
  }
  serializeI18nHead() {
    let metaBlock = this.metaBlock.description || "";
    if (this.metaBlock.meaning) {
      metaBlock = `${this.metaBlock.meaning}${MEANING_SEPARATOR}${metaBlock}`;
    }
    if (this.metaBlock.customId) {
      metaBlock = `${metaBlock}${ID_SEPARATOR}${this.metaBlock.customId}`;
    }
    if (this.metaBlock.legacyIds) {
      this.metaBlock.legacyIds.forEach((legacyId) => {
        metaBlock = `${metaBlock}${LEGACY_ID_INDICATOR}${legacyId}`;
      });
    }
    return createCookedRawString(metaBlock, this.messageParts[0].text, this.getMessagePartSourceSpan(0));
  }
  getMessagePartSourceSpan(i) {
    var _a2, _b2;
    return (_b2 = (_a2 = this.messageParts[i]) == null ? void 0 : _a2.sourceSpan) != null ? _b2 : this.sourceSpan;
  }
  getPlaceholderSourceSpan(i) {
    var _a2, _b2, _c2, _d2;
    return (_d2 = (_c2 = (_a2 = this.placeHolderNames[i]) == null ? void 0 : _a2.sourceSpan) != null ? _c2 : (_b2 = this.expressions[i]) == null ? void 0 : _b2.sourceSpan) != null ? _d2 : this.sourceSpan;
  }
  serializeI18nTemplatePart(partIndex) {
    var _a2;
    const placeholder = this.placeHolderNames[partIndex - 1];
    const messagePart = this.messageParts[partIndex];
    let metaBlock = placeholder.text;
    if (((_a2 = placeholder.associatedMessage) == null ? void 0 : _a2.legacyIds.length) === 0) {
      metaBlock += `${ID_SEPARATOR}${computeMsgId(placeholder.associatedMessage.messageString, placeholder.associatedMessage.meaning)}`;
    }
    return createCookedRawString(metaBlock, messagePart.text, this.getMessagePartSourceSpan(partIndex));
  }
};
var escapeSlashes = (str) => str.replace(/\\/g, "\\\\");
var escapeStartingColon = (str) => str.replace(/^:/, "\\:");
var escapeColons = (str) => str.replace(/:/g, "\\:");
var escapeForTemplateLiteral = (str) => str.replace(/`/g, "\\`").replace(/\${/g, "$\\{");
function createCookedRawString(metaBlock, messagePart, range) {
  if (metaBlock === "") {
    return {
      cooked: messagePart,
      raw: escapeForTemplateLiteral(escapeStartingColon(escapeSlashes(messagePart))),
      range
    };
  } else {
    return {
      cooked: `:${metaBlock}:${messagePart}`,
      raw: escapeForTemplateLiteral(`:${escapeColons(escapeSlashes(metaBlock))}:${escapeSlashes(messagePart)}`),
      range
    };
  }
}
var ExternalExpr = class extends Expression {
  constructor(value, type, typeParams = null, sourceSpan) {
    super(type, sourceSpan);
    this.value = value;
    this.typeParams = typeParams;
  }
  isEquivalent(e) {
    return e instanceof ExternalExpr && this.value.name === e.value.name && this.value.moduleName === e.value.moduleName && this.value.runtime === e.value.runtime;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitExternalExpr(this, context);
  }
  clone() {
    return new ExternalExpr(this.value, this.type, this.typeParams, this.sourceSpan);
  }
};
var ConditionalExpr = class extends Expression {
  constructor(condition, trueCase, falseCase = null, type, sourceSpan) {
    super(type || trueCase.type, sourceSpan);
    this.condition = condition;
    this.falseCase = falseCase;
    this.trueCase = trueCase;
  }
  isEquivalent(e) {
    return e instanceof ConditionalExpr && this.condition.isEquivalent(e.condition) && this.trueCase.isEquivalent(e.trueCase) && nullSafeIsEquivalent(this.falseCase, e.falseCase);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitConditionalExpr(this, context);
  }
  clone() {
    var _a2;
    return new ConditionalExpr(this.condition.clone(), this.trueCase.clone(), (_a2 = this.falseCase) == null ? void 0 : _a2.clone(), this.type, this.sourceSpan);
  }
};
var NotExpr = class extends Expression {
  constructor(condition, sourceSpan) {
    super(BOOL_TYPE, sourceSpan);
    this.condition = condition;
  }
  isEquivalent(e) {
    return e instanceof NotExpr && this.condition.isEquivalent(e.condition);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitNotExpr(this, context);
  }
  clone() {
    return new NotExpr(this.condition.clone(), this.sourceSpan);
  }
};
var FnParam = class {
  constructor(name, type = null) {
    this.name = name;
    this.type = type;
  }
  isEquivalent(param) {
    return this.name === param.name;
  }
  clone() {
    return new FnParam(this.name, this.type);
  }
};
var FunctionExpr = class extends Expression {
  constructor(params, statements, type, sourceSpan, name) {
    super(type, sourceSpan);
    this.params = params;
    this.statements = statements;
    this.name = name;
  }
  isEquivalent(e) {
    return (e instanceof FunctionExpr || e instanceof DeclareFunctionStmt) && areAllEquivalent(this.params, e.params) && areAllEquivalent(this.statements, e.statements);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitFunctionExpr(this, context);
  }
  toDeclStmt(name, modifiers) {
    return new DeclareFunctionStmt(name, this.params, this.statements, this.type, modifiers, this.sourceSpan);
  }
  clone() {
    return new FunctionExpr(this.params.map((p) => p.clone()), this.statements, this.type, this.sourceSpan, this.name);
  }
};
var ArrowFunctionExpr = class extends Expression {
  constructor(params, body, type, sourceSpan) {
    super(type, sourceSpan);
    this.params = params;
    this.body = body;
  }
  isEquivalent(e) {
    if (!(e instanceof ArrowFunctionExpr) || !areAllEquivalent(this.params, e.params)) {
      return false;
    }
    if (this.body instanceof Expression && e.body instanceof Expression) {
      return this.body.isEquivalent(e.body);
    }
    if (Array.isArray(this.body) && Array.isArray(e.body)) {
      return areAllEquivalent(this.body, e.body);
    }
    return false;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitArrowFunctionExpr(this, context);
  }
  clone() {
    return new ArrowFunctionExpr(this.params.map((p) => p.clone()), Array.isArray(this.body) ? this.body : this.body.clone(), this.type, this.sourceSpan);
  }
  toDeclStmt(name, modifiers) {
    return new DeclareVarStmt(name, this, INFERRED_TYPE, modifiers, this.sourceSpan);
  }
};
var UnaryOperatorExpr = class extends Expression {
  constructor(operator, expr, type, sourceSpan, parens = true) {
    super(type || NUMBER_TYPE, sourceSpan);
    this.operator = operator;
    this.expr = expr;
    this.parens = parens;
  }
  isEquivalent(e) {
    return e instanceof UnaryOperatorExpr && this.operator === e.operator && this.expr.isEquivalent(e.expr);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitUnaryOperatorExpr(this, context);
  }
  clone() {
    return new UnaryOperatorExpr(this.operator, this.expr.clone(), this.type, this.sourceSpan, this.parens);
  }
};
var BinaryOperatorExpr = class extends Expression {
  constructor(operator, lhs, rhs, type, sourceSpan, parens = true) {
    super(type || lhs.type, sourceSpan);
    this.operator = operator;
    this.rhs = rhs;
    this.parens = parens;
    this.lhs = lhs;
  }
  isEquivalent(e) {
    return e instanceof BinaryOperatorExpr && this.operator === e.operator && this.lhs.isEquivalent(e.lhs) && this.rhs.isEquivalent(e.rhs);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitBinaryOperatorExpr(this, context);
  }
  clone() {
    return new BinaryOperatorExpr(this.operator, this.lhs.clone(), this.rhs.clone(), this.type, this.sourceSpan, this.parens);
  }
};
var ReadPropExpr = class extends Expression {
  constructor(receiver, name, type, sourceSpan) {
    super(type, sourceSpan);
    this.receiver = receiver;
    this.name = name;
  }
  get index() {
    return this.name;
  }
  isEquivalent(e) {
    return e instanceof ReadPropExpr && this.receiver.isEquivalent(e.receiver) && this.name === e.name;
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitReadPropExpr(this, context);
  }
  set(value) {
    return new WritePropExpr(this.receiver, this.name, value, null, this.sourceSpan);
  }
  clone() {
    return new ReadPropExpr(this.receiver.clone(), this.name, this.type, this.sourceSpan);
  }
};
var ReadKeyExpr = class extends Expression {
  constructor(receiver, index, type, sourceSpan) {
    super(type, sourceSpan);
    this.receiver = receiver;
    this.index = index;
  }
  isEquivalent(e) {
    return e instanceof ReadKeyExpr && this.receiver.isEquivalent(e.receiver) && this.index.isEquivalent(e.index);
  }
  isConstant() {
    return false;
  }
  visitExpression(visitor, context) {
    return visitor.visitReadKeyExpr(this, context);
  }
  set(value) {
    return new WriteKeyExpr(this.receiver, this.index, value, null, this.sourceSpan);
  }
  clone() {
    return new ReadKeyExpr(this.receiver.clone(), this.index.clone(), this.type, this.sourceSpan);
  }
};
var LiteralArrayExpr = class extends Expression {
  constructor(entries, type, sourceSpan) {
    super(type, sourceSpan);
    this.entries = entries;
  }
  isConstant() {
    return this.entries.every((e) => e.isConstant());
  }
  isEquivalent(e) {
    return e instanceof LiteralArrayExpr && areAllEquivalent(this.entries, e.entries);
  }
  visitExpression(visitor, context) {
    return visitor.visitLiteralArrayExpr(this, context);
  }
  clone() {
    return new LiteralArrayExpr(this.entries.map((e) => e.clone()), this.type, this.sourceSpan);
  }
};
var LiteralMapEntry = class {
  constructor(key, value, quoted) {
    this.key = key;
    this.value = value;
    this.quoted = quoted;
  }
  isEquivalent(e) {
    return this.key === e.key && this.value.isEquivalent(e.value);
  }
  clone() {
    return new LiteralMapEntry(this.key, this.value.clone(), this.quoted);
  }
};
var LiteralMapExpr = class extends Expression {
  constructor(entries, type, sourceSpan) {
    super(type, sourceSpan);
    this.entries = entries;
    this.valueType = null;
    if (type) {
      this.valueType = type.valueType;
    }
  }
  isEquivalent(e) {
    return e instanceof LiteralMapExpr && areAllEquivalent(this.entries, e.entries);
  }
  isConstant() {
    return this.entries.every((e) => e.value.isConstant());
  }
  visitExpression(visitor, context) {
    return visitor.visitLiteralMapExpr(this, context);
  }
  clone() {
    const entriesClone = this.entries.map((entry) => entry.clone());
    return new LiteralMapExpr(entriesClone, this.type, this.sourceSpan);
  }
};
var NULL_EXPR = new LiteralExpr(null, null, null);
var TYPED_NULL_EXPR = new LiteralExpr(null, INFERRED_TYPE, null);
var StmtModifier;
(function(StmtModifier2) {
  StmtModifier2[StmtModifier2["None"] = 0] = "None";
  StmtModifier2[StmtModifier2["Final"] = 1] = "Final";
  StmtModifier2[StmtModifier2["Private"] = 2] = "Private";
  StmtModifier2[StmtModifier2["Exported"] = 4] = "Exported";
  StmtModifier2[StmtModifier2["Static"] = 8] = "Static";
})(StmtModifier || (StmtModifier = {}));
var LeadingComment = class {
  constructor(text2, multiline, trailingNewline) {
    this.text = text2;
    this.multiline = multiline;
    this.trailingNewline = trailingNewline;
  }
  toString() {
    return this.multiline ? ` ${this.text} ` : this.text;
  }
};
var JSDocComment = class extends LeadingComment {
  constructor(tags) {
    super("", true, true);
    this.tags = tags;
  }
  toString() {
    return serializeTags(this.tags);
  }
};
var Statement = class {
  constructor(modifiers = StmtModifier.None, sourceSpan = null, leadingComments) {
    this.modifiers = modifiers;
    this.sourceSpan = sourceSpan;
    this.leadingComments = leadingComments;
  }
  hasModifier(modifier) {
    return (this.modifiers & modifier) !== 0;
  }
  addLeadingComment(leadingComment2) {
    var _a2;
    this.leadingComments = (_a2 = this.leadingComments) != null ? _a2 : [];
    this.leadingComments.push(leadingComment2);
  }
};
var DeclareVarStmt = class extends Statement {
  constructor(name, value, type, modifiers, sourceSpan, leadingComments) {
    super(modifiers, sourceSpan, leadingComments);
    this.name = name;
    this.value = value;
    this.type = type || value && value.type || null;
  }
  isEquivalent(stmt) {
    return stmt instanceof DeclareVarStmt && this.name === stmt.name && (this.value ? !!stmt.value && this.value.isEquivalent(stmt.value) : !stmt.value);
  }
  visitStatement(visitor, context) {
    return visitor.visitDeclareVarStmt(this, context);
  }
};
var DeclareFunctionStmt = class extends Statement {
  constructor(name, params, statements, type, modifiers, sourceSpan, leadingComments) {
    super(modifiers, sourceSpan, leadingComments);
    this.name = name;
    this.params = params;
    this.statements = statements;
    this.type = type || null;
  }
  isEquivalent(stmt) {
    return stmt instanceof DeclareFunctionStmt && areAllEquivalent(this.params, stmt.params) && areAllEquivalent(this.statements, stmt.statements);
  }
  visitStatement(visitor, context) {
    return visitor.visitDeclareFunctionStmt(this, context);
  }
};
var ExpressionStatement = class extends Statement {
  constructor(expr, sourceSpan, leadingComments) {
    super(StmtModifier.None, sourceSpan, leadingComments);
    this.expr = expr;
  }
  isEquivalent(stmt) {
    return stmt instanceof ExpressionStatement && this.expr.isEquivalent(stmt.expr);
  }
  visitStatement(visitor, context) {
    return visitor.visitExpressionStmt(this, context);
  }
};
var ReturnStatement = class extends Statement {
  constructor(value, sourceSpan = null, leadingComments) {
    super(StmtModifier.None, sourceSpan, leadingComments);
    this.value = value;
  }
  isEquivalent(stmt) {
    return stmt instanceof ReturnStatement && this.value.isEquivalent(stmt.value);
  }
  visitStatement(visitor, context) {
    return visitor.visitReturnStmt(this, context);
  }
};
var IfStmt = class extends Statement {
  constructor(condition, trueCase, falseCase = [], sourceSpan, leadingComments) {
    super(StmtModifier.None, sourceSpan, leadingComments);
    this.condition = condition;
    this.trueCase = trueCase;
    this.falseCase = falseCase;
  }
  isEquivalent(stmt) {
    return stmt instanceof IfStmt && this.condition.isEquivalent(stmt.condition) && areAllEquivalent(this.trueCase, stmt.trueCase) && areAllEquivalent(this.falseCase, stmt.falseCase);
  }
  visitStatement(visitor, context) {
    return visitor.visitIfStmt(this, context);
  }
};
function jsDocComment(tags = []) {
  return new JSDocComment(tags);
}
function variable(name, type, sourceSpan) {
  return new ReadVarExpr(name, type, sourceSpan);
}
function importExpr(id, typeParams = null, sourceSpan) {
  return new ExternalExpr(id, null, typeParams, sourceSpan);
}
function expressionType(expr, typeModifiers, typeParams) {
  return new ExpressionType(expr, typeModifiers, typeParams);
}
function typeofExpr(expr) {
  return new TypeofExpr(expr);
}
function literalArr(values, type, sourceSpan) {
  return new LiteralArrayExpr(values, type, sourceSpan);
}
function literalMap(values, type = null) {
  return new LiteralMapExpr(values.map((e) => new LiteralMapEntry(e.key, e.value, e.quoted)), type, null);
}
function not(expr, sourceSpan) {
  return new NotExpr(expr, sourceSpan);
}
function fn(params, body, type, sourceSpan, name) {
  return new FunctionExpr(params, body, type, sourceSpan, name);
}
function arrowFn(params, body, type, sourceSpan) {
  return new ArrowFunctionExpr(params, body, type, sourceSpan);
}
function ifStmt(condition, thenClause, elseClause, sourceSpan, leadingComments) {
  return new IfStmt(condition, thenClause, elseClause, sourceSpan, leadingComments);
}
function taggedTemplate(tag, template2, type, sourceSpan) {
  return new TaggedTemplateExpr(tag, template2, type, sourceSpan);
}
function literal(value, type, sourceSpan) {
  return new LiteralExpr(value, type, sourceSpan);
}
function localizedString(metaBlock, messageParts, placeholderNames, expressions, sourceSpan) {
  return new LocalizedString(metaBlock, messageParts, placeholderNames, expressions, sourceSpan);
}
function tagToString(tag) {
  let out = "";
  if (tag.tagName) {
    out += ` @${tag.tagName}`;
  }
  if (tag.text) {
    if (tag.text.match(/\/\*|\*\//)) {
      throw new Error('JSDoc text cannot contain "/*" and "*/"');
    }
    out += " " + tag.text.replace(/@/g, "\\@");
  }
  return out;
}
function serializeTags(tags) {
  if (tags.length === 0)
    return "";
  if (tags.length === 1 && tags[0].tagName && !tags[0].text) {
    return `*${tagToString(tags[0])} `;
  }
  let out = "*\n";
  for (const tag of tags) {
    out += " *";
    out += tagToString(tag).replace(/\n/g, "\n * ");
    out += "\n";
  }
  out += " ";
  return out;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/constant_pool.mjs
var CONSTANT_PREFIX = "_c";
var UNKNOWN_VALUE_KEY = variable("");
var KEY_CONTEXT = {};
var POOL_INCLUSION_LENGTH_THRESHOLD_FOR_STRINGS = 50;
var FixupExpression = class extends Expression {
  constructor(resolved) {
    super(resolved.type);
    this.resolved = resolved;
    this.shared = false;
    this.original = resolved;
  }
  visitExpression(visitor, context) {
    if (context === KEY_CONTEXT) {
      return this.original.visitExpression(visitor, context);
    } else {
      return this.resolved.visitExpression(visitor, context);
    }
  }
  isEquivalent(e) {
    return e instanceof FixupExpression && this.resolved.isEquivalent(e.resolved);
  }
  isConstant() {
    return true;
  }
  clone() {
    throw new Error(`Not supported.`);
  }
  fixup(expression) {
    this.resolved = expression;
    this.shared = true;
  }
};
var ConstantPool = class {
  constructor(isClosureCompilerEnabled = false) {
    this.isClosureCompilerEnabled = isClosureCompilerEnabled;
    this.statements = [];
    this.literals = /* @__PURE__ */ new Map();
    this.literalFactories = /* @__PURE__ */ new Map();
    this.sharedConstants = /* @__PURE__ */ new Map();
    this._claimedNames = /* @__PURE__ */ new Map();
    this.nextNameIndex = 0;
  }
  getConstLiteral(literal2, forceShared) {
    if (literal2 instanceof LiteralExpr && !isLongStringLiteral(literal2) || literal2 instanceof FixupExpression) {
      return literal2;
    }
    const key = GenericKeyFn.INSTANCE.keyOf(literal2);
    let fixup = this.literals.get(key);
    let newValue = false;
    if (!fixup) {
      fixup = new FixupExpression(literal2);
      this.literals.set(key, fixup);
      newValue = true;
    }
    if (!newValue && !fixup.shared || newValue && forceShared) {
      const name = this.freshName();
      let definition;
      let usage;
      if (this.isClosureCompilerEnabled && isLongStringLiteral(literal2)) {
        definition = variable(name).set(new FunctionExpr(
          [],
          [
            new ReturnStatement(literal2)
          ]
        ));
        usage = variable(name).callFn([]);
      } else {
        definition = variable(name).set(literal2);
        usage = variable(name);
      }
      this.statements.push(definition.toDeclStmt(INFERRED_TYPE, StmtModifier.Final));
      fixup.fixup(usage);
    }
    return fixup;
  }
  getSharedConstant(def, expr) {
    const key = def.keyOf(expr);
    if (!this.sharedConstants.has(key)) {
      const id = this.freshName();
      this.sharedConstants.set(key, variable(id));
      this.statements.push(def.toSharedConstantDeclaration(id, expr));
    }
    return this.sharedConstants.get(key);
  }
  getLiteralFactory(literal2) {
    if (literal2 instanceof LiteralArrayExpr) {
      const argumentsForKey = literal2.entries.map((e) => e.isConstant() ? e : UNKNOWN_VALUE_KEY);
      const key = GenericKeyFn.INSTANCE.keyOf(literalArr(argumentsForKey));
      return this._getLiteralFactory(key, literal2.entries, (entries) => literalArr(entries));
    } else {
      const expressionForKey = literalMap(literal2.entries.map((e) => ({
        key: e.key,
        value: e.value.isConstant() ? e.value : UNKNOWN_VALUE_KEY,
        quoted: e.quoted
      })));
      const key = GenericKeyFn.INSTANCE.keyOf(expressionForKey);
      return this._getLiteralFactory(key, literal2.entries.map((e) => e.value), (entries) => literalMap(entries.map((value, index) => ({
        key: literal2.entries[index].key,
        value,
        quoted: literal2.entries[index].quoted
      }))));
    }
  }
  getSharedFunctionReference(fn2, prefix, useUniqueName = true) {
    var _a2;
    const isArrow = fn2 instanceof ArrowFunctionExpr;
    for (const current of this.statements) {
      if (isArrow && current instanceof DeclareVarStmt && ((_a2 = current.value) == null ? void 0 : _a2.isEquivalent(fn2))) {
        return variable(current.name);
      }
      if (!isArrow && current instanceof DeclareFunctionStmt && fn2 instanceof FunctionExpr && fn2.isEquivalent(current)) {
        return variable(current.name);
      }
    }
    const name = useUniqueName ? this.uniqueName(prefix) : prefix;
    this.statements.push(fn2 instanceof FunctionExpr ? fn2.toDeclStmt(name, StmtModifier.Final) : new DeclareVarStmt(name, fn2, INFERRED_TYPE, StmtModifier.Final, fn2.sourceSpan));
    return variable(name);
  }
  _getLiteralFactory(key, values, resultMap) {
    let literalFactory = this.literalFactories.get(key);
    const literalFactoryArguments = values.filter((e) => !e.isConstant());
    if (!literalFactory) {
      const resultExpressions = values.map((e, index) => e.isConstant() ? this.getConstLiteral(e, true) : variable(`a${index}`));
      const parameters = resultExpressions.filter(isVariable).map((e) => new FnParam(e.name, DYNAMIC_TYPE));
      const pureFunctionDeclaration = arrowFn(parameters, resultMap(resultExpressions), INFERRED_TYPE);
      const name = this.freshName();
      this.statements.push(variable(name).set(pureFunctionDeclaration).toDeclStmt(INFERRED_TYPE, StmtModifier.Final));
      literalFactory = variable(name);
      this.literalFactories.set(key, literalFactory);
    }
    return { literalFactory, literalFactoryArguments };
  }
  uniqueName(name, alwaysIncludeSuffix = true) {
    var _a2;
    const count = (_a2 = this._claimedNames.get(name)) != null ? _a2 : 0;
    const result = count === 0 && !alwaysIncludeSuffix ? `${name}` : `${name}${count}`;
    this._claimedNames.set(name, count + 1);
    return result;
  }
  freshName() {
    return this.uniqueName(CONSTANT_PREFIX);
  }
};
var _GenericKeyFn = class {
  keyOf(expr) {
    if (expr instanceof LiteralExpr && typeof expr.value === "string") {
      return `"${expr.value}"`;
    } else if (expr instanceof LiteralExpr) {
      return String(expr.value);
    } else if (expr instanceof LiteralArrayExpr) {
      const entries = [];
      for (const entry of expr.entries) {
        entries.push(this.keyOf(entry));
      }
      return `[${entries.join(",")}]`;
    } else if (expr instanceof LiteralMapExpr) {
      const entries = [];
      for (const entry of expr.entries) {
        let key = entry.key;
        if (entry.quoted) {
          key = `"${key}"`;
        }
        entries.push(key + ":" + this.keyOf(entry.value));
      }
      return `{${entries.join(",")}}`;
    } else if (expr instanceof ExternalExpr) {
      return `import("${expr.value.moduleName}", ${expr.value.name})`;
    } else if (expr instanceof ReadVarExpr) {
      return `read(${expr.name})`;
    } else if (expr instanceof TypeofExpr) {
      return `typeof(${this.keyOf(expr.expr)})`;
    } else {
      throw new Error(`${this.constructor.name} does not handle expressions of type ${expr.constructor.name}`);
    }
  }
};
var GenericKeyFn = _GenericKeyFn;
(() => {
  _GenericKeyFn.INSTANCE = new _GenericKeyFn();
})();
function isVariable(e) {
  return e instanceof ReadVarExpr;
}
function isLongStringLiteral(expr) {
  return expr instanceof LiteralExpr && typeof expr.value === "string" && expr.value.length >= POOL_INCLUSION_LENGTH_THRESHOLD_FOR_STRINGS;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_identifiers.mjs
var CORE = "@angular/core";
var _Identifiers = class {
};
var Identifiers = _Identifiers;
(() => {
  _Identifiers.NEW_METHOD = "factory";
})();
(() => {
  _Identifiers.TRANSFORM_METHOD = "transform";
})();
(() => {
  _Identifiers.PATCH_DEPS = "patchedDeps";
})();
(() => {
  _Identifiers.core = { name: null, moduleName: CORE };
})();
(() => {
  _Identifiers.namespaceHTML = { name: "\u0275\u0275namespaceHTML", moduleName: CORE };
})();
(() => {
  _Identifiers.namespaceMathML = { name: "\u0275\u0275namespaceMathML", moduleName: CORE };
})();
(() => {
  _Identifiers.namespaceSVG = { name: "\u0275\u0275namespaceSVG", moduleName: CORE };
})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275classMapInterpolate5",
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275stylePropInterpolate3",
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})();
(() => {
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    name: "\u0275\u0275stylePropInterpolate4",
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275stylePropInterpolate6",
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275deferPrefetchOnIdle",
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})();
(() => {
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    name: "\u0275\u0275deferPrefetchOnImmediate",
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})();
(() => {
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    name: "\u0275\u0275deferPrefetchOnTimer",
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275deferPrefetchOnViewport",
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    name: "\u0275\u0275repeaterTrackByIndex",
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})();
(() => {
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    name: "\u0275\u0275repeaterTrackByIdentity",
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    moduleName: CORE
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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    moduleName: CORE
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
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})();
(() => {
  _Identifiers.contentQuery = { name: "\u0275\u0275contentQuery", moduleName: CORE };
})();
(() => {
  _Identifiers.viewQuerySignal = { name: "\u0275\u0275viewQuerySignal", moduleName: CORE };
})();
(() => {
  _Identifiers.contentQuerySignal = { name: "\u0275\u0275contentQuerySignal", moduleName: CORE };
})();
(() => {
  _Identifiers.queryAdvance = { name: "\u0275\u0275queryAdvance", moduleName: CORE };
})();
(() => {
  _Identifiers.twoWayProperty = { name: "\u0275\u0275twoWayProperty", moduleName: CORE };
})();
(() => {
  _Identifiers.twoWayBindingSet = { name: "\u0275\u0275twoWayBindingSet", moduleName: CORE };
})();
(() => {
  _Identifiers.twoWayListener = { name: "\u0275\u0275twoWayListener", moduleName: CORE };
})();
(() => {
  _Identifiers.declareLet = { name: "\u0275\u0275declareLet", moduleName: CORE };
})();
(() => {
  _Identifiers.storeLet = { name: "\u0275\u0275storeLet", moduleName: CORE };
})();
(() => {
  _Identifiers.readContextLet = { name: "\u0275\u0275readContextLet", moduleName: CORE };
})();
(() => {
  _Identifiers.NgOnChangesFeature = { name: "\u0275\u0275NgOnChangesFeature", moduleName: CORE };
})();
(() => {
  _Identifiers.InheritDefinitionFeature = {
    name: "\u0275\u0275InheritDefinitionFeature",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.CopyDefinitionFeature = {
    name: "\u0275\u0275CopyDefinitionFeature",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.StandaloneFeature = { name: "\u0275\u0275StandaloneFeature", moduleName: CORE };
})();
(() => {
  _Identifiers.ProvidersFeature = { name: "\u0275\u0275ProvidersFeature", moduleName: CORE };
})();
(() => {
  _Identifiers.HostDirectivesFeature = {
    name: "\u0275\u0275HostDirectivesFeature",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.InputTransformsFeatureFeature = {
    name: "\u0275\u0275InputTransformsFeature",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.listener = { name: "\u0275\u0275listener", moduleName: CORE };
})();
(() => {
  _Identifiers.getInheritedFactory = {
    name: "\u0275\u0275getInheritedFactory",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.sanitizeHtml = { name: "\u0275\u0275sanitizeHtml", moduleName: CORE };
})();
(() => {
  _Identifiers.sanitizeStyle = { name: "\u0275\u0275sanitizeStyle", moduleName: CORE };
})();
(() => {
  _Identifiers.sanitizeResourceUrl = {
    name: "\u0275\u0275sanitizeResourceUrl",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.sanitizeScript = { name: "\u0275\u0275sanitizeScript", moduleName: CORE };
})();
(() => {
  _Identifiers.sanitizeUrl = { name: "\u0275\u0275sanitizeUrl", moduleName: CORE };
})();
(() => {
  _Identifiers.sanitizeUrlOrResourceUrl = {
    name: "\u0275\u0275sanitizeUrlOrResourceUrl",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.trustConstantHtml = { name: "\u0275\u0275trustConstantHtml", moduleName: CORE };
})();
(() => {
  _Identifiers.trustConstantResourceUrl = {
    name: "\u0275\u0275trustConstantResourceUrl",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.validateIframeAttribute = {
    name: "\u0275\u0275validateIframeAttribute",
    moduleName: CORE
  };
})();
(() => {
  _Identifiers.InputSignalBrandWriteType = { name: "\u0275INPUT_SIGNAL_BRAND_WRITE_TYPE", moduleName: CORE };
})();
(() => {
  _Identifiers.UnwrapDirectiveSignalInputs = { name: "\u0275UnwrapDirectiveSignalInputs", moduleName: CORE };
})();
(() => {
  _Identifiers.unwrapWritableSignal = { name: "\u0275unwrapWritableSignal", moduleName: CORE };
})();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/util.mjs
var DASH_CASE_REGEXP = /-+([a-z0-9])/g;
function dashCaseToCamelCase(input) {
  return input.replace(DASH_CASE_REGEXP, (...m) => m[1].toUpperCase());
}
function splitAtColon(input, defaultValues) {
  return _splitAt(input, ":", defaultValues);
}
function splitAtPeriod(input, defaultValues) {
  return _splitAt(input, ".", defaultValues);
}
function _splitAt(input, character, defaultValues) {
  const characterIndex = input.indexOf(character);
  if (characterIndex == -1)
    return defaultValues;
  return [input.slice(0, characterIndex).trim(), input.slice(characterIndex + 1).trim()];
}
function utf8Encode(str) {
  let encoded = [];
  for (let index = 0; index < str.length; index++) {
    let codePoint = str.charCodeAt(index);
    if (codePoint >= 55296 && codePoint <= 56319 && str.length > index + 1) {
      const low = str.charCodeAt(index + 1);
      if (low >= 56320 && low <= 57343) {
        index++;
        codePoint = (codePoint - 55296 << 10) + low - 56320 + 65536;
      }
    }
    if (codePoint <= 127) {
      encoded.push(codePoint);
    } else if (codePoint <= 2047) {
      encoded.push(codePoint >> 6 & 31 | 192, codePoint & 63 | 128);
    } else if (codePoint <= 65535) {
      encoded.push(codePoint >> 12 | 224, codePoint >> 6 & 63 | 128, codePoint & 63 | 128);
    } else if (codePoint <= 2097151) {
      encoded.push(codePoint >> 18 & 7 | 240, codePoint >> 12 & 63 | 128, codePoint >> 6 & 63 | 128, codePoint & 63 | 128);
    }
  }
  return encoded;
}
function stringify(token) {
  if (typeof token === "string") {
    return token;
  }
  if (Array.isArray(token)) {
    return "[" + token.map(stringify).join(", ") + "]";
  }
  if (token == null) {
    return "" + token;
  }
  if (token.overriddenName) {
    return `${token.overriddenName}`;
  }
  if (token.name) {
    return `${token.name}`;
  }
  if (!token.toString) {
    return "object";
  }
  const res = token.toString();
  if (res == null) {
    return "" + res;
  }
  const newLineIndex = res.indexOf("\n");
  return newLineIndex === -1 ? res : res.substring(0, newLineIndex);
}
var Version = class {
  constructor(full) {
    this.full = full;
    const splits = full.split(".");
    this.major = splits[0];
    this.minor = splits[1];
    this.patch = splits.slice(2).join(".");
  }
};
var _global = globalThis;

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/source_map.mjs
var VERSION = 3;
var JS_B64_PREFIX = "# sourceMappingURL=data:application/json;base64,";
var SourceMapGenerator = class {
  constructor(file = null) {
    this.file = file;
    this.sourcesContent = /* @__PURE__ */ new Map();
    this.lines = [];
    this.lastCol0 = 0;
    this.hasMappings = false;
  }
  addSource(url, content = null) {
    if (!this.sourcesContent.has(url)) {
      this.sourcesContent.set(url, content);
    }
    return this;
  }
  addLine() {
    this.lines.push([]);
    this.lastCol0 = 0;
    return this;
  }
  addMapping(col0, sourceUrl, sourceLine0, sourceCol0) {
    if (!this.currentLine) {
      throw new Error(`A line must be added before mappings can be added`);
    }
    if (sourceUrl != null && !this.sourcesContent.has(sourceUrl)) {
      throw new Error(`Unknown source file "${sourceUrl}"`);
    }
    if (col0 == null) {
      throw new Error(`The column in the generated code must be provided`);
    }
    if (col0 < this.lastCol0) {
      throw new Error(`Mapping should be added in output order`);
    }
    if (sourceUrl && (sourceLine0 == null || sourceCol0 == null)) {
      throw new Error(`The source location must be provided when a source url is provided`);
    }
    this.hasMappings = true;
    this.lastCol0 = col0;
    this.currentLine.push({ col0, sourceUrl, sourceLine0, sourceCol0 });
    return this;
  }
  get currentLine() {
    return this.lines.slice(-1)[0];
  }
  toJSON() {
    if (!this.hasMappings) {
      return null;
    }
    const sourcesIndex = /* @__PURE__ */ new Map();
    const sources = [];
    const sourcesContent = [];
    Array.from(this.sourcesContent.keys()).forEach((url, i) => {
      sourcesIndex.set(url, i);
      sources.push(url);
      sourcesContent.push(this.sourcesContent.get(url) || null);
    });
    let mappings = "";
    let lastCol0 = 0;
    let lastSourceIndex = 0;
    let lastSourceLine0 = 0;
    let lastSourceCol0 = 0;
    this.lines.forEach((segments) => {
      lastCol0 = 0;
      mappings += segments.map((segment) => {
        let segAsStr = toBase64VLQ(segment.col0 - lastCol0);
        lastCol0 = segment.col0;
        if (segment.sourceUrl != null) {
          segAsStr += toBase64VLQ(sourcesIndex.get(segment.sourceUrl) - lastSourceIndex);
          lastSourceIndex = sourcesIndex.get(segment.sourceUrl);
          segAsStr += toBase64VLQ(segment.sourceLine0 - lastSourceLine0);
          lastSourceLine0 = segment.sourceLine0;
          segAsStr += toBase64VLQ(segment.sourceCol0 - lastSourceCol0);
          lastSourceCol0 = segment.sourceCol0;
        }
        return segAsStr;
      }).join(",");
      mappings += ";";
    });
    mappings = mappings.slice(0, -1);
    return {
      "file": this.file || "",
      "version": VERSION,
      "sourceRoot": "",
      "sources": sources,
      "sourcesContent": sourcesContent,
      "mappings": mappings
    };
  }
  toJsComment() {
    return this.hasMappings ? "//" + JS_B64_PREFIX + toBase64String(JSON.stringify(this, null, 0)) : "";
  }
};
function toBase64String(value) {
  let b64 = "";
  const encoded = utf8Encode(value);
  for (let i = 0; i < encoded.length; ) {
    const i1 = encoded[i++];
    const i2 = i < encoded.length ? encoded[i++] : null;
    const i3 = i < encoded.length ? encoded[i++] : null;
    b64 += toBase64Digit(i1 >> 2);
    b64 += toBase64Digit((i1 & 3) << 4 | (i2 === null ? 0 : i2 >> 4));
    b64 += i2 === null ? "=" : toBase64Digit((i2 & 15) << 2 | (i3 === null ? 0 : i3 >> 6));
    b64 += i2 === null || i3 === null ? "=" : toBase64Digit(i3 & 63);
  }
  return b64;
}
function toBase64VLQ(value) {
  value = value < 0 ? (-value << 1) + 1 : value << 1;
  let out = "";
  do {
    let digit = value & 31;
    value = value >> 5;
    if (value > 0) {
      digit = digit | 32;
    }
    out += toBase64Digit(digit);
  } while (value > 0);
  return out;
}
var B64_DIGITS = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
function toBase64Digit(value) {
  if (value < 0 || value >= 64) {
    throw new Error(`Can only encode value in the range [0, 63]`);
  }
  return B64_DIGITS[value];
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/abstract_emitter.mjs
var _SINGLE_QUOTE_ESCAPE_STRING_RE = /'|\\|\n|\r|\$/g;
var _LEGAL_IDENTIFIER_RE = /^[$A-Z_][0-9A-Z_$]*$/i;
var _INDENT_WITH = "  ";
var _EmittedLine = class {
  constructor(indent) {
    this.indent = indent;
    this.partsLength = 0;
    this.parts = [];
    this.srcSpans = [];
  }
};
var EmitterVisitorContext = class {
  static createRoot() {
    return new EmitterVisitorContext(0);
  }
  constructor(_indent) {
    this._indent = _indent;
    this._lines = [new _EmittedLine(_indent)];
  }
  get _currentLine() {
    return this._lines[this._lines.length - 1];
  }
  println(from, lastPart = "") {
    this.print(from || null, lastPart, true);
  }
  lineIsEmpty() {
    return this._currentLine.parts.length === 0;
  }
  lineLength() {
    return this._currentLine.indent * _INDENT_WITH.length + this._currentLine.partsLength;
  }
  print(from, part, newLine = false) {
    if (part.length > 0) {
      this._currentLine.parts.push(part);
      this._currentLine.partsLength += part.length;
      this._currentLine.srcSpans.push(from && from.sourceSpan || null);
    }
    if (newLine) {
      this._lines.push(new _EmittedLine(this._indent));
    }
  }
  removeEmptyLastLine() {
    if (this.lineIsEmpty()) {
      this._lines.pop();
    }
  }
  incIndent() {
    this._indent++;
    if (this.lineIsEmpty()) {
      this._currentLine.indent = this._indent;
    }
  }
  decIndent() {
    this._indent--;
    if (this.lineIsEmpty()) {
      this._currentLine.indent = this._indent;
    }
  }
  toSource() {
    return this.sourceLines.map((l) => l.parts.length > 0 ? _createIndent(l.indent) + l.parts.join("") : "").join("\n");
  }
  toSourceMapGenerator(genFilePath, startsAtLine = 0) {
    const map = new SourceMapGenerator(genFilePath);
    let firstOffsetMapped = false;
    const mapFirstOffsetIfNeeded = () => {
      if (!firstOffsetMapped) {
        map.addSource(genFilePath, " ").addMapping(0, genFilePath, 0, 0);
        firstOffsetMapped = true;
      }
    };
    for (let i = 0; i < startsAtLine; i++) {
      map.addLine();
      mapFirstOffsetIfNeeded();
    }
    this.sourceLines.forEach((line, lineIdx) => {
      map.addLine();
      const spans = line.srcSpans;
      const parts = line.parts;
      let col0 = line.indent * _INDENT_WITH.length;
      let spanIdx = 0;
      while (spanIdx < spans.length && !spans[spanIdx]) {
        col0 += parts[spanIdx].length;
        spanIdx++;
      }
      if (spanIdx < spans.length && lineIdx === 0 && col0 === 0) {
        firstOffsetMapped = true;
      } else {
        mapFirstOffsetIfNeeded();
      }
      while (spanIdx < spans.length) {
        const span = spans[spanIdx];
        const source = span.start.file;
        const sourceLine = span.start.line;
        const sourceCol = span.start.col;
        map.addSource(source.url, source.content).addMapping(col0, source.url, sourceLine, sourceCol);
        col0 += parts[spanIdx].length;
        spanIdx++;
        while (spanIdx < spans.length && (span === spans[spanIdx] || !spans[spanIdx])) {
          col0 += parts[spanIdx].length;
          spanIdx++;
        }
      }
    });
    return map;
  }
  spanOf(line, column) {
    const emittedLine = this._lines[line];
    if (emittedLine) {
      let columnsLeft = column - _createIndent(emittedLine.indent).length;
      for (let partIndex = 0; partIndex < emittedLine.parts.length; partIndex++) {
        const part = emittedLine.parts[partIndex];
        if (part.length > columnsLeft) {
          return emittedLine.srcSpans[partIndex];
        }
        columnsLeft -= part.length;
      }
    }
    return null;
  }
  get sourceLines() {
    if (this._lines.length && this._lines[this._lines.length - 1].parts.length === 0) {
      return this._lines.slice(0, -1);
    }
    return this._lines;
  }
};
var AbstractEmitterVisitor = class {
  constructor(_escapeDollarInStrings) {
    this._escapeDollarInStrings = _escapeDollarInStrings;
  }
  printLeadingComments(stmt, ctx) {
    if (stmt.leadingComments === void 0) {
      return;
    }
    for (const comment of stmt.leadingComments) {
      if (comment instanceof JSDocComment) {
        ctx.print(stmt, `/*${comment.toString()}*/`, comment.trailingNewline);
      } else {
        if (comment.multiline) {
          ctx.print(stmt, `/* ${comment.text} */`, comment.trailingNewline);
        } else {
          comment.text.split("\n").forEach((line) => {
            ctx.println(stmt, `// ${line}`);
          });
        }
      }
    }
  }
  visitExpressionStmt(stmt, ctx) {
    this.printLeadingComments(stmt, ctx);
    stmt.expr.visitExpression(this, ctx);
    ctx.println(stmt, ";");
    return null;
  }
  visitReturnStmt(stmt, ctx) {
    this.printLeadingComments(stmt, ctx);
    ctx.print(stmt, `return `);
    stmt.value.visitExpression(this, ctx);
    ctx.println(stmt, ";");
    return null;
  }
  visitIfStmt(stmt, ctx) {
    this.printLeadingComments(stmt, ctx);
    ctx.print(stmt, `if (`);
    stmt.condition.visitExpression(this, ctx);
    ctx.print(stmt, `) {`);
    const hasElseCase = stmt.falseCase != null && stmt.falseCase.length > 0;
    if (stmt.trueCase.length <= 1 && !hasElseCase) {
      ctx.print(stmt, ` `);
      this.visitAllStatements(stmt.trueCase, ctx);
      ctx.removeEmptyLastLine();
      ctx.print(stmt, ` `);
    } else {
      ctx.println();
      ctx.incIndent();
      this.visitAllStatements(stmt.trueCase, ctx);
      ctx.decIndent();
      if (hasElseCase) {
        ctx.println(stmt, `} else {`);
        ctx.incIndent();
        this.visitAllStatements(stmt.falseCase, ctx);
        ctx.decIndent();
      }
    }
    ctx.println(stmt, `}`);
    return null;
  }
  visitWriteVarExpr(expr, ctx) {
    const lineWasEmpty = ctx.lineIsEmpty();
    if (!lineWasEmpty) {
      ctx.print(expr, "(");
    }
    ctx.print(expr, `${expr.name} = `);
    expr.value.visitExpression(this, ctx);
    if (!lineWasEmpty) {
      ctx.print(expr, ")");
    }
    return null;
  }
  visitWriteKeyExpr(expr, ctx) {
    const lineWasEmpty = ctx.lineIsEmpty();
    if (!lineWasEmpty) {
      ctx.print(expr, "(");
    }
    expr.receiver.visitExpression(this, ctx);
    ctx.print(expr, `[`);
    expr.index.visitExpression(this, ctx);
    ctx.print(expr, `] = `);
    expr.value.visitExpression(this, ctx);
    if (!lineWasEmpty) {
      ctx.print(expr, ")");
    }
    return null;
  }
  visitWritePropExpr(expr, ctx) {
    const lineWasEmpty = ctx.lineIsEmpty();
    if (!lineWasEmpty) {
      ctx.print(expr, "(");
    }
    expr.receiver.visitExpression(this, ctx);
    ctx.print(expr, `.${expr.name} = `);
    expr.value.visitExpression(this, ctx);
    if (!lineWasEmpty) {
      ctx.print(expr, ")");
    }
    return null;
  }
  visitInvokeFunctionExpr(expr, ctx) {
    const shouldParenthesize = expr.fn instanceof ArrowFunctionExpr;
    if (shouldParenthesize) {
      ctx.print(expr.fn, "(");
    }
    expr.fn.visitExpression(this, ctx);
    if (shouldParenthesize) {
      ctx.print(expr.fn, ")");
    }
    ctx.print(expr, `(`);
    this.visitAllExpressions(expr.args, ctx, ",");
    ctx.print(expr, `)`);
    return null;
  }
  visitTaggedTemplateExpr(expr, ctx) {
    expr.tag.visitExpression(this, ctx);
    ctx.print(expr, "`" + expr.template.elements[0].rawText);
    for (let i = 1; i < expr.template.elements.length; i++) {
      ctx.print(expr, "${");
      expr.template.expressions[i - 1].visitExpression(this, ctx);
      ctx.print(expr, `}${expr.template.elements[i].rawText}`);
    }
    ctx.print(expr, "`");
    return null;
  }
  visitWrappedNodeExpr(ast, ctx) {
    throw new Error("Abstract emitter cannot visit WrappedNodeExpr.");
  }
  visitTypeofExpr(expr, ctx) {
    ctx.print(expr, "typeof ");
    expr.expr.visitExpression(this, ctx);
  }
  visitReadVarExpr(ast, ctx) {
    ctx.print(ast, ast.name);
    return null;
  }
  visitInstantiateExpr(ast, ctx) {
    ctx.print(ast, `new `);
    ast.classExpr.visitExpression(this, ctx);
    ctx.print(ast, `(`);
    this.visitAllExpressions(ast.args, ctx, ",");
    ctx.print(ast, `)`);
    return null;
  }
  visitLiteralExpr(ast, ctx) {
    const value = ast.value;
    if (typeof value === "string") {
      ctx.print(ast, escapeIdentifier(value, this._escapeDollarInStrings));
    } else {
      ctx.print(ast, `${value}`);
    }
    return null;
  }
  visitLocalizedString(ast, ctx) {
    const head = ast.serializeI18nHead();
    ctx.print(ast, "$localize `" + head.raw);
    for (let i = 1; i < ast.messageParts.length; i++) {
      ctx.print(ast, "${");
      ast.expressions[i - 1].visitExpression(this, ctx);
      ctx.print(ast, `}${ast.serializeI18nTemplatePart(i).raw}`);
    }
    ctx.print(ast, "`");
    return null;
  }
  visitConditionalExpr(ast, ctx) {
    ctx.print(ast, `(`);
    ast.condition.visitExpression(this, ctx);
    ctx.print(ast, "? ");
    ast.trueCase.visitExpression(this, ctx);
    ctx.print(ast, ": ");
    ast.falseCase.visitExpression(this, ctx);
    ctx.print(ast, `)`);
    return null;
  }
  visitDynamicImportExpr(ast, ctx) {
    ctx.print(ast, `import(${ast.url})`);
  }
  visitNotExpr(ast, ctx) {
    ctx.print(ast, "!");
    ast.condition.visitExpression(this, ctx);
    return null;
  }
  visitUnaryOperatorExpr(ast, ctx) {
    let opStr;
    switch (ast.operator) {
      case UnaryOperator.Plus:
        opStr = "+";
        break;
      case UnaryOperator.Minus:
        opStr = "-";
        break;
      default:
        throw new Error(`Unknown operator ${ast.operator}`);
    }
    if (ast.parens)
      ctx.print(ast, `(`);
    ctx.print(ast, opStr);
    ast.expr.visitExpression(this, ctx);
    if (ast.parens)
      ctx.print(ast, `)`);
    return null;
  }
  visitBinaryOperatorExpr(ast, ctx) {
    let opStr;
    switch (ast.operator) {
      case BinaryOperator.Equals:
        opStr = "==";
        break;
      case BinaryOperator.Identical:
        opStr = "===";
        break;
      case BinaryOperator.NotEquals:
        opStr = "!=";
        break;
      case BinaryOperator.NotIdentical:
        opStr = "!==";
        break;
      case BinaryOperator.And:
        opStr = "&&";
        break;
      case BinaryOperator.BitwiseOr:
        opStr = "|";
        break;
      case BinaryOperator.BitwiseAnd:
        opStr = "&";
        break;
      case BinaryOperator.Or:
        opStr = "||";
        break;
      case BinaryOperator.Plus:
        opStr = "+";
        break;
      case BinaryOperator.Minus:
        opStr = "-";
        break;
      case BinaryOperator.Divide:
        opStr = "/";
        break;
      case BinaryOperator.Multiply:
        opStr = "*";
        break;
      case BinaryOperator.Modulo:
        opStr = "%";
        break;
      case BinaryOperator.Lower:
        opStr = "<";
        break;
      case BinaryOperator.LowerEquals:
        opStr = "<=";
        break;
      case BinaryOperator.Bigger:
        opStr = ">";
        break;
      case BinaryOperator.BiggerEquals:
        opStr = ">=";
        break;
      case BinaryOperator.NullishCoalesce:
        opStr = "??";
        break;
      default:
        throw new Error(`Unknown operator ${ast.operator}`);
    }
    if (ast.parens)
      ctx.print(ast, `(`);
    ast.lhs.visitExpression(this, ctx);
    ctx.print(ast, ` ${opStr} `);
    ast.rhs.visitExpression(this, ctx);
    if (ast.parens)
      ctx.print(ast, `)`);
    return null;
  }
  visitReadPropExpr(ast, ctx) {
    ast.receiver.visitExpression(this, ctx);
    ctx.print(ast, `.`);
    ctx.print(ast, ast.name);
    return null;
  }
  visitReadKeyExpr(ast, ctx) {
    ast.receiver.visitExpression(this, ctx);
    ctx.print(ast, `[`);
    ast.index.visitExpression(this, ctx);
    ctx.print(ast, `]`);
    return null;
  }
  visitLiteralArrayExpr(ast, ctx) {
    ctx.print(ast, `[`);
    this.visitAllExpressions(ast.entries, ctx, ",");
    ctx.print(ast, `]`);
    return null;
  }
  visitLiteralMapExpr(ast, ctx) {
    ctx.print(ast, `{`);
    this.visitAllObjects((entry) => {
      ctx.print(ast, `${escapeIdentifier(entry.key, this._escapeDollarInStrings, entry.quoted)}:`);
      entry.value.visitExpression(this, ctx);
    }, ast.entries, ctx, ",");
    ctx.print(ast, `}`);
    return null;
  }
  visitCommaExpr(ast, ctx) {
    ctx.print(ast, "(");
    this.visitAllExpressions(ast.parts, ctx, ",");
    ctx.print(ast, ")");
    return null;
  }
  visitAllExpressions(expressions, ctx, separator) {
    this.visitAllObjects((expr) => expr.visitExpression(this, ctx), expressions, ctx, separator);
  }
  visitAllObjects(handler, expressions, ctx, separator) {
    let incrementedIndent = false;
    for (let i = 0; i < expressions.length; i++) {
      if (i > 0) {
        if (ctx.lineLength() > 80) {
          ctx.print(null, separator, true);
          if (!incrementedIndent) {
            ctx.incIndent();
            ctx.incIndent();
            incrementedIndent = true;
          }
        } else {
          ctx.print(null, separator, false);
        }
      }
      handler(expressions[i]);
    }
    if (incrementedIndent) {
      ctx.decIndent();
      ctx.decIndent();
    }
  }
  visitAllStatements(statements, ctx) {
    statements.forEach((stmt) => stmt.visitStatement(this, ctx));
  }
};
function escapeIdentifier(input, escapeDollar, alwaysQuote = true) {
  if (input == null) {
    return null;
  }
  const body = input.replace(_SINGLE_QUOTE_ESCAPE_STRING_RE, (...match) => {
    if (match[0] == "$") {
      return escapeDollar ? "\\$" : "$";
    } else if (match[0] == "\n") {
      return "\\n";
    } else if (match[0] == "\r") {
      return "\\r";
    } else {
      return `\\${match[0]}`;
    }
  });
  const requiresQuotes = alwaysQuote || !_LEGAL_IDENTIFIER_RE.test(body);
  return requiresQuotes ? `'${body}'` : body;
}
function _createIndent(count) {
  let res = "";
  for (let i = 0; i < count; i++) {
    res += _INDENT_WITH;
  }
  return res;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/util.mjs
function typeWithParameters(type, numParams) {
  if (numParams === 0) {
    return expressionType(type);
  }
  const params = [];
  for (let i = 0; i < numParams; i++) {
    params.push(DYNAMIC_TYPE);
  }
  return expressionType(type, void 0, params);
}
function getSafePropertyAccessString(accessor, name) {
  const escapedName = escapeIdentifier(name, false, false);
  return escapedName !== name ? `${accessor}[${escapedName}]` : `${accessor}.${name}`;
}
function jitOnlyGuardedExpression(expr) {
  return guardedExpression("ngJitMode", expr);
}
function guardedExpression(guard, expr) {
  const guardExpr = new ExternalExpr({ name: guard, moduleName: null });
  const guardNotDefined = new BinaryOperatorExpr(BinaryOperator.Identical, new TypeofExpr(guardExpr), literal("undefined"));
  const guardUndefinedOrTrue = new BinaryOperatorExpr(
    BinaryOperator.Or,
    guardNotDefined,
    guardExpr,
    void 0,
    void 0,
    true
  );
  return new BinaryOperatorExpr(BinaryOperator.And, guardUndefinedOrTrue, expr);
}
function wrapReference(value) {
  const wrapped = new WrappedNodeExpr(value);
  return { value: wrapped, type: wrapped };
}
function refsToArray(refs, shouldForwardDeclare) {
  const values = literalArr(refs.map((ref) => ref.value));
  return shouldForwardDeclare ? arrowFn([], values) : values;
}
function createMayBeForwardRefExpression(expression, forwardRef) {
  return { expression, forwardRef };
}
function convertFromMaybeForwardRefExpression({ expression, forwardRef }) {
  switch (forwardRef) {
    case 0:
    case 1:
      return expression;
    case 2:
      return generateForwardRef(expression);
  }
}
function generateForwardRef(expr) {
  return importExpr(Identifiers.forwardRef).callFn([arrowFn([], expr)]);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_factory.mjs
var R3FactoryDelegateType;
(function(R3FactoryDelegateType2) {
  R3FactoryDelegateType2[R3FactoryDelegateType2["Class"] = 0] = "Class";
  R3FactoryDelegateType2[R3FactoryDelegateType2["Function"] = 1] = "Function";
})(R3FactoryDelegateType || (R3FactoryDelegateType = {}));
var FactoryTarget;
(function(FactoryTarget3) {
  FactoryTarget3[FactoryTarget3["Directive"] = 0] = "Directive";
  FactoryTarget3[FactoryTarget3["Component"] = 1] = "Component";
  FactoryTarget3[FactoryTarget3["Injectable"] = 2] = "Injectable";
  FactoryTarget3[FactoryTarget3["Pipe"] = 3] = "Pipe";
  FactoryTarget3[FactoryTarget3["NgModule"] = 4] = "NgModule";
})(FactoryTarget || (FactoryTarget = {}));
function compileFactoryFunction(meta) {
  const t = variable("__ngFactoryType__");
  let baseFactoryVar = null;
  const typeForCtor = !isDelegatedFactoryMetadata(meta) ? new BinaryOperatorExpr(BinaryOperator.Or, t, meta.type.value) : t;
  let ctorExpr = null;
  if (meta.deps !== null) {
    if (meta.deps !== "invalid") {
      ctorExpr = new InstantiateExpr(typeForCtor, injectDependencies(meta.deps, meta.target));
    }
  } else {
    baseFactoryVar = variable(`\u0275${meta.name}_BaseFactory`);
    ctorExpr = baseFactoryVar.callFn([typeForCtor]);
  }
  const body = [];
  let retExpr = null;
  function makeConditionalFactory(nonCtorExpr) {
    const r = variable("__ngConditionalFactory__");
    body.push(r.set(NULL_EXPR).toDeclStmt());
    const ctorStmt = ctorExpr !== null ? r.set(ctorExpr).toStmt() : importExpr(Identifiers.invalidFactory).callFn([]).toStmt();
    body.push(ifStmt(t, [ctorStmt], [r.set(nonCtorExpr).toStmt()]));
    return r;
  }
  if (isDelegatedFactoryMetadata(meta)) {
    const delegateArgs = injectDependencies(meta.delegateDeps, meta.target);
    const factoryExpr = new (meta.delegateType === R3FactoryDelegateType.Class ? InstantiateExpr : InvokeFunctionExpr)(meta.delegate, delegateArgs);
    retExpr = makeConditionalFactory(factoryExpr);
  } else if (isExpressionFactoryMetadata(meta)) {
    retExpr = makeConditionalFactory(meta.expression);
  } else {
    retExpr = ctorExpr;
  }
  if (retExpr === null) {
    body.push(importExpr(Identifiers.invalidFactory).callFn([]).toStmt());
  } else if (baseFactoryVar !== null) {
    const getInheritedFactoryCall = importExpr(Identifiers.getInheritedFactory).callFn([meta.type.value]);
    const baseFactory = new BinaryOperatorExpr(BinaryOperator.Or, baseFactoryVar, baseFactoryVar.set(getInheritedFactoryCall));
    body.push(new ReturnStatement(baseFactory.callFn([typeForCtor])));
  } else {
    body.push(new ReturnStatement(retExpr));
  }
  let factoryFn = fn([new FnParam(t.name, DYNAMIC_TYPE)], body, INFERRED_TYPE, void 0, `${meta.name}_Factory`);
  if (baseFactoryVar !== null) {
    factoryFn = arrowFn([], [new DeclareVarStmt(baseFactoryVar.name), new ReturnStatement(factoryFn)]).callFn([], void 0, true);
  }
  return {
    expression: factoryFn,
    statements: [],
    type: createFactoryType(meta)
  };
}
function createFactoryType(meta) {
  const ctorDepsType = meta.deps !== null && meta.deps !== "invalid" ? createCtorDepsType(meta.deps) : NONE_TYPE;
  return expressionType(importExpr(Identifiers.FactoryDeclaration, [
    typeWithParameters(meta.type.type, meta.typeArgumentCount),
    ctorDepsType
  ]));
}
function injectDependencies(deps, target) {
  return deps.map((dep, index) => compileInjectDependency(dep, target, index));
}
function compileInjectDependency(dep, target, index) {
  if (dep.token === null) {
    return importExpr(Identifiers.invalidFactoryDep).callFn([literal(index)]);
  } else if (dep.attributeNameType === null) {
    const flags = 0 | (dep.self ? 2 : 0) | (dep.skipSelf ? 4 : 0) | (dep.host ? 1 : 0) | (dep.optional ? 8 : 0) | (target === FactoryTarget.Pipe ? 16 : 0);
    let flagsParam = flags !== 0 || dep.optional ? literal(flags) : null;
    const injectArgs = [dep.token];
    if (flagsParam) {
      injectArgs.push(flagsParam);
    }
    const injectFn = getInjectFn(target);
    return importExpr(injectFn).callFn(injectArgs);
  } else {
    return importExpr(Identifiers.injectAttribute).callFn([dep.token]);
  }
}
function createCtorDepsType(deps) {
  let hasTypes = false;
  const attributeTypes = deps.map((dep) => {
    const type = createCtorDepType(dep);
    if (type !== null) {
      hasTypes = true;
      return type;
    } else {
      return literal(null);
    }
  });
  if (hasTypes) {
    return expressionType(literalArr(attributeTypes));
  } else {
    return NONE_TYPE;
  }
}
function createCtorDepType(dep) {
  const entries = [];
  if (dep.attributeNameType !== null) {
    entries.push({ key: "attribute", value: dep.attributeNameType, quoted: false });
  }
  if (dep.optional) {
    entries.push({ key: "optional", value: literal(true), quoted: false });
  }
  if (dep.host) {
    entries.push({ key: "host", value: literal(true), quoted: false });
  }
  if (dep.self) {
    entries.push({ key: "self", value: literal(true), quoted: false });
  }
  if (dep.skipSelf) {
    entries.push({ key: "skipSelf", value: literal(true), quoted: false });
  }
  return entries.length > 0 ? literalMap(entries) : null;
}
function isDelegatedFactoryMetadata(meta) {
  return meta.delegateType !== void 0;
}
function isExpressionFactoryMetadata(meta) {
  return meta.expression !== void 0;
}
function getInjectFn(target) {
  switch (target) {
    case FactoryTarget.Component:
    case FactoryTarget.Directive:
    case FactoryTarget.Pipe:
      return Identifiers.directiveInject;
    case FactoryTarget.NgModule:
    case FactoryTarget.Injectable:
    default:
      return Identifiers.inject;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/expression_parser/ast.mjs
var ParserError = class {
  constructor(message, input, errLocation, ctxLocation) {
    this.input = input;
    this.errLocation = errLocation;
    this.ctxLocation = ctxLocation;
    this.message = `Parser Error: ${message} ${errLocation} [${input}] in ${ctxLocation}`;
  }
};
var ParseSpan = class {
  constructor(start, end) {
    this.start = start;
    this.end = end;
  }
  toAbsolute(absoluteOffset) {
    return new AbsoluteSourceSpan(absoluteOffset + this.start, absoluteOffset + this.end);
  }
};
var AST = class {
  constructor(span, sourceSpan) {
    this.span = span;
    this.sourceSpan = sourceSpan;
  }
  toString() {
    return "AST";
  }
};
var ASTWithName = class extends AST {
  constructor(span, sourceSpan, nameSpan) {
    super(span, sourceSpan);
    this.nameSpan = nameSpan;
  }
};
var EmptyExpr = class extends AST {
  visit(visitor, context = null) {
  }
};
var ImplicitReceiver = class extends AST {
  visit(visitor, context = null) {
    return visitor.visitImplicitReceiver(this, context);
  }
};
var ThisReceiver = class extends ImplicitReceiver {
  visit(visitor, context = null) {
    var _a2;
    return (_a2 = visitor.visitThisReceiver) == null ? void 0 : _a2.call(visitor, this, context);
  }
};
var Chain = class extends AST {
  constructor(span, sourceSpan, expressions) {
    super(span, sourceSpan);
    this.expressions = expressions;
  }
  visit(visitor, context = null) {
    return visitor.visitChain(this, context);
  }
};
var Conditional = class extends AST {
  constructor(span, sourceSpan, condition, trueExp, falseExp) {
    super(span, sourceSpan);
    this.condition = condition;
    this.trueExp = trueExp;
    this.falseExp = falseExp;
  }
  visit(visitor, context = null) {
    return visitor.visitConditional(this, context);
  }
};
var PropertyRead = class extends ASTWithName {
  constructor(span, sourceSpan, nameSpan, receiver, name) {
    super(span, sourceSpan, nameSpan);
    this.receiver = receiver;
    this.name = name;
  }
  visit(visitor, context = null) {
    return visitor.visitPropertyRead(this, context);
  }
};
var PropertyWrite = class extends ASTWithName {
  constructor(span, sourceSpan, nameSpan, receiver, name, value) {
    super(span, sourceSpan, nameSpan);
    this.receiver = receiver;
    this.name = name;
    this.value = value;
  }
  visit(visitor, context = null) {
    return visitor.visitPropertyWrite(this, context);
  }
};
var SafePropertyRead = class extends ASTWithName {
  constructor(span, sourceSpan, nameSpan, receiver, name) {
    super(span, sourceSpan, nameSpan);
    this.receiver = receiver;
    this.name = name;
  }
  visit(visitor, context = null) {
    return visitor.visitSafePropertyRead(this, context);
  }
};
var KeyedRead = class extends AST {
  constructor(span, sourceSpan, receiver, key) {
    super(span, sourceSpan);
    this.receiver = receiver;
    this.key = key;
  }
  visit(visitor, context = null) {
    return visitor.visitKeyedRead(this, context);
  }
};
var SafeKeyedRead = class extends AST {
  constructor(span, sourceSpan, receiver, key) {
    super(span, sourceSpan);
    this.receiver = receiver;
    this.key = key;
  }
  visit(visitor, context = null) {
    return visitor.visitSafeKeyedRead(this, context);
  }
};
var KeyedWrite = class extends AST {
  constructor(span, sourceSpan, receiver, key, value) {
    super(span, sourceSpan);
    this.receiver = receiver;
    this.key = key;
    this.value = value;
  }
  visit(visitor, context = null) {
    return visitor.visitKeyedWrite(this, context);
  }
};
var BindingPipe = class extends ASTWithName {
  constructor(span, sourceSpan, exp, name, args, nameSpan) {
    super(span, sourceSpan, nameSpan);
    this.exp = exp;
    this.name = name;
    this.args = args;
  }
  visit(visitor, context = null) {
    return visitor.visitPipe(this, context);
  }
};
var LiteralPrimitive = class extends AST {
  constructor(span, sourceSpan, value) {
    super(span, sourceSpan);
    this.value = value;
  }
  visit(visitor, context = null) {
    return visitor.visitLiteralPrimitive(this, context);
  }
};
var LiteralArray = class extends AST {
  constructor(span, sourceSpan, expressions) {
    super(span, sourceSpan);
    this.expressions = expressions;
  }
  visit(visitor, context = null) {
    return visitor.visitLiteralArray(this, context);
  }
};
var LiteralMap = class extends AST {
  constructor(span, sourceSpan, keys, values) {
    super(span, sourceSpan);
    this.keys = keys;
    this.values = values;
  }
  visit(visitor, context = null) {
    return visitor.visitLiteralMap(this, context);
  }
};
var Interpolation = class extends AST {
  constructor(span, sourceSpan, strings, expressions) {
    super(span, sourceSpan);
    this.strings = strings;
    this.expressions = expressions;
  }
  visit(visitor, context = null) {
    return visitor.visitInterpolation(this, context);
  }
};
var Binary = class extends AST {
  constructor(span, sourceSpan, operation, left, right) {
    super(span, sourceSpan);
    this.operation = operation;
    this.left = left;
    this.right = right;
  }
  visit(visitor, context = null) {
    return visitor.visitBinary(this, context);
  }
};
var Unary = class extends Binary {
  static createMinus(span, sourceSpan, expr) {
    return new Unary(span, sourceSpan, "-", expr, "-", new LiteralPrimitive(span, sourceSpan, 0), expr);
  }
  static createPlus(span, sourceSpan, expr) {
    return new Unary(span, sourceSpan, "+", expr, "-", expr, new LiteralPrimitive(span, sourceSpan, 0));
  }
  constructor(span, sourceSpan, operator, expr, binaryOp, binaryLeft, binaryRight) {
    super(span, sourceSpan, binaryOp, binaryLeft, binaryRight);
    this.operator = operator;
    this.expr = expr;
    this.left = null;
    this.right = null;
    this.operation = null;
  }
  visit(visitor, context = null) {
    if (visitor.visitUnary !== void 0) {
      return visitor.visitUnary(this, context);
    }
    return visitor.visitBinary(this, context);
  }
};
var PrefixNot = class extends AST {
  constructor(span, sourceSpan, expression) {
    super(span, sourceSpan);
    this.expression = expression;
  }
  visit(visitor, context = null) {
    return visitor.visitPrefixNot(this, context);
  }
};
var NonNullAssert = class extends AST {
  constructor(span, sourceSpan, expression) {
    super(span, sourceSpan);
    this.expression = expression;
  }
  visit(visitor, context = null) {
    return visitor.visitNonNullAssert(this, context);
  }
};
var Call = class extends AST {
  constructor(span, sourceSpan, receiver, args, argumentSpan) {
    super(span, sourceSpan);
    this.receiver = receiver;
    this.args = args;
    this.argumentSpan = argumentSpan;
  }
  visit(visitor, context = null) {
    return visitor.visitCall(this, context);
  }
};
var SafeCall = class extends AST {
  constructor(span, sourceSpan, receiver, args, argumentSpan) {
    super(span, sourceSpan);
    this.receiver = receiver;
    this.args = args;
    this.argumentSpan = argumentSpan;
  }
  visit(visitor, context = null) {
    return visitor.visitSafeCall(this, context);
  }
};
var AbsoluteSourceSpan = class {
  constructor(start, end) {
    this.start = start;
    this.end = end;
  }
};
var ASTWithSource = class extends AST {
  constructor(ast, source, location, absoluteOffset, errors) {
    super(new ParseSpan(0, source === null ? 0 : source.length), new AbsoluteSourceSpan(absoluteOffset, source === null ? absoluteOffset : absoluteOffset + source.length));
    this.ast = ast;
    this.source = source;
    this.location = location;
    this.errors = errors;
  }
  visit(visitor, context = null) {
    if (visitor.visitASTWithSource) {
      return visitor.visitASTWithSource(this, context);
    }
    return this.ast.visit(visitor, context);
  }
  toString() {
    return `${this.source} in ${this.location}`;
  }
};
var VariableBinding = class {
  constructor(sourceSpan, key, value) {
    this.sourceSpan = sourceSpan;
    this.key = key;
    this.value = value;
  }
};
var ExpressionBinding = class {
  constructor(sourceSpan, key, value) {
    this.sourceSpan = sourceSpan;
    this.key = key;
    this.value = value;
  }
};
var RecursiveAstVisitor = class {
  visit(ast, context) {
    ast.visit(this, context);
  }
  visitUnary(ast, context) {
    this.visit(ast.expr, context);
  }
  visitBinary(ast, context) {
    this.visit(ast.left, context);
    this.visit(ast.right, context);
  }
  visitChain(ast, context) {
    this.visitAll(ast.expressions, context);
  }
  visitConditional(ast, context) {
    this.visit(ast.condition, context);
    this.visit(ast.trueExp, context);
    this.visit(ast.falseExp, context);
  }
  visitPipe(ast, context) {
    this.visit(ast.exp, context);
    this.visitAll(ast.args, context);
  }
  visitImplicitReceiver(ast, context) {
  }
  visitThisReceiver(ast, context) {
  }
  visitInterpolation(ast, context) {
    this.visitAll(ast.expressions, context);
  }
  visitKeyedRead(ast, context) {
    this.visit(ast.receiver, context);
    this.visit(ast.key, context);
  }
  visitKeyedWrite(ast, context) {
    this.visit(ast.receiver, context);
    this.visit(ast.key, context);
    this.visit(ast.value, context);
  }
  visitLiteralArray(ast, context) {
    this.visitAll(ast.expressions, context);
  }
  visitLiteralMap(ast, context) {
    this.visitAll(ast.values, context);
  }
  visitLiteralPrimitive(ast, context) {
  }
  visitPrefixNot(ast, context) {
    this.visit(ast.expression, context);
  }
  visitNonNullAssert(ast, context) {
    this.visit(ast.expression, context);
  }
  visitPropertyRead(ast, context) {
    this.visit(ast.receiver, context);
  }
  visitPropertyWrite(ast, context) {
    this.visit(ast.receiver, context);
    this.visit(ast.value, context);
  }
  visitSafePropertyRead(ast, context) {
    this.visit(ast.receiver, context);
  }
  visitSafeKeyedRead(ast, context) {
    this.visit(ast.receiver, context);
    this.visit(ast.key, context);
  }
  visitCall(ast, context) {
    this.visit(ast.receiver, context);
    this.visitAll(ast.args, context);
  }
  visitSafeCall(ast, context) {
    this.visit(ast.receiver, context);
    this.visitAll(ast.args, context);
  }
  visitAll(asts, context) {
    for (const ast of asts) {
      this.visit(ast, context);
    }
  }
};
var ParsedProperty = class {
  constructor(name, expression, type, sourceSpan, keySpan, valueSpan) {
    this.name = name;
    this.expression = expression;
    this.type = type;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
    this.isLiteral = this.type === ParsedPropertyType.LITERAL_ATTR;
    this.isAnimation = this.type === ParsedPropertyType.ANIMATION;
  }
};
var ParsedPropertyType;
(function(ParsedPropertyType2) {
  ParsedPropertyType2[ParsedPropertyType2["DEFAULT"] = 0] = "DEFAULT";
  ParsedPropertyType2[ParsedPropertyType2["LITERAL_ATTR"] = 1] = "LITERAL_ATTR";
  ParsedPropertyType2[ParsedPropertyType2["ANIMATION"] = 2] = "ANIMATION";
  ParsedPropertyType2[ParsedPropertyType2["TWO_WAY"] = 3] = "TWO_WAY";
})(ParsedPropertyType || (ParsedPropertyType = {}));
var ParsedEventType;
(function(ParsedEventType2) {
  ParsedEventType2[ParsedEventType2["Regular"] = 0] = "Regular";
  ParsedEventType2[ParsedEventType2["Animation"] = 1] = "Animation";
  ParsedEventType2[ParsedEventType2["TwoWay"] = 2] = "TwoWay";
})(ParsedEventType || (ParsedEventType = {}));
var ParsedEvent = class {
  constructor(name, targetOrPhase, type, handler, sourceSpan, handlerSpan, keySpan) {
    this.name = name;
    this.targetOrPhase = targetOrPhase;
    this.type = type;
    this.handler = handler;
    this.sourceSpan = sourceSpan;
    this.handlerSpan = handlerSpan;
    this.keySpan = keySpan;
  }
};
var ParsedVariable = class {
  constructor(name, value, sourceSpan, keySpan, valueSpan) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
  }
};
var BindingType;
(function(BindingType2) {
  BindingType2[BindingType2["Property"] = 0] = "Property";
  BindingType2[BindingType2["Attribute"] = 1] = "Attribute";
  BindingType2[BindingType2["Class"] = 2] = "Class";
  BindingType2[BindingType2["Style"] = 3] = "Style";
  BindingType2[BindingType2["Animation"] = 4] = "Animation";
  BindingType2[BindingType2["TwoWay"] = 5] = "TwoWay";
})(BindingType || (BindingType = {}));
var BoundElementProperty = class {
  constructor(name, type, securityContext, value, unit, sourceSpan, keySpan, valueSpan) {
    this.name = name;
    this.type = type;
    this.securityContext = securityContext;
    this.value = value;
    this.unit = unit;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/tags.mjs
var TagContentType;
(function(TagContentType2) {
  TagContentType2[TagContentType2["RAW_TEXT"] = 0] = "RAW_TEXT";
  TagContentType2[TagContentType2["ESCAPABLE_RAW_TEXT"] = 1] = "ESCAPABLE_RAW_TEXT";
  TagContentType2[TagContentType2["PARSABLE_DATA"] = 2] = "PARSABLE_DATA";
})(TagContentType || (TagContentType = {}));
function splitNsName(elementName, fatal = true) {
  if (elementName[0] != ":") {
    return [null, elementName];
  }
  const colonIndex = elementName.indexOf(":", 1);
  if (colonIndex === -1) {
    if (fatal) {
      throw new Error(`Unsupported format "${elementName}" expecting ":namespace:name"`);
    } else {
      return [null, elementName];
    }
  }
  return [elementName.slice(1, colonIndex), elementName.slice(colonIndex + 1)];
}
function isNgContainer(tagName) {
  return splitNsName(tagName)[1] === "ng-container";
}
function isNgContent(tagName) {
  return splitNsName(tagName)[1] === "ng-content";
}
function isNgTemplate(tagName) {
  return splitNsName(tagName)[1] === "ng-template";
}
function getNsPrefix(fullName) {
  return fullName === null ? null : splitNsName(fullName)[0];
}
function mergeNsAndName(prefix, localName) {
  return prefix ? `:${prefix}:${localName}` : localName;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_ast.mjs
var Comment = class {
  constructor(value, sourceSpan) {
    this.value = value;
    this.sourceSpan = sourceSpan;
  }
  visit(_visitor2) {
    throw new Error("visit() not implemented for Comment");
  }
};
var Text = class {
  constructor(value, sourceSpan) {
    this.value = value;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor) {
    return visitor.visitText(this);
  }
};
var BoundText = class {
  constructor(value, sourceSpan, i18n2) {
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitBoundText(this);
  }
};
var TextAttribute = class {
  constructor(name, value, sourceSpan, keySpan, valueSpan, i18n2) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitTextAttribute(this);
  }
};
var BoundAttribute = class {
  constructor(name, type, securityContext, value, unit, sourceSpan, keySpan, valueSpan, i18n2) {
    this.name = name;
    this.type = type;
    this.securityContext = securityContext;
    this.value = value;
    this.unit = unit;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
    this.i18n = i18n2;
  }
  static fromBoundElementProperty(prop, i18n2) {
    if (prop.keySpan === void 0) {
      throw new Error(`Unexpected state: keySpan must be defined for bound attributes but was not for ${prop.name}: ${prop.sourceSpan}`);
    }
    return new BoundAttribute(prop.name, prop.type, prop.securityContext, prop.value, prop.unit, prop.sourceSpan, prop.keySpan, prop.valueSpan, i18n2);
  }
  visit(visitor) {
    return visitor.visitBoundAttribute(this);
  }
};
var BoundEvent = class {
  constructor(name, type, handler, target, phase, sourceSpan, handlerSpan, keySpan) {
    this.name = name;
    this.type = type;
    this.handler = handler;
    this.target = target;
    this.phase = phase;
    this.sourceSpan = sourceSpan;
    this.handlerSpan = handlerSpan;
    this.keySpan = keySpan;
  }
  static fromParsedEvent(event) {
    const target = event.type === ParsedEventType.Regular ? event.targetOrPhase : null;
    const phase = event.type === ParsedEventType.Animation ? event.targetOrPhase : null;
    if (event.keySpan === void 0) {
      throw new Error(`Unexpected state: keySpan must be defined for bound event but was not for ${event.name}: ${event.sourceSpan}`);
    }
    return new BoundEvent(event.name, event.type, event.handler, target, phase, event.sourceSpan, event.handlerSpan, event.keySpan);
  }
  visit(visitor) {
    return visitor.visitBoundEvent(this);
  }
};
var Element = class {
  constructor(name, attributes, inputs, outputs, children, references, sourceSpan, startSourceSpan, endSourceSpan, i18n2) {
    this.name = name;
    this.attributes = attributes;
    this.inputs = inputs;
    this.outputs = outputs;
    this.children = children;
    this.references = references;
    this.sourceSpan = sourceSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitElement(this);
  }
};
var DeferredTrigger = class {
  constructor(nameSpan, sourceSpan, prefetchSpan, whenOrOnSourceSpan) {
    this.nameSpan = nameSpan;
    this.sourceSpan = sourceSpan;
    this.prefetchSpan = prefetchSpan;
    this.whenOrOnSourceSpan = whenOrOnSourceSpan;
  }
  visit(visitor) {
    return visitor.visitDeferredTrigger(this);
  }
};
var BoundDeferredTrigger = class extends DeferredTrigger {
  constructor(value, sourceSpan, prefetchSpan, whenSourceSpan) {
    super(null, sourceSpan, prefetchSpan, whenSourceSpan);
    this.value = value;
  }
};
var IdleDeferredTrigger = class extends DeferredTrigger {
};
var ImmediateDeferredTrigger = class extends DeferredTrigger {
};
var HoverDeferredTrigger = class extends DeferredTrigger {
  constructor(reference2, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
    super(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
    this.reference = reference2;
  }
};
var TimerDeferredTrigger = class extends DeferredTrigger {
  constructor(delay, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
    super(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
    this.delay = delay;
  }
};
var InteractionDeferredTrigger = class extends DeferredTrigger {
  constructor(reference2, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
    super(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
    this.reference = reference2;
  }
};
var ViewportDeferredTrigger = class extends DeferredTrigger {
  constructor(reference2, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
    super(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
    this.reference = reference2;
  }
};
var BlockNode = class {
  constructor(nameSpan, sourceSpan, startSourceSpan, endSourceSpan) {
    this.nameSpan = nameSpan;
    this.sourceSpan = sourceSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
  }
};
var DeferredBlockPlaceholder = class extends BlockNode {
  constructor(children, minimumTime, nameSpan, sourceSpan, startSourceSpan, endSourceSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.children = children;
    this.minimumTime = minimumTime;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitDeferredBlockPlaceholder(this);
  }
};
var DeferredBlockLoading = class extends BlockNode {
  constructor(children, afterTime, minimumTime, nameSpan, sourceSpan, startSourceSpan, endSourceSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.children = children;
    this.afterTime = afterTime;
    this.minimumTime = minimumTime;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitDeferredBlockLoading(this);
  }
};
var DeferredBlockError = class extends BlockNode {
  constructor(children, nameSpan, sourceSpan, startSourceSpan, endSourceSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.children = children;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitDeferredBlockError(this);
  }
};
var DeferredBlock = class extends BlockNode {
  constructor(children, triggers, prefetchTriggers, placeholder, loading, error, nameSpan, sourceSpan, mainBlockSpan, startSourceSpan, endSourceSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.children = children;
    this.placeholder = placeholder;
    this.loading = loading;
    this.error = error;
    this.mainBlockSpan = mainBlockSpan;
    this.i18n = i18n2;
    this.triggers = triggers;
    this.prefetchTriggers = prefetchTriggers;
    this.definedTriggers = Object.keys(triggers);
    this.definedPrefetchTriggers = Object.keys(prefetchTriggers);
  }
  visit(visitor) {
    return visitor.visitDeferredBlock(this);
  }
  visitAll(visitor) {
    this.visitTriggers(this.definedTriggers, this.triggers, visitor);
    this.visitTriggers(this.definedPrefetchTriggers, this.prefetchTriggers, visitor);
    visitAll(visitor, this.children);
    const remainingBlocks = [this.placeholder, this.loading, this.error].filter((x) => x !== null);
    visitAll(visitor, remainingBlocks);
  }
  visitTriggers(keys, triggers, visitor) {
    visitAll(visitor, keys.map((k) => triggers[k]));
  }
};
var SwitchBlock = class extends BlockNode {
  constructor(expression, cases, unknownBlocks, sourceSpan, startSourceSpan, endSourceSpan, nameSpan) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.expression = expression;
    this.cases = cases;
    this.unknownBlocks = unknownBlocks;
  }
  visit(visitor) {
    return visitor.visitSwitchBlock(this);
  }
};
var SwitchBlockCase = class extends BlockNode {
  constructor(expression, children, sourceSpan, startSourceSpan, endSourceSpan, nameSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.expression = expression;
    this.children = children;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitSwitchBlockCase(this);
  }
};
var ForLoopBlock = class extends BlockNode {
  constructor(item, expression, trackBy, trackKeywordSpan, contextVariables, children, empty, sourceSpan, mainBlockSpan, startSourceSpan, endSourceSpan, nameSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.item = item;
    this.expression = expression;
    this.trackBy = trackBy;
    this.trackKeywordSpan = trackKeywordSpan;
    this.contextVariables = contextVariables;
    this.children = children;
    this.empty = empty;
    this.mainBlockSpan = mainBlockSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitForLoopBlock(this);
  }
};
var ForLoopBlockEmpty = class extends BlockNode {
  constructor(children, sourceSpan, startSourceSpan, endSourceSpan, nameSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.children = children;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitForLoopBlockEmpty(this);
  }
};
var IfBlock = class extends BlockNode {
  constructor(branches, sourceSpan, startSourceSpan, endSourceSpan, nameSpan) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.branches = branches;
  }
  visit(visitor) {
    return visitor.visitIfBlock(this);
  }
};
var IfBlockBranch = class extends BlockNode {
  constructor(expression, children, expressionAlias, sourceSpan, startSourceSpan, endSourceSpan, nameSpan, i18n2) {
    super(nameSpan, sourceSpan, startSourceSpan, endSourceSpan);
    this.expression = expression;
    this.children = children;
    this.expressionAlias = expressionAlias;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitIfBlockBranch(this);
  }
};
var UnknownBlock = class {
  constructor(name, sourceSpan, nameSpan) {
    this.name = name;
    this.sourceSpan = sourceSpan;
    this.nameSpan = nameSpan;
  }
  visit(visitor) {
    return visitor.visitUnknownBlock(this);
  }
};
var LetDeclaration = class {
  constructor(name, value, sourceSpan, nameSpan, valueSpan) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.nameSpan = nameSpan;
    this.valueSpan = valueSpan;
  }
  visit(visitor) {
    return visitor.visitLetDeclaration(this);
  }
};
var Template = class {
  constructor(tagName, attributes, inputs, outputs, templateAttrs, children, references, variables, sourceSpan, startSourceSpan, endSourceSpan, i18n2) {
    this.tagName = tagName;
    this.attributes = attributes;
    this.inputs = inputs;
    this.outputs = outputs;
    this.templateAttrs = templateAttrs;
    this.children = children;
    this.references = references;
    this.variables = variables;
    this.sourceSpan = sourceSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitTemplate(this);
  }
};
var Content = class {
  constructor(selector, attributes, children, sourceSpan, i18n2) {
    this.selector = selector;
    this.attributes = attributes;
    this.children = children;
    this.sourceSpan = sourceSpan;
    this.i18n = i18n2;
    this.name = "ng-content";
  }
  visit(visitor) {
    return visitor.visitContent(this);
  }
};
var Variable = class {
  constructor(name, value, sourceSpan, keySpan, valueSpan) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
  }
  visit(visitor) {
    return visitor.visitVariable(this);
  }
};
var Reference = class {
  constructor(name, value, sourceSpan, keySpan, valueSpan) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
  }
  visit(visitor) {
    return visitor.visitReference(this);
  }
};
var Icu = class {
  constructor(vars, placeholders, sourceSpan, i18n2) {
    this.vars = vars;
    this.placeholders = placeholders;
    this.sourceSpan = sourceSpan;
    this.i18n = i18n2;
  }
  visit(visitor) {
    return visitor.visitIcu(this);
  }
};
function visitAll(visitor, nodes) {
  const result = [];
  if (visitor.visit) {
    for (const node of nodes) {
      visitor.visit(node) || node.visit(visitor);
    }
  } else {
    for (const node of nodes) {
      const newNode = node.visit(visitor);
      if (newNode) {
        result.push(newNode);
      }
    }
  }
  return result;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/i18n_ast.mjs
var Message = class {
  constructor(nodes, placeholders, placeholderToMessage, meaning, description, customId) {
    this.nodes = nodes;
    this.placeholders = placeholders;
    this.placeholderToMessage = placeholderToMessage;
    this.meaning = meaning;
    this.description = description;
    this.customId = customId;
    this.legacyIds = [];
    this.id = this.customId;
    this.messageString = serializeMessage(this.nodes);
    if (nodes.length) {
      this.sources = [
        {
          filePath: nodes[0].sourceSpan.start.file.url,
          startLine: nodes[0].sourceSpan.start.line + 1,
          startCol: nodes[0].sourceSpan.start.col + 1,
          endLine: nodes[nodes.length - 1].sourceSpan.end.line + 1,
          endCol: nodes[0].sourceSpan.start.col + 1
        }
      ];
    } else {
      this.sources = [];
    }
  }
};
var Text2 = class {
  constructor(value, sourceSpan) {
    this.value = value;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitText(this, context);
  }
};
var Container = class {
  constructor(children, sourceSpan) {
    this.children = children;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitContainer(this, context);
  }
};
var Icu2 = class {
  constructor(expression, type, cases, sourceSpan, expressionPlaceholder) {
    this.expression = expression;
    this.type = type;
    this.cases = cases;
    this.sourceSpan = sourceSpan;
    this.expressionPlaceholder = expressionPlaceholder;
  }
  visit(visitor, context) {
    return visitor.visitIcu(this, context);
  }
};
var TagPlaceholder = class {
  constructor(tag, attrs, startName, closeName, children, isVoid, sourceSpan, startSourceSpan, endSourceSpan) {
    this.tag = tag;
    this.attrs = attrs;
    this.startName = startName;
    this.closeName = closeName;
    this.children = children;
    this.isVoid = isVoid;
    this.sourceSpan = sourceSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitTagPlaceholder(this, context);
  }
};
var Placeholder = class {
  constructor(value, name, sourceSpan) {
    this.value = value;
    this.name = name;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitPlaceholder(this, context);
  }
};
var IcuPlaceholder = class {
  constructor(value, name, sourceSpan) {
    this.value = value;
    this.name = name;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitIcuPlaceholder(this, context);
  }
};
var BlockPlaceholder = class {
  constructor(name, parameters, startName, closeName, children, sourceSpan, startSourceSpan, endSourceSpan) {
    this.name = name;
    this.parameters = parameters;
    this.startName = startName;
    this.closeName = closeName;
    this.children = children;
    this.sourceSpan = sourceSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitBlockPlaceholder(this, context);
  }
};
function serializeMessage(messageNodes) {
  const visitor = new LocalizeMessageStringVisitor();
  const str = messageNodes.map((n) => n.visit(visitor)).join("");
  return str;
}
var LocalizeMessageStringVisitor = class {
  visitText(text2) {
    return text2.value;
  }
  visitContainer(container) {
    return container.children.map((child) => child.visit(this)).join("");
  }
  visitIcu(icu) {
    const strCases = Object.keys(icu.cases).map((k) => `${k} {${icu.cases[k].visit(this)}}`);
    return `{${icu.expressionPlaceholder}, ${icu.type}, ${strCases.join(" ")}}`;
  }
  visitTagPlaceholder(ph) {
    const children = ph.children.map((child) => child.visit(this)).join("");
    return `{$${ph.startName}}${children}{$${ph.closeName}}`;
  }
  visitPlaceholder(ph) {
    return `{$${ph.name}}`;
  }
  visitIcuPlaceholder(ph) {
    return `{$${ph.name}}`;
  }
  visitBlockPlaceholder(ph) {
    const children = ph.children.map((child) => child.visit(this)).join("");
    return `{$${ph.startName}}${children}{$${ph.closeName}}`;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/serializers/xml_helper.mjs
var _Visitor = class {
  visitTag(tag) {
    const strAttrs = this._serializeAttributes(tag.attrs);
    if (tag.children.length == 0) {
      return `<${tag.name}${strAttrs}/>`;
    }
    const strChildren = tag.children.map((node) => node.visit(this));
    return `<${tag.name}${strAttrs}>${strChildren.join("")}`;
  }
  visitText(text2) {
    return text2.value;
  }
  visitDeclaration(decl) {
    return ``;
  }
  _serializeAttributes(attrs) {
    const strAttrs = Object.keys(attrs).map((name) => `${name}="${attrs[name]}"`).join(" ");
    return strAttrs.length > 0 ? " " + strAttrs : "";
  }
  visitDoctype(doctype) {
    return ``;
  }
};
var _visitor = new _Visitor();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/serializers/xmb.mjs
function toPublicName(internalName) {
  return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, "_");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/i18n/util.mjs
var I18N_ATTR = "i18n";
var I18N_ATTR_PREFIX = "i18n-";
var I18N_ICU_VAR_PREFIX = "VAR_";
function isI18nAttribute(name) {
  return name === I18N_ATTR || name.startsWith(I18N_ATTR_PREFIX);
}
function hasI18nAttrs(element2) {
  return element2.attrs.some((attr) => isI18nAttribute(attr.name));
}
function icuFromI18nMessage(message) {
  return message.nodes[0];
}
function formatI18nPlaceholderNamesInMap(params = {}, useCamelCase) {
  const _params = {};
  if (params && Object.keys(params).length) {
    Object.keys(params).forEach((key) => _params[formatI18nPlaceholderName(key, useCamelCase)] = params[key]);
  }
  return _params;
}
function formatI18nPlaceholderName(name, useCamelCase = true) {
  const publicName = toPublicName(name);
  if (!useCamelCase) {
    return publicName;
  }
  const chunks = publicName.split("_");
  if (chunks.length === 1) {
    return name.toLowerCase();
  }
  let postfix;
  if (/^\d+$/.test(chunks[chunks.length - 1])) {
    postfix = chunks.pop();
  }
  let raw = chunks.shift().toLowerCase();
  if (chunks.length) {
    raw += chunks.map((c) => c.charAt(0).toUpperCase() + c.slice(1).toLowerCase()).join("");
  }
  return postfix ? `${raw}_${postfix}` : raw;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/util.mjs
var UNSAFE_OBJECT_KEY_NAME_REGEXP = /[-.]/;
var TEMPORARY_NAME = "_t";
var CONTEXT_NAME = "ctx";
var RENDER_FLAGS = "rf";
function temporaryAllocator(pushStatement, name) {
  let temp = null;
  return () => {
    if (!temp) {
      pushStatement(new DeclareVarStmt(TEMPORARY_NAME, void 0, DYNAMIC_TYPE));
      temp = variable(name);
    }
    return temp;
  };
}
function asLiteral(value) {
  if (Array.isArray(value)) {
    return literalArr(value.map(asLiteral));
  }
  return literal(value, INFERRED_TYPE);
}
function conditionallyCreateDirectiveBindingLiteral(map, forInputs) {
  const keys = Object.getOwnPropertyNames(map);
  if (keys.length === 0) {
    return null;
  }
  return literalMap(keys.map((key) => {
    const value = map[key];
    let declaredName;
    let publicName;
    let minifiedName;
    let expressionValue;
    if (typeof value === "string") {
      declaredName = key;
      minifiedName = key;
      publicName = value;
      expressionValue = asLiteral(publicName);
    } else {
      minifiedName = key;
      declaredName = value.classPropertyName;
      publicName = value.bindingPropertyName;
      const differentDeclaringName = publicName !== declaredName;
      const hasDecoratorInputTransform = value.transformFunction !== null;
      let flags = InputFlags.None;
      if (value.isSignal) {
        flags |= InputFlags.SignalBased;
      }
      if (hasDecoratorInputTransform) {
        flags |= InputFlags.HasDecoratorInputTransform;
      }
      if (forInputs && (differentDeclaringName || hasDecoratorInputTransform || flags !== InputFlags.None)) {
        const result = [literal(flags), asLiteral(publicName)];
        if (differentDeclaringName || hasDecoratorInputTransform) {
          result.push(asLiteral(declaredName));
          if (hasDecoratorInputTransform) {
            result.push(value.transformFunction);
          }
        }
        expressionValue = literalArr(result);
      } else {
        expressionValue = asLiteral(publicName);
      }
    }
    return {
      key: minifiedName,
      quoted: UNSAFE_OBJECT_KEY_NAME_REGEXP.test(minifiedName),
      value: expressionValue
    };
  }));
}
var DefinitionMap = class {
  constructor() {
    this.values = [];
  }
  set(key, value) {
    if (value) {
      const existing = this.values.find((value2) => value2.key === key);
      if (existing) {
        existing.value = value;
      } else {
        this.values.push({ key, value, quoted: false });
      }
    }
  }
  toLiteralMap() {
    return literalMap(this.values);
  }
};
function createCssSelectorFromNode(node) {
  const elementName = node instanceof Element ? node.name : "ng-template";
  const attributes = getAttrsForDirectiveMatching(node);
  const cssSelector = new CssSelector();
  const elementNameNoNs = splitNsName(elementName)[1];
  cssSelector.setElement(elementNameNoNs);
  Object.getOwnPropertyNames(attributes).forEach((name) => {
    const nameNoNs = splitNsName(name)[1];
    const value = attributes[name];
    cssSelector.addAttribute(nameNoNs, value);
    if (name.toLowerCase() === "class") {
      const classes = value.trim().split(/\s+/);
      classes.forEach((className) => cssSelector.addClassName(className));
    }
  });
  return cssSelector;
}
function getAttrsForDirectiveMatching(elOrTpl) {
  const attributesMap = {};
  if (elOrTpl instanceof Template && elOrTpl.tagName !== "ng-template") {
    elOrTpl.templateAttrs.forEach((a) => attributesMap[a.name] = "");
  } else {
    elOrTpl.attributes.forEach((a) => {
      if (!isI18nAttribute(a.name)) {
        attributesMap[a.name] = a.value;
      }
    });
    elOrTpl.inputs.forEach((i) => {
      if (i.type === BindingType.Property || i.type === BindingType.TwoWay) {
        attributesMap[i.name] = "";
      }
    });
    elOrTpl.outputs.forEach((o) => {
      attributesMap[o.name] = "";
    });
  }
  return attributesMap;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/injectable_compiler_2.mjs
function compileInjectable(meta, resolveForwardRefs) {
  let result = null;
  const factoryMeta = {
    name: meta.name,
    type: meta.type,
    typeArgumentCount: meta.typeArgumentCount,
    deps: [],
    target: FactoryTarget.Injectable
  };
  if (meta.useClass !== void 0) {
    const useClassOnSelf = meta.useClass.expression.isEquivalent(meta.type.value);
    let deps = void 0;
    if (meta.deps !== void 0) {
      deps = meta.deps;
    }
    if (deps !== void 0) {
      result = compileFactoryFunction(__spreadProps(__spreadValues({}, factoryMeta), {
        delegate: meta.useClass.expression,
        delegateDeps: deps,
        delegateType: R3FactoryDelegateType.Class
      }));
    } else if (useClassOnSelf) {
      result = compileFactoryFunction(factoryMeta);
    } else {
      result = {
        statements: [],
        expression: delegateToFactory(meta.type.value, meta.useClass.expression, resolveForwardRefs)
      };
    }
  } else if (meta.useFactory !== void 0) {
    if (meta.deps !== void 0) {
      result = compileFactoryFunction(__spreadProps(__spreadValues({}, factoryMeta), {
        delegate: meta.useFactory,
        delegateDeps: meta.deps || [],
        delegateType: R3FactoryDelegateType.Function
      }));
    } else {
      result = { statements: [], expression: arrowFn([], meta.useFactory.callFn([])) };
    }
  } else if (meta.useValue !== void 0) {
    result = compileFactoryFunction(__spreadProps(__spreadValues({}, factoryMeta), {
      expression: meta.useValue.expression
    }));
  } else if (meta.useExisting !== void 0) {
    result = compileFactoryFunction(__spreadProps(__spreadValues({}, factoryMeta), {
      expression: importExpr(Identifiers.inject).callFn([meta.useExisting.expression])
    }));
  } else {
    result = {
      statements: [],
      expression: delegateToFactory(meta.type.value, meta.type.value, resolveForwardRefs)
    };
  }
  const token = meta.type.value;
  const injectableProps = new DefinitionMap();
  injectableProps.set("token", token);
  injectableProps.set("factory", result.expression);
  if (meta.providedIn.expression.value !== null) {
    injectableProps.set("providedIn", convertFromMaybeForwardRefExpression(meta.providedIn));
  }
  const expression = importExpr(Identifiers.\u0275\u0275defineInjectable).callFn([injectableProps.toLiteralMap()], void 0, true);
  return {
    expression,
    type: createInjectableType(meta),
    statements: result.statements
  };
}
function createInjectableType(meta) {
  return new ExpressionType(importExpr(Identifiers.InjectableDeclaration, [
    typeWithParameters(meta.type.type, meta.typeArgumentCount)
  ]));
}
function delegateToFactory(type, useType, unwrapForwardRefs) {
  if (type.node === useType.node) {
    return useType.prop("\u0275fac");
  }
  if (!unwrapForwardRefs) {
    return createFactoryFunction(useType);
  }
  const unwrappedType = importExpr(Identifiers.resolveForwardRef).callFn([useType]);
  return createFactoryFunction(unwrappedType);
}
function createFactoryFunction(type) {
  const t = new FnParam("__ngFactoryType__", DYNAMIC_TYPE);
  return arrowFn([t], type.prop("\u0275fac").callFn([variable(t.name)]));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/assertions.mjs
var UNUSABLE_INTERPOLATION_REGEXPS = [
  /@/,
  /^\s*$/,
  /[<>]/,
  /^[{}]$/,
  /&(#|[a-z])/i,
  /^\/\//
];
function assertInterpolationSymbols(identifier, value) {
  if (value != null && !(Array.isArray(value) && value.length == 2)) {
    throw new Error(`Expected '${identifier}' to be an array, [start, end].`);
  } else if (value != null) {
    const start = value[0];
    const end = value[1];
    UNUSABLE_INTERPOLATION_REGEXPS.forEach((regexp) => {
      if (regexp.test(start) || regexp.test(end)) {
        throw new Error(`['${start}', '${end}'] contains unusable interpolation symbol.`);
      }
    });
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/defaults.mjs
var InterpolationConfig = class {
  static fromArray(markers) {
    if (!markers) {
      return DEFAULT_INTERPOLATION_CONFIG;
    }
    assertInterpolationSymbols("interpolation", markers);
    return new InterpolationConfig(markers[0], markers[1]);
  }
  constructor(start, end) {
    this.start = start;
    this.end = end;
  }
};
var DEFAULT_INTERPOLATION_CONFIG = new InterpolationConfig("{{", "}}");
var DEFAULT_CONTAINER_BLOCKS = /* @__PURE__ */ new Set(["switch"]);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/chars.mjs
var $EOF = 0;
var $BSPACE = 8;
var $TAB = 9;
var $LF = 10;
var $VTAB = 11;
var $FF = 12;
var $CR = 13;
var $SPACE = 32;
var $BANG = 33;
var $DQ = 34;
var $HASH = 35;
var $$ = 36;
var $PERCENT = 37;
var $AMPERSAND = 38;
var $SQ = 39;
var $LPAREN = 40;
var $RPAREN = 41;
var $STAR = 42;
var $PLUS = 43;
var $COMMA = 44;
var $MINUS = 45;
var $PERIOD = 46;
var $SLASH = 47;
var $COLON = 58;
var $SEMICOLON = 59;
var $LT = 60;
var $EQ = 61;
var $GT = 62;
var $QUESTION = 63;
var $0 = 48;
var $7 = 55;
var $9 = 57;
var $A = 65;
var $E = 69;
var $F = 70;
var $X = 88;
var $Z = 90;
var $LBRACKET = 91;
var $BACKSLASH = 92;
var $RBRACKET = 93;
var $CARET = 94;
var $_ = 95;
var $a = 97;
var $b = 98;
var $e = 101;
var $f = 102;
var $n = 110;
var $r = 114;
var $t = 116;
var $u = 117;
var $v = 118;
var $x = 120;
var $z = 122;
var $LBRACE = 123;
var $BAR = 124;
var $RBRACE = 125;
var $NBSP = 160;
var $AT = 64;
var $BT = 96;
function isWhitespace(code) {
  return code >= $TAB && code <= $SPACE || code == $NBSP;
}
function isDigit(code) {
  return $0 <= code && code <= $9;
}
function isAsciiLetter(code) {
  return code >= $a && code <= $z || code >= $A && code <= $Z;
}
function isAsciiHexDigit(code) {
  return code >= $a && code <= $f || code >= $A && code <= $F || isDigit(code);
}
function isNewLine(code) {
  return code === $LF || code === $CR;
}
function isOctalDigit(code) {
  return $0 <= code && code <= $7;
}
function isQuote(code) {
  return code === $SQ || code === $DQ || code === $BT;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/parse_util.mjs
var ParseLocation = class {
  constructor(file, offset, line, col) {
    this.file = file;
    this.offset = offset;
    this.line = line;
    this.col = col;
  }
  toString() {
    return this.offset != null ? `${this.file.url}@${this.line}:${this.col}` : this.file.url;
  }
  moveBy(delta) {
    const source = this.file.content;
    const len = source.length;
    let offset = this.offset;
    let line = this.line;
    let col = this.col;
    while (offset > 0 && delta < 0) {
      offset--;
      delta++;
      const ch = source.charCodeAt(offset);
      if (ch == $LF) {
        line--;
        const priorLine = source.substring(0, offset - 1).lastIndexOf(String.fromCharCode($LF));
        col = priorLine > 0 ? offset - priorLine : offset;
      } else {
        col--;
      }
    }
    while (offset < len && delta > 0) {
      const ch = source.charCodeAt(offset);
      offset++;
      delta--;
      if (ch == $LF) {
        line++;
        col = 0;
      } else {
        col++;
      }
    }
    return new ParseLocation(this.file, offset, line, col);
  }
  getContext(maxChars, maxLines) {
    const content = this.file.content;
    let startOffset = this.offset;
    if (startOffset != null) {
      if (startOffset > content.length - 1) {
        startOffset = content.length - 1;
      }
      let endOffset = startOffset;
      let ctxChars = 0;
      let ctxLines = 0;
      while (ctxChars < maxChars && startOffset > 0) {
        startOffset--;
        ctxChars++;
        if (content[startOffset] == "\n") {
          if (++ctxLines == maxLines) {
            break;
          }
        }
      }
      ctxChars = 0;
      ctxLines = 0;
      while (ctxChars < maxChars && endOffset < content.length - 1) {
        endOffset++;
        ctxChars++;
        if (content[endOffset] == "\n") {
          if (++ctxLines == maxLines) {
            break;
          }
        }
      }
      return {
        before: content.substring(startOffset, this.offset),
        after: content.substring(this.offset, endOffset + 1)
      };
    }
    return null;
  }
};
var ParseSourceFile = class {
  constructor(content, url) {
    this.content = content;
    this.url = url;
  }
};
var ParseSourceSpan = class {
  constructor(start, end, fullStart = start, details = null) {
    this.start = start;
    this.end = end;
    this.fullStart = fullStart;
    this.details = details;
  }
  toString() {
    return this.start.file.content.substring(this.start.offset, this.end.offset);
  }
};
var ParseErrorLevel;
(function(ParseErrorLevel2) {
  ParseErrorLevel2[ParseErrorLevel2["WARNING"] = 0] = "WARNING";
  ParseErrorLevel2[ParseErrorLevel2["ERROR"] = 1] = "ERROR";
})(ParseErrorLevel || (ParseErrorLevel = {}));
var ParseError = class {
  constructor(span, msg, level = ParseErrorLevel.ERROR) {
    this.span = span;
    this.msg = msg;
    this.level = level;
  }
  contextualMessage() {
    const ctx = this.span.start.getContext(100, 3);
    return ctx ? `${this.msg} ("${ctx.before}[${ParseErrorLevel[this.level]} ->]${ctx.after}")` : this.msg;
  }
  toString() {
    const details = this.span.details ? `, ${this.span.details}` : "";
    return `${this.contextualMessage()}: ${this.span.start}${details}`;
  }
};
function r3JitTypeSourceSpan(kind, typeName, sourceUrl) {
  const sourceFileName = `in ${kind} ${typeName} in ${sourceUrl}`;
  const sourceFile = new ParseSourceFile("", sourceFileName);
  return new ParseSourceSpan(new ParseLocation(sourceFile, -1, -1, -1), new ParseLocation(sourceFile, -1, -1, -1));
}
var _anonymousTypeIndex = 0;
function identifierName(compileIdentifier) {
  if (!compileIdentifier || !compileIdentifier.reference) {
    return null;
  }
  const ref = compileIdentifier.reference;
  if (ref["__anonymousType"]) {
    return ref["__anonymousType"];
  }
  if (ref["__forward_ref__"]) {
    return "__forward_ref__";
  }
  let identifier = stringify(ref);
  if (identifier.indexOf("(") >= 0) {
    identifier = `anonymous_${_anonymousTypeIndex++}`;
    ref["__anonymousType"] = identifier;
  } else {
    identifier = sanitizeIdentifier(identifier);
  }
  return identifier;
}
function sanitizeIdentifier(name) {
  return name.replace(/\W/g, "_");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/abstract_js_emitter.mjs
var makeTemplateObjectPolyfill = '(this&&this.__makeTemplateObject||function(e,t){return Object.defineProperty?Object.defineProperty(e,"raw",{value:t}):e.raw=t,e})';
var AbstractJsEmitterVisitor = class extends AbstractEmitterVisitor {
  constructor() {
    super(false);
  }
  visitWrappedNodeExpr(ast, ctx) {
    throw new Error("Cannot emit a WrappedNodeExpr in Javascript.");
  }
  visitDeclareVarStmt(stmt, ctx) {
    ctx.print(stmt, `var ${stmt.name}`);
    if (stmt.value) {
      ctx.print(stmt, " = ");
      stmt.value.visitExpression(this, ctx);
    }
    ctx.println(stmt, `;`);
    return null;
  }
  visitTaggedTemplateExpr(ast, ctx) {
    const elements = ast.template.elements;
    ast.tag.visitExpression(this, ctx);
    ctx.print(ast, `(${makeTemplateObjectPolyfill}(`);
    ctx.print(ast, `[${elements.map((part) => escapeIdentifier(part.text, false)).join(", ")}], `);
    ctx.print(ast, `[${elements.map((part) => escapeIdentifier(part.rawText, false)).join(", ")}])`);
    ast.template.expressions.forEach((expression) => {
      ctx.print(ast, ", ");
      expression.visitExpression(this, ctx);
    });
    ctx.print(ast, ")");
    return null;
  }
  visitFunctionExpr(ast, ctx) {
    ctx.print(ast, `function${ast.name ? " " + ast.name : ""}(`);
    this._visitParams(ast.params, ctx);
    ctx.println(ast, `) {`);
    ctx.incIndent();
    this.visitAllStatements(ast.statements, ctx);
    ctx.decIndent();
    ctx.print(ast, `}`);
    return null;
  }
  visitArrowFunctionExpr(ast, ctx) {
    ctx.print(ast, "(");
    this._visitParams(ast.params, ctx);
    ctx.print(ast, ") =>");
    if (Array.isArray(ast.body)) {
      ctx.println(ast, `{`);
      ctx.incIndent();
      this.visitAllStatements(ast.body, ctx);
      ctx.decIndent();
      ctx.print(ast, `}`);
    } else {
      const isObjectLiteral = ast.body instanceof LiteralMapExpr;
      if (isObjectLiteral) {
        ctx.print(ast, "(");
      }
      ast.body.visitExpression(this, ctx);
      if (isObjectLiteral) {
        ctx.print(ast, ")");
      }
    }
    return null;
  }
  visitDeclareFunctionStmt(stmt, ctx) {
    ctx.print(stmt, `function ${stmt.name}(`);
    this._visitParams(stmt.params, ctx);
    ctx.println(stmt, `) {`);
    ctx.incIndent();
    this.visitAllStatements(stmt.statements, ctx);
    ctx.decIndent();
    ctx.println(stmt, `}`);
    return null;
  }
  visitLocalizedString(ast, ctx) {
    ctx.print(ast, `$localize(${makeTemplateObjectPolyfill}(`);
    const parts = [ast.serializeI18nHead()];
    for (let i = 1; i < ast.messageParts.length; i++) {
      parts.push(ast.serializeI18nTemplatePart(i));
    }
    ctx.print(ast, `[${parts.map((part) => escapeIdentifier(part.cooked, false)).join(", ")}], `);
    ctx.print(ast, `[${parts.map((part) => escapeIdentifier(part.raw, false)).join(", ")}])`);
    ast.expressions.forEach((expression) => {
      ctx.print(ast, ", ");
      expression.visitExpression(this, ctx);
    });
    ctx.print(ast, ")");
    return null;
  }
  _visitParams(params, ctx) {
    this.visitAllObjects((param) => ctx.print(null, param.name), params, ctx, ",");
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/output_jit_trusted_types.mjs
var policy;
function getPolicy() {
  if (policy === void 0) {
    const trustedTypes = _global["trustedTypes"];
    policy = null;
    if (trustedTypes) {
      try {
        policy = trustedTypes.createPolicy("angular#unsafe-jit", {
          createScript: (s) => s
        });
      } catch (e) {
      }
    }
  }
  return policy;
}
function trustedScriptFromString(script) {
  var _a2;
  return ((_a2 = getPolicy()) == null ? void 0 : _a2.createScript(script)) || script;
}
function newTrustedFunctionForJIT(...args) {
  if (!_global["trustedTypes"]) {
    return new Function(...args);
  }
  const fnArgs = args.slice(0, -1).join(",");
  const fnBody = args[args.length - 1];
  const body = `(function anonymous(${fnArgs}
) { ${fnBody}
})`;
  const fn2 = _global["eval"](trustedScriptFromString(body));
  if (fn2.bind === void 0) {
    return new Function(...args);
  }
  fn2.toString = () => body;
  return fn2.bind(_global);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/output_jit.mjs
var JitEvaluator = class {
  evaluateStatements(sourceUrl, statements, refResolver, createSourceMaps) {
    const converter = new JitEmitterVisitor(refResolver);
    const ctx = EmitterVisitorContext.createRoot();
    if (statements.length > 0 && !isUseStrictStatement(statements[0])) {
      statements = [literal("use strict").toStmt(), ...statements];
    }
    converter.visitAllStatements(statements, ctx);
    converter.createReturnStmt(ctx);
    return this.evaluateCode(sourceUrl, ctx, converter.getArgs(), createSourceMaps);
  }
  evaluateCode(sourceUrl, ctx, vars, createSourceMap) {
    let fnBody = `"use strict";${ctx.toSource()}
//# sourceURL=${sourceUrl}`;
    const fnArgNames = [];
    const fnArgValues = [];
    for (const argName in vars) {
      fnArgValues.push(vars[argName]);
      fnArgNames.push(argName);
    }
    if (createSourceMap) {
      const emptyFn = newTrustedFunctionForJIT(...fnArgNames.concat("return null;")).toString();
      const headerLines = emptyFn.slice(0, emptyFn.indexOf("return null;")).split("\n").length - 1;
      fnBody += `
${ctx.toSourceMapGenerator(sourceUrl, headerLines).toJsComment()}`;
    }
    const fn2 = newTrustedFunctionForJIT(...fnArgNames.concat(fnBody));
    return this.executeFunction(fn2, fnArgValues);
  }
  executeFunction(fn2, args) {
    return fn2(...args);
  }
};
var JitEmitterVisitor = class extends AbstractJsEmitterVisitor {
  constructor(refResolver) {
    super();
    this.refResolver = refResolver;
    this._evalArgNames = [];
    this._evalArgValues = [];
    this._evalExportedVars = [];
  }
  createReturnStmt(ctx) {
    const stmt = new ReturnStatement(new LiteralMapExpr(this._evalExportedVars.map((resultVar) => new LiteralMapEntry(resultVar, variable(resultVar), false))));
    stmt.visitStatement(this, ctx);
  }
  getArgs() {
    const result = {};
    for (let i = 0; i < this._evalArgNames.length; i++) {
      result[this._evalArgNames[i]] = this._evalArgValues[i];
    }
    return result;
  }
  visitExternalExpr(ast, ctx) {
    this._emitReferenceToExternal(ast, this.refResolver.resolveExternalReference(ast.value), ctx);
    return null;
  }
  visitWrappedNodeExpr(ast, ctx) {
    this._emitReferenceToExternal(ast, ast.node, ctx);
    return null;
  }
  visitDeclareVarStmt(stmt, ctx) {
    if (stmt.hasModifier(StmtModifier.Exported)) {
      this._evalExportedVars.push(stmt.name);
    }
    return super.visitDeclareVarStmt(stmt, ctx);
  }
  visitDeclareFunctionStmt(stmt, ctx) {
    if (stmt.hasModifier(StmtModifier.Exported)) {
      this._evalExportedVars.push(stmt.name);
    }
    return super.visitDeclareFunctionStmt(stmt, ctx);
  }
  _emitReferenceToExternal(ast, value, ctx) {
    let id = this._evalArgValues.indexOf(value);
    if (id === -1) {
      id = this._evalArgValues.length;
      this._evalArgValues.push(value);
      const name = identifierName({ reference: value }) || "val";
      this._evalArgNames.push(`jit_${name}_${id}`);
    }
    ctx.print(ast, this._evalArgNames[id]);
  }
};
function isUseStrictStatement(statement) {
  return statement.isEquivalent(literal("use strict").toStmt());
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_injector_compiler.mjs
function compileInjector(meta) {
  const definitionMap = new DefinitionMap();
  if (meta.providers !== null) {
    definitionMap.set("providers", meta.providers);
  }
  if (meta.imports.length > 0) {
    definitionMap.set("imports", literalArr(meta.imports));
  }
  const expression = importExpr(Identifiers.defineInjector).callFn([definitionMap.toLiteralMap()], void 0, true);
  const type = createInjectorType(meta);
  return { expression, type, statements: [] };
}
function createInjectorType(meta) {
  return new ExpressionType(importExpr(Identifiers.InjectorDeclaration, [new ExpressionType(meta.type.type)]));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_jit.mjs
var R3JitReflector = class {
  constructor(context) {
    this.context = context;
  }
  resolveExternalReference(ref) {
    if (ref.moduleName !== "@angular/core") {
      throw new Error(`Cannot resolve external reference to ${ref.moduleName}, only references to @angular/core are supported.`);
    }
    if (!this.context.hasOwnProperty(ref.name)) {
      throw new Error(`No value provided for @angular/core symbol '${ref.name}'.`);
    }
    return this.context[ref.name];
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_module_compiler.mjs
var R3SelectorScopeMode;
(function(R3SelectorScopeMode2) {
  R3SelectorScopeMode2[R3SelectorScopeMode2["Inline"] = 0] = "Inline";
  R3SelectorScopeMode2[R3SelectorScopeMode2["SideEffect"] = 1] = "SideEffect";
  R3SelectorScopeMode2[R3SelectorScopeMode2["Omit"] = 2] = "Omit";
})(R3SelectorScopeMode || (R3SelectorScopeMode = {}));
var R3NgModuleMetadataKind;
(function(R3NgModuleMetadataKind2) {
  R3NgModuleMetadataKind2[R3NgModuleMetadataKind2["Global"] = 0] = "Global";
  R3NgModuleMetadataKind2[R3NgModuleMetadataKind2["Local"] = 1] = "Local";
})(R3NgModuleMetadataKind || (R3NgModuleMetadataKind = {}));
function compileNgModule(meta) {
  const statements = [];
  const definitionMap = new DefinitionMap();
  definitionMap.set("type", meta.type.value);
  if (meta.kind === R3NgModuleMetadataKind.Global && meta.bootstrap.length > 0) {
    definitionMap.set("bootstrap", refsToArray(meta.bootstrap, meta.containsForwardDecls));
  }
  if (meta.selectorScopeMode === R3SelectorScopeMode.Inline) {
    if (meta.declarations.length > 0) {
      definitionMap.set("declarations", refsToArray(meta.declarations, meta.containsForwardDecls));
    }
    if (meta.imports.length > 0) {
      definitionMap.set("imports", refsToArray(meta.imports, meta.containsForwardDecls));
    }
    if (meta.exports.length > 0) {
      definitionMap.set("exports", refsToArray(meta.exports, meta.containsForwardDecls));
    }
  } else if (meta.selectorScopeMode === R3SelectorScopeMode.SideEffect) {
    const setNgModuleScopeCall = generateSetNgModuleScopeCall(meta);
    if (setNgModuleScopeCall !== null) {
      statements.push(setNgModuleScopeCall);
    }
  } else {
  }
  if (meta.schemas !== null && meta.schemas.length > 0) {
    definitionMap.set("schemas", literalArr(meta.schemas.map((ref) => ref.value)));
  }
  if (meta.id !== null) {
    definitionMap.set("id", meta.id);
    statements.push(importExpr(Identifiers.registerNgModuleType).callFn([meta.type.value, meta.id]).toStmt());
  }
  const expression = importExpr(Identifiers.defineNgModule).callFn([definitionMap.toLiteralMap()], void 0, true);
  const type = createNgModuleType(meta);
  return { expression, type, statements };
}
function compileNgModuleDeclarationExpression(meta) {
  const definitionMap = new DefinitionMap();
  definitionMap.set("type", new WrappedNodeExpr(meta.type));
  if (meta.bootstrap !== void 0) {
    definitionMap.set("bootstrap", new WrappedNodeExpr(meta.bootstrap));
  }
  if (meta.declarations !== void 0) {
    definitionMap.set("declarations", new WrappedNodeExpr(meta.declarations));
  }
  if (meta.imports !== void 0) {
    definitionMap.set("imports", new WrappedNodeExpr(meta.imports));
  }
  if (meta.exports !== void 0) {
    definitionMap.set("exports", new WrappedNodeExpr(meta.exports));
  }
  if (meta.schemas !== void 0) {
    definitionMap.set("schemas", new WrappedNodeExpr(meta.schemas));
  }
  if (meta.id !== void 0) {
    definitionMap.set("id", new WrappedNodeExpr(meta.id));
  }
  return importExpr(Identifiers.defineNgModule).callFn([definitionMap.toLiteralMap()]);
}
function createNgModuleType(meta) {
  if (meta.kind === R3NgModuleMetadataKind.Local) {
    return new ExpressionType(meta.type.value);
  }
  const { type: moduleType, declarations, exports, imports, includeImportTypes, publicDeclarationTypes } = meta;
  return new ExpressionType(importExpr(Identifiers.NgModuleDeclaration, [
    new ExpressionType(moduleType.type),
    publicDeclarationTypes === null ? tupleTypeOf(declarations) : tupleOfTypes(publicDeclarationTypes),
    includeImportTypes ? tupleTypeOf(imports) : NONE_TYPE,
    tupleTypeOf(exports)
  ]));
}
function generateSetNgModuleScopeCall(meta) {
  const scopeMap = new DefinitionMap();
  if (meta.kind === R3NgModuleMetadataKind.Global) {
    if (meta.declarations.length > 0) {
      scopeMap.set("declarations", refsToArray(meta.declarations, meta.containsForwardDecls));
    }
  } else {
    if (meta.declarationsExpression) {
      scopeMap.set("declarations", meta.declarationsExpression);
    }
  }
  if (meta.kind === R3NgModuleMetadataKind.Global) {
    if (meta.imports.length > 0) {
      scopeMap.set("imports", refsToArray(meta.imports, meta.containsForwardDecls));
    }
  } else {
    if (meta.importsExpression) {
      scopeMap.set("imports", meta.importsExpression);
    }
  }
  if (meta.kind === R3NgModuleMetadataKind.Global) {
    if (meta.exports.length > 0) {
      scopeMap.set("exports", refsToArray(meta.exports, meta.containsForwardDecls));
    }
  } else {
    if (meta.exportsExpression) {
      scopeMap.set("exports", meta.exportsExpression);
    }
  }
  if (meta.kind === R3NgModuleMetadataKind.Local && meta.bootstrapExpression) {
    scopeMap.set("bootstrap", meta.bootstrapExpression);
  }
  if (Object.keys(scopeMap.values).length === 0) {
    return null;
  }
  const fnCall = new InvokeFunctionExpr(
    importExpr(Identifiers.setNgModuleScope),
    [meta.type.value, scopeMap.toLiteralMap()]
  );
  const guardedCall = jitOnlyGuardedExpression(fnCall);
  const iife = new FunctionExpr([], [guardedCall.toStmt()]);
  const iifeCall = new InvokeFunctionExpr(iife, []);
  return iifeCall.toStmt();
}
function tupleTypeOf(exp) {
  const types = exp.map((ref) => typeofExpr(ref.type));
  return exp.length > 0 ? expressionType(literalArr(types)) : NONE_TYPE;
}
function tupleOfTypes(types) {
  const typeofTypes = types.map((type) => typeofExpr(type));
  return types.length > 0 ? expressionType(literalArr(typeofTypes)) : NONE_TYPE;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_pipe_compiler.mjs
function compilePipeFromMetadata(metadata) {
  const definitionMapValues = [];
  definitionMapValues.push({ key: "name", value: literal(metadata.pipeName), quoted: false });
  definitionMapValues.push({ key: "type", value: metadata.type.value, quoted: false });
  definitionMapValues.push({ key: "pure", value: literal(metadata.pure), quoted: false });
  if (metadata.isStandalone) {
    definitionMapValues.push({ key: "standalone", value: literal(true), quoted: false });
  }
  const expression = importExpr(Identifiers.definePipe).callFn([literalMap(definitionMapValues)], void 0, true);
  const type = createPipeType(metadata);
  return { expression, type, statements: [] };
}
function createPipeType(metadata) {
  return new ExpressionType(importExpr(Identifiers.PipeDeclaration, [
    typeWithParameters(metadata.type.type, metadata.typeArgumentCount),
    new ExpressionType(new LiteralExpr(metadata.pipeName)),
    new ExpressionType(new LiteralExpr(metadata.isStandalone))
  ]));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/api.mjs
var R3TemplateDependencyKind;
(function(R3TemplateDependencyKind2) {
  R3TemplateDependencyKind2[R3TemplateDependencyKind2["Directive"] = 0] = "Directive";
  R3TemplateDependencyKind2[R3TemplateDependencyKind2["Pipe"] = 1] = "Pipe";
  R3TemplateDependencyKind2[R3TemplateDependencyKind2["NgModule"] = 2] = "NgModule";
})(R3TemplateDependencyKind || (R3TemplateDependencyKind = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/shadow_css.mjs
var animationKeywords = /* @__PURE__ */ new Set([
  "inherit",
  "initial",
  "revert",
  "unset",
  "alternate",
  "alternate-reverse",
  "normal",
  "reverse",
  "backwards",
  "both",
  "forwards",
  "none",
  "paused",
  "running",
  "ease",
  "ease-in",
  "ease-in-out",
  "ease-out",
  "linear",
  "step-start",
  "step-end",
  "end",
  "jump-both",
  "jump-end",
  "jump-none",
  "jump-start",
  "start"
]);
var scopedAtRuleIdentifiers = [
  "@media",
  "@supports",
  "@document",
  "@layer",
  "@container",
  "@scope",
  "@starting-style"
];
var ShadowCss = class {
  constructor() {
    this._animationDeclarationKeyframesRe = /(^|\s+|,)(?:(?:(['"])((?:\\\\|\\\2|(?!\2).)+)\2)|(-?[A-Za-z][\w\-]*))(?=[,\s]|$)/g;
  }
  shimCssText(cssText, selector, hostSelector = "") {
    const comments = [];
    cssText = cssText.replace(_commentRe, (m) => {
      var _a2;
      if (m.match(_commentWithHashRe)) {
        comments.push(m);
      } else {
        const newLinesMatches = m.match(_newLinesRe);
        comments.push(((_a2 = newLinesMatches == null ? void 0 : newLinesMatches.join("")) != null ? _a2 : "") + "\n");
      }
      return COMMENT_PLACEHOLDER;
    });
    cssText = this._insertDirectives(cssText);
    const scopedCssText = this._scopeCssText(cssText, selector, hostSelector);
    let commentIdx = 0;
    return scopedCssText.replace(_commentWithHashPlaceHolderRe, () => comments[commentIdx++]);
  }
  _insertDirectives(cssText) {
    cssText = this._insertPolyfillDirectivesInCssText(cssText);
    return this._insertPolyfillRulesInCssText(cssText);
  }
  _scopeKeyframesRelatedCss(cssText, scopeSelector) {
    const unscopedKeyframesSet = /* @__PURE__ */ new Set();
    const scopedKeyframesCssText = processRules(cssText, (rule) => this._scopeLocalKeyframeDeclarations(rule, scopeSelector, unscopedKeyframesSet));
    return processRules(scopedKeyframesCssText, (rule) => this._scopeAnimationRule(rule, scopeSelector, unscopedKeyframesSet));
  }
  _scopeLocalKeyframeDeclarations(rule, scopeSelector, unscopedKeyframesSet) {
    return __spreadProps(__spreadValues({}, rule), {
      selector: rule.selector.replace(/(^@(?:-webkit-)?keyframes(?:\s+))(['"]?)(.+)\2(\s*)$/, (_, start, quote, keyframeName, endSpaces) => {
        unscopedKeyframesSet.add(unescapeQuotes(keyframeName, quote));
        return `${start}${quote}${scopeSelector}_${keyframeName}${quote}${endSpaces}`;
      })
    });
  }
  _scopeAnimationKeyframe(keyframe, scopeSelector, unscopedKeyframesSet) {
    return keyframe.replace(/^(\s*)(['"]?)(.+?)\2(\s*)$/, (_, spaces1, quote, name, spaces2) => {
      name = `${unscopedKeyframesSet.has(unescapeQuotes(name, quote)) ? scopeSelector + "_" : ""}${name}`;
      return `${spaces1}${quote}${name}${quote}${spaces2}`;
    });
  }
  _scopeAnimationRule(rule, scopeSelector, unscopedKeyframesSet) {
    let content = rule.content.replace(/((?:^|\s+|;)(?:-webkit-)?animation\s*:\s*),*([^;]+)/g, (_, start, animationDeclarations) => start + animationDeclarations.replace(this._animationDeclarationKeyframesRe, (original, leadingSpaces, quote = "", quotedName, nonQuotedName) => {
      if (quotedName) {
        return `${leadingSpaces}${this._scopeAnimationKeyframe(`${quote}${quotedName}${quote}`, scopeSelector, unscopedKeyframesSet)}`;
      } else {
        return animationKeywords.has(nonQuotedName) ? original : `${leadingSpaces}${this._scopeAnimationKeyframe(nonQuotedName, scopeSelector, unscopedKeyframesSet)}`;
      }
    }));
    content = content.replace(/((?:^|\s+|;)(?:-webkit-)?animation-name(?:\s*):(?:\s*))([^;]+)/g, (_match, start, commaSeparatedKeyframes) => `${start}${commaSeparatedKeyframes.split(",").map((keyframe) => this._scopeAnimationKeyframe(keyframe, scopeSelector, unscopedKeyframesSet)).join(",")}`);
    return __spreadProps(__spreadValues({}, rule), { content });
  }
  _insertPolyfillDirectivesInCssText(cssText) {
    return cssText.replace(_cssContentNextSelectorRe, function(...m) {
      return m[2] + "{";
    });
  }
  _insertPolyfillRulesInCssText(cssText) {
    return cssText.replace(_cssContentRuleRe, (...m) => {
      const rule = m[0].replace(m[1], "").replace(m[2], "");
      return m[4] + rule;
    });
  }
  _scopeCssText(cssText, scopeSelector, hostSelector) {
    const unscopedRules = this._extractUnscopedRulesFromCssText(cssText);
    cssText = this._insertPolyfillHostInCssText(cssText);
    cssText = this._convertColonHost(cssText);
    cssText = this._convertColonHostContext(cssText);
    cssText = this._convertShadowDOMSelectors(cssText);
    if (scopeSelector) {
      cssText = this._scopeKeyframesRelatedCss(cssText, scopeSelector);
      cssText = this._scopeSelectors(cssText, scopeSelector, hostSelector);
    }
    cssText = cssText + "\n" + unscopedRules;
    return cssText.trim();
  }
  _extractUnscopedRulesFromCssText(cssText) {
    let r = "";
    let m;
    _cssContentUnscopedRuleRe.lastIndex = 0;
    while ((m = _cssContentUnscopedRuleRe.exec(cssText)) !== null) {
      const rule = m[0].replace(m[2], "").replace(m[1], m[4]);
      r += rule + "\n\n";
    }
    return r;
  }
  _convertColonHost(cssText) {
    return cssText.replace(_cssColonHostRe, (_, hostSelectors, otherSelectors) => {
      if (hostSelectors) {
        const convertedSelectors = [];
        const hostSelectorArray = hostSelectors.split(",").map((p) => p.trim());
        for (const hostSelector of hostSelectorArray) {
          if (!hostSelector)
            break;
          const convertedSelector = _polyfillHostNoCombinator + hostSelector.replace(_polyfillHost, "") + otherSelectors;
          convertedSelectors.push(convertedSelector);
        }
        return convertedSelectors.join(",");
      } else {
        return _polyfillHostNoCombinator + otherSelectors;
      }
    });
  }
  _convertColonHostContext(cssText) {
    return cssText.replace(_cssColonHostContextReGlobal, (selectorText) => {
      var _a2;
      const contextSelectorGroups = [[]];
      let match;
      while (match = _cssColonHostContextRe.exec(selectorText)) {
        const newContextSelectors = ((_a2 = match[1]) != null ? _a2 : "").trim().split(",").map((m) => m.trim()).filter((m) => m !== "");
        const contextSelectorGroupsLength = contextSelectorGroups.length;
        repeatGroups(contextSelectorGroups, newContextSelectors.length);
        for (let i = 0; i < newContextSelectors.length; i++) {
          for (let j = 0; j < contextSelectorGroupsLength; j++) {
            contextSelectorGroups[j + i * contextSelectorGroupsLength].push(newContextSelectors[i]);
          }
        }
        selectorText = match[2];
      }
      return contextSelectorGroups.map((contextSelectors) => combineHostContextSelectors(contextSelectors, selectorText)).join(", ");
    });
  }
  _convertShadowDOMSelectors(cssText) {
    return _shadowDOMSelectorsRe.reduce((result, pattern) => result.replace(pattern, " "), cssText);
  }
  _scopeSelectors(cssText, scopeSelector, hostSelector) {
    return processRules(cssText, (rule) => {
      let selector = rule.selector;
      let content = rule.content;
      if (rule.selector[0] !== "@") {
        selector = this._scopeSelector(rule.selector, scopeSelector, hostSelector);
      } else if (scopedAtRuleIdentifiers.some((atRule) => rule.selector.startsWith(atRule))) {
        content = this._scopeSelectors(rule.content, scopeSelector, hostSelector);
      } else if (rule.selector.startsWith("@font-face") || rule.selector.startsWith("@page")) {
        content = this._stripScopingSelectors(rule.content);
      }
      return new CssRule(selector, content);
    });
  }
  _stripScopingSelectors(cssText) {
    return processRules(cssText, (rule) => {
      const selector = rule.selector.replace(_shadowDeepSelectors, " ").replace(_polyfillHostNoCombinatorRe, " ");
      return new CssRule(selector, rule.content);
    });
  }
  _scopeSelector(selector, scopeSelector, hostSelector) {
    return selector.split(/ ?, ?/).map((part) => part.split(_shadowDeepSelectors)).map((deepParts) => {
      const [shallowPart, ...otherParts] = deepParts;
      const applyScope = (shallowPart2) => {
        if (this._selectorNeedsScoping(shallowPart2, scopeSelector)) {
          return this._applySelectorScope(shallowPart2, scopeSelector, hostSelector);
        } else {
          return shallowPart2;
        }
      };
      return [applyScope(shallowPart), ...otherParts].join(" ");
    }).join(", ");
  }
  _selectorNeedsScoping(selector, scopeSelector) {
    const re = this._makeScopeMatcher(scopeSelector);
    return !re.test(selector);
  }
  _makeScopeMatcher(scopeSelector) {
    const lre = /\[/g;
    const rre = /\]/g;
    scopeSelector = scopeSelector.replace(lre, "\\[").replace(rre, "\\]");
    return new RegExp("^(" + scopeSelector + ")" + _selectorReSuffix, "m");
  }
  _applySimpleSelectorScope(selector, scopeSelector, hostSelector) {
    _polyfillHostRe.lastIndex = 0;
    if (_polyfillHostRe.test(selector)) {
      const replaceBy = `[${hostSelector}]`;
      return selector.replace(_polyfillHostNoCombinatorRe, (hnc, selector2) => {
        return selector2.replace(/([^:]*)(:*)(.*)/, (_, before, colon, after) => {
          return before + replaceBy + colon + after;
        });
      }).replace(_polyfillHostRe, replaceBy + " ");
    }
    return scopeSelector + " " + selector;
  }
  _applySelectorScope(selector, scopeSelector, hostSelector) {
    var _a2;
    const isRe = /\[is=([^\]]*)\]/g;
    scopeSelector = scopeSelector.replace(isRe, (_, ...parts) => parts[0]);
    const attrName = "[" + scopeSelector + "]";
    const _scopeSelectorPart = (p) => {
      let scopedP = p.trim();
      if (!scopedP) {
        return p;
      }
      if (p.includes(_polyfillHostNoCombinator)) {
        scopedP = this._applySimpleSelectorScope(p, scopeSelector, hostSelector);
      } else {
        const t = p.replace(_polyfillHostRe, "");
        if (t.length > 0) {
          const matches = t.match(/([^:]*)(:*)(.*)/);
          if (matches) {
            scopedP = matches[1] + attrName + matches[2] + matches[3];
          }
        }
      }
      return scopedP;
    };
    const safeContent = new SafeSelector(selector);
    selector = safeContent.content();
    let scopedSelector = "";
    let startIndex = 0;
    let res;
    const sep = /( |>|\+|~(?!=))\s*/g;
    const hasHost = selector.includes(_polyfillHostNoCombinator);
    let shouldScope = !hasHost;
    while ((res = sep.exec(selector)) !== null) {
      const separator = res[1];
      const part2 = selector.slice(startIndex, res.index);
      if (part2.match(/__esc-ph-(\d+)__/) && ((_a2 = selector[res.index + 1]) == null ? void 0 : _a2.match(/[a-fA-F\d]/))) {
        continue;
      }
      shouldScope = shouldScope || part2.includes(_polyfillHostNoCombinator);
      const scopedPart = shouldScope ? _scopeSelectorPart(part2) : part2;
      scopedSelector += `${scopedPart} ${separator} `;
      startIndex = sep.lastIndex;
    }
    const part = selector.substring(startIndex);
    shouldScope = shouldScope || part.includes(_polyfillHostNoCombinator);
    scopedSelector += shouldScope ? _scopeSelectorPart(part) : part;
    return safeContent.restore(scopedSelector);
  }
  _insertPolyfillHostInCssText(selector) {
    return selector.replace(_colonHostContextRe, _polyfillHostContext).replace(_colonHostRe, _polyfillHost);
  }
};
var SafeSelector = class {
  constructor(selector) {
    this.placeholders = [];
    this.index = 0;
    selector = this._escapeRegexMatches(selector, /(\[[^\]]*\])/g);
    selector = selector.replace(/(\\.)/g, (_, keep) => {
      const replaceBy = `__esc-ph-${this.index}__`;
      this.placeholders.push(keep);
      this.index++;
      return replaceBy;
    });
    this._content = selector.replace(/(:nth-[-\w]+)(\([^)]+\))/g, (_, pseudo, exp) => {
      const replaceBy = `__ph-${this.index}__`;
      this.placeholders.push(exp);
      this.index++;
      return pseudo + replaceBy;
    });
  }
  restore(content) {
    return content.replace(/__(?:ph|esc-ph)-(\d+)__/g, (_ph, index) => this.placeholders[+index]);
  }
  content() {
    return this._content;
  }
  _escapeRegexMatches(content, pattern) {
    return content.replace(pattern, (_, keep) => {
      const replaceBy = `__ph-${this.index}__`;
      this.placeholders.push(keep);
      this.index++;
      return replaceBy;
    });
  }
};
var _cssContentNextSelectorRe = /polyfill-next-selector[^}]*content:[\s]*?(['"])(.*?)\1[;\s]*}([^{]*?){/gim;
var _cssContentRuleRe = /(polyfill-rule)[^}]*(content:[\s]*(['"])(.*?)\3)[;\s]*[^}]*}/gim;
var _cssContentUnscopedRuleRe = /(polyfill-unscoped-rule)[^}]*(content:[\s]*(['"])(.*?)\3)[;\s]*[^}]*}/gim;
var _polyfillHost = "-shadowcsshost";
var _polyfillHostContext = "-shadowcsscontext";
var _parenSuffix = "(?:\\(((?:\\([^)(]*\\)|[^)(]*)+?)\\))?([^,{]*)";
var _cssColonHostRe = new RegExp(_polyfillHost + _parenSuffix, "gim");
var _cssColonHostContextReGlobal = new RegExp(_polyfillHostContext + _parenSuffix, "gim");
var _cssColonHostContextRe = new RegExp(_polyfillHostContext + _parenSuffix, "im");
var _polyfillHostNoCombinator = _polyfillHost + "-no-combinator";
var _polyfillHostNoCombinatorRe = /-shadowcsshost-no-combinator([^\s]*)/;
var _shadowDOMSelectorsRe = [
  /::shadow/g,
  /::content/g,
  /\/shadow-deep\//g,
  /\/shadow\//g
];
var _shadowDeepSelectors = /(?:>>>)|(?:\/deep\/)|(?:::ng-deep)/g;
var _selectorReSuffix = "([>\\s~+[.,{:][\\s\\S]*)?$";
var _polyfillHostRe = /-shadowcsshost/gim;
var _colonHostRe = /:host/gim;
var _colonHostContextRe = /:host-context/gim;
var _newLinesRe = /\r?\n/g;
var _commentRe = /\/\*[\s\S]*?\*\//g;
var _commentWithHashRe = /\/\*\s*#\s*source(Mapping)?URL=/g;
var COMMENT_PLACEHOLDER = "%COMMENT%";
var _commentWithHashPlaceHolderRe = new RegExp(COMMENT_PLACEHOLDER, "g");
var BLOCK_PLACEHOLDER = "%BLOCK%";
var _ruleRe = new RegExp(`(\\s*(?:${COMMENT_PLACEHOLDER}\\s*)*)([^;\\{\\}]+?)(\\s*)((?:{%BLOCK%}?\\s*;?)|(?:\\s*;))`, "g");
var CONTENT_PAIRS = /* @__PURE__ */ new Map([["{", "}"]]);
var COMMA_IN_PLACEHOLDER = "%COMMA_IN_PLACEHOLDER%";
var SEMI_IN_PLACEHOLDER = "%SEMI_IN_PLACEHOLDER%";
var COLON_IN_PLACEHOLDER = "%COLON_IN_PLACEHOLDER%";
var _cssCommaInPlaceholderReGlobal = new RegExp(COMMA_IN_PLACEHOLDER, "g");
var _cssSemiInPlaceholderReGlobal = new RegExp(SEMI_IN_PLACEHOLDER, "g");
var _cssColonInPlaceholderReGlobal = new RegExp(COLON_IN_PLACEHOLDER, "g");
var CssRule = class {
  constructor(selector, content) {
    this.selector = selector;
    this.content = content;
  }
};
function processRules(input, ruleCallback) {
  const escaped = escapeInStrings(input);
  const inputWithEscapedBlocks = escapeBlocks(escaped, CONTENT_PAIRS, BLOCK_PLACEHOLDER);
  let nextBlockIndex = 0;
  const escapedResult = inputWithEscapedBlocks.escapedString.replace(_ruleRe, (...m) => {
    const selector = m[2];
    let content = "";
    let suffix = m[4];
    let contentPrefix = "";
    if (suffix && suffix.startsWith("{" + BLOCK_PLACEHOLDER)) {
      content = inputWithEscapedBlocks.blocks[nextBlockIndex++];
      suffix = suffix.substring(BLOCK_PLACEHOLDER.length + 1);
      contentPrefix = "{";
    }
    const rule = ruleCallback(new CssRule(selector, content));
    return `${m[1]}${rule.selector}${m[3]}${contentPrefix}${rule.content}${suffix}`;
  });
  return unescapeInStrings(escapedResult);
}
var StringWithEscapedBlocks = class {
  constructor(escapedString, blocks) {
    this.escapedString = escapedString;
    this.blocks = blocks;
  }
};
function escapeBlocks(input, charPairs, placeholder) {
  const resultParts = [];
  const escapedBlocks = [];
  let openCharCount = 0;
  let nonBlockStartIndex = 0;
  let blockStartIndex = -1;
  let openChar;
  let closeChar;
  for (let i = 0; i < input.length; i++) {
    const char = input[i];
    if (char === "\\") {
      i++;
    } else if (char === closeChar) {
      openCharCount--;
      if (openCharCount === 0) {
        escapedBlocks.push(input.substring(blockStartIndex, i));
        resultParts.push(placeholder);
        nonBlockStartIndex = i;
        blockStartIndex = -1;
        openChar = closeChar = void 0;
      }
    } else if (char === openChar) {
      openCharCount++;
    } else if (openCharCount === 0 && charPairs.has(char)) {
      openChar = char;
      closeChar = charPairs.get(char);
      openCharCount = 1;
      blockStartIndex = i + 1;
      resultParts.push(input.substring(nonBlockStartIndex, blockStartIndex));
    }
  }
  if (blockStartIndex !== -1) {
    escapedBlocks.push(input.substring(blockStartIndex));
    resultParts.push(placeholder);
  } else {
    resultParts.push(input.substring(nonBlockStartIndex));
  }
  return new StringWithEscapedBlocks(resultParts.join(""), escapedBlocks);
}
var ESCAPE_IN_STRING_MAP = {
  ";": SEMI_IN_PLACEHOLDER,
  ",": COMMA_IN_PLACEHOLDER,
  ":": COLON_IN_PLACEHOLDER
};
function escapeInStrings(input) {
  let result = input;
  let currentQuoteChar = null;
  for (let i = 0; i < result.length; i++) {
    const char = result[i];
    if (char === "\\") {
      i++;
    } else {
      if (currentQuoteChar !== null) {
        if (char === currentQuoteChar) {
          currentQuoteChar = null;
        } else {
          const placeholder = ESCAPE_IN_STRING_MAP[char];
          if (placeholder) {
            result = `${result.substr(0, i)}${placeholder}${result.substr(i + 1)}`;
            i += placeholder.length - 1;
          }
        }
      } else if (char === "'" || char === '"') {
        currentQuoteChar = char;
      }
    }
  }
  return result;
}
function unescapeInStrings(input) {
  let result = input.replace(_cssCommaInPlaceholderReGlobal, ",");
  result = result.replace(_cssSemiInPlaceholderReGlobal, ";");
  result = result.replace(_cssColonInPlaceholderReGlobal, ":");
  return result;
}
function unescapeQuotes(str, isQuoted) {
  return !isQuoted ? str : str.replace(/((?:^|[^\\])(?:\\\\)*)\\(?=['"])/g, "$1");
}
function combineHostContextSelectors(contextSelectors, otherSelectors) {
  const hostMarker = _polyfillHostNoCombinator;
  _polyfillHostRe.lastIndex = 0;
  const otherSelectorsHasHost = _polyfillHostRe.test(otherSelectors);
  if (contextSelectors.length === 0) {
    return hostMarker + otherSelectors;
  }
  const combined = [contextSelectors.pop() || ""];
  while (contextSelectors.length > 0) {
    const length = combined.length;
    const contextSelector = contextSelectors.pop();
    for (let i = 0; i < length; i++) {
      const previousSelectors = combined[i];
      combined[length * 2 + i] = previousSelectors + " " + contextSelector;
      combined[length + i] = contextSelector + " " + previousSelectors;
      combined[i] = contextSelector + previousSelectors;
    }
  }
  return combined.map((s) => otherSelectorsHasHost ? `${s}${otherSelectors}` : `${s}${hostMarker}${otherSelectors}, ${s} ${hostMarker}${otherSelectors}`).join(",");
}
function repeatGroups(groups, multiples) {
  const length = groups.length;
  for (let i = 1; i < multiples; i++) {
    for (let j = 0; j < length; j++) {
      groups[j + i * length] = groups[j].slice(0);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/enums.mjs
var OpKind;
(function(OpKind2) {
  OpKind2[OpKind2["ListEnd"] = 0] = "ListEnd";
  OpKind2[OpKind2["Statement"] = 1] = "Statement";
  OpKind2[OpKind2["Variable"] = 2] = "Variable";
  OpKind2[OpKind2["ElementStart"] = 3] = "ElementStart";
  OpKind2[OpKind2["Element"] = 4] = "Element";
  OpKind2[OpKind2["Template"] = 5] = "Template";
  OpKind2[OpKind2["ElementEnd"] = 6] = "ElementEnd";
  OpKind2[OpKind2["ContainerStart"] = 7] = "ContainerStart";
  OpKind2[OpKind2["Container"] = 8] = "Container";
  OpKind2[OpKind2["ContainerEnd"] = 9] = "ContainerEnd";
  OpKind2[OpKind2["DisableBindings"] = 10] = "DisableBindings";
  OpKind2[OpKind2["Conditional"] = 11] = "Conditional";
  OpKind2[OpKind2["EnableBindings"] = 12] = "EnableBindings";
  OpKind2[OpKind2["Text"] = 13] = "Text";
  OpKind2[OpKind2["Listener"] = 14] = "Listener";
  OpKind2[OpKind2["InterpolateText"] = 15] = "InterpolateText";
  OpKind2[OpKind2["Binding"] = 16] = "Binding";
  OpKind2[OpKind2["Property"] = 17] = "Property";
  OpKind2[OpKind2["StyleProp"] = 18] = "StyleProp";
  OpKind2[OpKind2["ClassProp"] = 19] = "ClassProp";
  OpKind2[OpKind2["StyleMap"] = 20] = "StyleMap";
  OpKind2[OpKind2["ClassMap"] = 21] = "ClassMap";
  OpKind2[OpKind2["Advance"] = 22] = "Advance";
  OpKind2[OpKind2["Pipe"] = 23] = "Pipe";
  OpKind2[OpKind2["Attribute"] = 24] = "Attribute";
  OpKind2[OpKind2["ExtractedAttribute"] = 25] = "ExtractedAttribute";
  OpKind2[OpKind2["Defer"] = 26] = "Defer";
  OpKind2[OpKind2["DeferOn"] = 27] = "DeferOn";
  OpKind2[OpKind2["DeferWhen"] = 28] = "DeferWhen";
  OpKind2[OpKind2["I18nMessage"] = 29] = "I18nMessage";
  OpKind2[OpKind2["HostProperty"] = 30] = "HostProperty";
  OpKind2[OpKind2["Namespace"] = 31] = "Namespace";
  OpKind2[OpKind2["ProjectionDef"] = 32] = "ProjectionDef";
  OpKind2[OpKind2["Projection"] = 33] = "Projection";
  OpKind2[OpKind2["RepeaterCreate"] = 34] = "RepeaterCreate";
  OpKind2[OpKind2["Repeater"] = 35] = "Repeater";
  OpKind2[OpKind2["TwoWayProperty"] = 36] = "TwoWayProperty";
  OpKind2[OpKind2["TwoWayListener"] = 37] = "TwoWayListener";
  OpKind2[OpKind2["DeclareLet"] = 38] = "DeclareLet";
  OpKind2[OpKind2["StoreLet"] = 39] = "StoreLet";
  OpKind2[OpKind2["I18nStart"] = 40] = "I18nStart";
  OpKind2[OpKind2["I18n"] = 41] = "I18n";
  OpKind2[OpKind2["I18nEnd"] = 42] = "I18nEnd";
  OpKind2[OpKind2["I18nExpression"] = 43] = "I18nExpression";
  OpKind2[OpKind2["I18nApply"] = 44] = "I18nApply";
  OpKind2[OpKind2["IcuStart"] = 45] = "IcuStart";
  OpKind2[OpKind2["IcuEnd"] = 46] = "IcuEnd";
  OpKind2[OpKind2["IcuPlaceholder"] = 47] = "IcuPlaceholder";
  OpKind2[OpKind2["I18nContext"] = 48] = "I18nContext";
  OpKind2[OpKind2["I18nAttributes"] = 49] = "I18nAttributes";
})(OpKind || (OpKind = {}));
var ExpressionKind;
(function(ExpressionKind2) {
  ExpressionKind2[ExpressionKind2["LexicalRead"] = 0] = "LexicalRead";
  ExpressionKind2[ExpressionKind2["Context"] = 1] = "Context";
  ExpressionKind2[ExpressionKind2["TrackContext"] = 2] = "TrackContext";
  ExpressionKind2[ExpressionKind2["ReadVariable"] = 3] = "ReadVariable";
  ExpressionKind2[ExpressionKind2["NextContext"] = 4] = "NextContext";
  ExpressionKind2[ExpressionKind2["Reference"] = 5] = "Reference";
  ExpressionKind2[ExpressionKind2["StoreLet"] = 6] = "StoreLet";
  ExpressionKind2[ExpressionKind2["ContextLetReference"] = 7] = "ContextLetReference";
  ExpressionKind2[ExpressionKind2["GetCurrentView"] = 8] = "GetCurrentView";
  ExpressionKind2[ExpressionKind2["RestoreView"] = 9] = "RestoreView";
  ExpressionKind2[ExpressionKind2["ResetView"] = 10] = "ResetView";
  ExpressionKind2[ExpressionKind2["PureFunctionExpr"] = 11] = "PureFunctionExpr";
  ExpressionKind2[ExpressionKind2["PureFunctionParameterExpr"] = 12] = "PureFunctionParameterExpr";
  ExpressionKind2[ExpressionKind2["PipeBinding"] = 13] = "PipeBinding";
  ExpressionKind2[ExpressionKind2["PipeBindingVariadic"] = 14] = "PipeBindingVariadic";
  ExpressionKind2[ExpressionKind2["SafePropertyRead"] = 15] = "SafePropertyRead";
  ExpressionKind2[ExpressionKind2["SafeKeyedRead"] = 16] = "SafeKeyedRead";
  ExpressionKind2[ExpressionKind2["SafeInvokeFunction"] = 17] = "SafeInvokeFunction";
  ExpressionKind2[ExpressionKind2["SafeTernaryExpr"] = 18] = "SafeTernaryExpr";
  ExpressionKind2[ExpressionKind2["EmptyExpr"] = 19] = "EmptyExpr";
  ExpressionKind2[ExpressionKind2["AssignTemporaryExpr"] = 20] = "AssignTemporaryExpr";
  ExpressionKind2[ExpressionKind2["ReadTemporaryExpr"] = 21] = "ReadTemporaryExpr";
  ExpressionKind2[ExpressionKind2["SlotLiteralExpr"] = 22] = "SlotLiteralExpr";
  ExpressionKind2[ExpressionKind2["ConditionalCase"] = 23] = "ConditionalCase";
  ExpressionKind2[ExpressionKind2["ConstCollected"] = 24] = "ConstCollected";
  ExpressionKind2[ExpressionKind2["TwoWayBindingSet"] = 25] = "TwoWayBindingSet";
})(ExpressionKind || (ExpressionKind = {}));
var VariableFlags;
(function(VariableFlags2) {
  VariableFlags2[VariableFlags2["None"] = 0] = "None";
  VariableFlags2[VariableFlags2["AlwaysInline"] = 1] = "AlwaysInline";
})(VariableFlags || (VariableFlags = {}));
var SemanticVariableKind;
(function(SemanticVariableKind2) {
  SemanticVariableKind2[SemanticVariableKind2["Context"] = 0] = "Context";
  SemanticVariableKind2[SemanticVariableKind2["Identifier"] = 1] = "Identifier";
  SemanticVariableKind2[SemanticVariableKind2["SavedView"] = 2] = "SavedView";
  SemanticVariableKind2[SemanticVariableKind2["Alias"] = 3] = "Alias";
})(SemanticVariableKind || (SemanticVariableKind = {}));
var CompatibilityMode;
(function(CompatibilityMode2) {
  CompatibilityMode2[CompatibilityMode2["Normal"] = 0] = "Normal";
  CompatibilityMode2[CompatibilityMode2["TemplateDefinitionBuilder"] = 1] = "TemplateDefinitionBuilder";
})(CompatibilityMode || (CompatibilityMode = {}));
var BindingKind;
(function(BindingKind2) {
  BindingKind2[BindingKind2["Attribute"] = 0] = "Attribute";
  BindingKind2[BindingKind2["ClassName"] = 1] = "ClassName";
  BindingKind2[BindingKind2["StyleProperty"] = 2] = "StyleProperty";
  BindingKind2[BindingKind2["Property"] = 3] = "Property";
  BindingKind2[BindingKind2["Template"] = 4] = "Template";
  BindingKind2[BindingKind2["I18n"] = 5] = "I18n";
  BindingKind2[BindingKind2["Animation"] = 6] = "Animation";
  BindingKind2[BindingKind2["TwoWayProperty"] = 7] = "TwoWayProperty";
})(BindingKind || (BindingKind = {}));
var I18nParamResolutionTime;
(function(I18nParamResolutionTime2) {
  I18nParamResolutionTime2[I18nParamResolutionTime2["Creation"] = 0] = "Creation";
  I18nParamResolutionTime2[I18nParamResolutionTime2["Postproccessing"] = 1] = "Postproccessing";
})(I18nParamResolutionTime || (I18nParamResolutionTime = {}));
var I18nExpressionFor;
(function(I18nExpressionFor2) {
  I18nExpressionFor2[I18nExpressionFor2["I18nText"] = 0] = "I18nText";
  I18nExpressionFor2[I18nExpressionFor2["I18nAttribute"] = 1] = "I18nAttribute";
})(I18nExpressionFor || (I18nExpressionFor = {}));
var I18nParamValueFlags;
(function(I18nParamValueFlags2) {
  I18nParamValueFlags2[I18nParamValueFlags2["None"] = 0] = "None";
  I18nParamValueFlags2[I18nParamValueFlags2["ElementTag"] = 1] = "ElementTag";
  I18nParamValueFlags2[I18nParamValueFlags2["TemplateTag"] = 2] = "TemplateTag";
  I18nParamValueFlags2[I18nParamValueFlags2["OpenTag"] = 4] = "OpenTag";
  I18nParamValueFlags2[I18nParamValueFlags2["CloseTag"] = 8] = "CloseTag";
  I18nParamValueFlags2[I18nParamValueFlags2["ExpressionIndex"] = 16] = "ExpressionIndex";
})(I18nParamValueFlags || (I18nParamValueFlags = {}));
var Namespace;
(function(Namespace2) {
  Namespace2[Namespace2["HTML"] = 0] = "HTML";
  Namespace2[Namespace2["SVG"] = 1] = "SVG";
  Namespace2[Namespace2["Math"] = 2] = "Math";
})(Namespace || (Namespace = {}));
var DeferTriggerKind;
(function(DeferTriggerKind2) {
  DeferTriggerKind2[DeferTriggerKind2["Idle"] = 0] = "Idle";
  DeferTriggerKind2[DeferTriggerKind2["Immediate"] = 1] = "Immediate";
  DeferTriggerKind2[DeferTriggerKind2["Timer"] = 2] = "Timer";
  DeferTriggerKind2[DeferTriggerKind2["Hover"] = 3] = "Hover";
  DeferTriggerKind2[DeferTriggerKind2["Interaction"] = 4] = "Interaction";
  DeferTriggerKind2[DeferTriggerKind2["Viewport"] = 5] = "Viewport";
})(DeferTriggerKind || (DeferTriggerKind = {}));
var I18nContextKind;
(function(I18nContextKind2) {
  I18nContextKind2[I18nContextKind2["RootI18n"] = 0] = "RootI18n";
  I18nContextKind2[I18nContextKind2["Icu"] = 1] = "Icu";
  I18nContextKind2[I18nContextKind2["Attr"] = 2] = "Attr";
})(I18nContextKind || (I18nContextKind = {}));
var TemplateKind;
(function(TemplateKind2) {
  TemplateKind2[TemplateKind2["NgTemplate"] = 0] = "NgTemplate";
  TemplateKind2[TemplateKind2["Structural"] = 1] = "Structural";
  TemplateKind2[TemplateKind2["Block"] = 2] = "Block";
})(TemplateKind || (TemplateKind = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/traits.mjs
var ConsumesSlot = Symbol("ConsumesSlot");
var DependsOnSlotContext = Symbol("DependsOnSlotContext");
var ConsumesVarsTrait = Symbol("ConsumesVars");
var UsesVarOffset = Symbol("UsesVarOffset");
var TRAIT_CONSUMES_SLOT = {
  [ConsumesSlot]: true,
  numSlotsUsed: 1
};
var TRAIT_DEPENDS_ON_SLOT_CONTEXT = {
  [DependsOnSlotContext]: true
};
var TRAIT_CONSUMES_VARS = {
  [ConsumesVarsTrait]: true
};
function hasConsumesSlotTrait(op) {
  return op[ConsumesSlot] === true;
}
function hasDependsOnSlotContextTrait(value) {
  return value[DependsOnSlotContext] === true;
}
function hasConsumesVarsTrait(value) {
  return value[ConsumesVarsTrait] === true;
}
function hasUsesVarOffsetTrait(expr) {
  return expr[UsesVarOffset] === true;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/ops/shared.mjs
function createStatementOp(statement) {
  return __spreadValues({
    kind: OpKind.Statement,
    statement
  }, NEW_OP);
}
function createVariableOp(xref, variable2, initializer, flags) {
  return __spreadValues({
    kind: OpKind.Variable,
    xref,
    variable: variable2,
    initializer,
    flags
  }, NEW_OP);
}
var NEW_OP = {
  debugListId: null,
  prev: null,
  next: null
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/ops/update.mjs
function createInterpolateTextOp(xref, interpolation, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.InterpolateText,
    target: xref,
    interpolation,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
var Interpolation2 = class {
  constructor(strings, expressions, i18nPlaceholders) {
    this.strings = strings;
    this.expressions = expressions;
    this.i18nPlaceholders = i18nPlaceholders;
    if (i18nPlaceholders.length !== 0 && i18nPlaceholders.length !== expressions.length) {
      throw new Error(`Expected ${expressions.length} placeholders to match interpolation expression count, but got ${i18nPlaceholders.length}`);
    }
  }
};
function createBindingOp(target, kind, name, expression, unit, securityContext, isTextAttribute, isStructuralTemplateAttribute, templateKind, i18nMessage, sourceSpan) {
  return __spreadValues({
    kind: OpKind.Binding,
    bindingKind: kind,
    target,
    name,
    expression,
    unit,
    securityContext,
    isTextAttribute,
    isStructuralTemplateAttribute,
    templateKind,
    i18nContext: null,
    i18nMessage,
    sourceSpan
  }, NEW_OP);
}
function createPropertyOp(target, name, expression, isAnimationTrigger, securityContext, isStructuralTemplateAttribute, templateKind, i18nContext, i18nMessage, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.Property,
    target,
    name,
    expression,
    isAnimationTrigger,
    securityContext,
    sanitizer: null,
    isStructuralTemplateAttribute,
    templateKind,
    i18nContext,
    i18nMessage,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createTwoWayPropertyOp(target, name, expression, securityContext, isStructuralTemplateAttribute, templateKind, i18nContext, i18nMessage, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.TwoWayProperty,
    target,
    name,
    expression,
    securityContext,
    sanitizer: null,
    isStructuralTemplateAttribute,
    templateKind,
    i18nContext,
    i18nMessage,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createStylePropOp(xref, name, expression, unit, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.StyleProp,
    target: xref,
    name,
    expression,
    unit,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createClassPropOp(xref, name, expression, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.ClassProp,
    target: xref,
    name,
    expression,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createStyleMapOp(xref, expression, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.StyleMap,
    target: xref,
    expression,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createClassMapOp(xref, expression, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.ClassMap,
    target: xref,
    expression,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createAttributeOp(target, namespace, name, expression, securityContext, isTextAttribute, isStructuralTemplateAttribute, templateKind, i18nMessage, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.Attribute,
    target,
    namespace,
    name,
    expression,
    securityContext,
    sanitizer: null,
    isTextAttribute,
    isStructuralTemplateAttribute,
    templateKind,
    i18nContext: null,
    i18nMessage,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}
function createAdvanceOp(delta, sourceSpan) {
  return __spreadValues({
    kind: OpKind.Advance,
    delta,
    sourceSpan
  }, NEW_OP);
}
function createConditionalOp(target, test, conditions, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.Conditional,
    target,
    test,
    conditions,
    processed: null,
    sourceSpan,
    contextValue: null
  }, NEW_OP), TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS);
}
function createRepeaterOp(repeaterCreate2, targetSlot, collection, sourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.Repeater,
    target: repeaterCreate2,
    targetSlot,
    collection,
    sourceSpan
  }, NEW_OP), TRAIT_DEPENDS_ON_SLOT_CONTEXT);
}
function createDeferWhenOp(target, expr, prefetch, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.DeferWhen,
    target,
    expr,
    prefetch,
    sourceSpan
  }, NEW_OP), TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS);
}
function createI18nExpressionOp(context, target, i18nOwner, handle, expression, icuPlaceholder, i18nPlaceholder, resolutionTime, usage, name, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.I18nExpression,
    context,
    target,
    i18nOwner,
    handle,
    expression,
    icuPlaceholder,
    i18nPlaceholder,
    resolutionTime,
    usage,
    name,
    sourceSpan
  }, NEW_OP), TRAIT_CONSUMES_VARS), TRAIT_DEPENDS_ON_SLOT_CONTEXT);
}
function createI18nApplyOp(owner, handle, sourceSpan) {
  return __spreadValues({
    kind: OpKind.I18nApply,
    owner,
    handle,
    sourceSpan
  }, NEW_OP);
}
function createStoreLetOp(target, declaredName, value, sourceSpan) {
  return __spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.StoreLet,
    target,
    declaredName,
    value,
    sourceSpan
  }, TRAIT_DEPENDS_ON_SLOT_CONTEXT), TRAIT_CONSUMES_VARS), NEW_OP);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/expression.mjs
var _a;
var _b;
var _c;
var _d;
var _e;
var _f;
var _g;
var _h;
function isIrExpression(expr) {
  return expr instanceof ExpressionBase;
}
var ExpressionBase = class extends Expression {
  constructor(sourceSpan = null) {
    super(null, sourceSpan);
  }
};
var LexicalReadExpr = class extends ExpressionBase {
  constructor(name) {
    super();
    this.name = name;
    this.kind = ExpressionKind.LexicalRead;
  }
  visitExpression(visitor, context) {
  }
  isEquivalent(other) {
    return this.name === other.name;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new LexicalReadExpr(this.name);
  }
};
var ReferenceExpr = class extends ExpressionBase {
  constructor(target, targetSlot, offset) {
    super();
    this.target = target;
    this.targetSlot = targetSlot;
    this.offset = offset;
    this.kind = ExpressionKind.Reference;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof ReferenceExpr && e.target === this.target;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new ReferenceExpr(this.target, this.targetSlot, this.offset);
  }
};
var _StoreLetExpr = class extends ExpressionBase {
  constructor(target, value, sourceSpan) {
    super();
    this.target = target;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.kind = ExpressionKind.StoreLet;
    this[_a] = true;
    this[_b] = true;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof _StoreLetExpr && e.target === this.target && e.value.isEquivalent(this.value);
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.value = transformExpressionsInExpression(this.value, transform2, flags);
  }
  clone() {
    return new _StoreLetExpr(this.target, this.value, this.sourceSpan);
  }
};
var StoreLetExpr = _StoreLetExpr;
(() => {
  _a = ConsumesVarsTrait, _b = DependsOnSlotContext;
})();
var ContextLetReferenceExpr = class extends ExpressionBase {
  constructor(target, targetSlot) {
    super();
    this.target = target;
    this.targetSlot = targetSlot;
    this.kind = ExpressionKind.ContextLetReference;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof ContextLetReferenceExpr && e.target === this.target;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new ContextLetReferenceExpr(this.target, this.targetSlot);
  }
};
var ContextExpr = class extends ExpressionBase {
  constructor(view) {
    super();
    this.view = view;
    this.kind = ExpressionKind.Context;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof ContextExpr && e.view === this.view;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new ContextExpr(this.view);
  }
};
var TrackContextExpr = class extends ExpressionBase {
  constructor(view) {
    super();
    this.view = view;
    this.kind = ExpressionKind.TrackContext;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof TrackContextExpr && e.view === this.view;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new TrackContextExpr(this.view);
  }
};
var NextContextExpr = class extends ExpressionBase {
  constructor() {
    super();
    this.kind = ExpressionKind.NextContext;
    this.steps = 1;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof NextContextExpr && e.steps === this.steps;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    const expr = new NextContextExpr();
    expr.steps = this.steps;
    return expr;
  }
};
var GetCurrentViewExpr = class extends ExpressionBase {
  constructor() {
    super();
    this.kind = ExpressionKind.GetCurrentView;
  }
  visitExpression() {
  }
  isEquivalent(e) {
    return e instanceof GetCurrentViewExpr;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new GetCurrentViewExpr();
  }
};
var RestoreViewExpr = class extends ExpressionBase {
  constructor(view) {
    super();
    this.view = view;
    this.kind = ExpressionKind.RestoreView;
  }
  visitExpression(visitor, context) {
    if (typeof this.view !== "number") {
      this.view.visitExpression(visitor, context);
    }
  }
  isEquivalent(e) {
    if (!(e instanceof RestoreViewExpr) || typeof e.view !== typeof this.view) {
      return false;
    }
    if (typeof this.view === "number") {
      return this.view === e.view;
    } else {
      return this.view.isEquivalent(e.view);
    }
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    if (typeof this.view !== "number") {
      this.view = transformExpressionsInExpression(this.view, transform2, flags);
    }
  }
  clone() {
    return new RestoreViewExpr(this.view instanceof Expression ? this.view.clone() : this.view);
  }
};
var ResetViewExpr = class extends ExpressionBase {
  constructor(expr) {
    super();
    this.expr = expr;
    this.kind = ExpressionKind.ResetView;
  }
  visitExpression(visitor, context) {
    this.expr.visitExpression(visitor, context);
  }
  isEquivalent(e) {
    return e instanceof ResetViewExpr && this.expr.isEquivalent(e.expr);
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.expr = transformExpressionsInExpression(this.expr, transform2, flags);
  }
  clone() {
    return new ResetViewExpr(this.expr.clone());
  }
};
var TwoWayBindingSetExpr = class extends ExpressionBase {
  constructor(target, value) {
    super();
    this.target = target;
    this.value = value;
    this.kind = ExpressionKind.TwoWayBindingSet;
  }
  visitExpression(visitor, context) {
    this.target.visitExpression(visitor, context);
    this.value.visitExpression(visitor, context);
  }
  isEquivalent(other) {
    return this.target.isEquivalent(other.target) && this.value.isEquivalent(other.value);
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.target = transformExpressionsInExpression(this.target, transform2, flags);
    this.value = transformExpressionsInExpression(this.value, transform2, flags);
  }
  clone() {
    return new TwoWayBindingSetExpr(this.target, this.value);
  }
};
var ReadVariableExpr = class extends ExpressionBase {
  constructor(xref) {
    super();
    this.xref = xref;
    this.kind = ExpressionKind.ReadVariable;
    this.name = null;
  }
  visitExpression() {
  }
  isEquivalent(other) {
    return other instanceof ReadVariableExpr && other.xref === this.xref;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions() {
  }
  clone() {
    const expr = new ReadVariableExpr(this.xref);
    expr.name = this.name;
    return expr;
  }
};
var _PureFunctionExpr = class extends ExpressionBase {
  constructor(expression, args) {
    super();
    this.kind = ExpressionKind.PureFunctionExpr;
    this[_c] = true;
    this[_d] = true;
    this.varOffset = null;
    this.fn = null;
    this.body = expression;
    this.args = args;
  }
  visitExpression(visitor, context) {
    var _a2;
    (_a2 = this.body) == null ? void 0 : _a2.visitExpression(visitor, context);
    for (const arg of this.args) {
      arg.visitExpression(visitor, context);
    }
  }
  isEquivalent(other) {
    if (!(other instanceof _PureFunctionExpr) || other.args.length !== this.args.length) {
      return false;
    }
    return other.body !== null && this.body !== null && other.body.isEquivalent(this.body) && other.args.every((arg, idx) => arg.isEquivalent(this.args[idx]));
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    if (this.body !== null) {
      this.body = transformExpressionsInExpression(this.body, transform2, flags | VisitorContextFlag.InChildOperation);
    } else if (this.fn !== null) {
      this.fn = transformExpressionsInExpression(this.fn, transform2, flags);
    }
    for (let i = 0; i < this.args.length; i++) {
      this.args[i] = transformExpressionsInExpression(this.args[i], transform2, flags);
    }
  }
  clone() {
    var _a2, _b2, _c2, _d2;
    const expr = new _PureFunctionExpr((_b2 = (_a2 = this.body) == null ? void 0 : _a2.clone()) != null ? _b2 : null, this.args.map((arg) => arg.clone()));
    expr.fn = (_d2 = (_c2 = this.fn) == null ? void 0 : _c2.clone()) != null ? _d2 : null;
    expr.varOffset = this.varOffset;
    return expr;
  }
};
var PureFunctionExpr = _PureFunctionExpr;
(() => {
  _c = ConsumesVarsTrait, _d = UsesVarOffset;
})();
var PureFunctionParameterExpr = class extends ExpressionBase {
  constructor(index) {
    super();
    this.index = index;
    this.kind = ExpressionKind.PureFunctionParameterExpr;
  }
  visitExpression() {
  }
  isEquivalent(other) {
    return other instanceof PureFunctionParameterExpr && other.index === this.index;
  }
  isConstant() {
    return true;
  }
  transformInternalExpressions() {
  }
  clone() {
    return new PureFunctionParameterExpr(this.index);
  }
};
var _PipeBindingExpr = class extends ExpressionBase {
  constructor(target, targetSlot, name, args) {
    super();
    this.target = target;
    this.targetSlot = targetSlot;
    this.name = name;
    this.args = args;
    this.kind = ExpressionKind.PipeBinding;
    this[_e] = true;
    this[_f] = true;
    this.varOffset = null;
  }
  visitExpression(visitor, context) {
    for (const arg of this.args) {
      arg.visitExpression(visitor, context);
    }
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    for (let idx = 0; idx < this.args.length; idx++) {
      this.args[idx] = transformExpressionsInExpression(this.args[idx], transform2, flags);
    }
  }
  clone() {
    const r = new _PipeBindingExpr(this.target, this.targetSlot, this.name, this.args.map((a) => a.clone()));
    r.varOffset = this.varOffset;
    return r;
  }
};
var PipeBindingExpr = _PipeBindingExpr;
(() => {
  _e = ConsumesVarsTrait, _f = UsesVarOffset;
})();
var _PipeBindingVariadicExpr = class extends ExpressionBase {
  constructor(target, targetSlot, name, args, numArgs) {
    super();
    this.target = target;
    this.targetSlot = targetSlot;
    this.name = name;
    this.args = args;
    this.numArgs = numArgs;
    this.kind = ExpressionKind.PipeBindingVariadic;
    this[_g] = true;
    this[_h] = true;
    this.varOffset = null;
  }
  visitExpression(visitor, context) {
    this.args.visitExpression(visitor, context);
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.args = transformExpressionsInExpression(this.args, transform2, flags);
  }
  clone() {
    const r = new _PipeBindingVariadicExpr(this.target, this.targetSlot, this.name, this.args.clone(), this.numArgs);
    r.varOffset = this.varOffset;
    return r;
  }
};
var PipeBindingVariadicExpr = _PipeBindingVariadicExpr;
(() => {
  _g = ConsumesVarsTrait, _h = UsesVarOffset;
})();
var SafePropertyReadExpr = class extends ExpressionBase {
  constructor(receiver, name) {
    super();
    this.receiver = receiver;
    this.name = name;
    this.kind = ExpressionKind.SafePropertyRead;
  }
  get index() {
    return this.name;
  }
  visitExpression(visitor, context) {
    this.receiver.visitExpression(visitor, context);
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.receiver = transformExpressionsInExpression(this.receiver, transform2, flags);
  }
  clone() {
    return new SafePropertyReadExpr(this.receiver.clone(), this.name);
  }
};
var SafeKeyedReadExpr = class extends ExpressionBase {
  constructor(receiver, index, sourceSpan) {
    super(sourceSpan);
    this.receiver = receiver;
    this.index = index;
    this.kind = ExpressionKind.SafeKeyedRead;
  }
  visitExpression(visitor, context) {
    this.receiver.visitExpression(visitor, context);
    this.index.visitExpression(visitor, context);
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.receiver = transformExpressionsInExpression(this.receiver, transform2, flags);
    this.index = transformExpressionsInExpression(this.index, transform2, flags);
  }
  clone() {
    return new SafeKeyedReadExpr(this.receiver.clone(), this.index.clone(), this.sourceSpan);
  }
};
var SafeInvokeFunctionExpr = class extends ExpressionBase {
  constructor(receiver, args) {
    super();
    this.receiver = receiver;
    this.args = args;
    this.kind = ExpressionKind.SafeInvokeFunction;
  }
  visitExpression(visitor, context) {
    this.receiver.visitExpression(visitor, context);
    for (const a of this.args) {
      a.visitExpression(visitor, context);
    }
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.receiver = transformExpressionsInExpression(this.receiver, transform2, flags);
    for (let i = 0; i < this.args.length; i++) {
      this.args[i] = transformExpressionsInExpression(this.args[i], transform2, flags);
    }
  }
  clone() {
    return new SafeInvokeFunctionExpr(this.receiver.clone(), this.args.map((a) => a.clone()));
  }
};
var SafeTernaryExpr = class extends ExpressionBase {
  constructor(guard, expr) {
    super();
    this.guard = guard;
    this.expr = expr;
    this.kind = ExpressionKind.SafeTernaryExpr;
  }
  visitExpression(visitor, context) {
    this.guard.visitExpression(visitor, context);
    this.expr.visitExpression(visitor, context);
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.guard = transformExpressionsInExpression(this.guard, transform2, flags);
    this.expr = transformExpressionsInExpression(this.expr, transform2, flags);
  }
  clone() {
    return new SafeTernaryExpr(this.guard.clone(), this.expr.clone());
  }
};
var EmptyExpr2 = class extends ExpressionBase {
  constructor() {
    super(...arguments);
    this.kind = ExpressionKind.EmptyExpr;
  }
  visitExpression(visitor, context) {
  }
  isEquivalent(e) {
    return e instanceof EmptyExpr2;
  }
  isConstant() {
    return true;
  }
  clone() {
    return new EmptyExpr2();
  }
  transformInternalExpressions() {
  }
};
var AssignTemporaryExpr = class extends ExpressionBase {
  constructor(expr, xref) {
    super();
    this.expr = expr;
    this.xref = xref;
    this.kind = ExpressionKind.AssignTemporaryExpr;
    this.name = null;
  }
  visitExpression(visitor, context) {
    this.expr.visitExpression(visitor, context);
  }
  isEquivalent() {
    return false;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
    this.expr = transformExpressionsInExpression(this.expr, transform2, flags);
  }
  clone() {
    const a = new AssignTemporaryExpr(this.expr.clone(), this.xref);
    a.name = this.name;
    return a;
  }
};
var ReadTemporaryExpr = class extends ExpressionBase {
  constructor(xref) {
    super();
    this.xref = xref;
    this.kind = ExpressionKind.ReadTemporaryExpr;
    this.name = null;
  }
  visitExpression(visitor, context) {
  }
  isEquivalent() {
    return this.xref === this.xref;
  }
  isConstant() {
    return false;
  }
  transformInternalExpressions(transform2, flags) {
  }
  clone() {
    const r = new ReadTemporaryExpr(this.xref);
    r.name = this.name;
    return r;
  }
};
var SlotLiteralExpr = class extends ExpressionBase {
  constructor(slot) {
    super();
    this.slot = slot;
    this.kind = ExpressionKind.SlotLiteralExpr;
  }
  visitExpression(visitor, context) {
  }
  isEquivalent(e) {
    return e instanceof SlotLiteralExpr && e.slot === this.slot;
  }
  isConstant() {
    return true;
  }
  clone() {
    return new SlotLiteralExpr(this.slot);
  }
  transformInternalExpressions() {
  }
};
var ConditionalCaseExpr = class extends ExpressionBase {
  constructor(expr, target, targetSlot, alias = null) {
    super();
    this.expr = expr;
    this.target = target;
    this.targetSlot = targetSlot;
    this.alias = alias;
    this.kind = ExpressionKind.ConditionalCase;
  }
  visitExpression(visitor, context) {
    if (this.expr !== null) {
      this.expr.visitExpression(visitor, context);
    }
  }
  isEquivalent(e) {
    return e instanceof ConditionalCaseExpr && e.expr === this.expr;
  }
  isConstant() {
    return true;
  }
  clone() {
    return new ConditionalCaseExpr(this.expr, this.target, this.targetSlot);
  }
  transformInternalExpressions(transform2, flags) {
    if (this.expr !== null) {
      this.expr = transformExpressionsInExpression(this.expr, transform2, flags);
    }
  }
};
var ConstCollectedExpr = class extends ExpressionBase {
  constructor(expr) {
    super();
    this.expr = expr;
    this.kind = ExpressionKind.ConstCollected;
  }
  transformInternalExpressions(transform2, flags) {
    this.expr = transform2(this.expr, flags);
  }
  visitExpression(visitor, context) {
    this.expr.visitExpression(visitor, context);
  }
  isEquivalent(e) {
    if (!(e instanceof ConstCollectedExpr)) {
      return false;
    }
    return this.expr.isEquivalent(e.expr);
  }
  isConstant() {
    return this.expr.isConstant();
  }
  clone() {
    return new ConstCollectedExpr(this.expr);
  }
};
function visitExpressionsInOp(op, visitor) {
  transformExpressionsInOp(op, (expr, flags) => {
    visitor(expr, flags);
    return expr;
  }, VisitorContextFlag.None);
}
var VisitorContextFlag;
(function(VisitorContextFlag2) {
  VisitorContextFlag2[VisitorContextFlag2["None"] = 0] = "None";
  VisitorContextFlag2[VisitorContextFlag2["InChildOperation"] = 1] = "InChildOperation";
})(VisitorContextFlag || (VisitorContextFlag = {}));
function transformExpressionsInInterpolation(interpolation, transform2, flags) {
  for (let i = 0; i < interpolation.expressions.length; i++) {
    interpolation.expressions[i] = transformExpressionsInExpression(interpolation.expressions[i], transform2, flags);
  }
}
function transformExpressionsInOp(op, transform2, flags) {
  switch (op.kind) {
    case OpKind.StyleProp:
    case OpKind.StyleMap:
    case OpKind.ClassProp:
    case OpKind.ClassMap:
    case OpKind.Binding:
      if (op.expression instanceof Interpolation2) {
        transformExpressionsInInterpolation(op.expression, transform2, flags);
      } else {
        op.expression = transformExpressionsInExpression(op.expression, transform2, flags);
      }
      break;
    case OpKind.Property:
    case OpKind.HostProperty:
    case OpKind.Attribute:
      if (op.expression instanceof Interpolation2) {
        transformExpressionsInInterpolation(op.expression, transform2, flags);
      } else {
        op.expression = transformExpressionsInExpression(op.expression, transform2, flags);
      }
      op.sanitizer = op.sanitizer && transformExpressionsInExpression(op.sanitizer, transform2, flags);
      break;
    case OpKind.TwoWayProperty:
      op.expression = transformExpressionsInExpression(op.expression, transform2, flags);
      op.sanitizer = op.sanitizer && transformExpressionsInExpression(op.sanitizer, transform2, flags);
      break;
    case OpKind.I18nExpression:
      op.expression = transformExpressionsInExpression(op.expression, transform2, flags);
      break;
    case OpKind.InterpolateText:
      transformExpressionsInInterpolation(op.interpolation, transform2, flags);
      break;
    case OpKind.Statement:
      transformExpressionsInStatement(op.statement, transform2, flags);
      break;
    case OpKind.Variable:
      op.initializer = transformExpressionsInExpression(op.initializer, transform2, flags);
      break;
    case OpKind.Conditional:
      for (const condition of op.conditions) {
        if (condition.expr === null) {
          continue;
        }
        condition.expr = transformExpressionsInExpression(condition.expr, transform2, flags);
      }
      if (op.processed !== null) {
        op.processed = transformExpressionsInExpression(op.processed, transform2, flags);
      }
      if (op.contextValue !== null) {
        op.contextValue = transformExpressionsInExpression(op.contextValue, transform2, flags);
      }
      break;
    case OpKind.Listener:
    case OpKind.TwoWayListener:
      for (const innerOp of op.handlerOps) {
        transformExpressionsInOp(innerOp, transform2, flags | VisitorContextFlag.InChildOperation);
      }
      break;
    case OpKind.ExtractedAttribute:
      op.expression = op.expression && transformExpressionsInExpression(op.expression, transform2, flags);
      op.trustedValueFn = op.trustedValueFn && transformExpressionsInExpression(op.trustedValueFn, transform2, flags);
      break;
    case OpKind.RepeaterCreate:
      op.track = transformExpressionsInExpression(op.track, transform2, flags);
      if (op.trackByFn !== null) {
        op.trackByFn = transformExpressionsInExpression(op.trackByFn, transform2, flags);
      }
      break;
    case OpKind.Repeater:
      op.collection = transformExpressionsInExpression(op.collection, transform2, flags);
      break;
    case OpKind.Defer:
      if (op.loadingConfig !== null) {
        op.loadingConfig = transformExpressionsInExpression(op.loadingConfig, transform2, flags);
      }
      if (op.placeholderConfig !== null) {
        op.placeholderConfig = transformExpressionsInExpression(op.placeholderConfig, transform2, flags);
      }
      if (op.resolverFn !== null) {
        op.resolverFn = transformExpressionsInExpression(op.resolverFn, transform2, flags);
      }
      break;
    case OpKind.I18nMessage:
      for (const [placeholder, expr] of op.params) {
        op.params.set(placeholder, transformExpressionsInExpression(expr, transform2, flags));
      }
      for (const [placeholder, expr] of op.postprocessingParams) {
        op.postprocessingParams.set(placeholder, transformExpressionsInExpression(expr, transform2, flags));
      }
      break;
    case OpKind.DeferWhen:
      op.expr = transformExpressionsInExpression(op.expr, transform2, flags);
      break;
    case OpKind.StoreLet:
      op.value = transformExpressionsInExpression(op.value, transform2, flags);
      break;
    case OpKind.Advance:
    case OpKind.Container:
    case OpKind.ContainerEnd:
    case OpKind.ContainerStart:
    case OpKind.DeferOn:
    case OpKind.DisableBindings:
    case OpKind.Element:
    case OpKind.ElementEnd:
    case OpKind.ElementStart:
    case OpKind.EnableBindings:
    case OpKind.I18n:
    case OpKind.I18nApply:
    case OpKind.I18nContext:
    case OpKind.I18nEnd:
    case OpKind.I18nStart:
    case OpKind.IcuEnd:
    case OpKind.IcuStart:
    case OpKind.Namespace:
    case OpKind.Pipe:
    case OpKind.Projection:
    case OpKind.ProjectionDef:
    case OpKind.Template:
    case OpKind.Text:
    case OpKind.I18nAttributes:
    case OpKind.IcuPlaceholder:
    case OpKind.DeclareLet:
      break;
    default:
      throw new Error(`AssertionError: transformExpressionsInOp doesn't handle ${OpKind[op.kind]}`);
  }
}
function transformExpressionsInExpression(expr, transform2, flags) {
  if (expr instanceof ExpressionBase) {
    expr.transformInternalExpressions(transform2, flags);
  } else if (expr instanceof BinaryOperatorExpr) {
    expr.lhs = transformExpressionsInExpression(expr.lhs, transform2, flags);
    expr.rhs = transformExpressionsInExpression(expr.rhs, transform2, flags);
  } else if (expr instanceof UnaryOperatorExpr) {
    expr.expr = transformExpressionsInExpression(expr.expr, transform2, flags);
  } else if (expr instanceof ReadPropExpr) {
    expr.receiver = transformExpressionsInExpression(expr.receiver, transform2, flags);
  } else if (expr instanceof ReadKeyExpr) {
    expr.receiver = transformExpressionsInExpression(expr.receiver, transform2, flags);
    expr.index = transformExpressionsInExpression(expr.index, transform2, flags);
  } else if (expr instanceof WritePropExpr) {
    expr.receiver = transformExpressionsInExpression(expr.receiver, transform2, flags);
    expr.value = transformExpressionsInExpression(expr.value, transform2, flags);
  } else if (expr instanceof WriteKeyExpr) {
    expr.receiver = transformExpressionsInExpression(expr.receiver, transform2, flags);
    expr.index = transformExpressionsInExpression(expr.index, transform2, flags);
    expr.value = transformExpressionsInExpression(expr.value, transform2, flags);
  } else if (expr instanceof InvokeFunctionExpr) {
    expr.fn = transformExpressionsInExpression(expr.fn, transform2, flags);
    for (let i = 0; i < expr.args.length; i++) {
      expr.args[i] = transformExpressionsInExpression(expr.args[i], transform2, flags);
    }
  } else if (expr instanceof LiteralArrayExpr) {
    for (let i = 0; i < expr.entries.length; i++) {
      expr.entries[i] = transformExpressionsInExpression(expr.entries[i], transform2, flags);
    }
  } else if (expr instanceof LiteralMapExpr) {
    for (let i = 0; i < expr.entries.length; i++) {
      expr.entries[i].value = transformExpressionsInExpression(expr.entries[i].value, transform2, flags);
    }
  } else if (expr instanceof ConditionalExpr) {
    expr.condition = transformExpressionsInExpression(expr.condition, transform2, flags);
    expr.trueCase = transformExpressionsInExpression(expr.trueCase, transform2, flags);
    if (expr.falseCase !== null) {
      expr.falseCase = transformExpressionsInExpression(expr.falseCase, transform2, flags);
    }
  } else if (expr instanceof TypeofExpr) {
    expr.expr = transformExpressionsInExpression(expr.expr, transform2, flags);
  } else if (expr instanceof WriteVarExpr) {
    expr.value = transformExpressionsInExpression(expr.value, transform2, flags);
  } else if (expr instanceof LocalizedString) {
    for (let i = 0; i < expr.expressions.length; i++) {
      expr.expressions[i] = transformExpressionsInExpression(expr.expressions[i], transform2, flags);
    }
  } else if (expr instanceof NotExpr) {
    expr.condition = transformExpressionsInExpression(expr.condition, transform2, flags);
  } else if (expr instanceof TaggedTemplateExpr) {
    expr.tag = transformExpressionsInExpression(expr.tag, transform2, flags);
    expr.template.expressions = expr.template.expressions.map((e) => transformExpressionsInExpression(e, transform2, flags));
  } else if (expr instanceof ArrowFunctionExpr) {
    if (Array.isArray(expr.body)) {
      for (let i = 0; i < expr.body.length; i++) {
        transformExpressionsInStatement(expr.body[i], transform2, flags);
      }
    } else {
      expr.body = transformExpressionsInExpression(expr.body, transform2, flags);
    }
  } else if (expr instanceof WrappedNodeExpr) {
  } else if (expr instanceof ReadVarExpr || expr instanceof ExternalExpr || expr instanceof LiteralExpr) {
  } else {
    throw new Error(`Unhandled expression kind: ${expr.constructor.name}`);
  }
  return transform2(expr, flags);
}
function transformExpressionsInStatement(stmt, transform2, flags) {
  if (stmt instanceof ExpressionStatement) {
    stmt.expr = transformExpressionsInExpression(stmt.expr, transform2, flags);
  } else if (stmt instanceof ReturnStatement) {
    stmt.value = transformExpressionsInExpression(stmt.value, transform2, flags);
  } else if (stmt instanceof DeclareVarStmt) {
    if (stmt.value !== void 0) {
      stmt.value = transformExpressionsInExpression(stmt.value, transform2, flags);
    }
  } else if (stmt instanceof IfStmt) {
    stmt.condition = transformExpressionsInExpression(stmt.condition, transform2, flags);
    for (const caseStatement of stmt.trueCase) {
      transformExpressionsInStatement(caseStatement, transform2, flags);
    }
    for (const caseStatement of stmt.falseCase) {
      transformExpressionsInStatement(caseStatement, transform2, flags);
    }
  } else {
    throw new Error(`Unhandled statement kind: ${stmt.constructor.name}`);
  }
}
function isStringLiteral(expr) {
  return expr instanceof LiteralExpr && typeof expr.value === "string";
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/operations.mjs
var _OpList = class {
  constructor() {
    this.debugListId = _OpList.nextListId++;
    this.head = {
      kind: OpKind.ListEnd,
      next: null,
      prev: null,
      debugListId: this.debugListId
    };
    this.tail = {
      kind: OpKind.ListEnd,
      next: null,
      prev: null,
      debugListId: this.debugListId
    };
    this.head.next = this.tail;
    this.tail.prev = this.head;
  }
  push(op) {
    if (Array.isArray(op)) {
      for (const o of op) {
        this.push(o);
      }
      return;
    }
    _OpList.assertIsNotEnd(op);
    _OpList.assertIsUnowned(op);
    op.debugListId = this.debugListId;
    const oldLast = this.tail.prev;
    op.prev = oldLast;
    oldLast.next = op;
    op.next = this.tail;
    this.tail.prev = op;
  }
  prepend(ops) {
    if (ops.length === 0) {
      return;
    }
    for (const op of ops) {
      _OpList.assertIsNotEnd(op);
      _OpList.assertIsUnowned(op);
      op.debugListId = this.debugListId;
    }
    const first = this.head.next;
    let prev = this.head;
    for (const op of ops) {
      prev.next = op;
      op.prev = prev;
      prev = op;
    }
    prev.next = first;
    first.prev = prev;
  }
  *[Symbol.iterator]() {
    let current = this.head.next;
    while (current !== this.tail) {
      _OpList.assertIsOwned(current, this.debugListId);
      const next = current.next;
      yield current;
      current = next;
    }
  }
  *reversed() {
    let current = this.tail.prev;
    while (current !== this.head) {
      _OpList.assertIsOwned(current, this.debugListId);
      const prev = current.prev;
      yield current;
      current = prev;
    }
  }
  static replace(oldOp, newOp) {
    _OpList.assertIsNotEnd(oldOp);
    _OpList.assertIsNotEnd(newOp);
    _OpList.assertIsOwned(oldOp);
    _OpList.assertIsUnowned(newOp);
    newOp.debugListId = oldOp.debugListId;
    if (oldOp.prev !== null) {
      oldOp.prev.next = newOp;
      newOp.prev = oldOp.prev;
    }
    if (oldOp.next !== null) {
      oldOp.next.prev = newOp;
      newOp.next = oldOp.next;
    }
    oldOp.debugListId = null;
    oldOp.prev = null;
    oldOp.next = null;
  }
  static replaceWithMany(oldOp, newOps) {
    if (newOps.length === 0) {
      _OpList.remove(oldOp);
      return;
    }
    _OpList.assertIsNotEnd(oldOp);
    _OpList.assertIsOwned(oldOp);
    const listId = oldOp.debugListId;
    oldOp.debugListId = null;
    for (const newOp of newOps) {
      _OpList.assertIsNotEnd(newOp);
      _OpList.assertIsUnowned(newOp);
    }
    const { prev: oldPrev, next: oldNext } = oldOp;
    oldOp.prev = null;
    oldOp.next = null;
    let prev = oldPrev;
    for (const newOp of newOps) {
      this.assertIsUnowned(newOp);
      newOp.debugListId = listId;
      prev.next = newOp;
      newOp.prev = prev;
      newOp.next = null;
      prev = newOp;
    }
    const first = newOps[0];
    const last = prev;
    if (oldPrev !== null) {
      oldPrev.next = first;
      first.prev = oldPrev;
    }
    if (oldNext !== null) {
      oldNext.prev = last;
      last.next = oldNext;
    }
  }
  static remove(op) {
    _OpList.assertIsNotEnd(op);
    _OpList.assertIsOwned(op);
    op.prev.next = op.next;
    op.next.prev = op.prev;
    op.debugListId = null;
    op.prev = null;
    op.next = null;
  }
  static insertBefore(op, target) {
    if (Array.isArray(op)) {
      for (const o of op) {
        this.insertBefore(o, target);
      }
      return;
    }
    _OpList.assertIsOwned(target);
    if (target.prev === null) {
      throw new Error(`AssertionError: illegal operation on list start`);
    }
    _OpList.assertIsNotEnd(op);
    _OpList.assertIsUnowned(op);
    op.debugListId = target.debugListId;
    op.prev = null;
    target.prev.next = op;
    op.prev = target.prev;
    op.next = target;
    target.prev = op;
  }
  static insertAfter(op, target) {
    _OpList.assertIsOwned(target);
    if (target.next === null) {
      throw new Error(`AssertionError: illegal operation on list end`);
    }
    _OpList.assertIsNotEnd(op);
    _OpList.assertIsUnowned(op);
    op.debugListId = target.debugListId;
    target.next.prev = op;
    op.next = target.next;
    op.prev = target;
    target.next = op;
  }
  static assertIsUnowned(op) {
    if (op.debugListId !== null) {
      throw new Error(`AssertionError: illegal operation on owned node: ${OpKind[op.kind]}`);
    }
  }
  static assertIsOwned(op, byList) {
    if (op.debugListId === null) {
      throw new Error(`AssertionError: illegal operation on unowned node: ${OpKind[op.kind]}`);
    } else if (byList !== void 0 && op.debugListId !== byList) {
      throw new Error(`AssertionError: node belongs to the wrong list (expected ${byList}, actual ${op.debugListId})`);
    }
  }
  static assertIsNotEnd(op) {
    if (op.kind === OpKind.ListEnd) {
      throw new Error(`AssertionError: illegal operation on list head or tail`);
    }
  }
};
var OpList = _OpList;
(() => {
  _OpList.nextListId = 0;
})();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/handle.mjs
var SlotHandle = class {
  constructor() {
    this.slot = null;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/ops/create.mjs
var elementContainerOpKinds = /* @__PURE__ */ new Set([
  OpKind.Element,
  OpKind.ElementStart,
  OpKind.Container,
  OpKind.ContainerStart,
  OpKind.Template,
  OpKind.RepeaterCreate
]);
function isElementOrContainerOp(op) {
  return elementContainerOpKinds.has(op.kind);
}
function createElementStartOp(tag, xref, namespace, i18nPlaceholder, startSourceSpan, wholeSourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.ElementStart,
    xref,
    tag,
    handle: new SlotHandle(),
    attributes: null,
    localRefs: [],
    nonBindable: false,
    namespace,
    i18nPlaceholder,
    startSourceSpan,
    wholeSourceSpan
  }, TRAIT_CONSUMES_SLOT), NEW_OP);
}
function createTemplateOp(xref, templateKind, tag, functionNameSuffix, namespace, i18nPlaceholder, startSourceSpan, wholeSourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.Template,
    xref,
    templateKind,
    attributes: null,
    tag,
    handle: new SlotHandle(),
    functionNameSuffix,
    decls: null,
    vars: null,
    localRefs: [],
    nonBindable: false,
    namespace,
    i18nPlaceholder,
    startSourceSpan,
    wholeSourceSpan
  }, TRAIT_CONSUMES_SLOT), NEW_OP);
}
function createRepeaterCreateOp(primaryView, emptyView, tag, track, varNames, emptyTag, i18nPlaceholder, emptyI18nPlaceholder, startSourceSpan, wholeSourceSpan) {
  return __spreadProps(__spreadValues(__spreadValues(__spreadValues({
    kind: OpKind.RepeaterCreate,
    attributes: null,
    xref: primaryView,
    handle: new SlotHandle(),
    emptyView,
    track,
    trackByFn: null,
    tag,
    emptyTag,
    emptyAttributes: null,
    functionNameSuffix: "For",
    namespace: Namespace.HTML,
    nonBindable: false,
    localRefs: [],
    decls: null,
    vars: null,
    varNames,
    usesComponentInstance: false,
    i18nPlaceholder,
    emptyI18nPlaceholder,
    startSourceSpan,
    wholeSourceSpan
  }, TRAIT_CONSUMES_SLOT), NEW_OP), TRAIT_CONSUMES_VARS), {
    numSlotsUsed: emptyView === null ? 2 : 3
  });
}
function createElementEndOp(xref, sourceSpan) {
  return __spreadValues({
    kind: OpKind.ElementEnd,
    xref,
    sourceSpan
  }, NEW_OP);
}
function createDisableBindingsOp(xref) {
  return __spreadValues({
    kind: OpKind.DisableBindings,
    xref
  }, NEW_OP);
}
function createEnableBindingsOp(xref) {
  return __spreadValues({
    kind: OpKind.EnableBindings,
    xref
  }, NEW_OP);
}
function createTextOp(xref, initialValue, icuPlaceholder, sourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.Text,
    xref,
    handle: new SlotHandle(),
    initialValue,
    icuPlaceholder,
    sourceSpan
  }, TRAIT_CONSUMES_SLOT), NEW_OP);
}
function createListenerOp(target, targetSlot, name, tag, handlerOps, animationPhase, eventTarget, hostListener, sourceSpan) {
  const handlerList = new OpList();
  handlerList.push(handlerOps);
  return __spreadValues({
    kind: OpKind.Listener,
    target,
    targetSlot,
    tag,
    hostListener,
    name,
    handlerOps: handlerList,
    handlerFnName: null,
    consumesDollarEvent: false,
    isAnimationListener: animationPhase !== null,
    animationPhase,
    eventTarget,
    sourceSpan
  }, NEW_OP);
}
function createTwoWayListenerOp(target, targetSlot, name, tag, handlerOps, sourceSpan) {
  const handlerList = new OpList();
  handlerList.push(handlerOps);
  return __spreadValues({
    kind: OpKind.TwoWayListener,
    target,
    targetSlot,
    tag,
    name,
    handlerOps: handlerList,
    handlerFnName: null,
    sourceSpan
  }, NEW_OP);
}
function createPipeOp(xref, slot, name) {
  return __spreadValues(__spreadValues({
    kind: OpKind.Pipe,
    xref,
    handle: slot,
    name
  }, NEW_OP), TRAIT_CONSUMES_SLOT);
}
function createNamespaceOp(namespace) {
  return __spreadValues({
    kind: OpKind.Namespace,
    active: namespace
  }, NEW_OP);
}
function createProjectionDefOp(def) {
  return __spreadValues({
    kind: OpKind.ProjectionDef,
    def
  }, NEW_OP);
}
function createProjectionOp(xref, selector, i18nPlaceholder, fallbackView, sourceSpan) {
  return __spreadProps(__spreadValues(__spreadValues({
    kind: OpKind.Projection,
    xref,
    handle: new SlotHandle(),
    selector,
    i18nPlaceholder,
    fallbackView,
    projectionSlotIndex: 0,
    attributes: null,
    localRefs: [],
    sourceSpan
  }, NEW_OP), TRAIT_CONSUMES_SLOT), {
    numSlotsUsed: fallbackView === null ? 1 : 2
  });
}
function createExtractedAttributeOp(target, bindingKind, namespace, name, expression, i18nContext, i18nMessage, securityContext) {
  return __spreadValues({
    kind: OpKind.ExtractedAttribute,
    target,
    bindingKind,
    namespace,
    name,
    expression,
    i18nContext,
    i18nMessage,
    securityContext,
    trustedValueFn: null
  }, NEW_OP);
}
function createDeferOp(xref, main, mainSlot, ownResolverFn, resolverFn, sourceSpan) {
  return __spreadProps(__spreadValues(__spreadValues({
    kind: OpKind.Defer,
    xref,
    handle: new SlotHandle(),
    mainView: main,
    mainSlot,
    loadingView: null,
    loadingSlot: null,
    loadingConfig: null,
    loadingMinimumTime: null,
    loadingAfterTime: null,
    placeholderView: null,
    placeholderSlot: null,
    placeholderConfig: null,
    placeholderMinimumTime: null,
    errorView: null,
    errorSlot: null,
    ownResolverFn,
    resolverFn,
    sourceSpan
  }, NEW_OP), TRAIT_CONSUMES_SLOT), {
    numSlotsUsed: 2
  });
}
function createDeferOnOp(defer2, trigger, prefetch, sourceSpan) {
  return __spreadValues({
    kind: OpKind.DeferOn,
    defer: defer2,
    trigger,
    prefetch,
    sourceSpan
  }, NEW_OP);
}
function createDeclareLetOp(xref, declaredName, sourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.DeclareLet,
    xref,
    declaredName,
    sourceSpan,
    handle: new SlotHandle()
  }, TRAIT_CONSUMES_SLOT), NEW_OP);
}
function createI18nMessageOp(xref, i18nContext, i18nBlock, message, messagePlaceholder, params, postprocessingParams, needsPostprocessing) {
  return __spreadValues({
    kind: OpKind.I18nMessage,
    xref,
    i18nContext,
    i18nBlock,
    message,
    messagePlaceholder,
    params,
    postprocessingParams,
    needsPostprocessing,
    subMessages: []
  }, NEW_OP);
}
function createI18nStartOp(xref, message, root, sourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.I18nStart,
    xref,
    handle: new SlotHandle(),
    root: root != null ? root : xref,
    message,
    messageIndex: null,
    subTemplateIndex: null,
    context: null,
    sourceSpan
  }, NEW_OP), TRAIT_CONSUMES_SLOT);
}
function createI18nEndOp(xref, sourceSpan) {
  return __spreadValues({
    kind: OpKind.I18nEnd,
    xref,
    sourceSpan
  }, NEW_OP);
}
function createIcuStartOp(xref, message, messagePlaceholder, sourceSpan) {
  return __spreadValues({
    kind: OpKind.IcuStart,
    xref,
    message,
    messagePlaceholder,
    context: null,
    sourceSpan
  }, NEW_OP);
}
function createIcuEndOp(xref) {
  return __spreadValues({
    kind: OpKind.IcuEnd,
    xref
  }, NEW_OP);
}
function createIcuPlaceholderOp(xref, name, strings) {
  return __spreadValues({
    kind: OpKind.IcuPlaceholder,
    xref,
    name,
    strings,
    expressionPlaceholders: []
  }, NEW_OP);
}
function createI18nContextOp(contextKind, xref, i18nBlock, message, sourceSpan) {
  if (i18nBlock === null && contextKind !== I18nContextKind.Attr) {
    throw new Error("AssertionError: i18nBlock must be provided for non-attribute contexts.");
  }
  return __spreadValues({
    kind: OpKind.I18nContext,
    contextKind,
    xref,
    i18nBlock,
    message,
    sourceSpan,
    params: /* @__PURE__ */ new Map(),
    postprocessingParams: /* @__PURE__ */ new Map()
  }, NEW_OP);
}
function createI18nAttributesOp(xref, handle, target) {
  return __spreadValues(__spreadValues({
    kind: OpKind.I18nAttributes,
    xref,
    handle,
    target,
    i18nAttributesConfig: null
  }, NEW_OP), TRAIT_CONSUMES_SLOT);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/ops/host.mjs
function createHostPropertyOp(name, expression, isAnimationTrigger, i18nContext, securityContext, sourceSpan) {
  return __spreadValues(__spreadValues({
    kind: OpKind.HostProperty,
    name,
    expression,
    isAnimationTrigger,
    i18nContext,
    securityContext,
    sanitizer: null,
    sourceSpan
  }, TRAIT_CONSUMES_VARS), NEW_OP);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/ir/src/variable.mjs
var CTX_REF = "CTX_REF_MARKER";

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/compilation.mjs
var CompilationJobKind;
(function(CompilationJobKind2) {
  CompilationJobKind2[CompilationJobKind2["Tmpl"] = 0] = "Tmpl";
  CompilationJobKind2[CompilationJobKind2["Host"] = 1] = "Host";
  CompilationJobKind2[CompilationJobKind2["Both"] = 2] = "Both";
})(CompilationJobKind || (CompilationJobKind = {}));
var CompilationJob = class {
  constructor(componentName, pool, compatibility) {
    this.componentName = componentName;
    this.pool = pool;
    this.compatibility = compatibility;
    this.kind = CompilationJobKind.Both;
    this.nextXrefId = 0;
  }
  allocateXrefId() {
    return this.nextXrefId++;
  }
};
var ComponentCompilationJob = class extends CompilationJob {
  constructor(componentName, pool, compatibility, relativeContextFilePath, i18nUseExternalIds, deferMeta, allDeferrableDepsFn) {
    super(componentName, pool, compatibility);
    this.relativeContextFilePath = relativeContextFilePath;
    this.i18nUseExternalIds = i18nUseExternalIds;
    this.deferMeta = deferMeta;
    this.allDeferrableDepsFn = allDeferrableDepsFn;
    this.kind = CompilationJobKind.Tmpl;
    this.fnSuffix = "Template";
    this.views = /* @__PURE__ */ new Map();
    this.contentSelectors = null;
    this.consts = [];
    this.constsInitializers = [];
    this.root = new ViewCompilationUnit(this, this.allocateXrefId(), null);
    this.views.set(this.root.xref, this.root);
  }
  allocateView(parent) {
    const view = new ViewCompilationUnit(this, this.allocateXrefId(), parent);
    this.views.set(view.xref, view);
    return view;
  }
  get units() {
    return this.views.values();
  }
  addConst(newConst, initializers) {
    for (let idx2 = 0; idx2 < this.consts.length; idx2++) {
      if (this.consts[idx2].isEquivalent(newConst)) {
        return idx2;
      }
    }
    const idx = this.consts.length;
    this.consts.push(newConst);
    if (initializers) {
      this.constsInitializers.push(...initializers);
    }
    return idx;
  }
};
var CompilationUnit = class {
  constructor(xref) {
    this.xref = xref;
    this.create = new OpList();
    this.update = new OpList();
    this.fnName = null;
    this.vars = null;
  }
  *ops() {
    for (const op of this.create) {
      yield op;
      if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
        for (const listenerOp of op.handlerOps) {
          yield listenerOp;
        }
      }
    }
    for (const op of this.update) {
      yield op;
    }
  }
};
var ViewCompilationUnit = class extends CompilationUnit {
  constructor(job, xref, parent) {
    super(xref);
    this.job = job;
    this.parent = parent;
    this.contextVariables = /* @__PURE__ */ new Map();
    this.aliases = /* @__PURE__ */ new Set();
    this.decls = null;
  }
};
var HostBindingCompilationJob = class extends CompilationJob {
  constructor(componentName, pool, compatibility) {
    super(componentName, pool, compatibility);
    this.kind = CompilationJobKind.Host;
    this.fnSuffix = "HostBindings";
    this.root = new HostBindingCompilationUnit(this);
  }
  get units() {
    return [this.root];
  }
};
var HostBindingCompilationUnit = class extends CompilationUnit {
  constructor(job) {
    super(0);
    this.job = job;
    this.attributes = null;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/any_cast.mjs
function deleteAnyCasts(job) {
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      transformExpressionsInOp(op, removeAnys, VisitorContextFlag.None);
    }
  }
}
function removeAnys(e) {
  if (e instanceof InvokeFunctionExpr && e.fn instanceof LexicalReadExpr && e.fn.name === "$any") {
    if (e.args.length !== 1) {
      throw new Error("The $any builtin function expects exactly one argument.");
    }
    return e.args[0];
  }
  return e;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/apply_i18n_expressions.mjs
function applyI18nExpressions(job) {
  const i18nContexts = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.I18nContext) {
        i18nContexts.set(op.xref, op);
      }
    }
  }
  for (const unit of job.units) {
    for (const op of unit.update) {
      if (op.kind === OpKind.I18nExpression && needsApplication(i18nContexts, op)) {
        OpList.insertAfter(createI18nApplyOp(op.i18nOwner, op.handle, null), op);
      }
    }
  }
}
function needsApplication(i18nContexts, op) {
  var _a2;
  if (((_a2 = op.next) == null ? void 0 : _a2.kind) !== OpKind.I18nExpression) {
    return true;
  }
  const context = i18nContexts.get(op.context);
  const nextContext2 = i18nContexts.get(op.next.context);
  if (context === void 0) {
    throw new Error("AssertionError: expected an I18nContextOp to exist for the I18nExpressionOp's context");
  }
  if (nextContext2 === void 0) {
    throw new Error("AssertionError: expected an I18nContextOp to exist for the next I18nExpressionOp's context");
  }
  if (context.i18nBlock !== null) {
    if (context.i18nBlock !== nextContext2.i18nBlock) {
      return true;
    }
    return false;
  }
  if (op.i18nOwner !== op.next.i18nOwner) {
    return true;
  }
  return false;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/assign_i18n_slot_dependencies.mjs
function assignI18nSlotDependencies(job) {
  for (const unit of job.units) {
    let updateOp = unit.update.head;
    let i18nExpressionsInProgress = [];
    let state = null;
    for (const createOp of unit.create) {
      if (createOp.kind === OpKind.I18nStart) {
        state = {
          blockXref: createOp.xref,
          lastSlotConsumer: createOp.xref
        };
      } else if (createOp.kind === OpKind.I18nEnd) {
        for (const op of i18nExpressionsInProgress) {
          op.target = state.lastSlotConsumer;
          OpList.insertBefore(op, updateOp);
        }
        i18nExpressionsInProgress.length = 0;
        state = null;
      }
      if (hasConsumesSlotTrait(createOp)) {
        if (state !== null) {
          state.lastSlotConsumer = createOp.xref;
        }
        while (true) {
          if (updateOp.next === null) {
            break;
          }
          if (state !== null && updateOp.kind === OpKind.I18nExpression && updateOp.usage === I18nExpressionFor.I18nText && updateOp.i18nOwner === state.blockXref) {
            const opToRemove = updateOp;
            updateOp = updateOp.next;
            OpList.remove(opToRemove);
            i18nExpressionsInProgress.push(opToRemove);
            continue;
          }
          if (hasDependsOnSlotContextTrait(updateOp) && updateOp.target !== createOp.xref) {
            break;
          }
          updateOp = updateOp.next;
        }
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/util/elements.mjs
function createOpXrefMap(unit) {
  const map = /* @__PURE__ */ new Map();
  for (const op of unit.create) {
    if (!hasConsumesSlotTrait(op)) {
      continue;
    }
    map.set(op.xref, op);
    if (op.kind === OpKind.RepeaterCreate && op.emptyView !== null) {
      map.set(op.emptyView, op);
    }
  }
  return map;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/attribute_extraction.mjs
function extractAttributes(job) {
  for (const unit of job.units) {
    const elements = createOpXrefMap(unit);
    for (const op of unit.ops()) {
      switch (op.kind) {
        case OpKind.Attribute:
          extractAttributeOp(unit, op, elements);
          break;
        case OpKind.Property:
          if (!op.isAnimationTrigger) {
            let bindingKind;
            if (op.i18nMessage !== null && op.templateKind === null) {
              bindingKind = BindingKind.I18n;
            } else if (op.isStructuralTemplateAttribute) {
              bindingKind = BindingKind.Template;
            } else {
              bindingKind = BindingKind.Property;
            }
            OpList.insertBefore(
              createExtractedAttributeOp(
                op.target,
                bindingKind,
                null,
                op.name,
                null,
                null,
                null,
                op.securityContext
              ),
              lookupElement(elements, op.target)
            );
          }
          break;
        case OpKind.TwoWayProperty:
          OpList.insertBefore(createExtractedAttributeOp(
            op.target,
            BindingKind.TwoWayProperty,
            null,
            op.name,
            null,
            null,
            null,
            op.securityContext
          ), lookupElement(elements, op.target));
          break;
        case OpKind.StyleProp:
        case OpKind.ClassProp:
          if (unit.job.compatibility === CompatibilityMode.TemplateDefinitionBuilder && op.expression instanceof EmptyExpr2) {
            OpList.insertBefore(createExtractedAttributeOp(
              op.target,
              BindingKind.Property,
              null,
              op.name,
              null,
              null,
              null,
              SecurityContext.STYLE
            ), lookupElement(elements, op.target));
          }
          break;
        case OpKind.Listener:
          if (!op.isAnimationListener) {
            const extractedAttributeOp = createExtractedAttributeOp(
              op.target,
              BindingKind.Property,
              null,
              op.name,
              null,
              null,
              null,
              SecurityContext.NONE
            );
            if (job.kind === CompilationJobKind.Host) {
              if (job.compatibility) {
                break;
              }
              unit.create.push(extractedAttributeOp);
            } else {
              OpList.insertBefore(extractedAttributeOp, lookupElement(elements, op.target));
            }
          }
          break;
        case OpKind.TwoWayListener:
          if (job.kind !== CompilationJobKind.Host) {
            const extractedAttributeOp = createExtractedAttributeOp(
              op.target,
              BindingKind.Property,
              null,
              op.name,
              null,
              null,
              null,
              SecurityContext.NONE
            );
            OpList.insertBefore(extractedAttributeOp, lookupElement(elements, op.target));
          }
          break;
      }
    }
  }
}
function lookupElement(elements, xref) {
  const el = elements.get(xref);
  if (el === void 0) {
    throw new Error("All attributes should have an element-like target.");
  }
  return el;
}
function extractAttributeOp(unit, op, elements) {
  if (op.expression instanceof Interpolation2) {
    return;
  }
  let extractable = op.isTextAttribute || op.expression.isConstant();
  if (unit.job.compatibility === CompatibilityMode.TemplateDefinitionBuilder) {
    extractable && (extractable = op.isTextAttribute);
  }
  if (extractable) {
    const extractedAttributeOp = createExtractedAttributeOp(op.target, op.isStructuralTemplateAttribute ? BindingKind.Template : BindingKind.Attribute, op.namespace, op.name, op.expression, op.i18nContext, op.i18nMessage, op.securityContext);
    if (unit.job.kind === CompilationJobKind.Host) {
      unit.create.push(extractedAttributeOp);
    } else {
      const ownerOp = lookupElement(elements, op.target);
      OpList.insertBefore(extractedAttributeOp, ownerOp);
    }
    OpList.remove(op);
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/binding_specialization.mjs
function lookupElement2(elements, xref) {
  const el = elements.get(xref);
  if (el === void 0) {
    throw new Error("All attributes should have an element-like target.");
  }
  return el;
}
function specializeBindings(job) {
  const elements = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (!isElementOrContainerOp(op)) {
        continue;
      }
      elements.set(op.xref, op);
    }
  }
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      if (op.kind !== OpKind.Binding) {
        continue;
      }
      switch (op.bindingKind) {
        case BindingKind.Attribute:
          if (op.name === "ngNonBindable") {
            OpList.remove(op);
            const target = lookupElement2(elements, op.target);
            target.nonBindable = true;
          } else {
            const [namespace, name] = splitNsName(op.name);
            OpList.replace(op, createAttributeOp(op.target, namespace, name, op.expression, op.securityContext, op.isTextAttribute, op.isStructuralTemplateAttribute, op.templateKind, op.i18nMessage, op.sourceSpan));
          }
          break;
        case BindingKind.Property:
        case BindingKind.Animation:
          if (job.kind === CompilationJobKind.Host) {
            OpList.replace(op, createHostPropertyOp(op.name, op.expression, op.bindingKind === BindingKind.Animation, op.i18nContext, op.securityContext, op.sourceSpan));
          } else {
            OpList.replace(op, createPropertyOp(op.target, op.name, op.expression, op.bindingKind === BindingKind.Animation, op.securityContext, op.isStructuralTemplateAttribute, op.templateKind, op.i18nContext, op.i18nMessage, op.sourceSpan));
          }
          break;
        case BindingKind.TwoWayProperty:
          if (!(op.expression instanceof Expression)) {
            throw new Error(`Expected value of two-way property binding "${op.name}" to be an expression`);
          }
          OpList.replace(op, createTwoWayPropertyOp(op.target, op.name, op.expression, op.securityContext, op.isStructuralTemplateAttribute, op.templateKind, op.i18nContext, op.i18nMessage, op.sourceSpan));
          break;
        case BindingKind.I18n:
        case BindingKind.ClassName:
        case BindingKind.StyleProperty:
          throw new Error(`Unhandled binding of kind ${BindingKind[op.bindingKind]}`);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/chaining.mjs
var CHAINABLE = /* @__PURE__ */ new Set([
  Identifiers.attribute,
  Identifiers.classProp,
  Identifiers.element,
  Identifiers.elementContainer,
  Identifiers.elementContainerEnd,
  Identifiers.elementContainerStart,
  Identifiers.elementEnd,
  Identifiers.elementStart,
  Identifiers.hostProperty,
  Identifiers.i18nExp,
  Identifiers.listener,
  Identifiers.listener,
  Identifiers.property,
  Identifiers.styleProp,
  Identifiers.stylePropInterpolate1,
  Identifiers.stylePropInterpolate2,
  Identifiers.stylePropInterpolate3,
  Identifiers.stylePropInterpolate4,
  Identifiers.stylePropInterpolate5,
  Identifiers.stylePropInterpolate6,
  Identifiers.stylePropInterpolate7,
  Identifiers.stylePropInterpolate8,
  Identifiers.stylePropInterpolateV,
  Identifiers.syntheticHostListener,
  Identifiers.syntheticHostProperty,
  Identifiers.templateCreate,
  Identifiers.twoWayProperty,
  Identifiers.twoWayListener,
  Identifiers.declareLet
]);
var MAX_CHAIN_LENGTH = 256;
function chain(job) {
  for (const unit of job.units) {
    chainOperationsInList(unit.create);
    chainOperationsInList(unit.update);
  }
}
function chainOperationsInList(opList) {
  let chain2 = null;
  for (const op of opList) {
    if (op.kind !== OpKind.Statement || !(op.statement instanceof ExpressionStatement)) {
      chain2 = null;
      continue;
    }
    if (!(op.statement.expr instanceof InvokeFunctionExpr) || !(op.statement.expr.fn instanceof ExternalExpr)) {
      chain2 = null;
      continue;
    }
    const instruction = op.statement.expr.fn.value;
    if (!CHAINABLE.has(instruction)) {
      chain2 = null;
      continue;
    }
    if (chain2 !== null && chain2.instruction === instruction && chain2.length < MAX_CHAIN_LENGTH) {
      const expression = chain2.expression.callFn(op.statement.expr.args, op.statement.expr.sourceSpan, op.statement.expr.pure);
      chain2.expression = expression;
      chain2.op.statement = expression.toStmt();
      chain2.length++;
      OpList.remove(op);
    } else {
      chain2 = {
        op,
        instruction,
        expression: op.statement.expr,
        length: 1
      };
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/collapse_singleton_interpolations.mjs
function collapseSingletonInterpolations(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      const eligibleOpKind = op.kind === OpKind.Attribute;
      if (eligibleOpKind && op.expression instanceof Interpolation2 && op.expression.strings.length === 2 && op.expression.strings.every((s) => s === "")) {
        op.expression = op.expression.expressions[0];
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/conditionals.mjs
function generateConditionalExpressions(job) {
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      if (op.kind !== OpKind.Conditional) {
        continue;
      }
      let test;
      const defaultCase = op.conditions.findIndex((cond) => cond.expr === null);
      if (defaultCase >= 0) {
        const slot = op.conditions.splice(defaultCase, 1)[0].targetSlot;
        test = new SlotLiteralExpr(slot);
      } else {
        test = literal(-1);
      }
      let tmp = op.test == null ? null : new AssignTemporaryExpr(op.test, job.allocateXrefId());
      for (let i = op.conditions.length - 1; i >= 0; i--) {
        let conditionalCase = op.conditions[i];
        if (conditionalCase.expr === null) {
          continue;
        }
        if (tmp !== null) {
          const useTmp = i === 0 ? tmp : new ReadTemporaryExpr(tmp.xref);
          conditionalCase.expr = new BinaryOperatorExpr(BinaryOperator.Identical, useTmp, conditionalCase.expr);
        } else if (conditionalCase.alias !== null) {
          const caseExpressionTemporaryXref = job.allocateXrefId();
          conditionalCase.expr = new AssignTemporaryExpr(conditionalCase.expr, caseExpressionTemporaryXref);
          op.contextValue = new ReadTemporaryExpr(caseExpressionTemporaryXref);
        }
        test = new ConditionalExpr(conditionalCase.expr, new SlotLiteralExpr(conditionalCase.targetSlot), test);
      }
      op.processed = test;
      op.conditions = [];
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/conversion.mjs
var BINARY_OPERATORS = /* @__PURE__ */ new Map([
  ["&&", BinaryOperator.And],
  [">", BinaryOperator.Bigger],
  [">=", BinaryOperator.BiggerEquals],
  ["|", BinaryOperator.BitwiseOr],
  ["&", BinaryOperator.BitwiseAnd],
  ["/", BinaryOperator.Divide],
  ["==", BinaryOperator.Equals],
  ["===", BinaryOperator.Identical],
  ["<", BinaryOperator.Lower],
  ["<=", BinaryOperator.LowerEquals],
  ["-", BinaryOperator.Minus],
  ["%", BinaryOperator.Modulo],
  ["*", BinaryOperator.Multiply],
  ["!=", BinaryOperator.NotEquals],
  ["!==", BinaryOperator.NotIdentical],
  ["??", BinaryOperator.NullishCoalesce],
  ["||", BinaryOperator.Or],
  ["+", BinaryOperator.Plus]
]);
function namespaceForKey(namespacePrefixKey) {
  var _a2;
  const NAMESPACES = /* @__PURE__ */ new Map([
    ["svg", Namespace.SVG],
    ["math", Namespace.Math]
  ]);
  if (namespacePrefixKey === null) {
    return Namespace.HTML;
  }
  return (_a2 = NAMESPACES.get(namespacePrefixKey)) != null ? _a2 : Namespace.HTML;
}
function keyForNamespace(namespace) {
  const NAMESPACES = /* @__PURE__ */ new Map([
    ["svg", Namespace.SVG],
    ["math", Namespace.Math]
  ]);
  for (const [k, n] of NAMESPACES.entries()) {
    if (n === namespace) {
      return k;
    }
  }
  return null;
}
function prefixWithNamespace(strippedTag, namespace) {
  if (namespace === Namespace.HTML) {
    return strippedTag;
  }
  return `:${keyForNamespace(namespace)}:${strippedTag}`;
}
function literalOrArrayLiteral(value) {
  if (Array.isArray(value)) {
    return literalArr(value.map(literalOrArrayLiteral));
  }
  return literal(value);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/const_collection.mjs
function collectElementConsts(job) {
  const allElementAttributes = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.ExtractedAttribute) {
        const attributes = allElementAttributes.get(op.target) || new ElementAttributes(job.compatibility);
        allElementAttributes.set(op.target, attributes);
        attributes.add(op.bindingKind, op.name, op.expression, op.namespace, op.trustedValueFn);
        OpList.remove(op);
      }
    }
  }
  if (job instanceof ComponentCompilationJob) {
    for (const unit of job.units) {
      for (const op of unit.create) {
        if (op.kind == OpKind.Projection) {
          const attributes = allElementAttributes.get(op.xref);
          if (attributes !== void 0) {
            const attrArray = serializeAttributes(attributes);
            if (attrArray.entries.length > 0) {
              op.attributes = attrArray;
            }
          }
        } else if (isElementOrContainerOp(op)) {
          op.attributes = getConstIndex(job, allElementAttributes, op.xref);
          if (op.kind === OpKind.RepeaterCreate && op.emptyView !== null) {
            op.emptyAttributes = getConstIndex(job, allElementAttributes, op.emptyView);
          }
        }
      }
    }
  } else if (job instanceof HostBindingCompilationJob) {
    for (const [xref, attributes] of allElementAttributes.entries()) {
      if (xref !== job.root.xref) {
        throw new Error(`An attribute would be const collected into the host binding's template function, but is not associated with the root xref.`);
      }
      const attrArray = serializeAttributes(attributes);
      if (attrArray.entries.length > 0) {
        job.root.attributes = attrArray;
      }
    }
  }
}
function getConstIndex(job, allElementAttributes, xref) {
  const attributes = allElementAttributes.get(xref);
  if (attributes !== void 0) {
    const attrArray = serializeAttributes(attributes);
    if (attrArray.entries.length > 0) {
      return job.addConst(attrArray);
    }
  }
  return null;
}
var FLYWEIGHT_ARRAY = Object.freeze([]);
var ElementAttributes = class {
  get attributes() {
    var _a2;
    return (_a2 = this.byKind.get(BindingKind.Attribute)) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  get classes() {
    var _a2;
    return (_a2 = this.byKind.get(BindingKind.ClassName)) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  get styles() {
    var _a2;
    return (_a2 = this.byKind.get(BindingKind.StyleProperty)) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  get bindings() {
    var _a2;
    return (_a2 = this.propertyBindings) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  get template() {
    var _a2;
    return (_a2 = this.byKind.get(BindingKind.Template)) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  get i18n() {
    var _a2;
    return (_a2 = this.byKind.get(BindingKind.I18n)) != null ? _a2 : FLYWEIGHT_ARRAY;
  }
  constructor(compatibility) {
    this.compatibility = compatibility;
    this.known = /* @__PURE__ */ new Map();
    this.byKind = /* @__PURE__ */ new Map();
    this.propertyBindings = null;
    this.projectAs = null;
  }
  isKnown(kind, name) {
    var _a2;
    const nameToValue = (_a2 = this.known.get(kind)) != null ? _a2 : /* @__PURE__ */ new Set();
    this.known.set(kind, nameToValue);
    if (nameToValue.has(name)) {
      return true;
    }
    nameToValue.add(name);
    return false;
  }
  add(kind, name, value, namespace, trustedValueFn) {
    var _a2;
    const allowDuplicates = this.compatibility === CompatibilityMode.TemplateDefinitionBuilder && (kind === BindingKind.Attribute || kind === BindingKind.ClassName || kind === BindingKind.StyleProperty);
    if (!allowDuplicates && this.isKnown(kind, name)) {
      return;
    }
    if (name === "ngProjectAs") {
      if (value === null || !(value instanceof LiteralExpr) || value.value == null || typeof ((_a2 = value.value) == null ? void 0 : _a2.toString()) !== "string") {
        throw Error("ngProjectAs must have a string literal value");
      }
      this.projectAs = value.value.toString();
    }
    const array = this.arrayFor(kind);
    array.push(...getAttributeNameLiterals(namespace, name));
    if (kind === BindingKind.Attribute || kind === BindingKind.StyleProperty) {
      if (value === null) {
        throw Error("Attribute, i18n attribute, & style element attributes must have a value");
      }
      if (trustedValueFn !== null) {
        if (!isStringLiteral(value)) {
          throw Error("AssertionError: extracted attribute value should be string literal");
        }
        array.push(taggedTemplate(trustedValueFn, new TemplateLiteral([new TemplateLiteralElement(value.value)], []), void 0, value.sourceSpan));
      } else {
        array.push(value);
      }
    }
  }
  arrayFor(kind) {
    var _a2;
    if (kind === BindingKind.Property || kind === BindingKind.TwoWayProperty) {
      (_a2 = this.propertyBindings) != null ? _a2 : this.propertyBindings = [];
      return this.propertyBindings;
    } else {
      if (!this.byKind.has(kind)) {
        this.byKind.set(kind, []);
      }
      return this.byKind.get(kind);
    }
  }
};
function getAttributeNameLiterals(namespace, name) {
  const nameLiteral = literal(name);
  if (namespace) {
    return [literal(0), literal(namespace), nameLiteral];
  }
  return [nameLiteral];
}
function serializeAttributes({ attributes, bindings, classes, i18n: i18n2, projectAs, styles, template: template2 }) {
  const attrArray = [...attributes];
  if (projectAs !== null) {
    const parsedR3Selector = parseSelectorToR3Selector(projectAs)[0];
    attrArray.push(literal(5), literalOrArrayLiteral(parsedR3Selector));
  }
  if (classes.length > 0) {
    attrArray.push(literal(1), ...classes);
  }
  if (styles.length > 0) {
    attrArray.push(literal(2), ...styles);
  }
  if (bindings.length > 0) {
    attrArray.push(literal(3), ...bindings);
  }
  if (template2.length > 0) {
    attrArray.push(literal(4), ...template2);
  }
  if (i18n2.length > 0) {
    attrArray.push(literal(6), ...i18n2);
  }
  return literalArr(attrArray);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/convert_i18n_bindings.mjs
function convertI18nBindings(job) {
  const i18nAttributesByElem = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.I18nAttributes) {
        i18nAttributesByElem.set(op.target, op);
      }
    }
    for (const op of unit.update) {
      switch (op.kind) {
        case OpKind.Property:
        case OpKind.Attribute:
          if (op.i18nContext === null) {
            continue;
          }
          if (!(op.expression instanceof Interpolation2)) {
            continue;
          }
          const i18nAttributesForElem = i18nAttributesByElem.get(op.target);
          if (i18nAttributesForElem === void 0) {
            throw new Error("AssertionError: An i18n attribute binding instruction requires the owning element to have an I18nAttributes create instruction");
          }
          if (i18nAttributesForElem.target !== op.target) {
            throw new Error("AssertionError: Expected i18nAttributes target element to match binding target element");
          }
          const ops = [];
          for (let i = 0; i < op.expression.expressions.length; i++) {
            const expr = op.expression.expressions[i];
            if (op.expression.i18nPlaceholders.length !== op.expression.expressions.length) {
              throw new Error(`AssertionError: An i18n attribute binding instruction requires the same number of expressions and placeholders, but found ${op.expression.i18nPlaceholders.length} placeholders and ${op.expression.expressions.length} expressions`);
            }
            ops.push(createI18nExpressionOp(op.i18nContext, i18nAttributesForElem.target, i18nAttributesForElem.xref, i18nAttributesForElem.handle, expr, null, op.expression.i18nPlaceholders[i], I18nParamResolutionTime.Creation, I18nExpressionFor.I18nAttribute, op.name, op.sourceSpan));
          }
          OpList.replaceWithMany(op, ops);
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_defer_deps_fns.mjs
function resolveDeferDepsFns(job) {
  var _a2;
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.Defer) {
        if (op.resolverFn !== null) {
          continue;
        }
        if (op.ownResolverFn !== null) {
          if (op.handle.slot === null) {
            throw new Error("AssertionError: slot must be assigned before extracting defer deps functions");
          }
          const fullPathName = (_a2 = unit.fnName) == null ? void 0 : _a2.replace("_Template", "");
          op.resolverFn = job.pool.getSharedFunctionReference(
            op.ownResolverFn,
            `${fullPathName}_Defer_${op.handle.slot}_DepsFn`,
            false
          );
        }
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/create_i18n_contexts.mjs
function createI18nContexts(job) {
  const attrContextByMessage = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      switch (op.kind) {
        case OpKind.Binding:
        case OpKind.Property:
        case OpKind.Attribute:
        case OpKind.ExtractedAttribute:
          if (op.i18nMessage === null) {
            continue;
          }
          if (!attrContextByMessage.has(op.i18nMessage)) {
            const i18nContext = createI18nContextOp(I18nContextKind.Attr, job.allocateXrefId(), null, op.i18nMessage, null);
            unit.create.push(i18nContext);
            attrContextByMessage.set(op.i18nMessage, i18nContext.xref);
          }
          op.i18nContext = attrContextByMessage.get(op.i18nMessage);
          break;
      }
    }
  }
  const blockContextByI18nBlock = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nStart:
          if (op.xref === op.root) {
            const contextOp = createI18nContextOp(I18nContextKind.RootI18n, job.allocateXrefId(), op.xref, op.message, null);
            unit.create.push(contextOp);
            op.context = contextOp.xref;
            blockContextByI18nBlock.set(op.xref, contextOp);
          }
          break;
      }
    }
  }
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.I18nStart && op.xref !== op.root) {
        const rootContext = blockContextByI18nBlock.get(op.root);
        if (rootContext === void 0) {
          throw Error("AssertionError: Root i18n block i18n context should have been created.");
        }
        op.context = rootContext.xref;
        blockContextByI18nBlock.set(op.xref, rootContext);
      }
    }
  }
  let currentI18nOp = null;
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nStart:
          currentI18nOp = op;
          break;
        case OpKind.I18nEnd:
          currentI18nOp = null;
          break;
        case OpKind.IcuStart:
          if (currentI18nOp === null) {
            throw Error("AssertionError: Unexpected ICU outside of an i18n block.");
          }
          if (op.message.id !== currentI18nOp.message.id) {
            const contextOp = createI18nContextOp(I18nContextKind.Icu, job.allocateXrefId(), currentI18nOp.root, op.message, null);
            unit.create.push(contextOp);
            op.context = contextOp.xref;
          } else {
            op.context = currentI18nOp.context;
            blockContextByI18nBlock.get(currentI18nOp.xref).contextKind = I18nContextKind.Icu;
          }
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/deduplicate_text_bindings.mjs
function deduplicateTextBindings(job) {
  const seen = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.update.reversed()) {
      if (op.kind === OpKind.Binding && op.isTextAttribute) {
        const seenForElement = seen.get(op.target) || /* @__PURE__ */ new Set();
        if (seenForElement.has(op.name)) {
          if (job.compatibility === CompatibilityMode.TemplateDefinitionBuilder) {
            if (op.name === "style" || op.name === "class") {
              OpList.remove(op);
            }
          } else {
          }
        }
        seenForElement.add(op.name);
        seen.set(op.target, seenForElement);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/defer_configs.mjs
function configureDeferInstructions(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind !== OpKind.Defer) {
        continue;
      }
      if (op.placeholderMinimumTime !== null) {
        op.placeholderConfig = new ConstCollectedExpr(literalOrArrayLiteral([op.placeholderMinimumTime]));
      }
      if (op.loadingMinimumTime !== null || op.loadingAfterTime !== null) {
        op.loadingConfig = new ConstCollectedExpr(literalOrArrayLiteral([op.loadingMinimumTime, op.loadingAfterTime]));
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/defer_resolve_targets.mjs
function resolveDeferTargetNames(job) {
  const scopes = /* @__PURE__ */ new Map();
  function getScopeForView2(view) {
    if (scopes.has(view.xref)) {
      return scopes.get(view.xref);
    }
    const scope = new Scope();
    for (const op of view.create) {
      if (!isElementOrContainerOp(op) || op.localRefs === null) {
        continue;
      }
      if (!Array.isArray(op.localRefs)) {
        throw new Error("LocalRefs were already processed, but were needed to resolve defer targets.");
      }
      for (const ref of op.localRefs) {
        if (ref.target !== "") {
          continue;
        }
        scope.targets.set(ref.name, { xref: op.xref, slot: op.handle });
      }
    }
    scopes.set(view.xref, scope);
    return scope;
  }
  function resolveTrigger(deferOwnerView, op, placeholderView) {
    switch (op.trigger.kind) {
      case DeferTriggerKind.Idle:
      case DeferTriggerKind.Immediate:
      case DeferTriggerKind.Timer:
        return;
      case DeferTriggerKind.Hover:
      case DeferTriggerKind.Interaction:
      case DeferTriggerKind.Viewport:
        if (op.trigger.targetName === null) {
          if (placeholderView === null) {
            throw new Error("defer on trigger with no target name must have a placeholder block");
          }
          const placeholder = job.views.get(placeholderView);
          if (placeholder == void 0) {
            throw new Error("AssertionError: could not find placeholder view for defer on trigger");
          }
          for (const placeholderOp of placeholder.create) {
            if (hasConsumesSlotTrait(placeholderOp) && (isElementOrContainerOp(placeholderOp) || placeholderOp.kind === OpKind.Projection)) {
              op.trigger.targetXref = placeholderOp.xref;
              op.trigger.targetView = placeholderView;
              op.trigger.targetSlotViewSteps = -1;
              op.trigger.targetSlot = placeholderOp.handle;
              return;
            }
          }
          return;
        }
        let view = placeholderView !== null ? job.views.get(placeholderView) : deferOwnerView;
        let step = placeholderView !== null ? -1 : 0;
        while (view !== null) {
          const scope = getScopeForView2(view);
          if (scope.targets.has(op.trigger.targetName)) {
            const { xref, slot } = scope.targets.get(op.trigger.targetName);
            op.trigger.targetXref = xref;
            op.trigger.targetView = view.xref;
            op.trigger.targetSlotViewSteps = step;
            op.trigger.targetSlot = slot;
            return;
          }
          view = view.parent !== null ? job.views.get(view.parent) : null;
          step++;
        }
        break;
      default:
        throw new Error(`Trigger kind ${op.trigger.kind} not handled`);
    }
  }
  for (const unit of job.units) {
    const defers = /* @__PURE__ */ new Map();
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.Defer:
          defers.set(op.xref, op);
          break;
        case OpKind.DeferOn:
          const deferOp = defers.get(op.defer);
          resolveTrigger(unit, op, deferOp.placeholderView);
          break;
      }
    }
  }
}
var Scope = class {
  constructor() {
    this.targets = /* @__PURE__ */ new Map();
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/empty_elements.mjs
var REPLACEMENTS = /* @__PURE__ */ new Map([
  [OpKind.ElementEnd, [OpKind.ElementStart, OpKind.Element]],
  [OpKind.ContainerEnd, [OpKind.ContainerStart, OpKind.Container]],
  [OpKind.I18nEnd, [OpKind.I18nStart, OpKind.I18n]]
]);
var IGNORED_OP_KINDS = /* @__PURE__ */ new Set([OpKind.Pipe]);
function collapseEmptyInstructions(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      const opReplacements = REPLACEMENTS.get(op.kind);
      if (opReplacements === void 0) {
        continue;
      }
      const [startKind, mergedKind] = opReplacements;
      let prevOp = op.prev;
      while (prevOp !== null && IGNORED_OP_KINDS.has(prevOp.kind)) {
        prevOp = prevOp.prev;
      }
      if (prevOp !== null && prevOp.kind === startKind) {
        prevOp.kind = mergedKind;
        OpList.remove(op);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/expand_safe_reads.mjs
function expandSafeReads(job) {
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      transformExpressionsInOp(op, (e) => safeTransform(e, { job }), VisitorContextFlag.None);
      transformExpressionsInOp(op, ternaryTransform, VisitorContextFlag.None);
    }
  }
}
var requiresTemporary = [
  InvokeFunctionExpr,
  LiteralArrayExpr,
  LiteralMapExpr,
  SafeInvokeFunctionExpr,
  PipeBindingExpr
].map((e) => e.constructor.name);
function needsTemporaryInSafeAccess(e) {
  if (e instanceof UnaryOperatorExpr) {
    return needsTemporaryInSafeAccess(e.expr);
  } else if (e instanceof BinaryOperatorExpr) {
    return needsTemporaryInSafeAccess(e.lhs) || needsTemporaryInSafeAccess(e.rhs);
  } else if (e instanceof ConditionalExpr) {
    if (e.falseCase && needsTemporaryInSafeAccess(e.falseCase))
      return true;
    return needsTemporaryInSafeAccess(e.condition) || needsTemporaryInSafeAccess(e.trueCase);
  } else if (e instanceof NotExpr) {
    return needsTemporaryInSafeAccess(e.condition);
  } else if (e instanceof AssignTemporaryExpr) {
    return needsTemporaryInSafeAccess(e.expr);
  } else if (e instanceof ReadPropExpr) {
    return needsTemporaryInSafeAccess(e.receiver);
  } else if (e instanceof ReadKeyExpr) {
    return needsTemporaryInSafeAccess(e.receiver) || needsTemporaryInSafeAccess(e.index);
  }
  return e instanceof InvokeFunctionExpr || e instanceof LiteralArrayExpr || e instanceof LiteralMapExpr || e instanceof SafeInvokeFunctionExpr || e instanceof PipeBindingExpr;
}
function temporariesIn(e) {
  const temporaries = /* @__PURE__ */ new Set();
  transformExpressionsInExpression(e, (e2) => {
    if (e2 instanceof AssignTemporaryExpr) {
      temporaries.add(e2.xref);
    }
    return e2;
  }, VisitorContextFlag.None);
  return temporaries;
}
function eliminateTemporaryAssignments(e, tmps, ctx) {
  transformExpressionsInExpression(e, (e2) => {
    if (e2 instanceof AssignTemporaryExpr && tmps.has(e2.xref)) {
      const read = new ReadTemporaryExpr(e2.xref);
      return ctx.job.compatibility === CompatibilityMode.TemplateDefinitionBuilder ? new AssignTemporaryExpr(read, read.xref) : read;
    }
    return e2;
  }, VisitorContextFlag.None);
  return e;
}
function safeTernaryWithTemporary(guard, body, ctx) {
  let result;
  if (needsTemporaryInSafeAccess(guard)) {
    const xref = ctx.job.allocateXrefId();
    result = [new AssignTemporaryExpr(guard, xref), new ReadTemporaryExpr(xref)];
  } else {
    result = [guard, guard.clone()];
    eliminateTemporaryAssignments(result[1], temporariesIn(result[0]), ctx);
  }
  return new SafeTernaryExpr(result[0], body(result[1]));
}
function isSafeAccessExpression(e) {
  return e instanceof SafePropertyReadExpr || e instanceof SafeKeyedReadExpr || e instanceof SafeInvokeFunctionExpr;
}
function isUnsafeAccessExpression(e) {
  return e instanceof ReadPropExpr || e instanceof ReadKeyExpr || e instanceof InvokeFunctionExpr;
}
function isAccessExpression(e) {
  return isSafeAccessExpression(e) || isUnsafeAccessExpression(e);
}
function deepestSafeTernary(e) {
  if (isAccessExpression(e) && e.receiver instanceof SafeTernaryExpr) {
    let st = e.receiver;
    while (st.expr instanceof SafeTernaryExpr) {
      st = st.expr;
    }
    return st;
  }
  return null;
}
function safeTransform(e, ctx) {
  if (!isAccessExpression(e)) {
    return e;
  }
  const dst = deepestSafeTernary(e);
  if (dst) {
    if (e instanceof InvokeFunctionExpr) {
      dst.expr = dst.expr.callFn(e.args);
      return e.receiver;
    }
    if (e instanceof ReadPropExpr) {
      dst.expr = dst.expr.prop(e.name);
      return e.receiver;
    }
    if (e instanceof ReadKeyExpr) {
      dst.expr = dst.expr.key(e.index);
      return e.receiver;
    }
    if (e instanceof SafeInvokeFunctionExpr) {
      dst.expr = safeTernaryWithTemporary(dst.expr, (r) => r.callFn(e.args), ctx);
      return e.receiver;
    }
    if (e instanceof SafePropertyReadExpr) {
      dst.expr = safeTernaryWithTemporary(dst.expr, (r) => r.prop(e.name), ctx);
      return e.receiver;
    }
    if (e instanceof SafeKeyedReadExpr) {
      dst.expr = safeTernaryWithTemporary(dst.expr, (r) => r.key(e.index), ctx);
      return e.receiver;
    }
  } else {
    if (e instanceof SafeInvokeFunctionExpr) {
      return safeTernaryWithTemporary(e.receiver, (r) => r.callFn(e.args), ctx);
    }
    if (e instanceof SafePropertyReadExpr) {
      return safeTernaryWithTemporary(e.receiver, (r) => r.prop(e.name), ctx);
    }
    if (e instanceof SafeKeyedReadExpr) {
      return safeTernaryWithTemporary(e.receiver, (r) => r.key(e.index), ctx);
    }
  }
  return e;
}
function ternaryTransform(e) {
  if (!(e instanceof SafeTernaryExpr)) {
    return e;
  }
  return new ConditionalExpr(new BinaryOperatorExpr(BinaryOperator.Equals, e.guard, NULL_EXPR), NULL_EXPR, e.expr);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/extract_i18n_messages.mjs
var ESCAPE = "\uFFFD";
var ELEMENT_MARKER = "#";
var TEMPLATE_MARKER = "*";
var TAG_CLOSE_MARKER = "/";
var CONTEXT_MARKER = ":";
var LIST_START_MARKER = "[";
var LIST_END_MARKER = "]";
var LIST_DELIMITER = "|";
function extractI18nMessages(job) {
  const i18nMessagesByContext = /* @__PURE__ */ new Map();
  const i18nBlocks = /* @__PURE__ */ new Map();
  const i18nContexts = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nContext:
          const i18nMessageOp = createI18nMessage(job, op);
          unit.create.push(i18nMessageOp);
          i18nMessagesByContext.set(op.xref, i18nMessageOp);
          i18nContexts.set(op.xref, op);
          break;
        case OpKind.I18nStart:
          i18nBlocks.set(op.xref, op);
          break;
      }
    }
  }
  let currentIcu = null;
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.IcuStart:
          currentIcu = op;
          OpList.remove(op);
          const icuContext = i18nContexts.get(op.context);
          if (icuContext.contextKind !== I18nContextKind.Icu) {
            continue;
          }
          const i18nBlock = i18nBlocks.get(icuContext.i18nBlock);
          if (i18nBlock.context === icuContext.xref) {
            continue;
          }
          const rootI18nBlock = i18nBlocks.get(i18nBlock.root);
          const rootMessage = i18nMessagesByContext.get(rootI18nBlock.context);
          if (rootMessage === void 0) {
            throw Error("AssertionError: ICU sub-message should belong to a root message.");
          }
          const subMessage = i18nMessagesByContext.get(icuContext.xref);
          subMessage.messagePlaceholder = op.messagePlaceholder;
          rootMessage.subMessages.push(subMessage.xref);
          break;
        case OpKind.IcuEnd:
          currentIcu = null;
          OpList.remove(op);
          break;
        case OpKind.IcuPlaceholder:
          if (currentIcu === null || currentIcu.context == null) {
            throw Error("AssertionError: Unexpected ICU placeholder outside of i18n context");
          }
          const msg = i18nMessagesByContext.get(currentIcu.context);
          msg.postprocessingParams.set(op.name, literal(formatIcuPlaceholder(op)));
          OpList.remove(op);
          break;
      }
    }
  }
}
function createI18nMessage(job, context, messagePlaceholder) {
  let formattedParams = formatParams(context.params);
  const formattedPostprocessingParams = formatParams(context.postprocessingParams);
  let needsPostprocessing = [...context.params.values()].some((v) => v.length > 1);
  return createI18nMessageOp(job.allocateXrefId(), context.xref, context.i18nBlock, context.message, messagePlaceholder != null ? messagePlaceholder : null, formattedParams, formattedPostprocessingParams, needsPostprocessing);
}
function formatIcuPlaceholder(op) {
  if (op.strings.length !== op.expressionPlaceholders.length + 1) {
    throw Error(`AssertionError: Invalid ICU placeholder with ${op.strings.length} strings and ${op.expressionPlaceholders.length} expressions`);
  }
  const values = op.expressionPlaceholders.map(formatValue);
  return op.strings.flatMap((str, i) => [str, values[i] || ""]).join("");
}
function formatParams(params) {
  const formattedParams = /* @__PURE__ */ new Map();
  for (const [placeholder, placeholderValues] of params) {
    const serializedValues = formatParamValues(placeholderValues);
    if (serializedValues !== null) {
      formattedParams.set(placeholder, literal(serializedValues));
    }
  }
  return formattedParams;
}
function formatParamValues(values) {
  if (values.length === 0) {
    return null;
  }
  const serializedValues = values.map((value) => formatValue(value));
  return serializedValues.length === 1 ? serializedValues[0] : `${LIST_START_MARKER}${serializedValues.join(LIST_DELIMITER)}${LIST_END_MARKER}`;
}
function formatValue(value) {
  if (value.flags & I18nParamValueFlags.ElementTag && value.flags & I18nParamValueFlags.TemplateTag) {
    if (typeof value.value !== "object") {
      throw Error("AssertionError: Expected i18n param value to have an element and template slot");
    }
    const elementValue = formatValue(__spreadProps(__spreadValues({}, value), {
      value: value.value.element,
      flags: value.flags & ~I18nParamValueFlags.TemplateTag
    }));
    const templateValue = formatValue(__spreadProps(__spreadValues({}, value), {
      value: value.value.template,
      flags: value.flags & ~I18nParamValueFlags.ElementTag
    }));
    if (value.flags & I18nParamValueFlags.OpenTag && value.flags & I18nParamValueFlags.CloseTag) {
      return `${templateValue}${elementValue}${templateValue}`;
    }
    return value.flags & I18nParamValueFlags.CloseTag ? `${elementValue}${templateValue}` : `${templateValue}${elementValue}`;
  }
  if (value.flags & I18nParamValueFlags.OpenTag && value.flags & I18nParamValueFlags.CloseTag) {
    return `${formatValue(__spreadProps(__spreadValues({}, value), { flags: value.flags & ~I18nParamValueFlags.CloseTag }))}${formatValue(__spreadProps(__spreadValues({}, value), { flags: value.flags & ~I18nParamValueFlags.OpenTag }))}`;
  }
  if (value.flags === I18nParamValueFlags.None) {
    return `${value.value}`;
  }
  let tagMarker = "";
  let closeMarker = "";
  if (value.flags & I18nParamValueFlags.ElementTag) {
    tagMarker = ELEMENT_MARKER;
  } else if (value.flags & I18nParamValueFlags.TemplateTag) {
    tagMarker = TEMPLATE_MARKER;
  }
  if (tagMarker !== "") {
    closeMarker = value.flags & I18nParamValueFlags.CloseTag ? TAG_CLOSE_MARKER : "";
  }
  const context = value.subTemplateIndex === null ? "" : `${CONTEXT_MARKER}${value.subTemplateIndex}`;
  return `${ESCAPE}${closeMarker}${tagMarker}${value.value}${context}${ESCAPE}`;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/generate_advance.mjs
function generateAdvance(job) {
  for (const unit of job.units) {
    const slotMap = /* @__PURE__ */ new Map();
    for (const op of unit.create) {
      if (!hasConsumesSlotTrait(op)) {
        continue;
      } else if (op.handle.slot === null) {
        throw new Error(`AssertionError: expected slots to have been allocated before generating advance() calls`);
      }
      slotMap.set(op.xref, op.handle.slot);
    }
    let slotContext = 0;
    for (const op of unit.update) {
      let consumer = null;
      if (hasDependsOnSlotContextTrait(op)) {
        consumer = op;
      } else {
        visitExpressionsInOp(op, (expr) => {
          if (consumer === null && hasDependsOnSlotContextTrait(expr)) {
            consumer = expr;
          }
        });
      }
      if (consumer === null) {
        continue;
      }
      if (!slotMap.has(consumer.target)) {
        throw new Error(`AssertionError: reference to unknown slot for target ${consumer.target}`);
      }
      const slot = slotMap.get(consumer.target);
      if (slotContext !== slot) {
        const delta = slot - slotContext;
        if (delta < 0) {
          throw new Error(`AssertionError: slot counter should never need to move backwards`);
        }
        OpList.insertBefore(createAdvanceOp(delta, consumer.sourceSpan), op);
        slotContext = slot;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/generate_projection_def.mjs
function generateProjectionDefs(job) {
  const share = job.compatibility === CompatibilityMode.TemplateDefinitionBuilder;
  const selectors = [];
  let projectionSlotIndex = 0;
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.Projection) {
        selectors.push(op.selector);
        op.projectionSlotIndex = projectionSlotIndex++;
      }
    }
  }
  if (selectors.length > 0) {
    let defExpr = null;
    if (selectors.length > 1 || selectors[0] !== "*") {
      const def = selectors.map((s) => s === "*" ? s : parseSelectorToR3Selector(s));
      defExpr = job.pool.getConstLiteral(literalOrArrayLiteral(def), share);
    }
    job.contentSelectors = job.pool.getConstLiteral(literalOrArrayLiteral(selectors), share);
    job.root.create.prepend([createProjectionDefOp(defExpr)]);
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/generate_variables.mjs
function generateVariables(job) {
  recursivelyProcessView(job.root, null);
}
function recursivelyProcessView(view, parentScope) {
  const scope = getScopeForView(view, parentScope);
  for (const op of view.create) {
    switch (op.kind) {
      case OpKind.Template:
        recursivelyProcessView(view.job.views.get(op.xref), scope);
        break;
      case OpKind.Projection:
        if (op.fallbackView !== null) {
          recursivelyProcessView(view.job.views.get(op.fallbackView), scope);
        }
        break;
      case OpKind.RepeaterCreate:
        recursivelyProcessView(view.job.views.get(op.xref), scope);
        if (op.emptyView) {
          recursivelyProcessView(view.job.views.get(op.emptyView), scope);
        }
        break;
      case OpKind.Listener:
      case OpKind.TwoWayListener:
        op.handlerOps.prepend(generateVariablesInScopeForView(view, scope, true));
        break;
    }
  }
  view.update.prepend(generateVariablesInScopeForView(view, scope, false));
}
function getScopeForView(view, parent) {
  const scope = {
    view: view.xref,
    viewContextVariable: {
      kind: SemanticVariableKind.Context,
      name: null,
      view: view.xref
    },
    contextVariables: /* @__PURE__ */ new Map(),
    aliases: view.aliases,
    references: [],
    letDeclarations: [],
    parent
  };
  for (const identifier of view.contextVariables.keys()) {
    scope.contextVariables.set(identifier, {
      kind: SemanticVariableKind.Identifier,
      name: null,
      identifier,
      local: false
    });
  }
  for (const op of view.create) {
    switch (op.kind) {
      case OpKind.ElementStart:
      case OpKind.Template:
        if (!Array.isArray(op.localRefs)) {
          throw new Error(`AssertionError: expected localRefs to be an array`);
        }
        for (let offset = 0; offset < op.localRefs.length; offset++) {
          scope.references.push({
            name: op.localRefs[offset].name,
            targetId: op.xref,
            targetSlot: op.handle,
            offset,
            variable: {
              kind: SemanticVariableKind.Identifier,
              name: null,
              identifier: op.localRefs[offset].name,
              local: false
            }
          });
        }
        break;
      case OpKind.DeclareLet:
        scope.letDeclarations.push({
          targetId: op.xref,
          targetSlot: op.handle,
          variable: {
            kind: SemanticVariableKind.Identifier,
            name: null,
            identifier: op.declaredName,
            local: false
          }
        });
        break;
    }
  }
  return scope;
}
function generateVariablesInScopeForView(view, scope, isListener) {
  const newOps = [];
  if (scope.view !== view.xref) {
    newOps.push(createVariableOp(view.job.allocateXrefId(), scope.viewContextVariable, new NextContextExpr(), VariableFlags.None));
  }
  const scopeView = view.job.views.get(scope.view);
  for (const [name, value] of scopeView.contextVariables) {
    const context = new ContextExpr(scope.view);
    const variable2 = value === CTX_REF ? context : new ReadPropExpr(context, value);
    newOps.push(createVariableOp(view.job.allocateXrefId(), scope.contextVariables.get(name), variable2, VariableFlags.None));
  }
  for (const alias of scopeView.aliases) {
    newOps.push(createVariableOp(view.job.allocateXrefId(), alias, alias.expression.clone(), VariableFlags.AlwaysInline));
  }
  for (const ref of scope.references) {
    newOps.push(createVariableOp(view.job.allocateXrefId(), ref.variable, new ReferenceExpr(ref.targetId, ref.targetSlot, ref.offset), VariableFlags.None));
  }
  if (scope.view !== view.xref || isListener) {
    for (const decl of scope.letDeclarations) {
      newOps.push(createVariableOp(view.job.allocateXrefId(), decl.variable, new ContextLetReferenceExpr(decl.targetId, decl.targetSlot), VariableFlags.None));
    }
  }
  if (scope.parent !== null) {
    newOps.push(...generateVariablesInScopeForView(view, scope.parent, false));
  }
  return newOps;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/has_const_expression_collection.mjs
function collectConstExpressions(job) {
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      transformExpressionsInOp(op, (expr) => {
        if (!(expr instanceof ConstCollectedExpr)) {
          return expr;
        }
        return literal(job.addConst(expr.expr));
      }, VisitorContextFlag.None);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/host_style_property_parsing.mjs
var STYLE_DOT = "style.";
var CLASS_DOT = "class.";
var STYLE_BANG = "style!";
var CLASS_BANG = "class!";
var BANG_IMPORTANT = "!important";
function parseHostStyleProperties(job) {
  for (const op of job.root.update) {
    if (!(op.kind === OpKind.Binding && op.bindingKind === BindingKind.Property)) {
      continue;
    }
    if (op.name.endsWith(BANG_IMPORTANT)) {
      op.name = op.name.substring(0, op.name.length - BANG_IMPORTANT.length);
    }
    if (op.name.startsWith(STYLE_DOT)) {
      op.bindingKind = BindingKind.StyleProperty;
      op.name = op.name.substring(STYLE_DOT.length);
      if (!isCssCustomProperty(op.name)) {
        op.name = hyphenate(op.name);
      }
      const { property: property2, suffix } = parseProperty(op.name);
      op.name = property2;
      op.unit = suffix;
    } else if (op.name.startsWith(STYLE_BANG)) {
      op.bindingKind = BindingKind.StyleProperty;
      op.name = "style";
    } else if (op.name.startsWith(CLASS_DOT)) {
      op.bindingKind = BindingKind.ClassName;
      op.name = parseProperty(op.name.substring(CLASS_DOT.length)).property;
    } else if (op.name.startsWith(CLASS_BANG)) {
      op.bindingKind = BindingKind.ClassName;
      op.name = parseProperty(op.name.substring(CLASS_BANG.length)).property;
    }
  }
}
function isCssCustomProperty(name) {
  return name.startsWith("--");
}
function hyphenate(value) {
  return value.replace(/[a-z][A-Z]/g, (v) => {
    return v.charAt(0) + "-" + v.charAt(1);
  }).toLowerCase();
}
function parseProperty(name) {
  const overrideIndex = name.indexOf("!important");
  if (overrideIndex !== -1) {
    name = overrideIndex > 0 ? name.substring(0, overrideIndex) : "";
  }
  let suffix = null;
  let property2 = name;
  const unitIndex = name.lastIndexOf(".");
  if (unitIndex > 0) {
    suffix = name.slice(unitIndex + 1);
    property2 = name.substring(0, unitIndex);
  }
  return { property: property2, suffix };
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/output/map_util.mjs
function mapLiteral(obj, quoted = false) {
  return literalMap(Object.keys(obj).map((key) => ({
    key,
    quoted,
    value: obj[key]
  })));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/i18n/icu_serializer.mjs
var IcuSerializerVisitor = class {
  visitText(text2) {
    return text2.value;
  }
  visitContainer(container) {
    return container.children.map((child) => child.visit(this)).join("");
  }
  visitIcu(icu) {
    const strCases = Object.keys(icu.cases).map((k) => `${k} {${icu.cases[k].visit(this)}}`);
    const result = `{${icu.expressionPlaceholder}, ${icu.type}, ${strCases.join(" ")}}`;
    return result;
  }
  visitTagPlaceholder(ph) {
    return ph.isVoid ? this.formatPh(ph.startName) : `${this.formatPh(ph.startName)}${ph.children.map((child) => child.visit(this)).join("")}${this.formatPh(ph.closeName)}`;
  }
  visitPlaceholder(ph) {
    return this.formatPh(ph.name);
  }
  visitBlockPlaceholder(ph) {
    return `${this.formatPh(ph.startName)}${ph.children.map((child) => child.visit(this)).join("")}${this.formatPh(ph.closeName)}`;
  }
  visitIcuPlaceholder(ph, context) {
    return this.formatPh(ph.name);
  }
  formatPh(value) {
    return `{${formatI18nPlaceholderName(value, false)}}`;
  }
};
var serializer = new IcuSerializerVisitor();
function serializeIcuNode(icu) {
  return icu.visit(serializer);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/ast.mjs
var NodeWithI18n = class {
  constructor(sourceSpan, i18n2) {
    this.sourceSpan = sourceSpan;
    this.i18n = i18n2;
  }
};
var Text4 = class extends NodeWithI18n {
  constructor(value, sourceSpan, tokens, i18n2) {
    super(sourceSpan, i18n2);
    this.value = value;
    this.tokens = tokens;
  }
  visit(visitor, context) {
    return visitor.visitText(this, context);
  }
};
var Expansion = class extends NodeWithI18n {
  constructor(switchValue, type, cases, sourceSpan, switchValueSourceSpan, i18n2) {
    super(sourceSpan, i18n2);
    this.switchValue = switchValue;
    this.type = type;
    this.cases = cases;
    this.switchValueSourceSpan = switchValueSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitExpansion(this, context);
  }
};
var ExpansionCase = class {
  constructor(value, expression, sourceSpan, valueSourceSpan, expSourceSpan) {
    this.value = value;
    this.expression = expression;
    this.sourceSpan = sourceSpan;
    this.valueSourceSpan = valueSourceSpan;
    this.expSourceSpan = expSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitExpansionCase(this, context);
  }
};
var Attribute = class extends NodeWithI18n {
  constructor(name, value, sourceSpan, keySpan, valueSpan, valueTokens, i18n2) {
    super(sourceSpan, i18n2);
    this.name = name;
    this.value = value;
    this.keySpan = keySpan;
    this.valueSpan = valueSpan;
    this.valueTokens = valueTokens;
  }
  visit(visitor, context) {
    return visitor.visitAttribute(this, context);
  }
};
var Element2 = class extends NodeWithI18n {
  constructor(name, attrs, children, sourceSpan, startSourceSpan, endSourceSpan = null, i18n2) {
    super(sourceSpan, i18n2);
    this.name = name;
    this.attrs = attrs;
    this.children = children;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitElement(this, context);
  }
};
var Comment2 = class {
  constructor(value, sourceSpan) {
    this.value = value;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitComment(this, context);
  }
};
var Block = class extends NodeWithI18n {
  constructor(name, parameters, children, sourceSpan, nameSpan, startSourceSpan, endSourceSpan = null, i18n2) {
    super(sourceSpan, i18n2);
    this.name = name;
    this.parameters = parameters;
    this.children = children;
    this.nameSpan = nameSpan;
    this.startSourceSpan = startSourceSpan;
    this.endSourceSpan = endSourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitBlock(this, context);
  }
};
var BlockParameter = class {
  constructor(expression, sourceSpan) {
    this.expression = expression;
    this.sourceSpan = sourceSpan;
  }
  visit(visitor, context) {
    return visitor.visitBlockParameter(this, context);
  }
};
var LetDeclaration2 = class {
  constructor(name, value, sourceSpan, nameSpan, valueSpan) {
    this.name = name;
    this.value = value;
    this.sourceSpan = sourceSpan;
    this.nameSpan = nameSpan;
    this.valueSpan = valueSpan;
  }
  visit(visitor, context) {
    return visitor.visitLetDeclaration(this, context);
  }
};
function visitAll2(visitor, nodes, context = null) {
  const result = [];
  const visit2 = visitor.visit ? (ast) => visitor.visit(ast, context) || ast.visit(visitor, context) : (ast) => ast.visit(visitor, context);
  nodes.forEach((ast) => {
    const astResult = visit2(ast);
    if (astResult) {
      result.push(astResult);
    }
  });
  return result;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/entities.mjs
var NAMED_ENTITIES = {
  "AElig": "\xC6",
  "AMP": "&",
  "amp": "&",
  "Aacute": "\xC1",
  "Abreve": "\u0102",
  "Acirc": "\xC2",
  "Acy": "\u0410",
  "Afr": "\u{1D504}",
  "Agrave": "\xC0",
  "Alpha": "\u0391",
  "Amacr": "\u0100",
  "And": "\u2A53",
  "Aogon": "\u0104",
  "Aopf": "\u{1D538}",
  "ApplyFunction": "\u2061",
  "af": "\u2061",
  "Aring": "\xC5",
  "angst": "\xC5",
  "Ascr": "\u{1D49C}",
  "Assign": "\u2254",
  "colone": "\u2254",
  "coloneq": "\u2254",
  "Atilde": "\xC3",
  "Auml": "\xC4",
  "Backslash": "\u2216",
  "setminus": "\u2216",
  "setmn": "\u2216",
  "smallsetminus": "\u2216",
  "ssetmn": "\u2216",
  "Barv": "\u2AE7",
  "Barwed": "\u2306",
  "doublebarwedge": "\u2306",
  "Bcy": "\u0411",
  "Because": "\u2235",
  "becaus": "\u2235",
  "because": "\u2235",
  "Bernoullis": "\u212C",
  "Bscr": "\u212C",
  "bernou": "\u212C",
  "Beta": "\u0392",
  "Bfr": "\u{1D505}",
  "Bopf": "\u{1D539}",
  "Breve": "\u02D8",
  "breve": "\u02D8",
  "Bumpeq": "\u224E",
  "HumpDownHump": "\u224E",
  "bump": "\u224E",
  "CHcy": "\u0427",
  "COPY": "\xA9",
  "copy": "\xA9",
  "Cacute": "\u0106",
  "Cap": "\u22D2",
  "CapitalDifferentialD": "\u2145",
  "DD": "\u2145",
  "Cayleys": "\u212D",
  "Cfr": "\u212D",
  "Ccaron": "\u010C",
  "Ccedil": "\xC7",
  "Ccirc": "\u0108",
  "Cconint": "\u2230",
  "Cdot": "\u010A",
  "Cedilla": "\xB8",
  "cedil": "\xB8",
  "CenterDot": "\xB7",
  "centerdot": "\xB7",
  "middot": "\xB7",
  "Chi": "\u03A7",
  "CircleDot": "\u2299",
  "odot": "\u2299",
  "CircleMinus": "\u2296",
  "ominus": "\u2296",
  "CirclePlus": "\u2295",
  "oplus": "\u2295",
  "CircleTimes": "\u2297",
  "otimes": "\u2297",
  "ClockwiseContourIntegral": "\u2232",
  "cwconint": "\u2232",
  "CloseCurlyDoubleQuote": "\u201D",
  "rdquo": "\u201D",
  "rdquor": "\u201D",
  "CloseCurlyQuote": "\u2019",
  "rsquo": "\u2019",
  "rsquor": "\u2019",
  "Colon": "\u2237",
  "Proportion": "\u2237",
  "Colone": "\u2A74",
  "Congruent": "\u2261",
  "equiv": "\u2261",
  "Conint": "\u222F",
  "DoubleContourIntegral": "\u222F",
  "ContourIntegral": "\u222E",
  "conint": "\u222E",
  "oint": "\u222E",
  "Copf": "\u2102",
  "complexes": "\u2102",
  "Coproduct": "\u2210",
  "coprod": "\u2210",
  "CounterClockwiseContourIntegral": "\u2233",
  "awconint": "\u2233",
  "Cross": "\u2A2F",
  "Cscr": "\u{1D49E}",
  "Cup": "\u22D3",
  "CupCap": "\u224D",
  "asympeq": "\u224D",
  "DDotrahd": "\u2911",
  "DJcy": "\u0402",
  "DScy": "\u0405",
  "DZcy": "\u040F",
  "Dagger": "\u2021",
  "ddagger": "\u2021",
  "Darr": "\u21A1",
  "Dashv": "\u2AE4",
  "DoubleLeftTee": "\u2AE4",
  "Dcaron": "\u010E",
  "Dcy": "\u0414",
  "Del": "\u2207",
  "nabla": "\u2207",
  "Delta": "\u0394",
  "Dfr": "\u{1D507}",
  "DiacriticalAcute": "\xB4",
  "acute": "\xB4",
  "DiacriticalDot": "\u02D9",
  "dot": "\u02D9",
  "DiacriticalDoubleAcute": "\u02DD",
  "dblac": "\u02DD",
  "DiacriticalGrave": "`",
  "grave": "`",
  "DiacriticalTilde": "\u02DC",
  "tilde": "\u02DC",
  "Diamond": "\u22C4",
  "diam": "\u22C4",
  "diamond": "\u22C4",
  "DifferentialD": "\u2146",
  "dd": "\u2146",
  "Dopf": "\u{1D53B}",
  "Dot": "\xA8",
  "DoubleDot": "\xA8",
  "die": "\xA8",
  "uml": "\xA8",
  "DotDot": "\u20DC",
  "DotEqual": "\u2250",
  "doteq": "\u2250",
  "esdot": "\u2250",
  "DoubleDownArrow": "\u21D3",
  "Downarrow": "\u21D3",
  "dArr": "\u21D3",
  "DoubleLeftArrow": "\u21D0",
  "Leftarrow": "\u21D0",
  "lArr": "\u21D0",
  "DoubleLeftRightArrow": "\u21D4",
  "Leftrightarrow": "\u21D4",
  "hArr": "\u21D4",
  "iff": "\u21D4",
  "DoubleLongLeftArrow": "\u27F8",
  "Longleftarrow": "\u27F8",
  "xlArr": "\u27F8",
  "DoubleLongLeftRightArrow": "\u27FA",
  "Longleftrightarrow": "\u27FA",
  "xhArr": "\u27FA",
  "DoubleLongRightArrow": "\u27F9",
  "Longrightarrow": "\u27F9",
  "xrArr": "\u27F9",
  "DoubleRightArrow": "\u21D2",
  "Implies": "\u21D2",
  "Rightarrow": "\u21D2",
  "rArr": "\u21D2",
  "DoubleRightTee": "\u22A8",
  "vDash": "\u22A8",
  "DoubleUpArrow": "\u21D1",
  "Uparrow": "\u21D1",
  "uArr": "\u21D1",
  "DoubleUpDownArrow": "\u21D5",
  "Updownarrow": "\u21D5",
  "vArr": "\u21D5",
  "DoubleVerticalBar": "\u2225",
  "par": "\u2225",
  "parallel": "\u2225",
  "shortparallel": "\u2225",
  "spar": "\u2225",
  "DownArrow": "\u2193",
  "ShortDownArrow": "\u2193",
  "darr": "\u2193",
  "downarrow": "\u2193",
  "DownArrowBar": "\u2913",
  "DownArrowUpArrow": "\u21F5",
  "duarr": "\u21F5",
  "DownBreve": "\u0311",
  "DownLeftRightVector": "\u2950",
  "DownLeftTeeVector": "\u295E",
  "DownLeftVector": "\u21BD",
  "leftharpoondown": "\u21BD",
  "lhard": "\u21BD",
  "DownLeftVectorBar": "\u2956",
  "DownRightTeeVector": "\u295F",
  "DownRightVector": "\u21C1",
  "rhard": "\u21C1",
  "rightharpoondown": "\u21C1",
  "DownRightVectorBar": "\u2957",
  "DownTee": "\u22A4",
  "top": "\u22A4",
  "DownTeeArrow": "\u21A7",
  "mapstodown": "\u21A7",
  "Dscr": "\u{1D49F}",
  "Dstrok": "\u0110",
  "ENG": "\u014A",
  "ETH": "\xD0",
  "Eacute": "\xC9",
  "Ecaron": "\u011A",
  "Ecirc": "\xCA",
  "Ecy": "\u042D",
  "Edot": "\u0116",
  "Efr": "\u{1D508}",
  "Egrave": "\xC8",
  "Element": "\u2208",
  "in": "\u2208",
  "isin": "\u2208",
  "isinv": "\u2208",
  "Emacr": "\u0112",
  "EmptySmallSquare": "\u25FB",
  "EmptyVerySmallSquare": "\u25AB",
  "Eogon": "\u0118",
  "Eopf": "\u{1D53C}",
  "Epsilon": "\u0395",
  "Equal": "\u2A75",
  "EqualTilde": "\u2242",
  "eqsim": "\u2242",
  "esim": "\u2242",
  "Equilibrium": "\u21CC",
  "rightleftharpoons": "\u21CC",
  "rlhar": "\u21CC",
  "Escr": "\u2130",
  "expectation": "\u2130",
  "Esim": "\u2A73",
  "Eta": "\u0397",
  "Euml": "\xCB",
  "Exists": "\u2203",
  "exist": "\u2203",
  "ExponentialE": "\u2147",
  "ee": "\u2147",
  "exponentiale": "\u2147",
  "Fcy": "\u0424",
  "Ffr": "\u{1D509}",
  "FilledSmallSquare": "\u25FC",
  "FilledVerySmallSquare": "\u25AA",
  "blacksquare": "\u25AA",
  "squarf": "\u25AA",
  "squf": "\u25AA",
  "Fopf": "\u{1D53D}",
  "ForAll": "\u2200",
  "forall": "\u2200",
  "Fouriertrf": "\u2131",
  "Fscr": "\u2131",
  "GJcy": "\u0403",
  "GT": ">",
  "gt": ">",
  "Gamma": "\u0393",
  "Gammad": "\u03DC",
  "Gbreve": "\u011E",
  "Gcedil": "\u0122",
  "Gcirc": "\u011C",
  "Gcy": "\u0413",
  "Gdot": "\u0120",
  "Gfr": "\u{1D50A}",
  "Gg": "\u22D9",
  "ggg": "\u22D9",
  "Gopf": "\u{1D53E}",
  "GreaterEqual": "\u2265",
  "ge": "\u2265",
  "geq": "\u2265",
  "GreaterEqualLess": "\u22DB",
  "gel": "\u22DB",
  "gtreqless": "\u22DB",
  "GreaterFullEqual": "\u2267",
  "gE": "\u2267",
  "geqq": "\u2267",
  "GreaterGreater": "\u2AA2",
  "GreaterLess": "\u2277",
  "gl": "\u2277",
  "gtrless": "\u2277",
  "GreaterSlantEqual": "\u2A7E",
  "geqslant": "\u2A7E",
  "ges": "\u2A7E",
  "GreaterTilde": "\u2273",
  "gsim": "\u2273",
  "gtrsim": "\u2273",
  "Gscr": "\u{1D4A2}",
  "Gt": "\u226B",
  "NestedGreaterGreater": "\u226B",
  "gg": "\u226B",
  "HARDcy": "\u042A",
  "Hacek": "\u02C7",
  "caron": "\u02C7",
  "Hat": "^",
  "Hcirc": "\u0124",
  "Hfr": "\u210C",
  "Poincareplane": "\u210C",
  "HilbertSpace": "\u210B",
  "Hscr": "\u210B",
  "hamilt": "\u210B",
  "Hopf": "\u210D",
  "quaternions": "\u210D",
  "HorizontalLine": "\u2500",
  "boxh": "\u2500",
  "Hstrok": "\u0126",
  "HumpEqual": "\u224F",
  "bumpe": "\u224F",
  "bumpeq": "\u224F",
  "IEcy": "\u0415",
  "IJlig": "\u0132",
  "IOcy": "\u0401",
  "Iacute": "\xCD",
  "Icirc": "\xCE",
  "Icy": "\u0418",
  "Idot": "\u0130",
  "Ifr": "\u2111",
  "Im": "\u2111",
  "image": "\u2111",
  "imagpart": "\u2111",
  "Igrave": "\xCC",
  "Imacr": "\u012A",
  "ImaginaryI": "\u2148",
  "ii": "\u2148",
  "Int": "\u222C",
  "Integral": "\u222B",
  "int": "\u222B",
  "Intersection": "\u22C2",
  "bigcap": "\u22C2",
  "xcap": "\u22C2",
  "InvisibleComma": "\u2063",
  "ic": "\u2063",
  "InvisibleTimes": "\u2062",
  "it": "\u2062",
  "Iogon": "\u012E",
  "Iopf": "\u{1D540}",
  "Iota": "\u0399",
  "Iscr": "\u2110",
  "imagline": "\u2110",
  "Itilde": "\u0128",
  "Iukcy": "\u0406",
  "Iuml": "\xCF",
  "Jcirc": "\u0134",
  "Jcy": "\u0419",
  "Jfr": "\u{1D50D}",
  "Jopf": "\u{1D541}",
  "Jscr": "\u{1D4A5}",
  "Jsercy": "\u0408",
  "Jukcy": "\u0404",
  "KHcy": "\u0425",
  "KJcy": "\u040C",
  "Kappa": "\u039A",
  "Kcedil": "\u0136",
  "Kcy": "\u041A",
  "Kfr": "\u{1D50E}",
  "Kopf": "\u{1D542}",
  "Kscr": "\u{1D4A6}",
  "LJcy": "\u0409",
  "LT": "<",
  "lt": "<",
  "Lacute": "\u0139",
  "Lambda": "\u039B",
  "Lang": "\u27EA",
  "Laplacetrf": "\u2112",
  "Lscr": "\u2112",
  "lagran": "\u2112",
  "Larr": "\u219E",
  "twoheadleftarrow": "\u219E",
  "Lcaron": "\u013D",
  "Lcedil": "\u013B",
  "Lcy": "\u041B",
  "LeftAngleBracket": "\u27E8",
  "lang": "\u27E8",
  "langle": "\u27E8",
  "LeftArrow": "\u2190",
  "ShortLeftArrow": "\u2190",
  "larr": "\u2190",
  "leftarrow": "\u2190",
  "slarr": "\u2190",
  "LeftArrowBar": "\u21E4",
  "larrb": "\u21E4",
  "LeftArrowRightArrow": "\u21C6",
  "leftrightarrows": "\u21C6",
  "lrarr": "\u21C6",
  "LeftCeiling": "\u2308",
  "lceil": "\u2308",
  "LeftDoubleBracket": "\u27E6",
  "lobrk": "\u27E6",
  "LeftDownTeeVector": "\u2961",
  "LeftDownVector": "\u21C3",
  "dharl": "\u21C3",
  "downharpoonleft": "\u21C3",
  "LeftDownVectorBar": "\u2959",
  "LeftFloor": "\u230A",
  "lfloor": "\u230A",
  "LeftRightArrow": "\u2194",
  "harr": "\u2194",
  "leftrightarrow": "\u2194",
  "LeftRightVector": "\u294E",
  "LeftTee": "\u22A3",
  "dashv": "\u22A3",
  "LeftTeeArrow": "\u21A4",
  "mapstoleft": "\u21A4",
  "LeftTeeVector": "\u295A",
  "LeftTriangle": "\u22B2",
  "vartriangleleft": "\u22B2",
  "vltri": "\u22B2",
  "LeftTriangleBar": "\u29CF",
  "LeftTriangleEqual": "\u22B4",
  "ltrie": "\u22B4",
  "trianglelefteq": "\u22B4",
  "LeftUpDownVector": "\u2951",
  "LeftUpTeeVector": "\u2960",
  "LeftUpVector": "\u21BF",
  "uharl": "\u21BF",
  "upharpoonleft": "\u21BF",
  "LeftUpVectorBar": "\u2958",
  "LeftVector": "\u21BC",
  "leftharpoonup": "\u21BC",
  "lharu": "\u21BC",
  "LeftVectorBar": "\u2952",
  "LessEqualGreater": "\u22DA",
  "leg": "\u22DA",
  "lesseqgtr": "\u22DA",
  "LessFullEqual": "\u2266",
  "lE": "\u2266",
  "leqq": "\u2266",
  "LessGreater": "\u2276",
  "lessgtr": "\u2276",
  "lg": "\u2276",
  "LessLess": "\u2AA1",
  "LessSlantEqual": "\u2A7D",
  "leqslant": "\u2A7D",
  "les": "\u2A7D",
  "LessTilde": "\u2272",
  "lesssim": "\u2272",
  "lsim": "\u2272",
  "Lfr": "\u{1D50F}",
  "Ll": "\u22D8",
  "Lleftarrow": "\u21DA",
  "lAarr": "\u21DA",
  "Lmidot": "\u013F",
  "LongLeftArrow": "\u27F5",
  "longleftarrow": "\u27F5",
  "xlarr": "\u27F5",
  "LongLeftRightArrow": "\u27F7",
  "longleftrightarrow": "\u27F7",
  "xharr": "\u27F7",
  "LongRightArrow": "\u27F6",
  "longrightarrow": "\u27F6",
  "xrarr": "\u27F6",
  "Lopf": "\u{1D543}",
  "LowerLeftArrow": "\u2199",
  "swarr": "\u2199",
  "swarrow": "\u2199",
  "LowerRightArrow": "\u2198",
  "searr": "\u2198",
  "searrow": "\u2198",
  "Lsh": "\u21B0",
  "lsh": "\u21B0",
  "Lstrok": "\u0141",
  "Lt": "\u226A",
  "NestedLessLess": "\u226A",
  "ll": "\u226A",
  "Map": "\u2905",
  "Mcy": "\u041C",
  "MediumSpace": "\u205F",
  "Mellintrf": "\u2133",
  "Mscr": "\u2133",
  "phmmat": "\u2133",
  "Mfr": "\u{1D510}",
  "MinusPlus": "\u2213",
  "mnplus": "\u2213",
  "mp": "\u2213",
  "Mopf": "\u{1D544}",
  "Mu": "\u039C",
  "NJcy": "\u040A",
  "Nacute": "\u0143",
  "Ncaron": "\u0147",
  "Ncedil": "\u0145",
  "Ncy": "\u041D",
  "NegativeMediumSpace": "\u200B",
  "NegativeThickSpace": "\u200B",
  "NegativeThinSpace": "\u200B",
  "NegativeVeryThinSpace": "\u200B",
  "ZeroWidthSpace": "\u200B",
  "NewLine": "\n",
  "Nfr": "\u{1D511}",
  "NoBreak": "\u2060",
  "NonBreakingSpace": "\xA0",
  "nbsp": "\xA0",
  "Nopf": "\u2115",
  "naturals": "\u2115",
  "Not": "\u2AEC",
  "NotCongruent": "\u2262",
  "nequiv": "\u2262",
  "NotCupCap": "\u226D",
  "NotDoubleVerticalBar": "\u2226",
  "npar": "\u2226",
  "nparallel": "\u2226",
  "nshortparallel": "\u2226",
  "nspar": "\u2226",
  "NotElement": "\u2209",
  "notin": "\u2209",
  "notinva": "\u2209",
  "NotEqual": "\u2260",
  "ne": "\u2260",
  "NotEqualTilde": "\u2242\u0338",
  "nesim": "\u2242\u0338",
  "NotExists": "\u2204",
  "nexist": "\u2204",
  "nexists": "\u2204",
  "NotGreater": "\u226F",
  "ngt": "\u226F",
  "ngtr": "\u226F",
  "NotGreaterEqual": "\u2271",
  "nge": "\u2271",
  "ngeq": "\u2271",
  "NotGreaterFullEqual": "\u2267\u0338",
  "ngE": "\u2267\u0338",
  "ngeqq": "\u2267\u0338",
  "NotGreaterGreater": "\u226B\u0338",
  "nGtv": "\u226B\u0338",
  "NotGreaterLess": "\u2279",
  "ntgl": "\u2279",
  "NotGreaterSlantEqual": "\u2A7E\u0338",
  "ngeqslant": "\u2A7E\u0338",
  "nges": "\u2A7E\u0338",
  "NotGreaterTilde": "\u2275",
  "ngsim": "\u2275",
  "NotHumpDownHump": "\u224E\u0338",
  "nbump": "\u224E\u0338",
  "NotHumpEqual": "\u224F\u0338",
  "nbumpe": "\u224F\u0338",
  "NotLeftTriangle": "\u22EA",
  "nltri": "\u22EA",
  "ntriangleleft": "\u22EA",
  "NotLeftTriangleBar": "\u29CF\u0338",
  "NotLeftTriangleEqual": "\u22EC",
  "nltrie": "\u22EC",
  "ntrianglelefteq": "\u22EC",
  "NotLess": "\u226E",
  "nless": "\u226E",
  "nlt": "\u226E",
  "NotLessEqual": "\u2270",
  "nle": "\u2270",
  "nleq": "\u2270",
  "NotLessGreater": "\u2278",
  "ntlg": "\u2278",
  "NotLessLess": "\u226A\u0338",
  "nLtv": "\u226A\u0338",
  "NotLessSlantEqual": "\u2A7D\u0338",
  "nleqslant": "\u2A7D\u0338",
  "nles": "\u2A7D\u0338",
  "NotLessTilde": "\u2274",
  "nlsim": "\u2274",
  "NotNestedGreaterGreater": "\u2AA2\u0338",
  "NotNestedLessLess": "\u2AA1\u0338",
  "NotPrecedes": "\u2280",
  "npr": "\u2280",
  "nprec": "\u2280",
  "NotPrecedesEqual": "\u2AAF\u0338",
  "npre": "\u2AAF\u0338",
  "npreceq": "\u2AAF\u0338",
  "NotPrecedesSlantEqual": "\u22E0",
  "nprcue": "\u22E0",
  "NotReverseElement": "\u220C",
  "notni": "\u220C",
  "notniva": "\u220C",
  "NotRightTriangle": "\u22EB",
  "nrtri": "\u22EB",
  "ntriangleright": "\u22EB",
  "NotRightTriangleBar": "\u29D0\u0338",
  "NotRightTriangleEqual": "\u22ED",
  "nrtrie": "\u22ED",
  "ntrianglerighteq": "\u22ED",
  "NotSquareSubset": "\u228F\u0338",
  "NotSquareSubsetEqual": "\u22E2",
  "nsqsube": "\u22E2",
  "NotSquareSuperset": "\u2290\u0338",
  "NotSquareSupersetEqual": "\u22E3",
  "nsqsupe": "\u22E3",
  "NotSubset": "\u2282\u20D2",
  "nsubset": "\u2282\u20D2",
  "vnsub": "\u2282\u20D2",
  "NotSubsetEqual": "\u2288",
  "nsube": "\u2288",
  "nsubseteq": "\u2288",
  "NotSucceeds": "\u2281",
  "nsc": "\u2281",
  "nsucc": "\u2281",
  "NotSucceedsEqual": "\u2AB0\u0338",
  "nsce": "\u2AB0\u0338",
  "nsucceq": "\u2AB0\u0338",
  "NotSucceedsSlantEqual": "\u22E1",
  "nsccue": "\u22E1",
  "NotSucceedsTilde": "\u227F\u0338",
  "NotSuperset": "\u2283\u20D2",
  "nsupset": "\u2283\u20D2",
  "vnsup": "\u2283\u20D2",
  "NotSupersetEqual": "\u2289",
  "nsupe": "\u2289",
  "nsupseteq": "\u2289",
  "NotTilde": "\u2241",
  "nsim": "\u2241",
  "NotTildeEqual": "\u2244",
  "nsime": "\u2244",
  "nsimeq": "\u2244",
  "NotTildeFullEqual": "\u2247",
  "ncong": "\u2247",
  "NotTildeTilde": "\u2249",
  "nap": "\u2249",
  "napprox": "\u2249",
  "NotVerticalBar": "\u2224",
  "nmid": "\u2224",
  "nshortmid": "\u2224",
  "nsmid": "\u2224",
  "Nscr": "\u{1D4A9}",
  "Ntilde": "\xD1",
  "Nu": "\u039D",
  "OElig": "\u0152",
  "Oacute": "\xD3",
  "Ocirc": "\xD4",
  "Ocy": "\u041E",
  "Odblac": "\u0150",
  "Ofr": "\u{1D512}",
  "Ograve": "\xD2",
  "Omacr": "\u014C",
  "Omega": "\u03A9",
  "ohm": "\u03A9",
  "Omicron": "\u039F",
  "Oopf": "\u{1D546}",
  "OpenCurlyDoubleQuote": "\u201C",
  "ldquo": "\u201C",
  "OpenCurlyQuote": "\u2018",
  "lsquo": "\u2018",
  "Or": "\u2A54",
  "Oscr": "\u{1D4AA}",
  "Oslash": "\xD8",
  "Otilde": "\xD5",
  "Otimes": "\u2A37",
  "Ouml": "\xD6",
  "OverBar": "\u203E",
  "oline": "\u203E",
  "OverBrace": "\u23DE",
  "OverBracket": "\u23B4",
  "tbrk": "\u23B4",
  "OverParenthesis": "\u23DC",
  "PartialD": "\u2202",
  "part": "\u2202",
  "Pcy": "\u041F",
  "Pfr": "\u{1D513}",
  "Phi": "\u03A6",
  "Pi": "\u03A0",
  "PlusMinus": "\xB1",
  "plusmn": "\xB1",
  "pm": "\xB1",
  "Popf": "\u2119",
  "primes": "\u2119",
  "Pr": "\u2ABB",
  "Precedes": "\u227A",
  "pr": "\u227A",
  "prec": "\u227A",
  "PrecedesEqual": "\u2AAF",
  "pre": "\u2AAF",
  "preceq": "\u2AAF",
  "PrecedesSlantEqual": "\u227C",
  "prcue": "\u227C",
  "preccurlyeq": "\u227C",
  "PrecedesTilde": "\u227E",
  "precsim": "\u227E",
  "prsim": "\u227E",
  "Prime": "\u2033",
  "Product": "\u220F",
  "prod": "\u220F",
  "Proportional": "\u221D",
  "prop": "\u221D",
  "propto": "\u221D",
  "varpropto": "\u221D",
  "vprop": "\u221D",
  "Pscr": "\u{1D4AB}",
  "Psi": "\u03A8",
  "QUOT": '"',
  "quot": '"',
  "Qfr": "\u{1D514}",
  "Qopf": "\u211A",
  "rationals": "\u211A",
  "Qscr": "\u{1D4AC}",
  "RBarr": "\u2910",
  "drbkarow": "\u2910",
  "REG": "\xAE",
  "circledR": "\xAE",
  "reg": "\xAE",
  "Racute": "\u0154",
  "Rang": "\u27EB",
  "Rarr": "\u21A0",
  "twoheadrightarrow": "\u21A0",
  "Rarrtl": "\u2916",
  "Rcaron": "\u0158",
  "Rcedil": "\u0156",
  "Rcy": "\u0420",
  "Re": "\u211C",
  "Rfr": "\u211C",
  "real": "\u211C",
  "realpart": "\u211C",
  "ReverseElement": "\u220B",
  "SuchThat": "\u220B",
  "ni": "\u220B",
  "niv": "\u220B",
  "ReverseEquilibrium": "\u21CB",
  "leftrightharpoons": "\u21CB",
  "lrhar": "\u21CB",
  "ReverseUpEquilibrium": "\u296F",
  "duhar": "\u296F",
  "Rho": "\u03A1",
  "RightAngleBracket": "\u27E9",
  "rang": "\u27E9",
  "rangle": "\u27E9",
  "RightArrow": "\u2192",
  "ShortRightArrow": "\u2192",
  "rarr": "\u2192",
  "rightarrow": "\u2192",
  "srarr": "\u2192",
  "RightArrowBar": "\u21E5",
  "rarrb": "\u21E5",
  "RightArrowLeftArrow": "\u21C4",
  "rightleftarrows": "\u21C4",
  "rlarr": "\u21C4",
  "RightCeiling": "\u2309",
  "rceil": "\u2309",
  "RightDoubleBracket": "\u27E7",
  "robrk": "\u27E7",
  "RightDownTeeVector": "\u295D",
  "RightDownVector": "\u21C2",
  "dharr": "\u21C2",
  "downharpoonright": "\u21C2",
  "RightDownVectorBar": "\u2955",
  "RightFloor": "\u230B",
  "rfloor": "\u230B",
  "RightTee": "\u22A2",
  "vdash": "\u22A2",
  "RightTeeArrow": "\u21A6",
  "map": "\u21A6",
  "mapsto": "\u21A6",
  "RightTeeVector": "\u295B",
  "RightTriangle": "\u22B3",
  "vartriangleright": "\u22B3",
  "vrtri": "\u22B3",
  "RightTriangleBar": "\u29D0",
  "RightTriangleEqual": "\u22B5",
  "rtrie": "\u22B5",
  "trianglerighteq": "\u22B5",
  "RightUpDownVector": "\u294F",
  "RightUpTeeVector": "\u295C",
  "RightUpVector": "\u21BE",
  "uharr": "\u21BE",
  "upharpoonright": "\u21BE",
  "RightUpVectorBar": "\u2954",
  "RightVector": "\u21C0",
  "rharu": "\u21C0",
  "rightharpoonup": "\u21C0",
  "RightVectorBar": "\u2953",
  "Ropf": "\u211D",
  "reals": "\u211D",
  "RoundImplies": "\u2970",
  "Rrightarrow": "\u21DB",
  "rAarr": "\u21DB",
  "Rscr": "\u211B",
  "realine": "\u211B",
  "Rsh": "\u21B1",
  "rsh": "\u21B1",
  "RuleDelayed": "\u29F4",
  "SHCHcy": "\u0429",
  "SHcy": "\u0428",
  "SOFTcy": "\u042C",
  "Sacute": "\u015A",
  "Sc": "\u2ABC",
  "Scaron": "\u0160",
  "Scedil": "\u015E",
  "Scirc": "\u015C",
  "Scy": "\u0421",
  "Sfr": "\u{1D516}",
  "ShortUpArrow": "\u2191",
  "UpArrow": "\u2191",
  "uarr": "\u2191",
  "uparrow": "\u2191",
  "Sigma": "\u03A3",
  "SmallCircle": "\u2218",
  "compfn": "\u2218",
  "Sopf": "\u{1D54A}",
  "Sqrt": "\u221A",
  "radic": "\u221A",
  "Square": "\u25A1",
  "squ": "\u25A1",
  "square": "\u25A1",
  "SquareIntersection": "\u2293",
  "sqcap": "\u2293",
  "SquareSubset": "\u228F",
  "sqsub": "\u228F",
  "sqsubset": "\u228F",
  "SquareSubsetEqual": "\u2291",
  "sqsube": "\u2291",
  "sqsubseteq": "\u2291",
  "SquareSuperset": "\u2290",
  "sqsup": "\u2290",
  "sqsupset": "\u2290",
  "SquareSupersetEqual": "\u2292",
  "sqsupe": "\u2292",
  "sqsupseteq": "\u2292",
  "SquareUnion": "\u2294",
  "sqcup": "\u2294",
  "Sscr": "\u{1D4AE}",
  "Star": "\u22C6",
  "sstarf": "\u22C6",
  "Sub": "\u22D0",
  "Subset": "\u22D0",
  "SubsetEqual": "\u2286",
  "sube": "\u2286",
  "subseteq": "\u2286",
  "Succeeds": "\u227B",
  "sc": "\u227B",
  "succ": "\u227B",
  "SucceedsEqual": "\u2AB0",
  "sce": "\u2AB0",
  "succeq": "\u2AB0",
  "SucceedsSlantEqual": "\u227D",
  "sccue": "\u227D",
  "succcurlyeq": "\u227D",
  "SucceedsTilde": "\u227F",
  "scsim": "\u227F",
  "succsim": "\u227F",
  "Sum": "\u2211",
  "sum": "\u2211",
  "Sup": "\u22D1",
  "Supset": "\u22D1",
  "Superset": "\u2283",
  "sup": "\u2283",
  "supset": "\u2283",
  "SupersetEqual": "\u2287",
  "supe": "\u2287",
  "supseteq": "\u2287",
  "THORN": "\xDE",
  "TRADE": "\u2122",
  "trade": "\u2122",
  "TSHcy": "\u040B",
  "TScy": "\u0426",
  "Tab": "	",
  "Tau": "\u03A4",
  "Tcaron": "\u0164",
  "Tcedil": "\u0162",
  "Tcy": "\u0422",
  "Tfr": "\u{1D517}",
  "Therefore": "\u2234",
  "there4": "\u2234",
  "therefore": "\u2234",
  "Theta": "\u0398",
  "ThickSpace": "\u205F\u200A",
  "ThinSpace": "\u2009",
  "thinsp": "\u2009",
  "Tilde": "\u223C",
  "sim": "\u223C",
  "thicksim": "\u223C",
  "thksim": "\u223C",
  "TildeEqual": "\u2243",
  "sime": "\u2243",
  "simeq": "\u2243",
  "TildeFullEqual": "\u2245",
  "cong": "\u2245",
  "TildeTilde": "\u2248",
  "ap": "\u2248",
  "approx": "\u2248",
  "asymp": "\u2248",
  "thickapprox": "\u2248",
  "thkap": "\u2248",
  "Topf": "\u{1D54B}",
  "TripleDot": "\u20DB",
  "tdot": "\u20DB",
  "Tscr": "\u{1D4AF}",
  "Tstrok": "\u0166",
  "Uacute": "\xDA",
  "Uarr": "\u219F",
  "Uarrocir": "\u2949",
  "Ubrcy": "\u040E",
  "Ubreve": "\u016C",
  "Ucirc": "\xDB",
  "Ucy": "\u0423",
  "Udblac": "\u0170",
  "Ufr": "\u{1D518}",
  "Ugrave": "\xD9",
  "Umacr": "\u016A",
  "UnderBar": "_",
  "lowbar": "_",
  "UnderBrace": "\u23DF",
  "UnderBracket": "\u23B5",
  "bbrk": "\u23B5",
  "UnderParenthesis": "\u23DD",
  "Union": "\u22C3",
  "bigcup": "\u22C3",
  "xcup": "\u22C3",
  "UnionPlus": "\u228E",
  "uplus": "\u228E",
  "Uogon": "\u0172",
  "Uopf": "\u{1D54C}",
  "UpArrowBar": "\u2912",
  "UpArrowDownArrow": "\u21C5",
  "udarr": "\u21C5",
  "UpDownArrow": "\u2195",
  "updownarrow": "\u2195",
  "varr": "\u2195",
  "UpEquilibrium": "\u296E",
  "udhar": "\u296E",
  "UpTee": "\u22A5",
  "bot": "\u22A5",
  "bottom": "\u22A5",
  "perp": "\u22A5",
  "UpTeeArrow": "\u21A5",
  "mapstoup": "\u21A5",
  "UpperLeftArrow": "\u2196",
  "nwarr": "\u2196",
  "nwarrow": "\u2196",
  "UpperRightArrow": "\u2197",
  "nearr": "\u2197",
  "nearrow": "\u2197",
  "Upsi": "\u03D2",
  "upsih": "\u03D2",
  "Upsilon": "\u03A5",
  "Uring": "\u016E",
  "Uscr": "\u{1D4B0}",
  "Utilde": "\u0168",
  "Uuml": "\xDC",
  "VDash": "\u22AB",
  "Vbar": "\u2AEB",
  "Vcy": "\u0412",
  "Vdash": "\u22A9",
  "Vdashl": "\u2AE6",
  "Vee": "\u22C1",
  "bigvee": "\u22C1",
  "xvee": "\u22C1",
  "Verbar": "\u2016",
  "Vert": "\u2016",
  "VerticalBar": "\u2223",
  "mid": "\u2223",
  "shortmid": "\u2223",
  "smid": "\u2223",
  "VerticalLine": "|",
  "verbar": "|",
  "vert": "|",
  "VerticalSeparator": "\u2758",
  "VerticalTilde": "\u2240",
  "wr": "\u2240",
  "wreath": "\u2240",
  "VeryThinSpace": "\u200A",
  "hairsp": "\u200A",
  "Vfr": "\u{1D519}",
  "Vopf": "\u{1D54D}",
  "Vscr": "\u{1D4B1}",
  "Vvdash": "\u22AA",
  "Wcirc": "\u0174",
  "Wedge": "\u22C0",
  "bigwedge": "\u22C0",
  "xwedge": "\u22C0",
  "Wfr": "\u{1D51A}",
  "Wopf": "\u{1D54E}",
  "Wscr": "\u{1D4B2}",
  "Xfr": "\u{1D51B}",
  "Xi": "\u039E",
  "Xopf": "\u{1D54F}",
  "Xscr": "\u{1D4B3}",
  "YAcy": "\u042F",
  "YIcy": "\u0407",
  "YUcy": "\u042E",
  "Yacute": "\xDD",
  "Ycirc": "\u0176",
  "Ycy": "\u042B",
  "Yfr": "\u{1D51C}",
  "Yopf": "\u{1D550}",
  "Yscr": "\u{1D4B4}",
  "Yuml": "\u0178",
  "ZHcy": "\u0416",
  "Zacute": "\u0179",
  "Zcaron": "\u017D",
  "Zcy": "\u0417",
  "Zdot": "\u017B",
  "Zeta": "\u0396",
  "Zfr": "\u2128",
  "zeetrf": "\u2128",
  "Zopf": "\u2124",
  "integers": "\u2124",
  "Zscr": "\u{1D4B5}",
  "aacute": "\xE1",
  "abreve": "\u0103",
  "ac": "\u223E",
  "mstpos": "\u223E",
  "acE": "\u223E\u0333",
  "acd": "\u223F",
  "acirc": "\xE2",
  "acy": "\u0430",
  "aelig": "\xE6",
  "afr": "\u{1D51E}",
  "agrave": "\xE0",
  "alefsym": "\u2135",
  "aleph": "\u2135",
  "alpha": "\u03B1",
  "amacr": "\u0101",
  "amalg": "\u2A3F",
  "and": "\u2227",
  "wedge": "\u2227",
  "andand": "\u2A55",
  "andd": "\u2A5C",
  "andslope": "\u2A58",
  "andv": "\u2A5A",
  "ang": "\u2220",
  "angle": "\u2220",
  "ange": "\u29A4",
  "angmsd": "\u2221",
  "measuredangle": "\u2221",
  "angmsdaa": "\u29A8",
  "angmsdab": "\u29A9",
  "angmsdac": "\u29AA",
  "angmsdad": "\u29AB",
  "angmsdae": "\u29AC",
  "angmsdaf": "\u29AD",
  "angmsdag": "\u29AE",
  "angmsdah": "\u29AF",
  "angrt": "\u221F",
  "angrtvb": "\u22BE",
  "angrtvbd": "\u299D",
  "angsph": "\u2222",
  "angzarr": "\u237C",
  "aogon": "\u0105",
  "aopf": "\u{1D552}",
  "apE": "\u2A70",
  "apacir": "\u2A6F",
  "ape": "\u224A",
  "approxeq": "\u224A",
  "apid": "\u224B",
  "apos": "'",
  "aring": "\xE5",
  "ascr": "\u{1D4B6}",
  "ast": "*",
  "midast": "*",
  "atilde": "\xE3",
  "auml": "\xE4",
  "awint": "\u2A11",
  "bNot": "\u2AED",
  "backcong": "\u224C",
  "bcong": "\u224C",
  "backepsilon": "\u03F6",
  "bepsi": "\u03F6",
  "backprime": "\u2035",
  "bprime": "\u2035",
  "backsim": "\u223D",
  "bsim": "\u223D",
  "backsimeq": "\u22CD",
  "bsime": "\u22CD",
  "barvee": "\u22BD",
  "barwed": "\u2305",
  "barwedge": "\u2305",
  "bbrktbrk": "\u23B6",
  "bcy": "\u0431",
  "bdquo": "\u201E",
  "ldquor": "\u201E",
  "bemptyv": "\u29B0",
  "beta": "\u03B2",
  "beth": "\u2136",
  "between": "\u226C",
  "twixt": "\u226C",
  "bfr": "\u{1D51F}",
  "bigcirc": "\u25EF",
  "xcirc": "\u25EF",
  "bigodot": "\u2A00",
  "xodot": "\u2A00",
  "bigoplus": "\u2A01",
  "xoplus": "\u2A01",
  "bigotimes": "\u2A02",
  "xotime": "\u2A02",
  "bigsqcup": "\u2A06",
  "xsqcup": "\u2A06",
  "bigstar": "\u2605",
  "starf": "\u2605",
  "bigtriangledown": "\u25BD",
  "xdtri": "\u25BD",
  "bigtriangleup": "\u25B3",
  "xutri": "\u25B3",
  "biguplus": "\u2A04",
  "xuplus": "\u2A04",
  "bkarow": "\u290D",
  "rbarr": "\u290D",
  "blacklozenge": "\u29EB",
  "lozf": "\u29EB",
  "blacktriangle": "\u25B4",
  "utrif": "\u25B4",
  "blacktriangledown": "\u25BE",
  "dtrif": "\u25BE",
  "blacktriangleleft": "\u25C2",
  "ltrif": "\u25C2",
  "blacktriangleright": "\u25B8",
  "rtrif": "\u25B8",
  "blank": "\u2423",
  "blk12": "\u2592",
  "blk14": "\u2591",
  "blk34": "\u2593",
  "block": "\u2588",
  "bne": "=\u20E5",
  "bnequiv": "\u2261\u20E5",
  "bnot": "\u2310",
  "bopf": "\u{1D553}",
  "bowtie": "\u22C8",
  "boxDL": "\u2557",
  "boxDR": "\u2554",
  "boxDl": "\u2556",
  "boxDr": "\u2553",
  "boxH": "\u2550",
  "boxHD": "\u2566",
  "boxHU": "\u2569",
  "boxHd": "\u2564",
  "boxHu": "\u2567",
  "boxUL": "\u255D",
  "boxUR": "\u255A",
  "boxUl": "\u255C",
  "boxUr": "\u2559",
  "boxV": "\u2551",
  "boxVH": "\u256C",
  "boxVL": "\u2563",
  "boxVR": "\u2560",
  "boxVh": "\u256B",
  "boxVl": "\u2562",
  "boxVr": "\u255F",
  "boxbox": "\u29C9",
  "boxdL": "\u2555",
  "boxdR": "\u2552",
  "boxdl": "\u2510",
  "boxdr": "\u250C",
  "boxhD": "\u2565",
  "boxhU": "\u2568",
  "boxhd": "\u252C",
  "boxhu": "\u2534",
  "boxminus": "\u229F",
  "minusb": "\u229F",
  "boxplus": "\u229E",
  "plusb": "\u229E",
  "boxtimes": "\u22A0",
  "timesb": "\u22A0",
  "boxuL": "\u255B",
  "boxuR": "\u2558",
  "boxul": "\u2518",
  "boxur": "\u2514",
  "boxv": "\u2502",
  "boxvH": "\u256A",
  "boxvL": "\u2561",
  "boxvR": "\u255E",
  "boxvh": "\u253C",
  "boxvl": "\u2524",
  "boxvr": "\u251C",
  "brvbar": "\xA6",
  "bscr": "\u{1D4B7}",
  "bsemi": "\u204F",
  "bsol": "\\",
  "bsolb": "\u29C5",
  "bsolhsub": "\u27C8",
  "bull": "\u2022",
  "bullet": "\u2022",
  "bumpE": "\u2AAE",
  "cacute": "\u0107",
  "cap": "\u2229",
  "capand": "\u2A44",
  "capbrcup": "\u2A49",
  "capcap": "\u2A4B",
  "capcup": "\u2A47",
  "capdot": "\u2A40",
  "caps": "\u2229\uFE00",
  "caret": "\u2041",
  "ccaps": "\u2A4D",
  "ccaron": "\u010D",
  "ccedil": "\xE7",
  "ccirc": "\u0109",
  "ccups": "\u2A4C",
  "ccupssm": "\u2A50",
  "cdot": "\u010B",
  "cemptyv": "\u29B2",
  "cent": "\xA2",
  "cfr": "\u{1D520}",
  "chcy": "\u0447",
  "check": "\u2713",
  "checkmark": "\u2713",
  "chi": "\u03C7",
  "cir": "\u25CB",
  "cirE": "\u29C3",
  "circ": "\u02C6",
  "circeq": "\u2257",
  "cire": "\u2257",
  "circlearrowleft": "\u21BA",
  "olarr": "\u21BA",
  "circlearrowright": "\u21BB",
  "orarr": "\u21BB",
  "circledS": "\u24C8",
  "oS": "\u24C8",
  "circledast": "\u229B",
  "oast": "\u229B",
  "circledcirc": "\u229A",
  "ocir": "\u229A",
  "circleddash": "\u229D",
  "odash": "\u229D",
  "cirfnint": "\u2A10",
  "cirmid": "\u2AEF",
  "cirscir": "\u29C2",
  "clubs": "\u2663",
  "clubsuit": "\u2663",
  "colon": ":",
  "comma": ",",
  "commat": "@",
  "comp": "\u2201",
  "complement": "\u2201",
  "congdot": "\u2A6D",
  "copf": "\u{1D554}",
  "copysr": "\u2117",
  "crarr": "\u21B5",
  "cross": "\u2717",
  "cscr": "\u{1D4B8}",
  "csub": "\u2ACF",
  "csube": "\u2AD1",
  "csup": "\u2AD0",
  "csupe": "\u2AD2",
  "ctdot": "\u22EF",
  "cudarrl": "\u2938",
  "cudarrr": "\u2935",
  "cuepr": "\u22DE",
  "curlyeqprec": "\u22DE",
  "cuesc": "\u22DF",
  "curlyeqsucc": "\u22DF",
  "cularr": "\u21B6",
  "curvearrowleft": "\u21B6",
  "cularrp": "\u293D",
  "cup": "\u222A",
  "cupbrcap": "\u2A48",
  "cupcap": "\u2A46",
  "cupcup": "\u2A4A",
  "cupdot": "\u228D",
  "cupor": "\u2A45",
  "cups": "\u222A\uFE00",
  "curarr": "\u21B7",
  "curvearrowright": "\u21B7",
  "curarrm": "\u293C",
  "curlyvee": "\u22CE",
  "cuvee": "\u22CE",
  "curlywedge": "\u22CF",
  "cuwed": "\u22CF",
  "curren": "\xA4",
  "cwint": "\u2231",
  "cylcty": "\u232D",
  "dHar": "\u2965",
  "dagger": "\u2020",
  "daleth": "\u2138",
  "dash": "\u2010",
  "hyphen": "\u2010",
  "dbkarow": "\u290F",
  "rBarr": "\u290F",
  "dcaron": "\u010F",
  "dcy": "\u0434",
  "ddarr": "\u21CA",
  "downdownarrows": "\u21CA",
  "ddotseq": "\u2A77",
  "eDDot": "\u2A77",
  "deg": "\xB0",
  "delta": "\u03B4",
  "demptyv": "\u29B1",
  "dfisht": "\u297F",
  "dfr": "\u{1D521}",
  "diamondsuit": "\u2666",
  "diams": "\u2666",
  "digamma": "\u03DD",
  "gammad": "\u03DD",
  "disin": "\u22F2",
  "div": "\xF7",
  "divide": "\xF7",
  "divideontimes": "\u22C7",
  "divonx": "\u22C7",
  "djcy": "\u0452",
  "dlcorn": "\u231E",
  "llcorner": "\u231E",
  "dlcrop": "\u230D",
  "dollar": "$",
  "dopf": "\u{1D555}",
  "doteqdot": "\u2251",
  "eDot": "\u2251",
  "dotminus": "\u2238",
  "minusd": "\u2238",
  "dotplus": "\u2214",
  "plusdo": "\u2214",
  "dotsquare": "\u22A1",
  "sdotb": "\u22A1",
  "drcorn": "\u231F",
  "lrcorner": "\u231F",
  "drcrop": "\u230C",
  "dscr": "\u{1D4B9}",
  "dscy": "\u0455",
  "dsol": "\u29F6",
  "dstrok": "\u0111",
  "dtdot": "\u22F1",
  "dtri": "\u25BF",
  "triangledown": "\u25BF",
  "dwangle": "\u29A6",
  "dzcy": "\u045F",
  "dzigrarr": "\u27FF",
  "eacute": "\xE9",
  "easter": "\u2A6E",
  "ecaron": "\u011B",
  "ecir": "\u2256",
  "eqcirc": "\u2256",
  "ecirc": "\xEA",
  "ecolon": "\u2255",
  "eqcolon": "\u2255",
  "ecy": "\u044D",
  "edot": "\u0117",
  "efDot": "\u2252",
  "fallingdotseq": "\u2252",
  "efr": "\u{1D522}",
  "eg": "\u2A9A",
  "egrave": "\xE8",
  "egs": "\u2A96",
  "eqslantgtr": "\u2A96",
  "egsdot": "\u2A98",
  "el": "\u2A99",
  "elinters": "\u23E7",
  "ell": "\u2113",
  "els": "\u2A95",
  "eqslantless": "\u2A95",
  "elsdot": "\u2A97",
  "emacr": "\u0113",
  "empty": "\u2205",
  "emptyset": "\u2205",
  "emptyv": "\u2205",
  "varnothing": "\u2205",
  "emsp13": "\u2004",
  "emsp14": "\u2005",
  "emsp": "\u2003",
  "eng": "\u014B",
  "ensp": "\u2002",
  "eogon": "\u0119",
  "eopf": "\u{1D556}",
  "epar": "\u22D5",
  "eparsl": "\u29E3",
  "eplus": "\u2A71",
  "epsi": "\u03B5",
  "epsilon": "\u03B5",
  "epsiv": "\u03F5",
  "straightepsilon": "\u03F5",
  "varepsilon": "\u03F5",
  "equals": "=",
  "equest": "\u225F",
  "questeq": "\u225F",
  "equivDD": "\u2A78",
  "eqvparsl": "\u29E5",
  "erDot": "\u2253",
  "risingdotseq": "\u2253",
  "erarr": "\u2971",
  "escr": "\u212F",
  "eta": "\u03B7",
  "eth": "\xF0",
  "euml": "\xEB",
  "euro": "\u20AC",
  "excl": "!",
  "fcy": "\u0444",
  "female": "\u2640",
  "ffilig": "\uFB03",
  "fflig": "\uFB00",
  "ffllig": "\uFB04",
  "ffr": "\u{1D523}",
  "filig": "\uFB01",
  "fjlig": "fj",
  "flat": "\u266D",
  "fllig": "\uFB02",
  "fltns": "\u25B1",
  "fnof": "\u0192",
  "fopf": "\u{1D557}",
  "fork": "\u22D4",
  "pitchfork": "\u22D4",
  "forkv": "\u2AD9",
  "fpartint": "\u2A0D",
  "frac12": "\xBD",
  "half": "\xBD",
  "frac13": "\u2153",
  "frac14": "\xBC",
  "frac15": "\u2155",
  "frac16": "\u2159",
  "frac18": "\u215B",
  "frac23": "\u2154",
  "frac25": "\u2156",
  "frac34": "\xBE",
  "frac35": "\u2157",
  "frac38": "\u215C",
  "frac45": "\u2158",
  "frac56": "\u215A",
  "frac58": "\u215D",
  "frac78": "\u215E",
  "frasl": "\u2044",
  "frown": "\u2322",
  "sfrown": "\u2322",
  "fscr": "\u{1D4BB}",
  "gEl": "\u2A8C",
  "gtreqqless": "\u2A8C",
  "gacute": "\u01F5",
  "gamma": "\u03B3",
  "gap": "\u2A86",
  "gtrapprox": "\u2A86",
  "gbreve": "\u011F",
  "gcirc": "\u011D",
  "gcy": "\u0433",
  "gdot": "\u0121",
  "gescc": "\u2AA9",
  "gesdot": "\u2A80",
  "gesdoto": "\u2A82",
  "gesdotol": "\u2A84",
  "gesl": "\u22DB\uFE00",
  "gesles": "\u2A94",
  "gfr": "\u{1D524}",
  "gimel": "\u2137",
  "gjcy": "\u0453",
  "glE": "\u2A92",
  "gla": "\u2AA5",
  "glj": "\u2AA4",
  "gnE": "\u2269",
  "gneqq": "\u2269",
  "gnap": "\u2A8A",
  "gnapprox": "\u2A8A",
  "gne": "\u2A88",
  "gneq": "\u2A88",
  "gnsim": "\u22E7",
  "gopf": "\u{1D558}",
  "gscr": "\u210A",
  "gsime": "\u2A8E",
  "gsiml": "\u2A90",
  "gtcc": "\u2AA7",
  "gtcir": "\u2A7A",
  "gtdot": "\u22D7",
  "gtrdot": "\u22D7",
  "gtlPar": "\u2995",
  "gtquest": "\u2A7C",
  "gtrarr": "\u2978",
  "gvertneqq": "\u2269\uFE00",
  "gvnE": "\u2269\uFE00",
  "hardcy": "\u044A",
  "harrcir": "\u2948",
  "harrw": "\u21AD",
  "leftrightsquigarrow": "\u21AD",
  "hbar": "\u210F",
  "hslash": "\u210F",
  "planck": "\u210F",
  "plankv": "\u210F",
  "hcirc": "\u0125",
  "hearts": "\u2665",
  "heartsuit": "\u2665",
  "hellip": "\u2026",
  "mldr": "\u2026",
  "hercon": "\u22B9",
  "hfr": "\u{1D525}",
  "hksearow": "\u2925",
  "searhk": "\u2925",
  "hkswarow": "\u2926",
  "swarhk": "\u2926",
  "hoarr": "\u21FF",
  "homtht": "\u223B",
  "hookleftarrow": "\u21A9",
  "larrhk": "\u21A9",
  "hookrightarrow": "\u21AA",
  "rarrhk": "\u21AA",
  "hopf": "\u{1D559}",
  "horbar": "\u2015",
  "hscr": "\u{1D4BD}",
  "hstrok": "\u0127",
  "hybull": "\u2043",
  "iacute": "\xED",
  "icirc": "\xEE",
  "icy": "\u0438",
  "iecy": "\u0435",
  "iexcl": "\xA1",
  "ifr": "\u{1D526}",
  "igrave": "\xEC",
  "iiiint": "\u2A0C",
  "qint": "\u2A0C",
  "iiint": "\u222D",
  "tint": "\u222D",
  "iinfin": "\u29DC",
  "iiota": "\u2129",
  "ijlig": "\u0133",
  "imacr": "\u012B",
  "imath": "\u0131",
  "inodot": "\u0131",
  "imof": "\u22B7",
  "imped": "\u01B5",
  "incare": "\u2105",
  "infin": "\u221E",
  "infintie": "\u29DD",
  "intcal": "\u22BA",
  "intercal": "\u22BA",
  "intlarhk": "\u2A17",
  "intprod": "\u2A3C",
  "iprod": "\u2A3C",
  "iocy": "\u0451",
  "iogon": "\u012F",
  "iopf": "\u{1D55A}",
  "iota": "\u03B9",
  "iquest": "\xBF",
  "iscr": "\u{1D4BE}",
  "isinE": "\u22F9",
  "isindot": "\u22F5",
  "isins": "\u22F4",
  "isinsv": "\u22F3",
  "itilde": "\u0129",
  "iukcy": "\u0456",
  "iuml": "\xEF",
  "jcirc": "\u0135",
  "jcy": "\u0439",
  "jfr": "\u{1D527}",
  "jmath": "\u0237",
  "jopf": "\u{1D55B}",
  "jscr": "\u{1D4BF}",
  "jsercy": "\u0458",
  "jukcy": "\u0454",
  "kappa": "\u03BA",
  "kappav": "\u03F0",
  "varkappa": "\u03F0",
  "kcedil": "\u0137",
  "kcy": "\u043A",
  "kfr": "\u{1D528}",
  "kgreen": "\u0138",
  "khcy": "\u0445",
  "kjcy": "\u045C",
  "kopf": "\u{1D55C}",
  "kscr": "\u{1D4C0}",
  "lAtail": "\u291B",
  "lBarr": "\u290E",
  "lEg": "\u2A8B",
  "lesseqqgtr": "\u2A8B",
  "lHar": "\u2962",
  "lacute": "\u013A",
  "laemptyv": "\u29B4",
  "lambda": "\u03BB",
  "langd": "\u2991",
  "lap": "\u2A85",
  "lessapprox": "\u2A85",
  "laquo": "\xAB",
  "larrbfs": "\u291F",
  "larrfs": "\u291D",
  "larrlp": "\u21AB",
  "looparrowleft": "\u21AB",
  "larrpl": "\u2939",
  "larrsim": "\u2973",
  "larrtl": "\u21A2",
  "leftarrowtail": "\u21A2",
  "lat": "\u2AAB",
  "latail": "\u2919",
  "late": "\u2AAD",
  "lates": "\u2AAD\uFE00",
  "lbarr": "\u290C",
  "lbbrk": "\u2772",
  "lbrace": "{",
  "lcub": "{",
  "lbrack": "[",
  "lsqb": "[",
  "lbrke": "\u298B",
  "lbrksld": "\u298F",
  "lbrkslu": "\u298D",
  "lcaron": "\u013E",
  "lcedil": "\u013C",
  "lcy": "\u043B",
  "ldca": "\u2936",
  "ldrdhar": "\u2967",
  "ldrushar": "\u294B",
  "ldsh": "\u21B2",
  "le": "\u2264",
  "leq": "\u2264",
  "leftleftarrows": "\u21C7",
  "llarr": "\u21C7",
  "leftthreetimes": "\u22CB",
  "lthree": "\u22CB",
  "lescc": "\u2AA8",
  "lesdot": "\u2A7F",
  "lesdoto": "\u2A81",
  "lesdotor": "\u2A83",
  "lesg": "\u22DA\uFE00",
  "lesges": "\u2A93",
  "lessdot": "\u22D6",
  "ltdot": "\u22D6",
  "lfisht": "\u297C",
  "lfr": "\u{1D529}",
  "lgE": "\u2A91",
  "lharul": "\u296A",
  "lhblk": "\u2584",
  "ljcy": "\u0459",
  "llhard": "\u296B",
  "lltri": "\u25FA",
  "lmidot": "\u0140",
  "lmoust": "\u23B0",
  "lmoustache": "\u23B0",
  "lnE": "\u2268",
  "lneqq": "\u2268",
  "lnap": "\u2A89",
  "lnapprox": "\u2A89",
  "lne": "\u2A87",
  "lneq": "\u2A87",
  "lnsim": "\u22E6",
  "loang": "\u27EC",
  "loarr": "\u21FD",
  "longmapsto": "\u27FC",
  "xmap": "\u27FC",
  "looparrowright": "\u21AC",
  "rarrlp": "\u21AC",
  "lopar": "\u2985",
  "lopf": "\u{1D55D}",
  "loplus": "\u2A2D",
  "lotimes": "\u2A34",
  "lowast": "\u2217",
  "loz": "\u25CA",
  "lozenge": "\u25CA",
  "lpar": "(",
  "lparlt": "\u2993",
  "lrhard": "\u296D",
  "lrm": "\u200E",
  "lrtri": "\u22BF",
  "lsaquo": "\u2039",
  "lscr": "\u{1D4C1}",
  "lsime": "\u2A8D",
  "lsimg": "\u2A8F",
  "lsquor": "\u201A",
  "sbquo": "\u201A",
  "lstrok": "\u0142",
  "ltcc": "\u2AA6",
  "ltcir": "\u2A79",
  "ltimes": "\u22C9",
  "ltlarr": "\u2976",
  "ltquest": "\u2A7B",
  "ltrPar": "\u2996",
  "ltri": "\u25C3",
  "triangleleft": "\u25C3",
  "lurdshar": "\u294A",
  "luruhar": "\u2966",
  "lvertneqq": "\u2268\uFE00",
  "lvnE": "\u2268\uFE00",
  "mDDot": "\u223A",
  "macr": "\xAF",
  "strns": "\xAF",
  "male": "\u2642",
  "malt": "\u2720",
  "maltese": "\u2720",
  "marker": "\u25AE",
  "mcomma": "\u2A29",
  "mcy": "\u043C",
  "mdash": "\u2014",
  "mfr": "\u{1D52A}",
  "mho": "\u2127",
  "micro": "\xB5",
  "midcir": "\u2AF0",
  "minus": "\u2212",
  "minusdu": "\u2A2A",
  "mlcp": "\u2ADB",
  "models": "\u22A7",
  "mopf": "\u{1D55E}",
  "mscr": "\u{1D4C2}",
  "mu": "\u03BC",
  "multimap": "\u22B8",
  "mumap": "\u22B8",
  "nGg": "\u22D9\u0338",
  "nGt": "\u226B\u20D2",
  "nLeftarrow": "\u21CD",
  "nlArr": "\u21CD",
  "nLeftrightarrow": "\u21CE",
  "nhArr": "\u21CE",
  "nLl": "\u22D8\u0338",
  "nLt": "\u226A\u20D2",
  "nRightarrow": "\u21CF",
  "nrArr": "\u21CF",
  "nVDash": "\u22AF",
  "nVdash": "\u22AE",
  "nacute": "\u0144",
  "nang": "\u2220\u20D2",
  "napE": "\u2A70\u0338",
  "napid": "\u224B\u0338",
  "napos": "\u0149",
  "natur": "\u266E",
  "natural": "\u266E",
  "ncap": "\u2A43",
  "ncaron": "\u0148",
  "ncedil": "\u0146",
  "ncongdot": "\u2A6D\u0338",
  "ncup": "\u2A42",
  "ncy": "\u043D",
  "ndash": "\u2013",
  "neArr": "\u21D7",
  "nearhk": "\u2924",
  "nedot": "\u2250\u0338",
  "nesear": "\u2928",
  "toea": "\u2928",
  "nfr": "\u{1D52B}",
  "nharr": "\u21AE",
  "nleftrightarrow": "\u21AE",
  "nhpar": "\u2AF2",
  "nis": "\u22FC",
  "nisd": "\u22FA",
  "njcy": "\u045A",
  "nlE": "\u2266\u0338",
  "nleqq": "\u2266\u0338",
  "nlarr": "\u219A",
  "nleftarrow": "\u219A",
  "nldr": "\u2025",
  "nopf": "\u{1D55F}",
  "not": "\xAC",
  "notinE": "\u22F9\u0338",
  "notindot": "\u22F5\u0338",
  "notinvb": "\u22F7",
  "notinvc": "\u22F6",
  "notnivb": "\u22FE",
  "notnivc": "\u22FD",
  "nparsl": "\u2AFD\u20E5",
  "npart": "\u2202\u0338",
  "npolint": "\u2A14",
  "nrarr": "\u219B",
  "nrightarrow": "\u219B",
  "nrarrc": "\u2933\u0338",
  "nrarrw": "\u219D\u0338",
  "nscr": "\u{1D4C3}",
  "nsub": "\u2284",
  "nsubE": "\u2AC5\u0338",
  "nsubseteqq": "\u2AC5\u0338",
  "nsup": "\u2285",
  "nsupE": "\u2AC6\u0338",
  "nsupseteqq": "\u2AC6\u0338",
  "ntilde": "\xF1",
  "nu": "\u03BD",
  "num": "#",
  "numero": "\u2116",
  "numsp": "\u2007",
  "nvDash": "\u22AD",
  "nvHarr": "\u2904",
  "nvap": "\u224D\u20D2",
  "nvdash": "\u22AC",
  "nvge": "\u2265\u20D2",
  "nvgt": ">\u20D2",
  "nvinfin": "\u29DE",
  "nvlArr": "\u2902",
  "nvle": "\u2264\u20D2",
  "nvlt": "<\u20D2",
  "nvltrie": "\u22B4\u20D2",
  "nvrArr": "\u2903",
  "nvrtrie": "\u22B5\u20D2",
  "nvsim": "\u223C\u20D2",
  "nwArr": "\u21D6",
  "nwarhk": "\u2923",
  "nwnear": "\u2927",
  "oacute": "\xF3",
  "ocirc": "\xF4",
  "ocy": "\u043E",
  "odblac": "\u0151",
  "odiv": "\u2A38",
  "odsold": "\u29BC",
  "oelig": "\u0153",
  "ofcir": "\u29BF",
  "ofr": "\u{1D52C}",
  "ogon": "\u02DB",
  "ograve": "\xF2",
  "ogt": "\u29C1",
  "ohbar": "\u29B5",
  "olcir": "\u29BE",
  "olcross": "\u29BB",
  "olt": "\u29C0",
  "omacr": "\u014D",
  "omega": "\u03C9",
  "omicron": "\u03BF",
  "omid": "\u29B6",
  "oopf": "\u{1D560}",
  "opar": "\u29B7",
  "operp": "\u29B9",
  "or": "\u2228",
  "vee": "\u2228",
  "ord": "\u2A5D",
  "order": "\u2134",
  "orderof": "\u2134",
  "oscr": "\u2134",
  "ordf": "\xAA",
  "ordm": "\xBA",
  "origof": "\u22B6",
  "oror": "\u2A56",
  "orslope": "\u2A57",
  "orv": "\u2A5B",
  "oslash": "\xF8",
  "osol": "\u2298",
  "otilde": "\xF5",
  "otimesas": "\u2A36",
  "ouml": "\xF6",
  "ovbar": "\u233D",
  "para": "\xB6",
  "parsim": "\u2AF3",
  "parsl": "\u2AFD",
  "pcy": "\u043F",
  "percnt": "%",
  "period": ".",
  "permil": "\u2030",
  "pertenk": "\u2031",
  "pfr": "\u{1D52D}",
  "phi": "\u03C6",
  "phiv": "\u03D5",
  "straightphi": "\u03D5",
  "varphi": "\u03D5",
  "phone": "\u260E",
  "pi": "\u03C0",
  "piv": "\u03D6",
  "varpi": "\u03D6",
  "planckh": "\u210E",
  "plus": "+",
  "plusacir": "\u2A23",
  "pluscir": "\u2A22",
  "plusdu": "\u2A25",
  "pluse": "\u2A72",
  "plussim": "\u2A26",
  "plustwo": "\u2A27",
  "pointint": "\u2A15",
  "popf": "\u{1D561}",
  "pound": "\xA3",
  "prE": "\u2AB3",
  "prap": "\u2AB7",
  "precapprox": "\u2AB7",
  "precnapprox": "\u2AB9",
  "prnap": "\u2AB9",
  "precneqq": "\u2AB5",
  "prnE": "\u2AB5",
  "precnsim": "\u22E8",
  "prnsim": "\u22E8",
  "prime": "\u2032",
  "profalar": "\u232E",
  "profline": "\u2312",
  "profsurf": "\u2313",
  "prurel": "\u22B0",
  "pscr": "\u{1D4C5}",
  "psi": "\u03C8",
  "puncsp": "\u2008",
  "qfr": "\u{1D52E}",
  "qopf": "\u{1D562}",
  "qprime": "\u2057",
  "qscr": "\u{1D4C6}",
  "quatint": "\u2A16",
  "quest": "?",
  "rAtail": "\u291C",
  "rHar": "\u2964",
  "race": "\u223D\u0331",
  "racute": "\u0155",
  "raemptyv": "\u29B3",
  "rangd": "\u2992",
  "range": "\u29A5",
  "raquo": "\xBB",
  "rarrap": "\u2975",
  "rarrbfs": "\u2920",
  "rarrc": "\u2933",
  "rarrfs": "\u291E",
  "rarrpl": "\u2945",
  "rarrsim": "\u2974",
  "rarrtl": "\u21A3",
  "rightarrowtail": "\u21A3",
  "rarrw": "\u219D",
  "rightsquigarrow": "\u219D",
  "ratail": "\u291A",
  "ratio": "\u2236",
  "rbbrk": "\u2773",
  "rbrace": "}",
  "rcub": "}",
  "rbrack": "]",
  "rsqb": "]",
  "rbrke": "\u298C",
  "rbrksld": "\u298E",
  "rbrkslu": "\u2990",
  "rcaron": "\u0159",
  "rcedil": "\u0157",
  "rcy": "\u0440",
  "rdca": "\u2937",
  "rdldhar": "\u2969",
  "rdsh": "\u21B3",
  "rect": "\u25AD",
  "rfisht": "\u297D",
  "rfr": "\u{1D52F}",
  "rharul": "\u296C",
  "rho": "\u03C1",
  "rhov": "\u03F1",
  "varrho": "\u03F1",
  "rightrightarrows": "\u21C9",
  "rrarr": "\u21C9",
  "rightthreetimes": "\u22CC",
  "rthree": "\u22CC",
  "ring": "\u02DA",
  "rlm": "\u200F",
  "rmoust": "\u23B1",
  "rmoustache": "\u23B1",
  "rnmid": "\u2AEE",
  "roang": "\u27ED",
  "roarr": "\u21FE",
  "ropar": "\u2986",
  "ropf": "\u{1D563}",
  "roplus": "\u2A2E",
  "rotimes": "\u2A35",
  "rpar": ")",
  "rpargt": "\u2994",
  "rppolint": "\u2A12",
  "rsaquo": "\u203A",
  "rscr": "\u{1D4C7}",
  "rtimes": "\u22CA",
  "rtri": "\u25B9",
  "triangleright": "\u25B9",
  "rtriltri": "\u29CE",
  "ruluhar": "\u2968",
  "rx": "\u211E",
  "sacute": "\u015B",
  "scE": "\u2AB4",
  "scap": "\u2AB8",
  "succapprox": "\u2AB8",
  "scaron": "\u0161",
  "scedil": "\u015F",
  "scirc": "\u015D",
  "scnE": "\u2AB6",
  "succneqq": "\u2AB6",
  "scnap": "\u2ABA",
  "succnapprox": "\u2ABA",
  "scnsim": "\u22E9",
  "succnsim": "\u22E9",
  "scpolint": "\u2A13",
  "scy": "\u0441",
  "sdot": "\u22C5",
  "sdote": "\u2A66",
  "seArr": "\u21D8",
  "sect": "\xA7",
  "semi": ";",
  "seswar": "\u2929",
  "tosa": "\u2929",
  "sext": "\u2736",
  "sfr": "\u{1D530}",
  "sharp": "\u266F",
  "shchcy": "\u0449",
  "shcy": "\u0448",
  "shy": "\xAD",
  "sigma": "\u03C3",
  "sigmaf": "\u03C2",
  "sigmav": "\u03C2",
  "varsigma": "\u03C2",
  "simdot": "\u2A6A",
  "simg": "\u2A9E",
  "simgE": "\u2AA0",
  "siml": "\u2A9D",
  "simlE": "\u2A9F",
  "simne": "\u2246",
  "simplus": "\u2A24",
  "simrarr": "\u2972",
  "smashp": "\u2A33",
  "smeparsl": "\u29E4",
  "smile": "\u2323",
  "ssmile": "\u2323",
  "smt": "\u2AAA",
  "smte": "\u2AAC",
  "smtes": "\u2AAC\uFE00",
  "softcy": "\u044C",
  "sol": "/",
  "solb": "\u29C4",
  "solbar": "\u233F",
  "sopf": "\u{1D564}",
  "spades": "\u2660",
  "spadesuit": "\u2660",
  "sqcaps": "\u2293\uFE00",
  "sqcups": "\u2294\uFE00",
  "sscr": "\u{1D4C8}",
  "star": "\u2606",
  "sub": "\u2282",
  "subset": "\u2282",
  "subE": "\u2AC5",
  "subseteqq": "\u2AC5",
  "subdot": "\u2ABD",
  "subedot": "\u2AC3",
  "submult": "\u2AC1",
  "subnE": "\u2ACB",
  "subsetneqq": "\u2ACB",
  "subne": "\u228A",
  "subsetneq": "\u228A",
  "subplus": "\u2ABF",
  "subrarr": "\u2979",
  "subsim": "\u2AC7",
  "subsub": "\u2AD5",
  "subsup": "\u2AD3",
  "sung": "\u266A",
  "sup1": "\xB9",
  "sup2": "\xB2",
  "sup3": "\xB3",
  "supE": "\u2AC6",
  "supseteqq": "\u2AC6",
  "supdot": "\u2ABE",
  "supdsub": "\u2AD8",
  "supedot": "\u2AC4",
  "suphsol": "\u27C9",
  "suphsub": "\u2AD7",
  "suplarr": "\u297B",
  "supmult": "\u2AC2",
  "supnE": "\u2ACC",
  "supsetneqq": "\u2ACC",
  "supne": "\u228B",
  "supsetneq": "\u228B",
  "supplus": "\u2AC0",
  "supsim": "\u2AC8",
  "supsub": "\u2AD4",
  "supsup": "\u2AD6",
  "swArr": "\u21D9",
  "swnwar": "\u292A",
  "szlig": "\xDF",
  "target": "\u2316",
  "tau": "\u03C4",
  "tcaron": "\u0165",
  "tcedil": "\u0163",
  "tcy": "\u0442",
  "telrec": "\u2315",
  "tfr": "\u{1D531}",
  "theta": "\u03B8",
  "thetasym": "\u03D1",
  "thetav": "\u03D1",
  "vartheta": "\u03D1",
  "thorn": "\xFE",
  "times": "\xD7",
  "timesbar": "\u2A31",
  "timesd": "\u2A30",
  "topbot": "\u2336",
  "topcir": "\u2AF1",
  "topf": "\u{1D565}",
  "topfork": "\u2ADA",
  "tprime": "\u2034",
  "triangle": "\u25B5",
  "utri": "\u25B5",
  "triangleq": "\u225C",
  "trie": "\u225C",
  "tridot": "\u25EC",
  "triminus": "\u2A3A",
  "triplus": "\u2A39",
  "trisb": "\u29CD",
  "tritime": "\u2A3B",
  "trpezium": "\u23E2",
  "tscr": "\u{1D4C9}",
  "tscy": "\u0446",
  "tshcy": "\u045B",
  "tstrok": "\u0167",
  "uHar": "\u2963",
  "uacute": "\xFA",
  "ubrcy": "\u045E",
  "ubreve": "\u016D",
  "ucirc": "\xFB",
  "ucy": "\u0443",
  "udblac": "\u0171",
  "ufisht": "\u297E",
  "ufr": "\u{1D532}",
  "ugrave": "\xF9",
  "uhblk": "\u2580",
  "ulcorn": "\u231C",
  "ulcorner": "\u231C",
  "ulcrop": "\u230F",
  "ultri": "\u25F8",
  "umacr": "\u016B",
  "uogon": "\u0173",
  "uopf": "\u{1D566}",
  "upsi": "\u03C5",
  "upsilon": "\u03C5",
  "upuparrows": "\u21C8",
  "uuarr": "\u21C8",
  "urcorn": "\u231D",
  "urcorner": "\u231D",
  "urcrop": "\u230E",
  "uring": "\u016F",
  "urtri": "\u25F9",
  "uscr": "\u{1D4CA}",
  "utdot": "\u22F0",
  "utilde": "\u0169",
  "uuml": "\xFC",
  "uwangle": "\u29A7",
  "vBar": "\u2AE8",
  "vBarv": "\u2AE9",
  "vangrt": "\u299C",
  "varsubsetneq": "\u228A\uFE00",
  "vsubne": "\u228A\uFE00",
  "varsubsetneqq": "\u2ACB\uFE00",
  "vsubnE": "\u2ACB\uFE00",
  "varsupsetneq": "\u228B\uFE00",
  "vsupne": "\u228B\uFE00",
  "varsupsetneqq": "\u2ACC\uFE00",
  "vsupnE": "\u2ACC\uFE00",
  "vcy": "\u0432",
  "veebar": "\u22BB",
  "veeeq": "\u225A",
  "vellip": "\u22EE",
  "vfr": "\u{1D533}",
  "vopf": "\u{1D567}",
  "vscr": "\u{1D4CB}",
  "vzigzag": "\u299A",
  "wcirc": "\u0175",
  "wedbar": "\u2A5F",
  "wedgeq": "\u2259",
  "weierp": "\u2118",
  "wp": "\u2118",
  "wfr": "\u{1D534}",
  "wopf": "\u{1D568}",
  "wscr": "\u{1D4CC}",
  "xfr": "\u{1D535}",
  "xi": "\u03BE",
  "xnis": "\u22FB",
  "xopf": "\u{1D569}",
  "xscr": "\u{1D4CD}",
  "yacute": "\xFD",
  "yacy": "\u044F",
  "ycirc": "\u0177",
  "ycy": "\u044B",
  "yen": "\xA5",
  "yfr": "\u{1D536}",
  "yicy": "\u0457",
  "yopf": "\u{1D56A}",
  "yscr": "\u{1D4CE}",
  "yucy": "\u044E",
  "yuml": "\xFF",
  "zacute": "\u017A",
  "zcaron": "\u017E",
  "zcy": "\u0437",
  "zdot": "\u017C",
  "zeta": "\u03B6",
  "zfr": "\u{1D537}",
  "zhcy": "\u0436",
  "zigrarr": "\u21DD",
  "zopf": "\u{1D56B}",
  "zscr": "\u{1D4CF}",
  "zwj": "\u200D",
  "zwnj": "\u200C"
};
var NGSP_UNICODE = "\uE500";
NAMED_ENTITIES["ngsp"] = NGSP_UNICODE;

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/lexer.mjs
var TokenError = class extends ParseError {
  constructor(errorMsg, tokenType, span) {
    super(span, errorMsg);
    this.tokenType = tokenType;
  }
};
var TokenizeResult = class {
  constructor(tokens, errors, nonNormalizedIcuExpressions) {
    this.tokens = tokens;
    this.errors = errors;
    this.nonNormalizedIcuExpressions = nonNormalizedIcuExpressions;
  }
};
function tokenize(source, url, getTagDefinition, options = {}) {
  const tokenizer = new _Tokenizer(new ParseSourceFile(source, url), getTagDefinition, options);
  tokenizer.tokenize();
  return new TokenizeResult(mergeTextTokens(tokenizer.tokens), tokenizer.errors, tokenizer.nonNormalizedIcuExpressions);
}
var _CR_OR_CRLF_REGEXP = /\r\n?/g;
function _unexpectedCharacterErrorMsg(charCode) {
  const char = charCode === $EOF ? "EOF" : String.fromCharCode(charCode);
  return `Unexpected character "${char}"`;
}
function _unknownEntityErrorMsg(entitySrc) {
  return `Unknown entity "${entitySrc}" - use the "&#;" or  "&#x;" syntax`;
}
function _unparsableEntityErrorMsg(type, entityStr) {
  return `Unable to parse entity "${entityStr}" - ${type} character reference entities must end with ";"`;
}
var CharacterReferenceType;
(function(CharacterReferenceType2) {
  CharacterReferenceType2["HEX"] = "hexadecimal";
  CharacterReferenceType2["DEC"] = "decimal";
})(CharacterReferenceType || (CharacterReferenceType = {}));
var _ControlFlowError = class {
  constructor(error) {
    this.error = error;
  }
};
var _Tokenizer = class {
  constructor(_file, _getTagDefinition, options) {
    var _a2, _b2;
    this._getTagDefinition = _getTagDefinition;
    this._currentTokenStart = null;
    this._currentTokenType = null;
    this._expansionCaseStack = [];
    this._inInterpolation = false;
    this.tokens = [];
    this.errors = [];
    this.nonNormalizedIcuExpressions = [];
    this._tokenizeIcu = options.tokenizeExpansionForms || false;
    this._interpolationConfig = options.interpolationConfig || DEFAULT_INTERPOLATION_CONFIG;
    this._leadingTriviaCodePoints = options.leadingTriviaChars && options.leadingTriviaChars.map((c) => c.codePointAt(0) || 0);
    const range = options.range || {
      endPos: _file.content.length,
      startPos: 0,
      startLine: 0,
      startCol: 0
    };
    this._cursor = options.escapedString ? new EscapedCharacterCursor(_file, range) : new PlainCharacterCursor(_file, range);
    this._preserveLineEndings = options.preserveLineEndings || false;
    this._i18nNormalizeLineEndingsInICUs = options.i18nNormalizeLineEndingsInICUs || false;
    this._tokenizeBlocks = (_a2 = options.tokenizeBlocks) != null ? _a2 : true;
    this._tokenizeLet = (_b2 = options.tokenizeLet) != null ? _b2 : true;
    try {
      this._cursor.init();
    } catch (e) {
      this.handleError(e);
    }
  }
  _processCarriageReturns(content) {
    if (this._preserveLineEndings) {
      return content;
    }
    return content.replace(_CR_OR_CRLF_REGEXP, "\n");
  }
  tokenize() {
    while (this._cursor.peek() !== $EOF) {
      const start = this._cursor.clone();
      try {
        if (this._attemptCharCode($LT)) {
          if (this._attemptCharCode($BANG)) {
            if (this._attemptCharCode($LBRACKET)) {
              this._consumeCdata(start);
            } else if (this._attemptCharCode($MINUS)) {
              this._consumeComment(start);
            } else {
              this._consumeDocType(start);
            }
          } else if (this._attemptCharCode($SLASH)) {
            this._consumeTagClose(start);
          } else {
            this._consumeTagOpen(start);
          }
        } else if (this._tokenizeLet && this._cursor.peek() === $AT && !this._inInterpolation && this._attemptStr("@let")) {
          this._consumeLetDeclaration(start);
        } else if (this._tokenizeBlocks && this._attemptCharCode($AT)) {
          this._consumeBlockStart(start);
        } else if (this._tokenizeBlocks && !this._inInterpolation && !this._isInExpansionCase() && !this._isInExpansionForm() && this._attemptCharCode($RBRACE)) {
          this._consumeBlockEnd(start);
        } else if (!(this._tokenizeIcu && this._tokenizeExpansionForm())) {
          this._consumeWithInterpolation(5, 8, () => this._isTextEnd(), () => this._isTagStart());
        }
      } catch (e) {
        this.handleError(e);
      }
    }
    this._beginToken(33);
    this._endToken([]);
  }
  _getBlockName() {
    let spacesInNameAllowed = false;
    const nameCursor = this._cursor.clone();
    this._attemptCharCodeUntilFn((code) => {
      if (isWhitespace(code)) {
        return !spacesInNameAllowed;
      }
      if (isBlockNameChar(code)) {
        spacesInNameAllowed = true;
        return false;
      }
      return true;
    });
    return this._cursor.getChars(nameCursor).trim();
  }
  _consumeBlockStart(start) {
    this._beginToken(24, start);
    const startToken = this._endToken([this._getBlockName()]);
    if (this._cursor.peek() === $LPAREN) {
      this._cursor.advance();
      this._consumeBlockParameters();
      this._attemptCharCodeUntilFn(isNotWhitespace);
      if (this._attemptCharCode($RPAREN)) {
        this._attemptCharCodeUntilFn(isNotWhitespace);
      } else {
        startToken.type = 28;
        return;
      }
    }
    if (this._attemptCharCode($LBRACE)) {
      this._beginToken(25);
      this._endToken([]);
    } else {
      startToken.type = 28;
    }
  }
  _consumeBlockEnd(start) {
    this._beginToken(26, start);
    this._endToken([]);
  }
  _consumeBlockParameters() {
    this._attemptCharCodeUntilFn(isBlockParameterChar);
    while (this._cursor.peek() !== $RPAREN && this._cursor.peek() !== $EOF) {
      this._beginToken(27);
      const start = this._cursor.clone();
      let inQuote = null;
      let openParens = 0;
      while (this._cursor.peek() !== $SEMICOLON && this._cursor.peek() !== $EOF || inQuote !== null) {
        const char = this._cursor.peek();
        if (char === $BACKSLASH) {
          this._cursor.advance();
        } else if (char === inQuote) {
          inQuote = null;
        } else if (inQuote === null && isQuote(char)) {
          inQuote = char;
        } else if (char === $LPAREN && inQuote === null) {
          openParens++;
        } else if (char === $RPAREN && inQuote === null) {
          if (openParens === 0) {
            break;
          } else if (openParens > 0) {
            openParens--;
          }
        }
        this._cursor.advance();
      }
      this._endToken([this._cursor.getChars(start)]);
      this._attemptCharCodeUntilFn(isBlockParameterChar);
    }
  }
  _consumeLetDeclaration(start) {
    this._beginToken(29, start);
    if (isWhitespace(this._cursor.peek())) {
      this._attemptCharCodeUntilFn(isNotWhitespace);
    } else {
      const token = this._endToken([this._cursor.getChars(start)]);
      token.type = 32;
      return;
    }
    const startToken = this._endToken([this._getLetDeclarationName()]);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    if (!this._attemptCharCode($EQ)) {
      startToken.type = 32;
      return;
    }
    this._attemptCharCodeUntilFn((code) => isNotWhitespace(code) && !isNewLine(code));
    this._consumeLetDeclarationValue();
    const endChar = this._cursor.peek();
    if (endChar === $SEMICOLON) {
      this._beginToken(31);
      this._endToken([]);
      this._cursor.advance();
    } else {
      startToken.type = 32;
      startToken.sourceSpan = this._cursor.getSpan(start);
    }
  }
  _getLetDeclarationName() {
    const nameCursor = this._cursor.clone();
    let allowDigit = false;
    this._attemptCharCodeUntilFn((code) => {
      if (isAsciiLetter(code) || code === $$ || code === $_ || allowDigit && isDigit(code)) {
        allowDigit = true;
        return false;
      }
      return true;
    });
    return this._cursor.getChars(nameCursor).trim();
  }
  _consumeLetDeclarationValue() {
    const start = this._cursor.clone();
    this._beginToken(30, start);
    while (this._cursor.peek() !== $EOF) {
      const char = this._cursor.peek();
      if (char === $SEMICOLON) {
        break;
      }
      if (isQuote(char)) {
        this._cursor.advance();
        this._attemptCharCodeUntilFn((inner) => {
          if (inner === $BACKSLASH) {
            this._cursor.advance();
            return false;
          }
          return inner === char;
        });
      }
      this._cursor.advance();
    }
    this._endToken([this._cursor.getChars(start)]);
  }
  _tokenizeExpansionForm() {
    if (this.isExpansionFormStart()) {
      this._consumeExpansionFormStart();
      return true;
    }
    if (isExpansionCaseStart(this._cursor.peek()) && this._isInExpansionForm()) {
      this._consumeExpansionCaseStart();
      return true;
    }
    if (this._cursor.peek() === $RBRACE) {
      if (this._isInExpansionCase()) {
        this._consumeExpansionCaseEnd();
        return true;
      }
      if (this._isInExpansionForm()) {
        this._consumeExpansionFormEnd();
        return true;
      }
    }
    return false;
  }
  _beginToken(type, start = this._cursor.clone()) {
    this._currentTokenStart = start;
    this._currentTokenType = type;
  }
  _endToken(parts, end) {
    if (this._currentTokenStart === null) {
      throw new TokenError("Programming error - attempted to end a token when there was no start to the token", this._currentTokenType, this._cursor.getSpan(end));
    }
    if (this._currentTokenType === null) {
      throw new TokenError("Programming error - attempted to end a token which has no token type", null, this._cursor.getSpan(this._currentTokenStart));
    }
    const token = {
      type: this._currentTokenType,
      parts,
      sourceSpan: (end != null ? end : this._cursor).getSpan(this._currentTokenStart, this._leadingTriviaCodePoints)
    };
    this.tokens.push(token);
    this._currentTokenStart = null;
    this._currentTokenType = null;
    return token;
  }
  _createError(msg, span) {
    if (this._isInExpansionForm()) {
      msg += ` (Do you have an unescaped "{" in your template? Use "{{ '{' }}") to escape it.)`;
    }
    const error = new TokenError(msg, this._currentTokenType, span);
    this._currentTokenStart = null;
    this._currentTokenType = null;
    return new _ControlFlowError(error);
  }
  handleError(e) {
    if (e instanceof CursorError) {
      e = this._createError(e.msg, this._cursor.getSpan(e.cursor));
    }
    if (e instanceof _ControlFlowError) {
      this.errors.push(e.error);
    } else {
      throw e;
    }
  }
  _attemptCharCode(charCode) {
    if (this._cursor.peek() === charCode) {
      this._cursor.advance();
      return true;
    }
    return false;
  }
  _attemptCharCodeCaseInsensitive(charCode) {
    if (compareCharCodeCaseInsensitive(this._cursor.peek(), charCode)) {
      this._cursor.advance();
      return true;
    }
    return false;
  }
  _requireCharCode(charCode) {
    const location = this._cursor.clone();
    if (!this._attemptCharCode(charCode)) {
      throw this._createError(_unexpectedCharacterErrorMsg(this._cursor.peek()), this._cursor.getSpan(location));
    }
  }
  _attemptStr(chars2) {
    const len = chars2.length;
    if (this._cursor.charsLeft() < len) {
      return false;
    }
    const initialPosition = this._cursor.clone();
    for (let i = 0; i < len; i++) {
      if (!this._attemptCharCode(chars2.charCodeAt(i))) {
        this._cursor = initialPosition;
        return false;
      }
    }
    return true;
  }
  _attemptStrCaseInsensitive(chars2) {
    for (let i = 0; i < chars2.length; i++) {
      if (!this._attemptCharCodeCaseInsensitive(chars2.charCodeAt(i))) {
        return false;
      }
    }
    return true;
  }
  _requireStr(chars2) {
    const location = this._cursor.clone();
    if (!this._attemptStr(chars2)) {
      throw this._createError(_unexpectedCharacterErrorMsg(this._cursor.peek()), this._cursor.getSpan(location));
    }
  }
  _attemptCharCodeUntilFn(predicate) {
    while (!predicate(this._cursor.peek())) {
      this._cursor.advance();
    }
  }
  _requireCharCodeUntilFn(predicate, len) {
    const start = this._cursor.clone();
    this._attemptCharCodeUntilFn(predicate);
    if (this._cursor.diff(start) < len) {
      throw this._createError(_unexpectedCharacterErrorMsg(this._cursor.peek()), this._cursor.getSpan(start));
    }
  }
  _attemptUntilChar(char) {
    while (this._cursor.peek() !== char) {
      this._cursor.advance();
    }
  }
  _readChar() {
    const char = String.fromCodePoint(this._cursor.peek());
    this._cursor.advance();
    return char;
  }
  _consumeEntity(textTokenType) {
    this._beginToken(9);
    const start = this._cursor.clone();
    this._cursor.advance();
    if (this._attemptCharCode($HASH)) {
      const isHex = this._attemptCharCode($x) || this._attemptCharCode($X);
      const codeStart = this._cursor.clone();
      this._attemptCharCodeUntilFn(isDigitEntityEnd);
      if (this._cursor.peek() != $SEMICOLON) {
        this._cursor.advance();
        const entityType = isHex ? CharacterReferenceType.HEX : CharacterReferenceType.DEC;
        throw this._createError(_unparsableEntityErrorMsg(entityType, this._cursor.getChars(start)), this._cursor.getSpan());
      }
      const strNum = this._cursor.getChars(codeStart);
      this._cursor.advance();
      try {
        const charCode = parseInt(strNum, isHex ? 16 : 10);
        this._endToken([String.fromCharCode(charCode), this._cursor.getChars(start)]);
      } catch (e) {
        throw this._createError(_unknownEntityErrorMsg(this._cursor.getChars(start)), this._cursor.getSpan());
      }
    } else {
      const nameStart = this._cursor.clone();
      this._attemptCharCodeUntilFn(isNamedEntityEnd);
      if (this._cursor.peek() != $SEMICOLON) {
        this._beginToken(textTokenType, start);
        this._cursor = nameStart;
        this._endToken(["&"]);
      } else {
        const name = this._cursor.getChars(nameStart);
        this._cursor.advance();
        const char = NAMED_ENTITIES[name];
        if (!char) {
          throw this._createError(_unknownEntityErrorMsg(name), this._cursor.getSpan(start));
        }
        this._endToken([char, `&${name};`]);
      }
    }
  }
  _consumeRawText(consumeEntities, endMarkerPredicate) {
    this._beginToken(consumeEntities ? 6 : 7);
    const parts = [];
    while (true) {
      const tagCloseStart = this._cursor.clone();
      const foundEndMarker = endMarkerPredicate();
      this._cursor = tagCloseStart;
      if (foundEndMarker) {
        break;
      }
      if (consumeEntities && this._cursor.peek() === $AMPERSAND) {
        this._endToken([this._processCarriageReturns(parts.join(""))]);
        parts.length = 0;
        this._consumeEntity(6);
        this._beginToken(6);
      } else {
        parts.push(this._readChar());
      }
    }
    this._endToken([this._processCarriageReturns(parts.join(""))]);
  }
  _consumeComment(start) {
    this._beginToken(10, start);
    this._requireCharCode($MINUS);
    this._endToken([]);
    this._consumeRawText(false, () => this._attemptStr("-->"));
    this._beginToken(11);
    this._requireStr("-->");
    this._endToken([]);
  }
  _consumeCdata(start) {
    this._beginToken(12, start);
    this._requireStr("CDATA[");
    this._endToken([]);
    this._consumeRawText(false, () => this._attemptStr("]]>"));
    this._beginToken(13);
    this._requireStr("]]>");
    this._endToken([]);
  }
  _consumeDocType(start) {
    this._beginToken(18, start);
    const contentStart = this._cursor.clone();
    this._attemptUntilChar($GT);
    const content = this._cursor.getChars(contentStart);
    this._cursor.advance();
    this._endToken([content]);
  }
  _consumePrefixAndName() {
    const nameOrPrefixStart = this._cursor.clone();
    let prefix = "";
    while (this._cursor.peek() !== $COLON && !isPrefixEnd(this._cursor.peek())) {
      this._cursor.advance();
    }
    let nameStart;
    if (this._cursor.peek() === $COLON) {
      prefix = this._cursor.getChars(nameOrPrefixStart);
      this._cursor.advance();
      nameStart = this._cursor.clone();
    } else {
      nameStart = nameOrPrefixStart;
    }
    this._requireCharCodeUntilFn(isNameEnd, prefix === "" ? 0 : 1);
    const name = this._cursor.getChars(nameStart);
    return [prefix, name];
  }
  _consumeTagOpen(start) {
    let tagName;
    let prefix;
    let openTagToken;
    try {
      if (!isAsciiLetter(this._cursor.peek())) {
        throw this._createError(_unexpectedCharacterErrorMsg(this._cursor.peek()), this._cursor.getSpan(start));
      }
      openTagToken = this._consumeTagOpenStart(start);
      prefix = openTagToken.parts[0];
      tagName = openTagToken.parts[1];
      this._attemptCharCodeUntilFn(isNotWhitespace);
      while (this._cursor.peek() !== $SLASH && this._cursor.peek() !== $GT && this._cursor.peek() !== $LT && this._cursor.peek() !== $EOF) {
        this._consumeAttributeName();
        this._attemptCharCodeUntilFn(isNotWhitespace);
        if (this._attemptCharCode($EQ)) {
          this._attemptCharCodeUntilFn(isNotWhitespace);
          this._consumeAttributeValue();
        }
        this._attemptCharCodeUntilFn(isNotWhitespace);
      }
      this._consumeTagOpenEnd();
    } catch (e) {
      if (e instanceof _ControlFlowError) {
        if (openTagToken) {
          openTagToken.type = 4;
        } else {
          this._beginToken(5, start);
          this._endToken(["<"]);
        }
        return;
      }
      throw e;
    }
    const contentTokenType = this._getTagDefinition(tagName).getContentType(prefix);
    if (contentTokenType === TagContentType.RAW_TEXT) {
      this._consumeRawTextWithTagClose(prefix, tagName, false);
    } else if (contentTokenType === TagContentType.ESCAPABLE_RAW_TEXT) {
      this._consumeRawTextWithTagClose(prefix, tagName, true);
    }
  }
  _consumeRawTextWithTagClose(prefix, tagName, consumeEntities) {
    this._consumeRawText(consumeEntities, () => {
      if (!this._attemptCharCode($LT))
        return false;
      if (!this._attemptCharCode($SLASH))
        return false;
      this._attemptCharCodeUntilFn(isNotWhitespace);
      if (!this._attemptStrCaseInsensitive(tagName))
        return false;
      this._attemptCharCodeUntilFn(isNotWhitespace);
      return this._attemptCharCode($GT);
    });
    this._beginToken(3);
    this._requireCharCodeUntilFn((code) => code === $GT, 3);
    this._cursor.advance();
    this._endToken([prefix, tagName]);
  }
  _consumeTagOpenStart(start) {
    this._beginToken(0, start);
    const parts = this._consumePrefixAndName();
    return this._endToken(parts);
  }
  _consumeAttributeName() {
    const attrNameStart = this._cursor.peek();
    if (attrNameStart === $SQ || attrNameStart === $DQ) {
      throw this._createError(_unexpectedCharacterErrorMsg(attrNameStart), this._cursor.getSpan());
    }
    this._beginToken(14);
    const prefixAndName = this._consumePrefixAndName();
    this._endToken(prefixAndName);
  }
  _consumeAttributeValue() {
    if (this._cursor.peek() === $SQ || this._cursor.peek() === $DQ) {
      const quoteChar = this._cursor.peek();
      this._consumeQuote(quoteChar);
      const endPredicate = () => this._cursor.peek() === quoteChar;
      this._consumeWithInterpolation(16, 17, endPredicate, endPredicate);
      this._consumeQuote(quoteChar);
    } else {
      const endPredicate = () => isNameEnd(this._cursor.peek());
      this._consumeWithInterpolation(16, 17, endPredicate, endPredicate);
    }
  }
  _consumeQuote(quoteChar) {
    this._beginToken(15);
    this._requireCharCode(quoteChar);
    this._endToken([String.fromCodePoint(quoteChar)]);
  }
  _consumeTagOpenEnd() {
    const tokenType = this._attemptCharCode($SLASH) ? 2 : 1;
    this._beginToken(tokenType);
    this._requireCharCode($GT);
    this._endToken([]);
  }
  _consumeTagClose(start) {
    this._beginToken(3, start);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    const prefixAndName = this._consumePrefixAndName();
    this._attemptCharCodeUntilFn(isNotWhitespace);
    this._requireCharCode($GT);
    this._endToken(prefixAndName);
  }
  _consumeExpansionFormStart() {
    this._beginToken(19);
    this._requireCharCode($LBRACE);
    this._endToken([]);
    this._expansionCaseStack.push(19);
    this._beginToken(7);
    const condition = this._readUntil($COMMA);
    const normalizedCondition = this._processCarriageReturns(condition);
    if (this._i18nNormalizeLineEndingsInICUs) {
      this._endToken([normalizedCondition]);
    } else {
      const conditionToken = this._endToken([condition]);
      if (normalizedCondition !== condition) {
        this.nonNormalizedIcuExpressions.push(conditionToken);
      }
    }
    this._requireCharCode($COMMA);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    this._beginToken(7);
    const type = this._readUntil($COMMA);
    this._endToken([type]);
    this._requireCharCode($COMMA);
    this._attemptCharCodeUntilFn(isNotWhitespace);
  }
  _consumeExpansionCaseStart() {
    this._beginToken(20);
    const value = this._readUntil($LBRACE).trim();
    this._endToken([value]);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    this._beginToken(21);
    this._requireCharCode($LBRACE);
    this._endToken([]);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    this._expansionCaseStack.push(21);
  }
  _consumeExpansionCaseEnd() {
    this._beginToken(22);
    this._requireCharCode($RBRACE);
    this._endToken([]);
    this._attemptCharCodeUntilFn(isNotWhitespace);
    this._expansionCaseStack.pop();
  }
  _consumeExpansionFormEnd() {
    this._beginToken(23);
    this._requireCharCode($RBRACE);
    this._endToken([]);
    this._expansionCaseStack.pop();
  }
  _consumeWithInterpolation(textTokenType, interpolationTokenType, endPredicate, endInterpolation) {
    this._beginToken(textTokenType);
    const parts = [];
    while (!endPredicate()) {
      const current = this._cursor.clone();
      if (this._interpolationConfig && this._attemptStr(this._interpolationConfig.start)) {
        this._endToken([this._processCarriageReturns(parts.join(""))], current);
        parts.length = 0;
        this._consumeInterpolation(interpolationTokenType, current, endInterpolation);
        this._beginToken(textTokenType);
      } else if (this._cursor.peek() === $AMPERSAND) {
        this._endToken([this._processCarriageReturns(parts.join(""))]);
        parts.length = 0;
        this._consumeEntity(textTokenType);
        this._beginToken(textTokenType);
      } else {
        parts.push(this._readChar());
      }
    }
    this._inInterpolation = false;
    this._endToken([this._processCarriageReturns(parts.join(""))]);
  }
  _consumeInterpolation(interpolationTokenType, interpolationStart, prematureEndPredicate) {
    const parts = [];
    this._beginToken(interpolationTokenType, interpolationStart);
    parts.push(this._interpolationConfig.start);
    const expressionStart = this._cursor.clone();
    let inQuote = null;
    let inComment = false;
    while (this._cursor.peek() !== $EOF && (prematureEndPredicate === null || !prematureEndPredicate())) {
      const current = this._cursor.clone();
      if (this._isTagStart()) {
        this._cursor = current;
        parts.push(this._getProcessedChars(expressionStart, current));
        this._endToken(parts);
        return;
      }
      if (inQuote === null) {
        if (this._attemptStr(this._interpolationConfig.end)) {
          parts.push(this._getProcessedChars(expressionStart, current));
          parts.push(this._interpolationConfig.end);
          this._endToken(parts);
          return;
        } else if (this._attemptStr("//")) {
          inComment = true;
        }
      }
      const char = this._cursor.peek();
      this._cursor.advance();
      if (char === $BACKSLASH) {
        this._cursor.advance();
      } else if (char === inQuote) {
        inQuote = null;
      } else if (!inComment && inQuote === null && isQuote(char)) {
        inQuote = char;
      }
    }
    parts.push(this._getProcessedChars(expressionStart, this._cursor));
    this._endToken(parts);
  }
  _getProcessedChars(start, end) {
    return this._processCarriageReturns(end.getChars(start));
  }
  _isTextEnd() {
    if (this._isTagStart() || this._cursor.peek() === $EOF) {
      return true;
    }
    if (this._tokenizeIcu && !this._inInterpolation) {
      if (this.isExpansionFormStart()) {
        return true;
      }
      if (this._cursor.peek() === $RBRACE && this._isInExpansionCase()) {
        return true;
      }
    }
    if (this._tokenizeBlocks && !this._inInterpolation && !this._isInExpansion() && (this._cursor.peek() === $AT || this._cursor.peek() === $RBRACE)) {
      return true;
    }
    return false;
  }
  _isTagStart() {
    if (this._cursor.peek() === $LT) {
      const tmp = this._cursor.clone();
      tmp.advance();
      const code = tmp.peek();
      if ($a <= code && code <= $z || $A <= code && code <= $Z || code === $SLASH || code === $BANG) {
        return true;
      }
    }
    return false;
  }
  _readUntil(char) {
    const start = this._cursor.clone();
    this._attemptUntilChar(char);
    return this._cursor.getChars(start);
  }
  _isInExpansion() {
    return this._isInExpansionCase() || this._isInExpansionForm();
  }
  _isInExpansionCase() {
    return this._expansionCaseStack.length > 0 && this._expansionCaseStack[this._expansionCaseStack.length - 1] === 21;
  }
  _isInExpansionForm() {
    return this._expansionCaseStack.length > 0 && this._expansionCaseStack[this._expansionCaseStack.length - 1] === 19;
  }
  isExpansionFormStart() {
    if (this._cursor.peek() !== $LBRACE) {
      return false;
    }
    if (this._interpolationConfig) {
      const start = this._cursor.clone();
      const isInterpolation = this._attemptStr(this._interpolationConfig.start);
      this._cursor = start;
      return !isInterpolation;
    }
    return true;
  }
};
function isNotWhitespace(code) {
  return !isWhitespace(code) || code === $EOF;
}
function isNameEnd(code) {
  return isWhitespace(code) || code === $GT || code === $LT || code === $SLASH || code === $SQ || code === $DQ || code === $EQ || code === $EOF;
}
function isPrefixEnd(code) {
  return (code < $a || $z < code) && (code < $A || $Z < code) && (code < $0 || code > $9);
}
function isDigitEntityEnd(code) {
  return code === $SEMICOLON || code === $EOF || !isAsciiHexDigit(code);
}
function isNamedEntityEnd(code) {
  return code === $SEMICOLON || code === $EOF || !isAsciiLetter(code);
}
function isExpansionCaseStart(peek) {
  return peek !== $RBRACE;
}
function compareCharCodeCaseInsensitive(code1, code2) {
  return toUpperCaseCharCode(code1) === toUpperCaseCharCode(code2);
}
function toUpperCaseCharCode(code) {
  return code >= $a && code <= $z ? code - $a + $A : code;
}
function isBlockNameChar(code) {
  return isAsciiLetter(code) || isDigit(code) || code === $_;
}
function isBlockParameterChar(code) {
  return code !== $SEMICOLON && isNotWhitespace(code);
}
function mergeTextTokens(srcTokens) {
  const dstTokens = [];
  let lastDstToken = void 0;
  for (let i = 0; i < srcTokens.length; i++) {
    const token = srcTokens[i];
    if (lastDstToken && lastDstToken.type === 5 && token.type === 5 || lastDstToken && lastDstToken.type === 16 && token.type === 16) {
      lastDstToken.parts[0] += token.parts[0];
      lastDstToken.sourceSpan.end = token.sourceSpan.end;
    } else {
      lastDstToken = token;
      dstTokens.push(lastDstToken);
    }
  }
  return dstTokens;
}
var PlainCharacterCursor = class {
  constructor(fileOrCursor, range) {
    if (fileOrCursor instanceof PlainCharacterCursor) {
      this.file = fileOrCursor.file;
      this.input = fileOrCursor.input;
      this.end = fileOrCursor.end;
      const state = fileOrCursor.state;
      this.state = {
        peek: state.peek,
        offset: state.offset,
        line: state.line,
        column: state.column
      };
    } else {
      if (!range) {
        throw new Error("Programming error: the range argument must be provided with a file argument.");
      }
      this.file = fileOrCursor;
      this.input = fileOrCursor.content;
      this.end = range.endPos;
      this.state = {
        peek: -1,
        offset: range.startPos,
        line: range.startLine,
        column: range.startCol
      };
    }
  }
  clone() {
    return new PlainCharacterCursor(this);
  }
  peek() {
    return this.state.peek;
  }
  charsLeft() {
    return this.end - this.state.offset;
  }
  diff(other) {
    return this.state.offset - other.state.offset;
  }
  advance() {
    this.advanceState(this.state);
  }
  init() {
    this.updatePeek(this.state);
  }
  getSpan(start, leadingTriviaCodePoints) {
    start = start || this;
    let fullStart = start;
    if (leadingTriviaCodePoints) {
      while (this.diff(start) > 0 && leadingTriviaCodePoints.indexOf(start.peek()) !== -1) {
        if (fullStart === start) {
          start = start.clone();
        }
        start.advance();
      }
    }
    const startLocation = this.locationFromCursor(start);
    const endLocation = this.locationFromCursor(this);
    const fullStartLocation = fullStart !== start ? this.locationFromCursor(fullStart) : startLocation;
    return new ParseSourceSpan(startLocation, endLocation, fullStartLocation);
  }
  getChars(start) {
    return this.input.substring(start.state.offset, this.state.offset);
  }
  charAt(pos) {
    return this.input.charCodeAt(pos);
  }
  advanceState(state) {
    if (state.offset >= this.end) {
      this.state = state;
      throw new CursorError('Unexpected character "EOF"', this);
    }
    const currentChar = this.charAt(state.offset);
    if (currentChar === $LF) {
      state.line++;
      state.column = 0;
    } else if (!isNewLine(currentChar)) {
      state.column++;
    }
    state.offset++;
    this.updatePeek(state);
  }
  updatePeek(state) {
    state.peek = state.offset >= this.end ? $EOF : this.charAt(state.offset);
  }
  locationFromCursor(cursor) {
    return new ParseLocation(cursor.file, cursor.state.offset, cursor.state.line, cursor.state.column);
  }
};
var EscapedCharacterCursor = class extends PlainCharacterCursor {
  constructor(fileOrCursor, range) {
    if (fileOrCursor instanceof EscapedCharacterCursor) {
      super(fileOrCursor);
      this.internalState = __spreadValues({}, fileOrCursor.internalState);
    } else {
      super(fileOrCursor, range);
      this.internalState = this.state;
    }
  }
  advance() {
    this.state = this.internalState;
    super.advance();
    this.processEscapeSequence();
  }
  init() {
    super.init();
    this.processEscapeSequence();
  }
  clone() {
    return new EscapedCharacterCursor(this);
  }
  getChars(start) {
    const cursor = start.clone();
    let chars2 = "";
    while (cursor.internalState.offset < this.internalState.offset) {
      chars2 += String.fromCodePoint(cursor.peek());
      cursor.advance();
    }
    return chars2;
  }
  processEscapeSequence() {
    const peek = () => this.internalState.peek;
    if (peek() === $BACKSLASH) {
      this.internalState = __spreadValues({}, this.state);
      this.advanceState(this.internalState);
      if (peek() === $n) {
        this.state.peek = $LF;
      } else if (peek() === $r) {
        this.state.peek = $CR;
      } else if (peek() === $v) {
        this.state.peek = $VTAB;
      } else if (peek() === $t) {
        this.state.peek = $TAB;
      } else if (peek() === $b) {
        this.state.peek = $BSPACE;
      } else if (peek() === $f) {
        this.state.peek = $FF;
      } else if (peek() === $u) {
        this.advanceState(this.internalState);
        if (peek() === $LBRACE) {
          this.advanceState(this.internalState);
          const digitStart = this.clone();
          let length = 0;
          while (peek() !== $RBRACE) {
            this.advanceState(this.internalState);
            length++;
          }
          this.state.peek = this.decodeHexDigits(digitStart, length);
        } else {
          const digitStart = this.clone();
          this.advanceState(this.internalState);
          this.advanceState(this.internalState);
          this.advanceState(this.internalState);
          this.state.peek = this.decodeHexDigits(digitStart, 4);
        }
      } else if (peek() === $x) {
        this.advanceState(this.internalState);
        const digitStart = this.clone();
        this.advanceState(this.internalState);
        this.state.peek = this.decodeHexDigits(digitStart, 2);
      } else if (isOctalDigit(peek())) {
        let octal = "";
        let length = 0;
        let previous = this.clone();
        while (isOctalDigit(peek()) && length < 3) {
          previous = this.clone();
          octal += String.fromCodePoint(peek());
          this.advanceState(this.internalState);
          length++;
        }
        this.state.peek = parseInt(octal, 8);
        this.internalState = previous.internalState;
      } else if (isNewLine(this.internalState.peek)) {
        this.advanceState(this.internalState);
        this.state = this.internalState;
      } else {
        this.state.peek = this.internalState.peek;
      }
    }
  }
  decodeHexDigits(start, length) {
    const hex = this.input.slice(start.internalState.offset, start.internalState.offset + length);
    const charCode = parseInt(hex, 16);
    if (!isNaN(charCode)) {
      return charCode;
    } else {
      start.state = start.internalState;
      throw new CursorError("Invalid hexadecimal escape sequence", start);
    }
  }
};
var CursorError = class {
  constructor(msg, cursor) {
    this.msg = msg;
    this.cursor = cursor;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/parser.mjs
var TreeError = class extends ParseError {
  static create(elementName, span, msg) {
    return new TreeError(elementName, span, msg);
  }
  constructor(elementName, span, msg) {
    super(span, msg);
    this.elementName = elementName;
  }
};
var ParseTreeResult = class {
  constructor(rootNodes, errors) {
    this.rootNodes = rootNodes;
    this.errors = errors;
  }
};
var Parser = class {
  constructor(getTagDefinition) {
    this.getTagDefinition = getTagDefinition;
  }
  parse(source, url, options) {
    const tokenizeResult = tokenize(source, url, this.getTagDefinition, options);
    const parser = new _TreeBuilder(tokenizeResult.tokens, this.getTagDefinition);
    parser.build();
    return new ParseTreeResult(parser.rootNodes, tokenizeResult.errors.concat(parser.errors));
  }
};
var _TreeBuilder = class {
  constructor(tokens, getTagDefinition) {
    this.tokens = tokens;
    this.getTagDefinition = getTagDefinition;
    this._index = -1;
    this._containerStack = [];
    this.rootNodes = [];
    this.errors = [];
    this._advance();
  }
  build() {
    while (this._peek.type !== 33) {
      if (this._peek.type === 0 || this._peek.type === 4) {
        this._consumeStartTag(this._advance());
      } else if (this._peek.type === 3) {
        this._consumeEndTag(this._advance());
      } else if (this._peek.type === 12) {
        this._closeVoidElement();
        this._consumeCdata(this._advance());
      } else if (this._peek.type === 10) {
        this._closeVoidElement();
        this._consumeComment(this._advance());
      } else if (this._peek.type === 5 || this._peek.type === 7 || this._peek.type === 6) {
        this._closeVoidElement();
        this._consumeText(this._advance());
      } else if (this._peek.type === 19) {
        this._consumeExpansion(this._advance());
      } else if (this._peek.type === 24) {
        this._closeVoidElement();
        this._consumeBlockOpen(this._advance());
      } else if (this._peek.type === 26) {
        this._closeVoidElement();
        this._consumeBlockClose(this._advance());
      } else if (this._peek.type === 28) {
        this._closeVoidElement();
        this._consumeIncompleteBlock(this._advance());
      } else if (this._peek.type === 29) {
        this._closeVoidElement();
        this._consumeLet(this._advance());
      } else if (this._peek.type === 32) {
        this._closeVoidElement();
        this._consumeIncompleteLet(this._advance());
      } else {
        this._advance();
      }
    }
    for (const leftoverContainer of this._containerStack) {
      if (leftoverContainer instanceof Block) {
        this.errors.push(TreeError.create(leftoverContainer.name, leftoverContainer.sourceSpan, `Unclosed block "${leftoverContainer.name}"`));
      }
    }
  }
  _advance() {
    const prev = this._peek;
    if (this._index < this.tokens.length - 1) {
      this._index++;
    }
    this._peek = this.tokens[this._index];
    return prev;
  }
  _advanceIf(type) {
    if (this._peek.type === type) {
      return this._advance();
    }
    return null;
  }
  _consumeCdata(_startToken) {
    this._consumeText(this._advance());
    this._advanceIf(13);
  }
  _consumeComment(token) {
    const text2 = this._advanceIf(7);
    const endToken = this._advanceIf(11);
    const value = text2 != null ? text2.parts[0].trim() : null;
    const sourceSpan = endToken == null ? token.sourceSpan : new ParseSourceSpan(token.sourceSpan.start, endToken.sourceSpan.end, token.sourceSpan.fullStart);
    this._addToParent(new Comment2(value, sourceSpan));
  }
  _consumeExpansion(token) {
    const switchValue = this._advance();
    const type = this._advance();
    const cases = [];
    while (this._peek.type === 20) {
      const expCase = this._parseExpansionCase();
      if (!expCase)
        return;
      cases.push(expCase);
    }
    if (this._peek.type !== 23) {
      this.errors.push(TreeError.create(null, this._peek.sourceSpan, `Invalid ICU message. Missing '}'.`));
      return;
    }
    const sourceSpan = new ParseSourceSpan(token.sourceSpan.start, this._peek.sourceSpan.end, token.sourceSpan.fullStart);
    this._addToParent(new Expansion(switchValue.parts[0], type.parts[0], cases, sourceSpan, switchValue.sourceSpan));
    this._advance();
  }
  _parseExpansionCase() {
    const value = this._advance();
    if (this._peek.type !== 21) {
      this.errors.push(TreeError.create(null, this._peek.sourceSpan, `Invalid ICU message. Missing '{'.`));
      return null;
    }
    const start = this._advance();
    const exp = this._collectExpansionExpTokens(start);
    if (!exp)
      return null;
    const end = this._advance();
    exp.push({ type: 33, parts: [], sourceSpan: end.sourceSpan });
    const expansionCaseParser = new _TreeBuilder(exp, this.getTagDefinition);
    expansionCaseParser.build();
    if (expansionCaseParser.errors.length > 0) {
      this.errors = this.errors.concat(expansionCaseParser.errors);
      return null;
    }
    const sourceSpan = new ParseSourceSpan(value.sourceSpan.start, end.sourceSpan.end, value.sourceSpan.fullStart);
    const expSourceSpan = new ParseSourceSpan(start.sourceSpan.start, end.sourceSpan.end, start.sourceSpan.fullStart);
    return new ExpansionCase(value.parts[0], expansionCaseParser.rootNodes, sourceSpan, value.sourceSpan, expSourceSpan);
  }
  _collectExpansionExpTokens(start) {
    const exp = [];
    const expansionFormStack = [21];
    while (true) {
      if (this._peek.type === 19 || this._peek.type === 21) {
        expansionFormStack.push(this._peek.type);
      }
      if (this._peek.type === 22) {
        if (lastOnStack(expansionFormStack, 21)) {
          expansionFormStack.pop();
          if (expansionFormStack.length === 0)
            return exp;
        } else {
          this.errors.push(TreeError.create(null, start.sourceSpan, `Invalid ICU message. Missing '}'.`));
          return null;
        }
      }
      if (this._peek.type === 23) {
        if (lastOnStack(expansionFormStack, 19)) {
          expansionFormStack.pop();
        } else {
          this.errors.push(TreeError.create(null, start.sourceSpan, `Invalid ICU message. Missing '}'.`));
          return null;
        }
      }
      if (this._peek.type === 33) {
        this.errors.push(TreeError.create(null, start.sourceSpan, `Invalid ICU message. Missing '}'.`));
        return null;
      }
      exp.push(this._advance());
    }
  }
  _consumeText(token) {
    const tokens = [token];
    const startSpan = token.sourceSpan;
    let text2 = token.parts[0];
    if (text2.length > 0 && text2[0] === "\n") {
      const parent = this._getContainer();
      if (parent != null && parent.children.length === 0 && this.getTagDefinition(parent.name).ignoreFirstLf) {
        text2 = text2.substring(1);
        tokens[0] = { type: token.type, sourceSpan: token.sourceSpan, parts: [text2] };
      }
    }
    while (this._peek.type === 8 || this._peek.type === 5 || this._peek.type === 9) {
      token = this._advance();
      tokens.push(token);
      if (token.type === 8) {
        text2 += token.parts.join("").replace(/&([^;]+);/g, decodeEntity);
      } else if (token.type === 9) {
        text2 += token.parts[0];
      } else {
        text2 += token.parts.join("");
      }
    }
    if (text2.length > 0) {
      const endSpan = token.sourceSpan;
      this._addToParent(new Text4(text2, new ParseSourceSpan(startSpan.start, endSpan.end, startSpan.fullStart, startSpan.details), tokens));
    }
  }
  _closeVoidElement() {
    const el = this._getContainer();
    if (el instanceof Element2 && this.getTagDefinition(el.name).isVoid) {
      this._containerStack.pop();
    }
  }
  _consumeStartTag(startTagToken) {
    const [prefix, name] = startTagToken.parts;
    const attrs = [];
    while (this._peek.type === 14) {
      attrs.push(this._consumeAttr(this._advance()));
    }
    const fullName = this._getElementFullName(prefix, name, this._getClosestParentElement());
    let selfClosing = false;
    if (this._peek.type === 2) {
      this._advance();
      selfClosing = true;
      const tagDef = this.getTagDefinition(fullName);
      if (!(tagDef.canSelfClose || getNsPrefix(fullName) !== null || tagDef.isVoid)) {
        this.errors.push(TreeError.create(fullName, startTagToken.sourceSpan, `Only void, custom and foreign elements can be self closed "${startTagToken.parts[1]}"`));
      }
    } else if (this._peek.type === 1) {
      this._advance();
      selfClosing = false;
    }
    const end = this._peek.sourceSpan.fullStart;
    const span = new ParseSourceSpan(startTagToken.sourceSpan.start, end, startTagToken.sourceSpan.fullStart);
    const startSpan = new ParseSourceSpan(startTagToken.sourceSpan.start, end, startTagToken.sourceSpan.fullStart);
    const el = new Element2(fullName, attrs, [], span, startSpan, void 0);
    const parentEl = this._getContainer();
    this._pushContainer(el, parentEl instanceof Element2 && this.getTagDefinition(parentEl.name).isClosedByChild(el.name));
    if (selfClosing) {
      this._popContainer(fullName, Element2, span);
    } else if (startTagToken.type === 4) {
      this._popContainer(fullName, Element2, null);
      this.errors.push(TreeError.create(fullName, span, `Opening tag "${fullName}" not terminated.`));
    }
  }
  _pushContainer(node, isClosedByChild) {
    if (isClosedByChild) {
      this._containerStack.pop();
    }
    this._addToParent(node);
    this._containerStack.push(node);
  }
  _consumeEndTag(endTagToken) {
    const fullName = this._getElementFullName(endTagToken.parts[0], endTagToken.parts[1], this._getClosestParentElement());
    if (this.getTagDefinition(fullName).isVoid) {
      this.errors.push(TreeError.create(fullName, endTagToken.sourceSpan, `Void elements do not have end tags "${endTagToken.parts[1]}"`));
    } else if (!this._popContainer(fullName, Element2, endTagToken.sourceSpan)) {
      const errMsg = `Unexpected closing tag "${fullName}". It may happen when the tag has already been closed by another tag. For more info see https://www.w3.org/TR/html5/syntax.html#closing-elements-that-have-implied-end-tags`;
      this.errors.push(TreeError.create(fullName, endTagToken.sourceSpan, errMsg));
    }
  }
  _popContainer(expectedName, expectedType, endSourceSpan) {
    let unexpectedCloseTagDetected = false;
    for (let stackIndex = this._containerStack.length - 1; stackIndex >= 0; stackIndex--) {
      const node = this._containerStack[stackIndex];
      if ((node.name === expectedName || expectedName === null) && node instanceof expectedType) {
        node.endSourceSpan = endSourceSpan;
        node.sourceSpan.end = endSourceSpan !== null ? endSourceSpan.end : node.sourceSpan.end;
        this._containerStack.splice(stackIndex, this._containerStack.length - stackIndex);
        return !unexpectedCloseTagDetected;
      }
      if (node instanceof Block || node instanceof Element2 && !this.getTagDefinition(node.name).closedByParent) {
        unexpectedCloseTagDetected = true;
      }
    }
    return false;
  }
  _consumeAttr(attrName) {
    const fullName = mergeNsAndName(attrName.parts[0], attrName.parts[1]);
    let attrEnd = attrName.sourceSpan.end;
    if (this._peek.type === 15) {
      this._advance();
    }
    let value = "";
    const valueTokens = [];
    let valueStartSpan = void 0;
    let valueEnd = void 0;
    const nextTokenType = this._peek.type;
    if (nextTokenType === 16) {
      valueStartSpan = this._peek.sourceSpan;
      valueEnd = this._peek.sourceSpan.end;
      while (this._peek.type === 16 || this._peek.type === 17 || this._peek.type === 9) {
        const valueToken = this._advance();
        valueTokens.push(valueToken);
        if (valueToken.type === 17) {
          value += valueToken.parts.join("").replace(/&([^;]+);/g, decodeEntity);
        } else if (valueToken.type === 9) {
          value += valueToken.parts[0];
        } else {
          value += valueToken.parts.join("");
        }
        valueEnd = attrEnd = valueToken.sourceSpan.end;
      }
    }
    if (this._peek.type === 15) {
      const quoteToken = this._advance();
      attrEnd = quoteToken.sourceSpan.end;
    }
    const valueSpan = valueStartSpan && valueEnd && new ParseSourceSpan(valueStartSpan.start, valueEnd, valueStartSpan.fullStart);
    return new Attribute(fullName, value, new ParseSourceSpan(attrName.sourceSpan.start, attrEnd, attrName.sourceSpan.fullStart), attrName.sourceSpan, valueSpan, valueTokens.length > 0 ? valueTokens : void 0, void 0);
  }
  _consumeBlockOpen(token) {
    const parameters = [];
    while (this._peek.type === 27) {
      const paramToken = this._advance();
      parameters.push(new BlockParameter(paramToken.parts[0], paramToken.sourceSpan));
    }
    if (this._peek.type === 25) {
      this._advance();
    }
    const end = this._peek.sourceSpan.fullStart;
    const span = new ParseSourceSpan(token.sourceSpan.start, end, token.sourceSpan.fullStart);
    const startSpan = new ParseSourceSpan(token.sourceSpan.start, end, token.sourceSpan.fullStart);
    const block = new Block(token.parts[0], parameters, [], span, token.sourceSpan, startSpan);
    this._pushContainer(block, false);
  }
  _consumeBlockClose(token) {
    if (!this._popContainer(null, Block, token.sourceSpan)) {
      this.errors.push(TreeError.create(null, token.sourceSpan, `Unexpected closing block. The block may have been closed earlier. If you meant to write the } character, you should use the "}" HTML entity instead.`));
    }
  }
  _consumeIncompleteBlock(token) {
    const parameters = [];
    while (this._peek.type === 27) {
      const paramToken = this._advance();
      parameters.push(new BlockParameter(paramToken.parts[0], paramToken.sourceSpan));
    }
    const end = this._peek.sourceSpan.fullStart;
    const span = new ParseSourceSpan(token.sourceSpan.start, end, token.sourceSpan.fullStart);
    const startSpan = new ParseSourceSpan(token.sourceSpan.start, end, token.sourceSpan.fullStart);
    const block = new Block(token.parts[0], parameters, [], span, token.sourceSpan, startSpan);
    this._pushContainer(block, false);
    this._popContainer(null, Block, null);
    this.errors.push(TreeError.create(token.parts[0], span, `Incomplete block "${token.parts[0]}". If you meant to write the @ character, you should use the "@" HTML entity instead.`));
  }
  _consumeLet(startToken) {
    const name = startToken.parts[0];
    let valueToken;
    let endToken;
    if (this._peek.type !== 30) {
      this.errors.push(TreeError.create(startToken.parts[0], startToken.sourceSpan, `Invalid @let declaration "${name}". Declaration must have a value.`));
      return;
    } else {
      valueToken = this._advance();
    }
    if (this._peek.type !== 31) {
      this.errors.push(TreeError.create(startToken.parts[0], startToken.sourceSpan, `Unterminated @let declaration "${name}". Declaration must be terminated with a semicolon.`));
      return;
    } else {
      endToken = this._advance();
    }
    const end = endToken.sourceSpan.fullStart;
    const span = new ParseSourceSpan(startToken.sourceSpan.start, end, startToken.sourceSpan.fullStart);
    const startOffset = startToken.sourceSpan.toString().lastIndexOf(name);
    const nameStart = startToken.sourceSpan.start.moveBy(startOffset);
    const nameSpan = new ParseSourceSpan(nameStart, startToken.sourceSpan.end);
    const node = new LetDeclaration2(name, valueToken.parts[0], span, nameSpan, valueToken.sourceSpan);
    this._addToParent(node);
  }
  _consumeIncompleteLet(token) {
    var _a2;
    const name = (_a2 = token.parts[0]) != null ? _a2 : "";
    const nameString = name ? ` "${name}"` : "";
    if (name.length > 0) {
      const startOffset = token.sourceSpan.toString().lastIndexOf(name);
      const nameStart = token.sourceSpan.start.moveBy(startOffset);
      const nameSpan = new ParseSourceSpan(nameStart, token.sourceSpan.end);
      const valueSpan = new ParseSourceSpan(token.sourceSpan.start, token.sourceSpan.start.moveBy(0));
      const node = new LetDeclaration2(name, "", token.sourceSpan, nameSpan, valueSpan);
      this._addToParent(node);
    }
    this.errors.push(TreeError.create(token.parts[0], token.sourceSpan, `Incomplete @let declaration${nameString}. @let declarations must be written as \`@let  = ;\``));
  }
  _getContainer() {
    return this._containerStack.length > 0 ? this._containerStack[this._containerStack.length - 1] : null;
  }
  _getClosestParentElement() {
    for (let i = this._containerStack.length - 1; i > -1; i--) {
      if (this._containerStack[i] instanceof Element2) {
        return this._containerStack[i];
      }
    }
    return null;
  }
  _addToParent(node) {
    const parent = this._getContainer();
    if (parent === null) {
      this.rootNodes.push(node);
    } else {
      parent.children.push(node);
    }
  }
  _getElementFullName(prefix, localName, parentElement) {
    if (prefix === "") {
      prefix = this.getTagDefinition(localName).implicitNamespacePrefix || "";
      if (prefix === "" && parentElement != null) {
        const parentTagName = splitNsName(parentElement.name)[1];
        const parentTagDefinition = this.getTagDefinition(parentTagName);
        if (!parentTagDefinition.preventNamespaceInheritance) {
          prefix = getNsPrefix(parentElement.name);
        }
      }
    }
    return mergeNsAndName(prefix, localName);
  }
};
function lastOnStack(stack, element2) {
  return stack.length > 0 && stack[stack.length - 1] === element2;
}
function decodeEntity(match, entity) {
  if (NAMED_ENTITIES[entity] !== void 0) {
    return NAMED_ENTITIES[entity] || match;
  }
  if (/^#x[a-f0-9]+$/i.test(entity)) {
    return String.fromCodePoint(parseInt(entity.slice(2), 16));
  }
  if (/^#\d+$/.test(entity)) {
    return String.fromCodePoint(parseInt(entity.slice(1), 10));
  }
  return match;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/html_whitespaces.mjs
var PRESERVE_WS_ATTR_NAME = "ngPreserveWhitespaces";
var SKIP_WS_TRIM_TAGS = /* @__PURE__ */ new Set(["pre", "template", "textarea", "script", "style"]);
var WS_CHARS = " \f\n\r	\v\u1680\u180E\u2000-\u200A\u2028\u2029\u202F\u205F\u3000\uFEFF";
var NO_WS_REGEXP = new RegExp(`[^${WS_CHARS}]`);
var WS_REPLACE_REGEXP = new RegExp(`[${WS_CHARS}]{2,}`, "g");
function hasPreserveWhitespacesAttr(attrs) {
  return attrs.some((attr) => attr.name === PRESERVE_WS_ATTR_NAME);
}
function replaceNgsp(value) {
  return value.replace(new RegExp(NGSP_UNICODE, "g"), " ");
}
var WhitespaceVisitor = class {
  constructor(preserveSignificantWhitespace, originalNodeMap, requireContext = true) {
    this.preserveSignificantWhitespace = preserveSignificantWhitespace;
    this.originalNodeMap = originalNodeMap;
    this.requireContext = requireContext;
    this.icuExpansionDepth = 0;
  }
  visitElement(element2, context) {
    var _a2, _b2;
    if (SKIP_WS_TRIM_TAGS.has(element2.name) || hasPreserveWhitespacesAttr(element2.attrs)) {
      const newElement2 = new Element2(element2.name, visitAllWithSiblings(this, element2.attrs), element2.children, element2.sourceSpan, element2.startSourceSpan, element2.endSourceSpan, element2.i18n);
      (_a2 = this.originalNodeMap) == null ? void 0 : _a2.set(newElement2, element2);
      return newElement2;
    }
    const newElement = new Element2(element2.name, element2.attrs, visitAllWithSiblings(this, element2.children), element2.sourceSpan, element2.startSourceSpan, element2.endSourceSpan, element2.i18n);
    (_b2 = this.originalNodeMap) == null ? void 0 : _b2.set(newElement, element2);
    return newElement;
  }
  visitAttribute(attribute2, context) {
    return attribute2.name !== PRESERVE_WS_ATTR_NAME ? attribute2 : null;
  }
  visitText(text2, context) {
    var _a2;
    const isNotBlank = text2.value.match(NO_WS_REGEXP);
    const hasExpansionSibling = context && (context.prev instanceof Expansion || context.next instanceof Expansion);
    const inIcuExpansion = this.icuExpansionDepth > 0;
    if (inIcuExpansion && this.preserveSignificantWhitespace)
      return text2;
    if (isNotBlank || hasExpansionSibling) {
      const tokens = text2.tokens.map((token) => token.type === 5 ? createWhitespaceProcessedTextToken(token) : token);
      if (!this.preserveSignificantWhitespace && tokens.length > 0) {
        const firstToken = tokens[0];
        tokens.splice(0, 1, trimLeadingWhitespace(firstToken, context));
        const lastToken = tokens[tokens.length - 1];
        tokens.splice(tokens.length - 1, 1, trimTrailingWhitespace(lastToken, context));
      }
      const processed = processWhitespace(text2.value);
      const value = this.preserveSignificantWhitespace ? processed : trimLeadingAndTrailingWhitespace(processed, context);
      const result = new Text4(value, text2.sourceSpan, tokens, text2.i18n);
      (_a2 = this.originalNodeMap) == null ? void 0 : _a2.set(result, text2);
      return result;
    }
    return null;
  }
  visitComment(comment, context) {
    return comment;
  }
  visitExpansion(expansion, context) {
    var _a2;
    this.icuExpansionDepth++;
    let newExpansion;
    try {
      newExpansion = new Expansion(expansion.switchValue, expansion.type, visitAllWithSiblings(this, expansion.cases), expansion.sourceSpan, expansion.switchValueSourceSpan, expansion.i18n);
    } finally {
      this.icuExpansionDepth--;
    }
    (_a2 = this.originalNodeMap) == null ? void 0 : _a2.set(newExpansion, expansion);
    return newExpansion;
  }
  visitExpansionCase(expansionCase, context) {
    var _a2;
    const newExpansionCase = new ExpansionCase(expansionCase.value, visitAllWithSiblings(this, expansionCase.expression), expansionCase.sourceSpan, expansionCase.valueSourceSpan, expansionCase.expSourceSpan);
    (_a2 = this.originalNodeMap) == null ? void 0 : _a2.set(newExpansionCase, expansionCase);
    return newExpansionCase;
  }
  visitBlock(block, context) {
    var _a2;
    const newBlock = new Block(block.name, block.parameters, visitAllWithSiblings(this, block.children), block.sourceSpan, block.nameSpan, block.startSourceSpan, block.endSourceSpan);
    (_a2 = this.originalNodeMap) == null ? void 0 : _a2.set(newBlock, block);
    return newBlock;
  }
  visitBlockParameter(parameter, context) {
    return parameter;
  }
  visitLetDeclaration(decl, context) {
    return decl;
  }
  visit(_node, context) {
    if (this.requireContext && !context) {
      throw new Error(`WhitespaceVisitor requires context. Visit via \`visitAllWithSiblings\` to get this context.`);
    }
    return false;
  }
};
function trimLeadingWhitespace(token, context) {
  if (token.type !== 5)
    return token;
  const isFirstTokenInTag = !(context == null ? void 0 : context.prev);
  if (!isFirstTokenInTag)
    return token;
  return transformTextToken(token, (text2) => text2.trimStart());
}
function trimTrailingWhitespace(token, context) {
  if (token.type !== 5)
    return token;
  const isLastTokenInTag = !(context == null ? void 0 : context.next);
  if (!isLastTokenInTag)
    return token;
  return transformTextToken(token, (text2) => text2.trimEnd());
}
function trimLeadingAndTrailingWhitespace(text2, context) {
  const isFirstTokenInTag = !(context == null ? void 0 : context.prev);
  const isLastTokenInTag = !(context == null ? void 0 : context.next);
  const maybeTrimmedStart = isFirstTokenInTag ? text2.trimStart() : text2;
  const maybeTrimmed = isLastTokenInTag ? maybeTrimmedStart.trimEnd() : maybeTrimmedStart;
  return maybeTrimmed;
}
function createWhitespaceProcessedTextToken({ type, parts, sourceSpan }) {
  return { type, parts: [processWhitespace(parts[0])], sourceSpan };
}
function transformTextToken({ type, parts, sourceSpan }, transform2) {
  return { type, parts: [transform2(parts[0])], sourceSpan };
}
function processWhitespace(text2) {
  return replaceNgsp(text2).replace(WS_REPLACE_REGEXP, " ");
}
function visitAllWithSiblings(visitor, nodes) {
  const result = [];
  nodes.forEach((ast, i) => {
    const context = { prev: nodes[i - 1], next: nodes[i + 1] };
    const astResult = ast.visit(visitor, context);
    if (astResult) {
      result.push(astResult);
    }
  });
  return result;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/expression_parser/lexer.mjs
var TokenType;
(function(TokenType2) {
  TokenType2[TokenType2["Character"] = 0] = "Character";
  TokenType2[TokenType2["Identifier"] = 1] = "Identifier";
  TokenType2[TokenType2["PrivateIdentifier"] = 2] = "PrivateIdentifier";
  TokenType2[TokenType2["Keyword"] = 3] = "Keyword";
  TokenType2[TokenType2["String"] = 4] = "String";
  TokenType2[TokenType2["Operator"] = 5] = "Operator";
  TokenType2[TokenType2["Number"] = 6] = "Number";
  TokenType2[TokenType2["Error"] = 7] = "Error";
})(TokenType || (TokenType = {}));
var KEYWORDS = ["var", "let", "as", "null", "undefined", "true", "false", "if", "else", "this"];
var Lexer = class {
  tokenize(text2) {
    const scanner = new _Scanner(text2);
    const tokens = [];
    let token = scanner.scanToken();
    while (token != null) {
      tokens.push(token);
      token = scanner.scanToken();
    }
    return tokens;
  }
};
var Token = class {
  constructor(index, end, type, numValue, strValue) {
    this.index = index;
    this.end = end;
    this.type = type;
    this.numValue = numValue;
    this.strValue = strValue;
  }
  isCharacter(code) {
    return this.type == TokenType.Character && this.numValue == code;
  }
  isNumber() {
    return this.type == TokenType.Number;
  }
  isString() {
    return this.type == TokenType.String;
  }
  isOperator(operator) {
    return this.type == TokenType.Operator && this.strValue == operator;
  }
  isIdentifier() {
    return this.type == TokenType.Identifier;
  }
  isPrivateIdentifier() {
    return this.type == TokenType.PrivateIdentifier;
  }
  isKeyword() {
    return this.type == TokenType.Keyword;
  }
  isKeywordLet() {
    return this.type == TokenType.Keyword && this.strValue == "let";
  }
  isKeywordAs() {
    return this.type == TokenType.Keyword && this.strValue == "as";
  }
  isKeywordNull() {
    return this.type == TokenType.Keyword && this.strValue == "null";
  }
  isKeywordUndefined() {
    return this.type == TokenType.Keyword && this.strValue == "undefined";
  }
  isKeywordTrue() {
    return this.type == TokenType.Keyword && this.strValue == "true";
  }
  isKeywordFalse() {
    return this.type == TokenType.Keyword && this.strValue == "false";
  }
  isKeywordThis() {
    return this.type == TokenType.Keyword && this.strValue == "this";
  }
  isError() {
    return this.type == TokenType.Error;
  }
  toNumber() {
    return this.type == TokenType.Number ? this.numValue : -1;
  }
  toString() {
    switch (this.type) {
      case TokenType.Character:
      case TokenType.Identifier:
      case TokenType.Keyword:
      case TokenType.Operator:
      case TokenType.PrivateIdentifier:
      case TokenType.String:
      case TokenType.Error:
        return this.strValue;
      case TokenType.Number:
        return this.numValue.toString();
      default:
        return null;
    }
  }
};
function newCharacterToken(index, end, code) {
  return new Token(index, end, TokenType.Character, code, String.fromCharCode(code));
}
function newIdentifierToken(index, end, text2) {
  return new Token(index, end, TokenType.Identifier, 0, text2);
}
function newPrivateIdentifierToken(index, end, text2) {
  return new Token(index, end, TokenType.PrivateIdentifier, 0, text2);
}
function newKeywordToken(index, end, text2) {
  return new Token(index, end, TokenType.Keyword, 0, text2);
}
function newOperatorToken(index, end, text2) {
  return new Token(index, end, TokenType.Operator, 0, text2);
}
function newStringToken(index, end, text2) {
  return new Token(index, end, TokenType.String, 0, text2);
}
function newNumberToken(index, end, n) {
  return new Token(index, end, TokenType.Number, n, "");
}
function newErrorToken(index, end, message) {
  return new Token(index, end, TokenType.Error, 0, message);
}
var EOF = new Token(-1, -1, TokenType.Character, 0, "");
var _Scanner = class {
  constructor(input) {
    this.input = input;
    this.peek = 0;
    this.index = -1;
    this.length = input.length;
    this.advance();
  }
  advance() {
    this.peek = ++this.index >= this.length ? $EOF : this.input.charCodeAt(this.index);
  }
  scanToken() {
    const input = this.input, length = this.length;
    let peek = this.peek, index = this.index;
    while (peek <= $SPACE) {
      if (++index >= length) {
        peek = $EOF;
        break;
      } else {
        peek = input.charCodeAt(index);
      }
    }
    this.peek = peek;
    this.index = index;
    if (index >= length) {
      return null;
    }
    if (isIdentifierStart(peek))
      return this.scanIdentifier();
    if (isDigit(peek))
      return this.scanNumber(index);
    const start = index;
    switch (peek) {
      case $PERIOD:
        this.advance();
        return isDigit(this.peek) ? this.scanNumber(start) : newCharacterToken(start, this.index, $PERIOD);
      case $LPAREN:
      case $RPAREN:
      case $LBRACE:
      case $RBRACE:
      case $LBRACKET:
      case $RBRACKET:
      case $COMMA:
      case $COLON:
      case $SEMICOLON:
        return this.scanCharacter(start, peek);
      case $SQ:
      case $DQ:
        return this.scanString();
      case $HASH:
        return this.scanPrivateIdentifier();
      case $PLUS:
      case $MINUS:
      case $STAR:
      case $SLASH:
      case $PERCENT:
      case $CARET:
        return this.scanOperator(start, String.fromCharCode(peek));
      case $QUESTION:
        return this.scanQuestion(start);
      case $LT:
      case $GT:
        return this.scanComplexOperator(start, String.fromCharCode(peek), $EQ, "=");
      case $BANG:
      case $EQ:
        return this.scanComplexOperator(start, String.fromCharCode(peek), $EQ, "=", $EQ, "=");
      case $AMPERSAND:
        return this.scanComplexOperator(start, "&", $AMPERSAND, "&");
      case $BAR:
        return this.scanComplexOperator(start, "|", $BAR, "|");
      case $NBSP:
        while (isWhitespace(this.peek))
          this.advance();
        return this.scanToken();
    }
    this.advance();
    return this.error(`Unexpected character [${String.fromCharCode(peek)}]`, 0);
  }
  scanCharacter(start, code) {
    this.advance();
    return newCharacterToken(start, this.index, code);
  }
  scanOperator(start, str) {
    this.advance();
    return newOperatorToken(start, this.index, str);
  }
  scanComplexOperator(start, one, twoCode, two, threeCode, three) {
    this.advance();
    let str = one;
    if (this.peek == twoCode) {
      this.advance();
      str += two;
    }
    if (threeCode != null && this.peek == threeCode) {
      this.advance();
      str += three;
    }
    return newOperatorToken(start, this.index, str);
  }
  scanIdentifier() {
    const start = this.index;
    this.advance();
    while (isIdentifierPart(this.peek))
      this.advance();
    const str = this.input.substring(start, this.index);
    return KEYWORDS.indexOf(str) > -1 ? newKeywordToken(start, this.index, str) : newIdentifierToken(start, this.index, str);
  }
  scanPrivateIdentifier() {
    const start = this.index;
    this.advance();
    if (!isIdentifierStart(this.peek)) {
      return this.error("Invalid character [#]", -1);
    }
    while (isIdentifierPart(this.peek))
      this.advance();
    const identifierName2 = this.input.substring(start, this.index);
    return newPrivateIdentifierToken(start, this.index, identifierName2);
  }
  scanNumber(start) {
    let simple = this.index === start;
    let hasSeparators = false;
    this.advance();
    while (true) {
      if (isDigit(this.peek)) {
      } else if (this.peek === $_) {
        if (!isDigit(this.input.charCodeAt(this.index - 1)) || !isDigit(this.input.charCodeAt(this.index + 1))) {
          return this.error("Invalid numeric separator", 0);
        }
        hasSeparators = true;
      } else if (this.peek === $PERIOD) {
        simple = false;
      } else if (isExponentStart(this.peek)) {
        this.advance();
        if (isExponentSign(this.peek))
          this.advance();
        if (!isDigit(this.peek))
          return this.error("Invalid exponent", -1);
        simple = false;
      } else {
        break;
      }
      this.advance();
    }
    let str = this.input.substring(start, this.index);
    if (hasSeparators) {
      str = str.replace(/_/g, "");
    }
    const value = simple ? parseIntAutoRadix(str) : parseFloat(str);
    return newNumberToken(start, this.index, value);
  }
  scanString() {
    const start = this.index;
    const quote = this.peek;
    this.advance();
    let buffer = "";
    let marker = this.index;
    const input = this.input;
    while (this.peek != quote) {
      if (this.peek == $BACKSLASH) {
        buffer += input.substring(marker, this.index);
        let unescapedCode;
        this.advance();
        if (this.peek == $u) {
          const hex = input.substring(this.index + 1, this.index + 5);
          if (/^[0-9a-f]+$/i.test(hex)) {
            unescapedCode = parseInt(hex, 16);
          } else {
            return this.error(`Invalid unicode escape [\\u${hex}]`, 0);
          }
          for (let i = 0; i < 5; i++) {
            this.advance();
          }
        } else {
          unescapedCode = unescape2(this.peek);
          this.advance();
        }
        buffer += String.fromCharCode(unescapedCode);
        marker = this.index;
      } else if (this.peek == $EOF) {
        return this.error("Unterminated quote", 0);
      } else {
        this.advance();
      }
    }
    const last = input.substring(marker, this.index);
    this.advance();
    return newStringToken(start, this.index, buffer + last);
  }
  scanQuestion(start) {
    this.advance();
    let str = "?";
    if (this.peek === $QUESTION || this.peek === $PERIOD) {
      str += this.peek === $PERIOD ? "." : "?";
      this.advance();
    }
    return newOperatorToken(start, this.index, str);
  }
  error(message, offset) {
    const position = this.index + offset;
    return newErrorToken(position, this.index, `Lexer Error: ${message} at column ${position} in expression [${this.input}]`);
  }
};
function isIdentifierStart(code) {
  return $a <= code && code <= $z || $A <= code && code <= $Z || code == $_ || code == $$;
}
function isIdentifierPart(code) {
  return isAsciiLetter(code) || isDigit(code) || code == $_ || code == $$;
}
function isExponentStart(code) {
  return code == $e || code == $E;
}
function isExponentSign(code) {
  return code == $MINUS || code == $PLUS;
}
function unescape2(code) {
  switch (code) {
    case $n:
      return $LF;
    case $f:
      return $FF;
    case $r:
      return $CR;
    case $t:
      return $TAB;
    case $v:
      return $VTAB;
    default:
      return code;
  }
}
function parseIntAutoRadix(text2) {
  const result = parseInt(text2);
  if (isNaN(result)) {
    throw new Error("Invalid integer literal when parsing " + text2);
  }
  return result;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/expression_parser/parser.mjs
var SplitInterpolation = class {
  constructor(strings, expressions, offsets) {
    this.strings = strings;
    this.expressions = expressions;
    this.offsets = offsets;
  }
};
var TemplateBindingParseResult = class {
  constructor(templateBindings, warnings, errors) {
    this.templateBindings = templateBindings;
    this.warnings = warnings;
    this.errors = errors;
  }
};
var Parser2 = class {
  constructor(_lexer) {
    this._lexer = _lexer;
    this.errors = [];
  }
  parseAction(input, location, absoluteOffset, interpolationConfig = DEFAULT_INTERPOLATION_CONFIG) {
    this._checkNoInterpolation(input, location, interpolationConfig);
    const sourceToLex = this._stripComments(input);
    const tokens = this._lexer.tokenize(sourceToLex);
    const ast = new _ParseAST(input, location, absoluteOffset, tokens, 1, this.errors, 0).parseChain();
    return new ASTWithSource(ast, input, location, absoluteOffset, this.errors);
  }
  parseBinding(input, location, absoluteOffset, interpolationConfig = DEFAULT_INTERPOLATION_CONFIG) {
    const ast = this._parseBindingAst(input, location, absoluteOffset, interpolationConfig);
    return new ASTWithSource(ast, input, location, absoluteOffset, this.errors);
  }
  checkSimpleExpression(ast) {
    const checker = new SimpleExpressionChecker();
    ast.visit(checker);
    return checker.errors;
  }
  parseSimpleBinding(input, location, absoluteOffset, interpolationConfig = DEFAULT_INTERPOLATION_CONFIG) {
    const ast = this._parseBindingAst(input, location, absoluteOffset, interpolationConfig);
    const errors = this.checkSimpleExpression(ast);
    if (errors.length > 0) {
      this._reportError(`Host binding expression cannot contain ${errors.join(" ")}`, input, location);
    }
    return new ASTWithSource(ast, input, location, absoluteOffset, this.errors);
  }
  _reportError(message, input, errLocation, ctxLocation) {
    this.errors.push(new ParserError(message, input, errLocation, ctxLocation));
  }
  _parseBindingAst(input, location, absoluteOffset, interpolationConfig) {
    this._checkNoInterpolation(input, location, interpolationConfig);
    const sourceToLex = this._stripComments(input);
    const tokens = this._lexer.tokenize(sourceToLex);
    return new _ParseAST(input, location, absoluteOffset, tokens, 0, this.errors, 0).parseChain();
  }
  parseTemplateBindings(templateKey, templateValue, templateUrl, absoluteKeyOffset, absoluteValueOffset) {
    const tokens = this._lexer.tokenize(templateValue);
    const parser = new _ParseAST(templateValue, templateUrl, absoluteValueOffset, tokens, 0, this.errors, 0);
    return parser.parseTemplateBindings({
      source: templateKey,
      span: new AbsoluteSourceSpan(absoluteKeyOffset, absoluteKeyOffset + templateKey.length)
    });
  }
  parseInterpolation(input, location, absoluteOffset, interpolatedTokens, interpolationConfig = DEFAULT_INTERPOLATION_CONFIG) {
    const { strings, expressions, offsets } = this.splitInterpolation(input, location, interpolatedTokens, interpolationConfig);
    if (expressions.length === 0)
      return null;
    const expressionNodes = [];
    for (let i = 0; i < expressions.length; ++i) {
      const expressionText = expressions[i].text;
      const sourceToLex = this._stripComments(expressionText);
      const tokens = this._lexer.tokenize(sourceToLex);
      const ast = new _ParseAST(input, location, absoluteOffset, tokens, 0, this.errors, offsets[i]).parseChain();
      expressionNodes.push(ast);
    }
    return this.createInterpolationAst(strings.map((s) => s.text), expressionNodes, input, location, absoluteOffset);
  }
  parseInterpolationExpression(expression, location, absoluteOffset) {
    const sourceToLex = this._stripComments(expression);
    const tokens = this._lexer.tokenize(sourceToLex);
    const ast = new _ParseAST(expression, location, absoluteOffset, tokens, 0, this.errors, 0).parseChain();
    const strings = ["", ""];
    return this.createInterpolationAst(strings, [ast], expression, location, absoluteOffset);
  }
  createInterpolationAst(strings, expressions, input, location, absoluteOffset) {
    const span = new ParseSpan(0, input.length);
    const interpolation = new Interpolation(span, span.toAbsolute(absoluteOffset), strings, expressions);
    return new ASTWithSource(interpolation, input, location, absoluteOffset, this.errors);
  }
  splitInterpolation(input, location, interpolatedTokens, interpolationConfig = DEFAULT_INTERPOLATION_CONFIG) {
    var _a2;
    const strings = [];
    const expressions = [];
    const offsets = [];
    const inputToTemplateIndexMap = interpolatedTokens ? getIndexMapForOriginalTemplate(interpolatedTokens) : null;
    let i = 0;
    let atInterpolation = false;
    let extendLastString = false;
    let { start: interpStart, end: interpEnd } = interpolationConfig;
    while (i < input.length) {
      if (!atInterpolation) {
        const start = i;
        i = input.indexOf(interpStart, i);
        if (i === -1) {
          i = input.length;
        }
        const text2 = input.substring(start, i);
        strings.push({ text: text2, start, end: i });
        atInterpolation = true;
      } else {
        const fullStart = i;
        const exprStart = fullStart + interpStart.length;
        const exprEnd = this._getInterpolationEndIndex(input, interpEnd, exprStart);
        if (exprEnd === -1) {
          atInterpolation = false;
          extendLastString = true;
          break;
        }
        const fullEnd = exprEnd + interpEnd.length;
        const text2 = input.substring(exprStart, exprEnd);
        if (text2.trim().length === 0) {
          this._reportError("Blank expressions are not allowed in interpolated strings", input, `at column ${i} in`, location);
        }
        expressions.push({ text: text2, start: fullStart, end: fullEnd });
        const startInOriginalTemplate = (_a2 = inputToTemplateIndexMap == null ? void 0 : inputToTemplateIndexMap.get(fullStart)) != null ? _a2 : fullStart;
        const offset = startInOriginalTemplate + interpStart.length;
        offsets.push(offset);
        i = fullEnd;
        atInterpolation = false;
      }
    }
    if (!atInterpolation) {
      if (extendLastString) {
        const piece = strings[strings.length - 1];
        piece.text += input.substring(i);
        piece.end = input.length;
      } else {
        strings.push({ text: input.substring(i), start: i, end: input.length });
      }
    }
    return new SplitInterpolation(strings, expressions, offsets);
  }
  wrapLiteralPrimitive(input, location, absoluteOffset) {
    const span = new ParseSpan(0, input == null ? 0 : input.length);
    return new ASTWithSource(new LiteralPrimitive(span, span.toAbsolute(absoluteOffset), input), input, location, absoluteOffset, this.errors);
  }
  _stripComments(input) {
    const i = this._commentStart(input);
    return i != null ? input.substring(0, i) : input;
  }
  _commentStart(input) {
    let outerQuote = null;
    for (let i = 0; i < input.length - 1; i++) {
      const char = input.charCodeAt(i);
      const nextChar = input.charCodeAt(i + 1);
      if (char === $SLASH && nextChar == $SLASH && outerQuote == null)
        return i;
      if (outerQuote === char) {
        outerQuote = null;
      } else if (outerQuote == null && isQuote(char)) {
        outerQuote = char;
      }
    }
    return null;
  }
  _checkNoInterpolation(input, location, { start, end }) {
    let startIndex = -1;
    let endIndex = -1;
    for (const charIndex of this._forEachUnquotedChar(input, 0)) {
      if (startIndex === -1) {
        if (input.startsWith(start)) {
          startIndex = charIndex;
        }
      } else {
        endIndex = this._getInterpolationEndIndex(input, end, charIndex);
        if (endIndex > -1) {
          break;
        }
      }
    }
    if (startIndex > -1 && endIndex > -1) {
      this._reportError(`Got interpolation (${start}${end}) where expression was expected`, input, `at column ${startIndex} in`, location);
    }
  }
  _getInterpolationEndIndex(input, expressionEnd, start) {
    for (const charIndex of this._forEachUnquotedChar(input, start)) {
      if (input.startsWith(expressionEnd, charIndex)) {
        return charIndex;
      }
      if (input.startsWith("//", charIndex)) {
        return input.indexOf(expressionEnd, charIndex);
      }
    }
    return -1;
  }
  *_forEachUnquotedChar(input, start) {
    let currentQuote = null;
    let escapeCount = 0;
    for (let i = start; i < input.length; i++) {
      const char = input[i];
      if (isQuote(input.charCodeAt(i)) && (currentQuote === null || currentQuote === char) && escapeCount % 2 === 0) {
        currentQuote = currentQuote === null ? char : null;
      } else if (currentQuote === null) {
        yield i;
      }
      escapeCount = char === "\\" ? escapeCount + 1 : 0;
    }
  }
};
var ParseContextFlags;
(function(ParseContextFlags2) {
  ParseContextFlags2[ParseContextFlags2["None"] = 0] = "None";
  ParseContextFlags2[ParseContextFlags2["Writable"] = 1] = "Writable";
})(ParseContextFlags || (ParseContextFlags = {}));
var _ParseAST = class {
  constructor(input, location, absoluteOffset, tokens, parseFlags, errors, offset) {
    this.input = input;
    this.location = location;
    this.absoluteOffset = absoluteOffset;
    this.tokens = tokens;
    this.parseFlags = parseFlags;
    this.errors = errors;
    this.offset = offset;
    this.rparensExpected = 0;
    this.rbracketsExpected = 0;
    this.rbracesExpected = 0;
    this.context = ParseContextFlags.None;
    this.sourceSpanCache = /* @__PURE__ */ new Map();
    this.index = 0;
  }
  peek(offset) {
    const i = this.index + offset;
    return i < this.tokens.length ? this.tokens[i] : EOF;
  }
  get next() {
    return this.peek(0);
  }
  get atEOF() {
    return this.index >= this.tokens.length;
  }
  get inputIndex() {
    return this.atEOF ? this.currentEndIndex : this.next.index + this.offset;
  }
  get currentEndIndex() {
    if (this.index > 0) {
      const curToken = this.peek(-1);
      return curToken.end + this.offset;
    }
    if (this.tokens.length === 0) {
      return this.input.length + this.offset;
    }
    return this.next.index + this.offset;
  }
  get currentAbsoluteOffset() {
    return this.absoluteOffset + this.inputIndex;
  }
  span(start, artificialEndIndex) {
    let endIndex = this.currentEndIndex;
    if (artificialEndIndex !== void 0 && artificialEndIndex > this.currentEndIndex) {
      endIndex = artificialEndIndex;
    }
    if (start > endIndex) {
      const tmp = endIndex;
      endIndex = start;
      start = tmp;
    }
    return new ParseSpan(start, endIndex);
  }
  sourceSpan(start, artificialEndIndex) {
    const serial = `${start}@${this.inputIndex}:${artificialEndIndex}`;
    if (!this.sourceSpanCache.has(serial)) {
      this.sourceSpanCache.set(serial, this.span(start, artificialEndIndex).toAbsolute(this.absoluteOffset));
    }
    return this.sourceSpanCache.get(serial);
  }
  advance() {
    this.index++;
  }
  withContext(context, cb) {
    this.context |= context;
    const ret = cb();
    this.context ^= context;
    return ret;
  }
  consumeOptionalCharacter(code) {
    if (this.next.isCharacter(code)) {
      this.advance();
      return true;
    } else {
      return false;
    }
  }
  peekKeywordLet() {
    return this.next.isKeywordLet();
  }
  peekKeywordAs() {
    return this.next.isKeywordAs();
  }
  expectCharacter(code) {
    if (this.consumeOptionalCharacter(code))
      return;
    this.error(`Missing expected ${String.fromCharCode(code)}`);
  }
  consumeOptionalOperator(op) {
    if (this.next.isOperator(op)) {
      this.advance();
      return true;
    } else {
      return false;
    }
  }
  expectOperator(operator) {
    if (this.consumeOptionalOperator(operator))
      return;
    this.error(`Missing expected operator ${operator}`);
  }
  prettyPrintToken(tok) {
    return tok === EOF ? "end of input" : `token ${tok}`;
  }
  expectIdentifierOrKeyword() {
    const n = this.next;
    if (!n.isIdentifier() && !n.isKeyword()) {
      if (n.isPrivateIdentifier()) {
        this._reportErrorForPrivateIdentifier(n, "expected identifier or keyword");
      } else {
        this.error(`Unexpected ${this.prettyPrintToken(n)}, expected identifier or keyword`);
      }
      return null;
    }
    this.advance();
    return n.toString();
  }
  expectIdentifierOrKeywordOrString() {
    const n = this.next;
    if (!n.isIdentifier() && !n.isKeyword() && !n.isString()) {
      if (n.isPrivateIdentifier()) {
        this._reportErrorForPrivateIdentifier(n, "expected identifier, keyword or string");
      } else {
        this.error(`Unexpected ${this.prettyPrintToken(n)}, expected identifier, keyword, or string`);
      }
      return "";
    }
    this.advance();
    return n.toString();
  }
  parseChain() {
    const exprs = [];
    const start = this.inputIndex;
    while (this.index < this.tokens.length) {
      const expr = this.parsePipe();
      exprs.push(expr);
      if (this.consumeOptionalCharacter($SEMICOLON)) {
        if (!(this.parseFlags & 1)) {
          this.error("Binding expression cannot contain chained expression");
        }
        while (this.consumeOptionalCharacter($SEMICOLON)) {
        }
      } else if (this.index < this.tokens.length) {
        const errorIndex = this.index;
        this.error(`Unexpected token '${this.next}'`);
        if (this.index === errorIndex) {
          break;
        }
      }
    }
    if (exprs.length === 0) {
      const artificialStart = this.offset;
      const artificialEnd = this.offset + this.input.length;
      return new EmptyExpr(this.span(artificialStart, artificialEnd), this.sourceSpan(artificialStart, artificialEnd));
    }
    if (exprs.length == 1)
      return exprs[0];
    return new Chain(this.span(start), this.sourceSpan(start), exprs);
  }
  parsePipe() {
    const start = this.inputIndex;
    let result = this.parseExpression();
    if (this.consumeOptionalOperator("|")) {
      if (this.parseFlags & 1) {
        this.error(`Cannot have a pipe in an action expression`);
      }
      do {
        const nameStart = this.inputIndex;
        let nameId = this.expectIdentifierOrKeyword();
        let nameSpan;
        let fullSpanEnd = void 0;
        if (nameId !== null) {
          nameSpan = this.sourceSpan(nameStart);
        } else {
          nameId = "";
          fullSpanEnd = this.next.index !== -1 ? this.next.index : this.input.length + this.offset;
          nameSpan = new ParseSpan(fullSpanEnd, fullSpanEnd).toAbsolute(this.absoluteOffset);
        }
        const args = [];
        while (this.consumeOptionalCharacter($COLON)) {
          args.push(this.parseExpression());
        }
        result = new BindingPipe(this.span(start), this.sourceSpan(start, fullSpanEnd), result, nameId, args, nameSpan);
      } while (this.consumeOptionalOperator("|"));
    }
    return result;
  }
  parseExpression() {
    return this.parseConditional();
  }
  parseConditional() {
    const start = this.inputIndex;
    const result = this.parseLogicalOr();
    if (this.consumeOptionalOperator("?")) {
      const yes = this.parsePipe();
      let no;
      if (!this.consumeOptionalCharacter($COLON)) {
        const end = this.inputIndex;
        const expression = this.input.substring(start, end);
        this.error(`Conditional expression ${expression} requires all 3 expressions`);
        no = new EmptyExpr(this.span(start), this.sourceSpan(start));
      } else {
        no = this.parsePipe();
      }
      return new Conditional(this.span(start), this.sourceSpan(start), result, yes, no);
    } else {
      return result;
    }
  }
  parseLogicalOr() {
    const start = this.inputIndex;
    let result = this.parseLogicalAnd();
    while (this.consumeOptionalOperator("||")) {
      const right = this.parseLogicalAnd();
      result = new Binary(this.span(start), this.sourceSpan(start), "||", result, right);
    }
    return result;
  }
  parseLogicalAnd() {
    const start = this.inputIndex;
    let result = this.parseNullishCoalescing();
    while (this.consumeOptionalOperator("&&")) {
      const right = this.parseNullishCoalescing();
      result = new Binary(this.span(start), this.sourceSpan(start), "&&", result, right);
    }
    return result;
  }
  parseNullishCoalescing() {
    const start = this.inputIndex;
    let result = this.parseEquality();
    while (this.consumeOptionalOperator("??")) {
      const right = this.parseEquality();
      result = new Binary(this.span(start), this.sourceSpan(start), "??", result, right);
    }
    return result;
  }
  parseEquality() {
    const start = this.inputIndex;
    let result = this.parseRelational();
    while (this.next.type == TokenType.Operator) {
      const operator = this.next.strValue;
      switch (operator) {
        case "==":
        case "===":
        case "!=":
        case "!==":
          this.advance();
          const right = this.parseRelational();
          result = new Binary(this.span(start), this.sourceSpan(start), operator, result, right);
          continue;
      }
      break;
    }
    return result;
  }
  parseRelational() {
    const start = this.inputIndex;
    let result = this.parseAdditive();
    while (this.next.type == TokenType.Operator) {
      const operator = this.next.strValue;
      switch (operator) {
        case "<":
        case ">":
        case "<=":
        case ">=":
          this.advance();
          const right = this.parseAdditive();
          result = new Binary(this.span(start), this.sourceSpan(start), operator, result, right);
          continue;
      }
      break;
    }
    return result;
  }
  parseAdditive() {
    const start = this.inputIndex;
    let result = this.parseMultiplicative();
    while (this.next.type == TokenType.Operator) {
      const operator = this.next.strValue;
      switch (operator) {
        case "+":
        case "-":
          this.advance();
          let right = this.parseMultiplicative();
          result = new Binary(this.span(start), this.sourceSpan(start), operator, result, right);
          continue;
      }
      break;
    }
    return result;
  }
  parseMultiplicative() {
    const start = this.inputIndex;
    let result = this.parsePrefix();
    while (this.next.type == TokenType.Operator) {
      const operator = this.next.strValue;
      switch (operator) {
        case "*":
        case "%":
        case "/":
          this.advance();
          let right = this.parsePrefix();
          result = new Binary(this.span(start), this.sourceSpan(start), operator, result, right);
          continue;
      }
      break;
    }
    return result;
  }
  parsePrefix() {
    if (this.next.type == TokenType.Operator) {
      const start = this.inputIndex;
      const operator = this.next.strValue;
      let result;
      switch (operator) {
        case "+":
          this.advance();
          result = this.parsePrefix();
          return Unary.createPlus(this.span(start), this.sourceSpan(start), result);
        case "-":
          this.advance();
          result = this.parsePrefix();
          return Unary.createMinus(this.span(start), this.sourceSpan(start), result);
        case "!":
          this.advance();
          result = this.parsePrefix();
          return new PrefixNot(this.span(start), this.sourceSpan(start), result);
      }
    }
    return this.parseCallChain();
  }
  parseCallChain() {
    const start = this.inputIndex;
    let result = this.parsePrimary();
    while (true) {
      if (this.consumeOptionalCharacter($PERIOD)) {
        result = this.parseAccessMember(result, start, false);
      } else if (this.consumeOptionalOperator("?.")) {
        if (this.consumeOptionalCharacter($LPAREN)) {
          result = this.parseCall(result, start, true);
        } else {
          result = this.consumeOptionalCharacter($LBRACKET) ? this.parseKeyedReadOrWrite(result, start, true) : this.parseAccessMember(result, start, true);
        }
      } else if (this.consumeOptionalCharacter($LBRACKET)) {
        result = this.parseKeyedReadOrWrite(result, start, false);
      } else if (this.consumeOptionalCharacter($LPAREN)) {
        result = this.parseCall(result, start, false);
      } else if (this.consumeOptionalOperator("!")) {
        result = new NonNullAssert(this.span(start), this.sourceSpan(start), result);
      } else {
        return result;
      }
    }
  }
  parsePrimary() {
    const start = this.inputIndex;
    if (this.consumeOptionalCharacter($LPAREN)) {
      this.rparensExpected++;
      const result = this.parsePipe();
      this.rparensExpected--;
      this.expectCharacter($RPAREN);
      return result;
    } else if (this.next.isKeywordNull()) {
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), null);
    } else if (this.next.isKeywordUndefined()) {
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), void 0);
    } else if (this.next.isKeywordTrue()) {
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), true);
    } else if (this.next.isKeywordFalse()) {
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), false);
    } else if (this.next.isKeywordThis()) {
      this.advance();
      return new ThisReceiver(this.span(start), this.sourceSpan(start));
    } else if (this.consumeOptionalCharacter($LBRACKET)) {
      this.rbracketsExpected++;
      const elements = this.parseExpressionList($RBRACKET);
      this.rbracketsExpected--;
      this.expectCharacter($RBRACKET);
      return new LiteralArray(this.span(start), this.sourceSpan(start), elements);
    } else if (this.next.isCharacter($LBRACE)) {
      return this.parseLiteralMap();
    } else if (this.next.isIdentifier()) {
      return this.parseAccessMember(new ImplicitReceiver(this.span(start), this.sourceSpan(start)), start, false);
    } else if (this.next.isNumber()) {
      const value = this.next.toNumber();
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), value);
    } else if (this.next.isString()) {
      const literalValue = this.next.toString();
      this.advance();
      return new LiteralPrimitive(this.span(start), this.sourceSpan(start), literalValue);
    } else if (this.next.isPrivateIdentifier()) {
      this._reportErrorForPrivateIdentifier(this.next, null);
      return new EmptyExpr(this.span(start), this.sourceSpan(start));
    } else if (this.index >= this.tokens.length) {
      this.error(`Unexpected end of expression: ${this.input}`);
      return new EmptyExpr(this.span(start), this.sourceSpan(start));
    } else {
      this.error(`Unexpected token ${this.next}`);
      return new EmptyExpr(this.span(start), this.sourceSpan(start));
    }
  }
  parseExpressionList(terminator) {
    const result = [];
    do {
      if (!this.next.isCharacter(terminator)) {
        result.push(this.parsePipe());
      } else {
        break;
      }
    } while (this.consumeOptionalCharacter($COMMA));
    return result;
  }
  parseLiteralMap() {
    const keys = [];
    const values = [];
    const start = this.inputIndex;
    this.expectCharacter($LBRACE);
    if (!this.consumeOptionalCharacter($RBRACE)) {
      this.rbracesExpected++;
      do {
        const keyStart = this.inputIndex;
        const quoted = this.next.isString();
        const key = this.expectIdentifierOrKeywordOrString();
        const literalMapKey = { key, quoted };
        keys.push(literalMapKey);
        if (quoted) {
          this.expectCharacter($COLON);
          values.push(this.parsePipe());
        } else if (this.consumeOptionalCharacter($COLON)) {
          values.push(this.parsePipe());
        } else {
          literalMapKey.isShorthandInitialized = true;
          const span = this.span(keyStart);
          const sourceSpan = this.sourceSpan(keyStart);
          values.push(new PropertyRead(span, sourceSpan, sourceSpan, new ImplicitReceiver(span, sourceSpan), key));
        }
      } while (this.consumeOptionalCharacter($COMMA) && !this.next.isCharacter($RBRACE));
      this.rbracesExpected--;
      this.expectCharacter($RBRACE);
    }
    return new LiteralMap(this.span(start), this.sourceSpan(start), keys, values);
  }
  parseAccessMember(readReceiver, start, isSafe) {
    const nameStart = this.inputIndex;
    const id = this.withContext(ParseContextFlags.Writable, () => {
      var _a2;
      const id2 = (_a2 = this.expectIdentifierOrKeyword()) != null ? _a2 : "";
      if (id2.length === 0) {
        this.error(`Expected identifier for property access`, readReceiver.span.end);
      }
      return id2;
    });
    const nameSpan = this.sourceSpan(nameStart);
    let receiver;
    if (isSafe) {
      if (this.consumeOptionalOperator("=")) {
        this.error("The '?.' operator cannot be used in the assignment");
        receiver = new EmptyExpr(this.span(start), this.sourceSpan(start));
      } else {
        receiver = new SafePropertyRead(this.span(start), this.sourceSpan(start), nameSpan, readReceiver, id);
      }
    } else {
      if (this.consumeOptionalOperator("=")) {
        if (!(this.parseFlags & 1)) {
          this.error("Bindings cannot contain assignments");
          return new EmptyExpr(this.span(start), this.sourceSpan(start));
        }
        const value = this.parseConditional();
        receiver = new PropertyWrite(this.span(start), this.sourceSpan(start), nameSpan, readReceiver, id, value);
      } else {
        receiver = new PropertyRead(this.span(start), this.sourceSpan(start), nameSpan, readReceiver, id);
      }
    }
    return receiver;
  }
  parseCall(receiver, start, isSafe) {
    const argumentStart = this.inputIndex;
    this.rparensExpected++;
    const args = this.parseCallArguments();
    const argumentSpan = this.span(argumentStart, this.inputIndex).toAbsolute(this.absoluteOffset);
    this.expectCharacter($RPAREN);
    this.rparensExpected--;
    const span = this.span(start);
    const sourceSpan = this.sourceSpan(start);
    return isSafe ? new SafeCall(span, sourceSpan, receiver, args, argumentSpan) : new Call(span, sourceSpan, receiver, args, argumentSpan);
  }
  parseCallArguments() {
    if (this.next.isCharacter($RPAREN))
      return [];
    const positionals = [];
    do {
      positionals.push(this.parsePipe());
    } while (this.consumeOptionalCharacter($COMMA));
    return positionals;
  }
  expectTemplateBindingKey() {
    let result = "";
    let operatorFound = false;
    const start = this.currentAbsoluteOffset;
    do {
      result += this.expectIdentifierOrKeywordOrString();
      operatorFound = this.consumeOptionalOperator("-");
      if (operatorFound) {
        result += "-";
      }
    } while (operatorFound);
    return {
      source: result,
      span: new AbsoluteSourceSpan(start, start + result.length)
    };
  }
  parseTemplateBindings(templateKey) {
    const bindings = [];
    bindings.push(...this.parseDirectiveKeywordBindings(templateKey));
    while (this.index < this.tokens.length) {
      const letBinding = this.parseLetBinding();
      if (letBinding) {
        bindings.push(letBinding);
      } else {
        const key = this.expectTemplateBindingKey();
        const binding = this.parseAsBinding(key);
        if (binding) {
          bindings.push(binding);
        } else {
          key.source = templateKey.source + key.source.charAt(0).toUpperCase() + key.source.substring(1);
          bindings.push(...this.parseDirectiveKeywordBindings(key));
        }
      }
      this.consumeStatementTerminator();
    }
    return new TemplateBindingParseResult(bindings, [], this.errors);
  }
  parseKeyedReadOrWrite(receiver, start, isSafe) {
    return this.withContext(ParseContextFlags.Writable, () => {
      this.rbracketsExpected++;
      const key = this.parsePipe();
      if (key instanceof EmptyExpr) {
        this.error(`Key access cannot be empty`);
      }
      this.rbracketsExpected--;
      this.expectCharacter($RBRACKET);
      if (this.consumeOptionalOperator("=")) {
        if (isSafe) {
          this.error("The '?.' operator cannot be used in the assignment");
        } else {
          const value = this.parseConditional();
          return new KeyedWrite(this.span(start), this.sourceSpan(start), receiver, key, value);
        }
      } else {
        return isSafe ? new SafeKeyedRead(this.span(start), this.sourceSpan(start), receiver, key) : new KeyedRead(this.span(start), this.sourceSpan(start), receiver, key);
      }
      return new EmptyExpr(this.span(start), this.sourceSpan(start));
    });
  }
  parseDirectiveKeywordBindings(key) {
    const bindings = [];
    this.consumeOptionalCharacter($COLON);
    const value = this.getDirectiveBoundTarget();
    let spanEnd = this.currentAbsoluteOffset;
    const asBinding = this.parseAsBinding(key);
    if (!asBinding) {
      this.consumeStatementTerminator();
      spanEnd = this.currentAbsoluteOffset;
    }
    const sourceSpan = new AbsoluteSourceSpan(key.span.start, spanEnd);
    bindings.push(new ExpressionBinding(sourceSpan, key, value));
    if (asBinding) {
      bindings.push(asBinding);
    }
    return bindings;
  }
  getDirectiveBoundTarget() {
    if (this.next === EOF || this.peekKeywordAs() || this.peekKeywordLet()) {
      return null;
    }
    const ast = this.parsePipe();
    const { start, end } = ast.span;
    const value = this.input.substring(start, end);
    return new ASTWithSource(ast, value, this.location, this.absoluteOffset + start, this.errors);
  }
  parseAsBinding(value) {
    if (!this.peekKeywordAs()) {
      return null;
    }
    this.advance();
    const key = this.expectTemplateBindingKey();
    this.consumeStatementTerminator();
    const sourceSpan = new AbsoluteSourceSpan(value.span.start, this.currentAbsoluteOffset);
    return new VariableBinding(sourceSpan, key, value);
  }
  parseLetBinding() {
    if (!this.peekKeywordLet()) {
      return null;
    }
    const spanStart = this.currentAbsoluteOffset;
    this.advance();
    const key = this.expectTemplateBindingKey();
    let value = null;
    if (this.consumeOptionalOperator("=")) {
      value = this.expectTemplateBindingKey();
    }
    this.consumeStatementTerminator();
    const sourceSpan = new AbsoluteSourceSpan(spanStart, this.currentAbsoluteOffset);
    return new VariableBinding(sourceSpan, key, value);
  }
  consumeStatementTerminator() {
    this.consumeOptionalCharacter($SEMICOLON) || this.consumeOptionalCharacter($COMMA);
  }
  error(message, index = null) {
    this.errors.push(new ParserError(message, this.input, this.locationText(index), this.location));
    this.skip();
  }
  locationText(index = null) {
    if (index == null)
      index = this.index;
    return index < this.tokens.length ? `at column ${this.tokens[index].index + 1} in` : `at the end of the expression`;
  }
  _reportErrorForPrivateIdentifier(token, extraMessage) {
    let errorMessage = `Private identifiers are not supported. Unexpected private identifier: ${token}`;
    if (extraMessage !== null) {
      errorMessage += `, ${extraMessage}`;
    }
    this.error(errorMessage);
  }
  skip() {
    let n = this.next;
    while (this.index < this.tokens.length && !n.isCharacter($SEMICOLON) && !n.isOperator("|") && (this.rparensExpected <= 0 || !n.isCharacter($RPAREN)) && (this.rbracesExpected <= 0 || !n.isCharacter($RBRACE)) && (this.rbracketsExpected <= 0 || !n.isCharacter($RBRACKET)) && (!(this.context & ParseContextFlags.Writable) || !n.isOperator("="))) {
      if (this.next.isError()) {
        this.errors.push(new ParserError(this.next.toString(), this.input, this.locationText(), this.location));
      }
      this.advance();
      n = this.next;
    }
  }
};
var SimpleExpressionChecker = class extends RecursiveAstVisitor {
  constructor() {
    super(...arguments);
    this.errors = [];
  }
  visitPipe() {
    this.errors.push("pipes");
  }
};
function getIndexMapForOriginalTemplate(interpolatedTokens) {
  let offsetMap = /* @__PURE__ */ new Map();
  let consumedInOriginalTemplate = 0;
  let consumedInInput = 0;
  let tokenIndex = 0;
  while (tokenIndex < interpolatedTokens.length) {
    const currentToken = interpolatedTokens[tokenIndex];
    if (currentToken.type === 9) {
      const [decoded, encoded] = currentToken.parts;
      consumedInOriginalTemplate += encoded.length;
      consumedInInput += decoded.length;
    } else {
      const lengthOfParts = currentToken.parts.reduce((sum, current) => sum + current.length, 0);
      consumedInInput += lengthOfParts;
      consumedInOriginalTemplate += lengthOfParts;
    }
    offsetMap.set(consumedInInput, consumedInOriginalTemplate);
    tokenIndex++;
  }
  return offsetMap;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/schema/dom_security_schema.mjs
var _SECURITY_SCHEMA;
function SECURITY_SCHEMA() {
  if (!_SECURITY_SCHEMA) {
    _SECURITY_SCHEMA = {};
    registerContext(SecurityContext.HTML, ["iframe|srcdoc", "*|innerHTML", "*|outerHTML"]);
    registerContext(SecurityContext.STYLE, ["*|style"]);
    registerContext(SecurityContext.URL, [
      "*|formAction",
      "area|href",
      "area|ping",
      "audio|src",
      "a|href",
      "a|ping",
      "blockquote|cite",
      "body|background",
      "del|cite",
      "form|action",
      "img|src",
      "input|src",
      "ins|cite",
      "q|cite",
      "source|src",
      "track|src",
      "video|poster",
      "video|src"
    ]);
    registerContext(SecurityContext.RESOURCE_URL, [
      "applet|code",
      "applet|codebase",
      "base|href",
      "embed|src",
      "frame|src",
      "head|profile",
      "html|manifest",
      "iframe|src",
      "link|href",
      "media|src",
      "object|codebase",
      "object|data",
      "script|src"
    ]);
  }
  return _SECURITY_SCHEMA;
}
function registerContext(ctx, specs) {
  for (const spec of specs)
    _SECURITY_SCHEMA[spec.toLowerCase()] = ctx;
}
var IFRAME_SECURITY_SENSITIVE_ATTRS = /* @__PURE__ */ new Set([
  "sandbox",
  "allow",
  "allowfullscreen",
  "referrerpolicy",
  "csp",
  "fetchpriority"
]);
function isIframeSecuritySensitiveAttr(attrName) {
  return IFRAME_SECURITY_SENSITIVE_ATTRS.has(attrName.toLowerCase());
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/schema/element_schema_registry.mjs
var ElementSchemaRegistry = class {
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/schema/dom_element_schema_registry.mjs
var BOOLEAN = "boolean";
var NUMBER = "number";
var STRING = "string";
var OBJECT = "object";
var SCHEMA = [
  "[Element]|textContent,%ariaAtomic,%ariaAutoComplete,%ariaBusy,%ariaChecked,%ariaColCount,%ariaColIndex,%ariaColSpan,%ariaCurrent,%ariaDescription,%ariaDisabled,%ariaExpanded,%ariaHasPopup,%ariaHidden,%ariaKeyShortcuts,%ariaLabel,%ariaLevel,%ariaLive,%ariaModal,%ariaMultiLine,%ariaMultiSelectable,%ariaOrientation,%ariaPlaceholder,%ariaPosInSet,%ariaPressed,%ariaReadOnly,%ariaRelevant,%ariaRequired,%ariaRoleDescription,%ariaRowCount,%ariaRowIndex,%ariaRowSpan,%ariaSelected,%ariaSetSize,%ariaSort,%ariaValueMax,%ariaValueMin,%ariaValueNow,%ariaValueText,%classList,className,elementTiming,id,innerHTML,*beforecopy,*beforecut,*beforepaste,*fullscreenchange,*fullscreenerror,*search,*webkitfullscreenchange,*webkitfullscreenerror,outerHTML,%part,#scrollLeft,#scrollTop,slot,*message,*mozfullscreenchange,*mozfullscreenerror,*mozpointerlockchange,*mozpointerlockerror,*webglcontextcreationerror,*webglcontextlost,*webglcontextrestored",
  "[HTMLElement]^[Element]|accessKey,autocapitalize,!autofocus,contentEditable,dir,!draggable,enterKeyHint,!hidden,!inert,innerText,inputMode,lang,nonce,*abort,*animationend,*animationiteration,*animationstart,*auxclick,*beforexrselect,*blur,*cancel,*canplay,*canplaythrough,*change,*click,*close,*contextmenu,*copy,*cuechange,*cut,*dblclick,*drag,*dragend,*dragenter,*dragleave,*dragover,*dragstart,*drop,*durationchange,*emptied,*ended,*error,*focus,*formdata,*gotpointercapture,*input,*invalid,*keydown,*keypress,*keyup,*load,*loadeddata,*loadedmetadata,*loadstart,*lostpointercapture,*mousedown,*mouseenter,*mouseleave,*mousemove,*mouseout,*mouseover,*mouseup,*mousewheel,*paste,*pause,*play,*playing,*pointercancel,*pointerdown,*pointerenter,*pointerleave,*pointermove,*pointerout,*pointerover,*pointerrawupdate,*pointerup,*progress,*ratechange,*reset,*resize,*scroll,*securitypolicyviolation,*seeked,*seeking,*select,*selectionchange,*selectstart,*slotchange,*stalled,*submit,*suspend,*timeupdate,*toggle,*transitioncancel,*transitionend,*transitionrun,*transitionstart,*volumechange,*waiting,*webkitanimationend,*webkitanimationiteration,*webkitanimationstart,*webkittransitionend,*wheel,outerText,!spellcheck,%style,#tabIndex,title,!translate,virtualKeyboardPolicy",
  "abbr,address,article,aside,b,bdi,bdo,cite,content,code,dd,dfn,dt,em,figcaption,figure,footer,header,hgroup,i,kbd,main,mark,nav,noscript,rb,rp,rt,rtc,ruby,s,samp,section,small,strong,sub,sup,u,var,wbr^[HTMLElement]|accessKey,autocapitalize,!autofocus,contentEditable,dir,!draggable,enterKeyHint,!hidden,innerText,inputMode,lang,nonce,*abort,*animationend,*animationiteration,*animationstart,*auxclick,*beforexrselect,*blur,*cancel,*canplay,*canplaythrough,*change,*click,*close,*contextmenu,*copy,*cuechange,*cut,*dblclick,*drag,*dragend,*dragenter,*dragleave,*dragover,*dragstart,*drop,*durationchange,*emptied,*ended,*error,*focus,*formdata,*gotpointercapture,*input,*invalid,*keydown,*keypress,*keyup,*load,*loadeddata,*loadedmetadata,*loadstart,*lostpointercapture,*mousedown,*mouseenter,*mouseleave,*mousemove,*mouseout,*mouseover,*mouseup,*mousewheel,*paste,*pause,*play,*playing,*pointercancel,*pointerdown,*pointerenter,*pointerleave,*pointermove,*pointerout,*pointerover,*pointerrawupdate,*pointerup,*progress,*ratechange,*reset,*resize,*scroll,*securitypolicyviolation,*seeked,*seeking,*select,*selectionchange,*selectstart,*slotchange,*stalled,*submit,*suspend,*timeupdate,*toggle,*transitioncancel,*transitionend,*transitionrun,*transitionstart,*volumechange,*waiting,*webkitanimationend,*webkitanimationiteration,*webkitanimationstart,*webkittransitionend,*wheel,outerText,!spellcheck,%style,#tabIndex,title,!translate,virtualKeyboardPolicy",
  "media^[HTMLElement]|!autoplay,!controls,%controlsList,%crossOrigin,#currentTime,!defaultMuted,#defaultPlaybackRate,!disableRemotePlayback,!loop,!muted,*encrypted,*waitingforkey,#playbackRate,preload,!preservesPitch,src,%srcObject,#volume",
  ":svg:^[HTMLElement]|!autofocus,nonce,*abort,*animationend,*animationiteration,*animationstart,*auxclick,*beforexrselect,*blur,*cancel,*canplay,*canplaythrough,*change,*click,*close,*contextmenu,*copy,*cuechange,*cut,*dblclick,*drag,*dragend,*dragenter,*dragleave,*dragover,*dragstart,*drop,*durationchange,*emptied,*ended,*error,*focus,*formdata,*gotpointercapture,*input,*invalid,*keydown,*keypress,*keyup,*load,*loadeddata,*loadedmetadata,*loadstart,*lostpointercapture,*mousedown,*mouseenter,*mouseleave,*mousemove,*mouseout,*mouseover,*mouseup,*mousewheel,*paste,*pause,*play,*playing,*pointercancel,*pointerdown,*pointerenter,*pointerleave,*pointermove,*pointerout,*pointerover,*pointerrawupdate,*pointerup,*progress,*ratechange,*reset,*resize,*scroll,*securitypolicyviolation,*seeked,*seeking,*select,*selectionchange,*selectstart,*slotchange,*stalled,*submit,*suspend,*timeupdate,*toggle,*transitioncancel,*transitionend,*transitionrun,*transitionstart,*volumechange,*waiting,*webkitanimationend,*webkitanimationiteration,*webkitanimationstart,*webkittransitionend,*wheel,%style,#tabIndex",
  ":svg:graphics^:svg:|",
  ":svg:animation^:svg:|*begin,*end,*repeat",
  ":svg:geometry^:svg:|",
  ":svg:componentTransferFunction^:svg:|",
  ":svg:gradient^:svg:|",
  ":svg:textContent^:svg:graphics|",
  ":svg:textPositioning^:svg:textContent|",
  "a^[HTMLElement]|charset,coords,download,hash,host,hostname,href,hreflang,name,password,pathname,ping,port,protocol,referrerPolicy,rel,%relList,rev,search,shape,target,text,type,username",
  "area^[HTMLElement]|alt,coords,download,hash,host,hostname,href,!noHref,password,pathname,ping,port,protocol,referrerPolicy,rel,%relList,search,shape,target,username",
  "audio^media|",
  "br^[HTMLElement]|clear",
  "base^[HTMLElement]|href,target",
  "body^[HTMLElement]|aLink,background,bgColor,link,*afterprint,*beforeprint,*beforeunload,*blur,*error,*focus,*hashchange,*languagechange,*load,*message,*messageerror,*offline,*online,*pagehide,*pageshow,*popstate,*rejectionhandled,*resize,*scroll,*storage,*unhandledrejection,*unload,text,vLink",
  "button^[HTMLElement]|!disabled,formAction,formEnctype,formMethod,!formNoValidate,formTarget,name,type,value",
  "canvas^[HTMLElement]|#height,#width",
  "content^[HTMLElement]|select",
  "dl^[HTMLElement]|!compact",
  "data^[HTMLElement]|value",
  "datalist^[HTMLElement]|",
  "details^[HTMLElement]|!open",
  "dialog^[HTMLElement]|!open,returnValue",
  "dir^[HTMLElement]|!compact",
  "div^[HTMLElement]|align",
  "embed^[HTMLElement]|align,height,name,src,type,width",
  "fieldset^[HTMLElement]|!disabled,name",
  "font^[HTMLElement]|color,face,size",
  "form^[HTMLElement]|acceptCharset,action,autocomplete,encoding,enctype,method,name,!noValidate,target",
  "frame^[HTMLElement]|frameBorder,longDesc,marginHeight,marginWidth,name,!noResize,scrolling,src",
  "frameset^[HTMLElement]|cols,*afterprint,*beforeprint,*beforeunload,*blur,*error,*focus,*hashchange,*languagechange,*load,*message,*messageerror,*offline,*online,*pagehide,*pageshow,*popstate,*rejectionhandled,*resize,*scroll,*storage,*unhandledrejection,*unload,rows",
  "hr^[HTMLElement]|align,color,!noShade,size,width",
  "head^[HTMLElement]|",
  "h1,h2,h3,h4,h5,h6^[HTMLElement]|align",
  "html^[HTMLElement]|version",
  "iframe^[HTMLElement]|align,allow,!allowFullscreen,!allowPaymentRequest,csp,frameBorder,height,loading,longDesc,marginHeight,marginWidth,name,referrerPolicy,%sandbox,scrolling,src,srcdoc,width",
  "img^[HTMLElement]|align,alt,border,%crossOrigin,decoding,#height,#hspace,!isMap,loading,longDesc,lowsrc,name,referrerPolicy,sizes,src,srcset,useMap,#vspace,#width",
  "input^[HTMLElement]|accept,align,alt,autocomplete,!checked,!defaultChecked,defaultValue,dirName,!disabled,%files,formAction,formEnctype,formMethod,!formNoValidate,formTarget,#height,!incremental,!indeterminate,max,#maxLength,min,#minLength,!multiple,name,pattern,placeholder,!readOnly,!required,selectionDirection,#selectionEnd,#selectionStart,#size,src,step,type,useMap,value,%valueAsDate,#valueAsNumber,#width",
  "li^[HTMLElement]|type,#value",
  "label^[HTMLElement]|htmlFor",
  "legend^[HTMLElement]|align",
  "link^[HTMLElement]|as,charset,%crossOrigin,!disabled,href,hreflang,imageSizes,imageSrcset,integrity,media,referrerPolicy,rel,%relList,rev,%sizes,target,type",
  "map^[HTMLElement]|name",
  "marquee^[HTMLElement]|behavior,bgColor,direction,height,#hspace,#loop,#scrollAmount,#scrollDelay,!trueSpeed,#vspace,width",
  "menu^[HTMLElement]|!compact",
  "meta^[HTMLElement]|content,httpEquiv,media,name,scheme",
  "meter^[HTMLElement]|#high,#low,#max,#min,#optimum,#value",
  "ins,del^[HTMLElement]|cite,dateTime",
  "ol^[HTMLElement]|!compact,!reversed,#start,type",
  "object^[HTMLElement]|align,archive,border,code,codeBase,codeType,data,!declare,height,#hspace,name,standby,type,useMap,#vspace,width",
  "optgroup^[HTMLElement]|!disabled,label",
  "option^[HTMLElement]|!defaultSelected,!disabled,label,!selected,text,value",
  "output^[HTMLElement]|defaultValue,%htmlFor,name,value",
  "p^[HTMLElement]|align",
  "param^[HTMLElement]|name,type,value,valueType",
  "picture^[HTMLElement]|",
  "pre^[HTMLElement]|#width",
  "progress^[HTMLElement]|#max,#value",
  "q,blockquote,cite^[HTMLElement]|",
  "script^[HTMLElement]|!async,charset,%crossOrigin,!defer,event,htmlFor,integrity,!noModule,%referrerPolicy,src,text,type",
  "select^[HTMLElement]|autocomplete,!disabled,#length,!multiple,name,!required,#selectedIndex,#size,value",
  "slot^[HTMLElement]|name",
  "source^[HTMLElement]|#height,media,sizes,src,srcset,type,#width",
  "span^[HTMLElement]|",
  "style^[HTMLElement]|!disabled,media,type",
  "caption^[HTMLElement]|align",
  "th,td^[HTMLElement]|abbr,align,axis,bgColor,ch,chOff,#colSpan,headers,height,!noWrap,#rowSpan,scope,vAlign,width",
  "col,colgroup^[HTMLElement]|align,ch,chOff,#span,vAlign,width",
  "table^[HTMLElement]|align,bgColor,border,%caption,cellPadding,cellSpacing,frame,rules,summary,%tFoot,%tHead,width",
  "tr^[HTMLElement]|align,bgColor,ch,chOff,vAlign",
  "tfoot,thead,tbody^[HTMLElement]|align,ch,chOff,vAlign",
  "template^[HTMLElement]|",
  "textarea^[HTMLElement]|autocomplete,#cols,defaultValue,dirName,!disabled,#maxLength,#minLength,name,placeholder,!readOnly,!required,#rows,selectionDirection,#selectionEnd,#selectionStart,value,wrap",
  "time^[HTMLElement]|dateTime",
  "title^[HTMLElement]|text",
  "track^[HTMLElement]|!default,kind,label,src,srclang",
  "ul^[HTMLElement]|!compact,type",
  "unknown^[HTMLElement]|",
  "video^media|!disablePictureInPicture,#height,*enterpictureinpicture,*leavepictureinpicture,!playsInline,poster,#width",
  ":svg:a^:svg:graphics|",
  ":svg:animate^:svg:animation|",
  ":svg:animateMotion^:svg:animation|",
  ":svg:animateTransform^:svg:animation|",
  ":svg:circle^:svg:geometry|",
  ":svg:clipPath^:svg:graphics|",
  ":svg:defs^:svg:graphics|",
  ":svg:desc^:svg:|",
  ":svg:discard^:svg:|",
  ":svg:ellipse^:svg:geometry|",
  ":svg:feBlend^:svg:|",
  ":svg:feColorMatrix^:svg:|",
  ":svg:feComponentTransfer^:svg:|",
  ":svg:feComposite^:svg:|",
  ":svg:feConvolveMatrix^:svg:|",
  ":svg:feDiffuseLighting^:svg:|",
  ":svg:feDisplacementMap^:svg:|",
  ":svg:feDistantLight^:svg:|",
  ":svg:feDropShadow^:svg:|",
  ":svg:feFlood^:svg:|",
  ":svg:feFuncA^:svg:componentTransferFunction|",
  ":svg:feFuncB^:svg:componentTransferFunction|",
  ":svg:feFuncG^:svg:componentTransferFunction|",
  ":svg:feFuncR^:svg:componentTransferFunction|",
  ":svg:feGaussianBlur^:svg:|",
  ":svg:feImage^:svg:|",
  ":svg:feMerge^:svg:|",
  ":svg:feMergeNode^:svg:|",
  ":svg:feMorphology^:svg:|",
  ":svg:feOffset^:svg:|",
  ":svg:fePointLight^:svg:|",
  ":svg:feSpecularLighting^:svg:|",
  ":svg:feSpotLight^:svg:|",
  ":svg:feTile^:svg:|",
  ":svg:feTurbulence^:svg:|",
  ":svg:filter^:svg:|",
  ":svg:foreignObject^:svg:graphics|",
  ":svg:g^:svg:graphics|",
  ":svg:image^:svg:graphics|decoding",
  ":svg:line^:svg:geometry|",
  ":svg:linearGradient^:svg:gradient|",
  ":svg:mpath^:svg:|",
  ":svg:marker^:svg:|",
  ":svg:mask^:svg:|",
  ":svg:metadata^:svg:|",
  ":svg:path^:svg:geometry|",
  ":svg:pattern^:svg:|",
  ":svg:polygon^:svg:geometry|",
  ":svg:polyline^:svg:geometry|",
  ":svg:radialGradient^:svg:gradient|",
  ":svg:rect^:svg:geometry|",
  ":svg:svg^:svg:graphics|#currentScale,#zoomAndPan",
  ":svg:script^:svg:|type",
  ":svg:set^:svg:animation|",
  ":svg:stop^:svg:|",
  ":svg:style^:svg:|!disabled,media,title,type",
  ":svg:switch^:svg:graphics|",
  ":svg:symbol^:svg:|",
  ":svg:tspan^:svg:textPositioning|",
  ":svg:text^:svg:textPositioning|",
  ":svg:textPath^:svg:textContent|",
  ":svg:title^:svg:|",
  ":svg:use^:svg:graphics|",
  ":svg:view^:svg:|#zoomAndPan",
  "data^[HTMLElement]|value",
  "keygen^[HTMLElement]|!autofocus,challenge,!disabled,form,keytype,name",
  "menuitem^[HTMLElement]|type,label,icon,!disabled,!checked,radiogroup,!default",
  "summary^[HTMLElement]|",
  "time^[HTMLElement]|dateTime",
  ":svg:cursor^:svg:|",
  ":math:^[HTMLElement]|!autofocus,nonce,*abort,*animationend,*animationiteration,*animationstart,*auxclick,*beforeinput,*beforematch,*beforetoggle,*beforexrselect,*blur,*cancel,*canplay,*canplaythrough,*change,*click,*close,*contentvisibilityautostatechange,*contextlost,*contextmenu,*contextrestored,*copy,*cuechange,*cut,*dblclick,*drag,*dragend,*dragenter,*dragleave,*dragover,*dragstart,*drop,*durationchange,*emptied,*ended,*error,*focus,*formdata,*gotpointercapture,*input,*invalid,*keydown,*keypress,*keyup,*load,*loadeddata,*loadedmetadata,*loadstart,*lostpointercapture,*mousedown,*mouseenter,*mouseleave,*mousemove,*mouseout,*mouseover,*mouseup,*mousewheel,*paste,*pause,*play,*playing,*pointercancel,*pointerdown,*pointerenter,*pointerleave,*pointermove,*pointerout,*pointerover,*pointerrawupdate,*pointerup,*progress,*ratechange,*reset,*resize,*scroll,*scrollend,*securitypolicyviolation,*seeked,*seeking,*select,*selectionchange,*selectstart,*slotchange,*stalled,*submit,*suspend,*timeupdate,*toggle,*transitioncancel,*transitionend,*transitionrun,*transitionstart,*volumechange,*waiting,*webkitanimationend,*webkitanimationiteration,*webkitanimationstart,*webkittransitionend,*wheel,%style,#tabIndex",
  ":math:math^:math:|",
  ":math:maction^:math:|",
  ":math:menclose^:math:|",
  ":math:merror^:math:|",
  ":math:mfenced^:math:|",
  ":math:mfrac^:math:|",
  ":math:mi^:math:|",
  ":math:mmultiscripts^:math:|",
  ":math:mn^:math:|",
  ":math:mo^:math:|",
  ":math:mover^:math:|",
  ":math:mpadded^:math:|",
  ":math:mphantom^:math:|",
  ":math:mroot^:math:|",
  ":math:mrow^:math:|",
  ":math:ms^:math:|",
  ":math:mspace^:math:|",
  ":math:msqrt^:math:|",
  ":math:mstyle^:math:|",
  ":math:msub^:math:|",
  ":math:msubsup^:math:|",
  ":math:msup^:math:|",
  ":math:mtable^:math:|",
  ":math:mtd^:math:|",
  ":math:mtext^:math:|",
  ":math:mtr^:math:|",
  ":math:munder^:math:|",
  ":math:munderover^:math:|",
  ":math:semantics^:math:|"
];
var _ATTR_TO_PROP = new Map(Object.entries({
  "class": "className",
  "for": "htmlFor",
  "formaction": "formAction",
  "innerHtml": "innerHTML",
  "readonly": "readOnly",
  "tabindex": "tabIndex"
}));
var _PROP_TO_ATTR = Array.from(_ATTR_TO_PROP).reduce((inverted, [propertyName, attributeName]) => {
  inverted.set(propertyName, attributeName);
  return inverted;
}, /* @__PURE__ */ new Map());
var DomElementSchemaRegistry = class extends ElementSchemaRegistry {
  constructor() {
    super();
    this._schema = /* @__PURE__ */ new Map();
    this._eventSchema = /* @__PURE__ */ new Map();
    SCHEMA.forEach((encodedType) => {
      const type = /* @__PURE__ */ new Map();
      const events = /* @__PURE__ */ new Set();
      const [strType, strProperties] = encodedType.split("|");
      const properties = strProperties.split(",");
      const [typeNames, superName] = strType.split("^");
      typeNames.split(",").forEach((tag) => {
        this._schema.set(tag.toLowerCase(), type);
        this._eventSchema.set(tag.toLowerCase(), events);
      });
      const superType = superName && this._schema.get(superName.toLowerCase());
      if (superType) {
        for (const [prop, value] of superType) {
          type.set(prop, value);
        }
        for (const superEvent of this._eventSchema.get(superName.toLowerCase())) {
          events.add(superEvent);
        }
      }
      properties.forEach((property2) => {
        if (property2.length > 0) {
          switch (property2[0]) {
            case "*":
              events.add(property2.substring(1));
              break;
            case "!":
              type.set(property2.substring(1), BOOLEAN);
              break;
            case "#":
              type.set(property2.substring(1), NUMBER);
              break;
            case "%":
              type.set(property2.substring(1), OBJECT);
              break;
            default:
              type.set(property2, STRING);
          }
        }
      });
    });
  }
  hasProperty(tagName, propName, schemaMetas) {
    if (schemaMetas.some((schema) => schema.name === NO_ERRORS_SCHEMA.name)) {
      return true;
    }
    if (tagName.indexOf("-") > -1) {
      if (isNgContainer(tagName) || isNgContent(tagName)) {
        return false;
      }
      if (schemaMetas.some((schema) => schema.name === CUSTOM_ELEMENTS_SCHEMA.name)) {
        return true;
      }
    }
    const elementProperties = this._schema.get(tagName.toLowerCase()) || this._schema.get("unknown");
    return elementProperties.has(propName);
  }
  hasElement(tagName, schemaMetas) {
    if (schemaMetas.some((schema) => schema.name === NO_ERRORS_SCHEMA.name)) {
      return true;
    }
    if (tagName.indexOf("-") > -1) {
      if (isNgContainer(tagName) || isNgContent(tagName)) {
        return true;
      }
      if (schemaMetas.some((schema) => schema.name === CUSTOM_ELEMENTS_SCHEMA.name)) {
        return true;
      }
    }
    return this._schema.has(tagName.toLowerCase());
  }
  securityContext(tagName, propName, isAttribute) {
    if (isAttribute) {
      propName = this.getMappedPropName(propName);
    }
    tagName = tagName.toLowerCase();
    propName = propName.toLowerCase();
    let ctx = SECURITY_SCHEMA()[tagName + "|" + propName];
    if (ctx) {
      return ctx;
    }
    ctx = SECURITY_SCHEMA()["*|" + propName];
    return ctx ? ctx : SecurityContext.NONE;
  }
  getMappedPropName(propName) {
    var _a2;
    return (_a2 = _ATTR_TO_PROP.get(propName)) != null ? _a2 : propName;
  }
  getDefaultComponentElementName() {
    return "ng-component";
  }
  validateProperty(name) {
    if (name.toLowerCase().startsWith("on")) {
      const msg = `Binding to event property '${name}' is disallowed for security reasons, please use (${name.slice(2)})=...
If '${name}' is a directive input, make sure the directive is imported by the current module.`;
      return { error: true, msg };
    } else {
      return { error: false };
    }
  }
  validateAttribute(name) {
    if (name.toLowerCase().startsWith("on")) {
      const msg = `Binding to event attribute '${name}' is disallowed for security reasons, please use (${name.slice(2)})=...`;
      return { error: true, msg };
    } else {
      return { error: false };
    }
  }
  allKnownElementNames() {
    return Array.from(this._schema.keys());
  }
  allKnownAttributesOfElement(tagName) {
    const elementProperties = this._schema.get(tagName.toLowerCase()) || this._schema.get("unknown");
    return Array.from(elementProperties.keys()).map((prop) => {
      var _a2;
      return (_a2 = _PROP_TO_ATTR.get(prop)) != null ? _a2 : prop;
    });
  }
  allKnownEventsOfElement(tagName) {
    var _a2;
    return Array.from((_a2 = this._eventSchema.get(tagName.toLowerCase())) != null ? _a2 : []);
  }
  normalizeAnimationStyleProperty(propName) {
    return dashCaseToCamelCase(propName);
  }
  normalizeAnimationStyleValue(camelCaseProp, userProvidedProp, val) {
    let unit = "";
    const strVal = val.toString().trim();
    let errorMsg = null;
    if (_isPixelDimensionStyle(camelCaseProp) && val !== 0 && val !== "0") {
      if (typeof val === "number") {
        unit = "px";
      } else {
        const valAndSuffixMatch = val.match(/^[+-]?[\d\.]+([a-z]*)$/);
        if (valAndSuffixMatch && valAndSuffixMatch[1].length == 0) {
          errorMsg = `Please provide a CSS unit value for ${userProvidedProp}:${val}`;
        }
      }
    }
    return { error: errorMsg, value: strVal + unit };
  }
};
function _isPixelDimensionStyle(prop) {
  switch (prop) {
    case "width":
    case "height":
    case "minWidth":
    case "minHeight":
    case "maxWidth":
    case "maxHeight":
    case "left":
    case "top":
    case "bottom":
    case "right":
    case "fontSize":
    case "outlineWidth":
    case "outlineOffset":
    case "paddingTop":
    case "paddingLeft":
    case "paddingBottom":
    case "paddingRight":
    case "marginTop":
    case "marginLeft":
    case "marginBottom":
    case "marginRight":
    case "borderRadius":
    case "borderWidth":
    case "borderTopWidth":
    case "borderLeftWidth":
    case "borderRightWidth":
    case "borderBottomWidth":
    case "textIndent":
      return true;
    default:
      return false;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/html_tags.mjs
var HtmlTagDefinition = class {
  constructor({ closedByChildren, implicitNamespacePrefix, contentType = TagContentType.PARSABLE_DATA, closedByParent = false, isVoid = false, ignoreFirstLf = false, preventNamespaceInheritance = false, canSelfClose = false } = {}) {
    this.closedByChildren = {};
    this.closedByParent = false;
    if (closedByChildren && closedByChildren.length > 0) {
      closedByChildren.forEach((tagName) => this.closedByChildren[tagName] = true);
    }
    this.isVoid = isVoid;
    this.closedByParent = closedByParent || isVoid;
    this.implicitNamespacePrefix = implicitNamespacePrefix || null;
    this.contentType = contentType;
    this.ignoreFirstLf = ignoreFirstLf;
    this.preventNamespaceInheritance = preventNamespaceInheritance;
    this.canSelfClose = canSelfClose != null ? canSelfClose : isVoid;
  }
  isClosedByChild(name) {
    return this.isVoid || name.toLowerCase() in this.closedByChildren;
  }
  getContentType(prefix) {
    if (typeof this.contentType === "object") {
      const overrideType = prefix === void 0 ? void 0 : this.contentType[prefix];
      return overrideType != null ? overrideType : this.contentType.default;
    }
    return this.contentType;
  }
};
var DEFAULT_TAG_DEFINITION;
var TAG_DEFINITIONS;
function getHtmlTagDefinition(tagName) {
  var _a2, _b2;
  if (!TAG_DEFINITIONS) {
    DEFAULT_TAG_DEFINITION = new HtmlTagDefinition({ canSelfClose: true });
    TAG_DEFINITIONS = Object.assign(/* @__PURE__ */ Object.create(null), {
      "base": new HtmlTagDefinition({ isVoid: true }),
      "meta": new HtmlTagDefinition({ isVoid: true }),
      "area": new HtmlTagDefinition({ isVoid: true }),
      "embed": new HtmlTagDefinition({ isVoid: true }),
      "link": new HtmlTagDefinition({ isVoid: true }),
      "img": new HtmlTagDefinition({ isVoid: true }),
      "input": new HtmlTagDefinition({ isVoid: true }),
      "param": new HtmlTagDefinition({ isVoid: true }),
      "hr": new HtmlTagDefinition({ isVoid: true }),
      "br": new HtmlTagDefinition({ isVoid: true }),
      "source": new HtmlTagDefinition({ isVoid: true }),
      "track": new HtmlTagDefinition({ isVoid: true }),
      "wbr": new HtmlTagDefinition({ isVoid: true }),
      "p": new HtmlTagDefinition({
        closedByChildren: [
          "address",
          "article",
          "aside",
          "blockquote",
          "div",
          "dl",
          "fieldset",
          "footer",
          "form",
          "h1",
          "h2",
          "h3",
          "h4",
          "h5",
          "h6",
          "header",
          "hgroup",
          "hr",
          "main",
          "nav",
          "ol",
          "p",
          "pre",
          "section",
          "table",
          "ul"
        ],
        closedByParent: true
      }),
      "thead": new HtmlTagDefinition({ closedByChildren: ["tbody", "tfoot"] }),
      "tbody": new HtmlTagDefinition({ closedByChildren: ["tbody", "tfoot"], closedByParent: true }),
      "tfoot": new HtmlTagDefinition({ closedByChildren: ["tbody"], closedByParent: true }),
      "tr": new HtmlTagDefinition({ closedByChildren: ["tr"], closedByParent: true }),
      "td": new HtmlTagDefinition({ closedByChildren: ["td", "th"], closedByParent: true }),
      "th": new HtmlTagDefinition({ closedByChildren: ["td", "th"], closedByParent: true }),
      "col": new HtmlTagDefinition({ isVoid: true }),
      "svg": new HtmlTagDefinition({ implicitNamespacePrefix: "svg" }),
      "foreignObject": new HtmlTagDefinition({
        implicitNamespacePrefix: "svg",
        preventNamespaceInheritance: true
      }),
      "math": new HtmlTagDefinition({ implicitNamespacePrefix: "math" }),
      "li": new HtmlTagDefinition({ closedByChildren: ["li"], closedByParent: true }),
      "dt": new HtmlTagDefinition({ closedByChildren: ["dt", "dd"] }),
      "dd": new HtmlTagDefinition({ closedByChildren: ["dt", "dd"], closedByParent: true }),
      "rb": new HtmlTagDefinition({
        closedByChildren: ["rb", "rt", "rtc", "rp"],
        closedByParent: true
      }),
      "rt": new HtmlTagDefinition({
        closedByChildren: ["rb", "rt", "rtc", "rp"],
        closedByParent: true
      }),
      "rtc": new HtmlTagDefinition({ closedByChildren: ["rb", "rtc", "rp"], closedByParent: true }),
      "rp": new HtmlTagDefinition({
        closedByChildren: ["rb", "rt", "rtc", "rp"],
        closedByParent: true
      }),
      "optgroup": new HtmlTagDefinition({ closedByChildren: ["optgroup"], closedByParent: true }),
      "option": new HtmlTagDefinition({
        closedByChildren: ["option", "optgroup"],
        closedByParent: true
      }),
      "pre": new HtmlTagDefinition({ ignoreFirstLf: true }),
      "listing": new HtmlTagDefinition({ ignoreFirstLf: true }),
      "style": new HtmlTagDefinition({ contentType: TagContentType.RAW_TEXT }),
      "script": new HtmlTagDefinition({ contentType: TagContentType.RAW_TEXT }),
      "title": new HtmlTagDefinition({
        contentType: {
          default: TagContentType.ESCAPABLE_RAW_TEXT,
          svg: TagContentType.PARSABLE_DATA
        }
      }),
      "textarea": new HtmlTagDefinition({
        contentType: TagContentType.ESCAPABLE_RAW_TEXT,
        ignoreFirstLf: true
      })
    });
    new DomElementSchemaRegistry().allKnownElementNames().forEach((knownTagName) => {
      if (!TAG_DEFINITIONS[knownTagName] && getNsPrefix(knownTagName) === null) {
        TAG_DEFINITIONS[knownTagName] = new HtmlTagDefinition({ canSelfClose: false });
      }
    });
  }
  return (_b2 = (_a2 = TAG_DEFINITIONS[tagName]) != null ? _a2 : TAG_DEFINITIONS[tagName.toLowerCase()]) != null ? _b2 : DEFAULT_TAG_DEFINITION;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/serializers/placeholder.mjs
var TAG_TO_PLACEHOLDER_NAMES = {
  "A": "LINK",
  "B": "BOLD_TEXT",
  "BR": "LINE_BREAK",
  "EM": "EMPHASISED_TEXT",
  "H1": "HEADING_LEVEL1",
  "H2": "HEADING_LEVEL2",
  "H3": "HEADING_LEVEL3",
  "H4": "HEADING_LEVEL4",
  "H5": "HEADING_LEVEL5",
  "H6": "HEADING_LEVEL6",
  "HR": "HORIZONTAL_RULE",
  "I": "ITALIC_TEXT",
  "LI": "LIST_ITEM",
  "LINK": "MEDIA_LINK",
  "OL": "ORDERED_LIST",
  "P": "PARAGRAPH",
  "Q": "QUOTATION",
  "S": "STRIKETHROUGH_TEXT",
  "SMALL": "SMALL_TEXT",
  "SUB": "SUBSTRIPT",
  "SUP": "SUPERSCRIPT",
  "TBODY": "TABLE_BODY",
  "TD": "TABLE_CELL",
  "TFOOT": "TABLE_FOOTER",
  "TH": "TABLE_HEADER_CELL",
  "THEAD": "TABLE_HEADER",
  "TR": "TABLE_ROW",
  "TT": "MONOSPACED_TEXT",
  "U": "UNDERLINED_TEXT",
  "UL": "UNORDERED_LIST"
};
var PlaceholderRegistry = class {
  constructor() {
    this._placeHolderNameCounts = {};
    this._signatureToName = {};
  }
  getStartTagPlaceholderName(tag, attrs, isVoid) {
    const signature = this._hashTag(tag, attrs, isVoid);
    if (this._signatureToName[signature]) {
      return this._signatureToName[signature];
    }
    const upperTag = tag.toUpperCase();
    const baseName = TAG_TO_PLACEHOLDER_NAMES[upperTag] || `TAG_${upperTag}`;
    const name = this._generateUniqueName(isVoid ? baseName : `START_${baseName}`);
    this._signatureToName[signature] = name;
    return name;
  }
  getCloseTagPlaceholderName(tag) {
    const signature = this._hashClosingTag(tag);
    if (this._signatureToName[signature]) {
      return this._signatureToName[signature];
    }
    const upperTag = tag.toUpperCase();
    const baseName = TAG_TO_PLACEHOLDER_NAMES[upperTag] || `TAG_${upperTag}`;
    const name = this._generateUniqueName(`CLOSE_${baseName}`);
    this._signatureToName[signature] = name;
    return name;
  }
  getPlaceholderName(name, content) {
    const upperName = name.toUpperCase();
    const signature = `PH: ${upperName}=${content}`;
    if (this._signatureToName[signature]) {
      return this._signatureToName[signature];
    }
    const uniqueName = this._generateUniqueName(upperName);
    this._signatureToName[signature] = uniqueName;
    return uniqueName;
  }
  getUniquePlaceholder(name) {
    return this._generateUniqueName(name.toUpperCase());
  }
  getStartBlockPlaceholderName(name, parameters) {
    const signature = this._hashBlock(name, parameters);
    if (this._signatureToName[signature]) {
      return this._signatureToName[signature];
    }
    const placeholder = this._generateUniqueName(`START_BLOCK_${this._toSnakeCase(name)}`);
    this._signatureToName[signature] = placeholder;
    return placeholder;
  }
  getCloseBlockPlaceholderName(name) {
    const signature = this._hashClosingBlock(name);
    if (this._signatureToName[signature]) {
      return this._signatureToName[signature];
    }
    const placeholder = this._generateUniqueName(`CLOSE_BLOCK_${this._toSnakeCase(name)}`);
    this._signatureToName[signature] = placeholder;
    return placeholder;
  }
  _hashTag(tag, attrs, isVoid) {
    const start = `<${tag}`;
    const strAttrs = Object.keys(attrs).sort().map((name) => ` ${name}=${attrs[name]}`).join("");
    const end = isVoid ? "/>" : `>`;
    return start + strAttrs + end;
  }
  _hashClosingTag(tag) {
    return this._hashTag(`/${tag}`, {}, false);
  }
  _hashBlock(name, parameters) {
    const params = parameters.length === 0 ? "" : ` (${parameters.sort().join("; ")})`;
    return `@${name}${params} {}`;
  }
  _hashClosingBlock(name) {
    return this._hashBlock(`close_${name}`, []);
  }
  _toSnakeCase(name) {
    return name.toUpperCase().replace(/[^A-Z0-9]/g, "_");
  }
  _generateUniqueName(base) {
    const seen = this._placeHolderNameCounts.hasOwnProperty(base);
    if (!seen) {
      this._placeHolderNameCounts[base] = 1;
      return base;
    }
    const id = this._placeHolderNameCounts[base];
    this._placeHolderNameCounts[base] = id + 1;
    return `${base}_${id}`;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/i18n_parser.mjs
var _expParser = new Parser2(new Lexer());
function createI18nMessageFactory(interpolationConfig, containerBlocks, retainEmptyTokens) {
  const visitor = new _I18nVisitor(_expParser, interpolationConfig, containerBlocks, retainEmptyTokens);
  return (nodes, meaning, description, customId, visitNodeFn) => visitor.toI18nMessage(nodes, meaning, description, customId, visitNodeFn);
}
function noopVisitNodeFn(_html, i18n2) {
  return i18n2;
}
var _I18nVisitor = class {
  constructor(_expressionParser, _interpolationConfig, _containerBlocks, _retainEmptyTokens) {
    this._expressionParser = _expressionParser;
    this._interpolationConfig = _interpolationConfig;
    this._containerBlocks = _containerBlocks;
    this._retainEmptyTokens = _retainEmptyTokens;
  }
  toI18nMessage(nodes, meaning = "", description = "", customId = "", visitNodeFn) {
    const context = {
      isIcu: nodes.length == 1 && nodes[0] instanceof Expansion,
      icuDepth: 0,
      placeholderRegistry: new PlaceholderRegistry(),
      placeholderToContent: {},
      placeholderToMessage: {},
      visitNodeFn: visitNodeFn || noopVisitNodeFn
    };
    const i18nodes = visitAll2(this, nodes, context);
    return new Message(i18nodes, context.placeholderToContent, context.placeholderToMessage, meaning, description, customId);
  }
  visitElement(el, context) {
    var _a2;
    const children = visitAll2(this, el.children, context);
    const attrs = {};
    el.attrs.forEach((attr) => {
      attrs[attr.name] = attr.value;
    });
    const isVoid = getHtmlTagDefinition(el.name).isVoid;
    const startPhName = context.placeholderRegistry.getStartTagPlaceholderName(el.name, attrs, isVoid);
    context.placeholderToContent[startPhName] = {
      text: el.startSourceSpan.toString(),
      sourceSpan: el.startSourceSpan
    };
    let closePhName = "";
    if (!isVoid) {
      closePhName = context.placeholderRegistry.getCloseTagPlaceholderName(el.name);
      context.placeholderToContent[closePhName] = {
        text: ``,
        sourceSpan: (_a2 = el.endSourceSpan) != null ? _a2 : el.sourceSpan
      };
    }
    const node = new TagPlaceholder(el.name, attrs, startPhName, closePhName, children, isVoid, el.sourceSpan, el.startSourceSpan, el.endSourceSpan);
    return context.visitNodeFn(el, node);
  }
  visitAttribute(attribute2, context) {
    const node = attribute2.valueTokens === void 0 || attribute2.valueTokens.length === 1 ? new Text2(attribute2.value, attribute2.valueSpan || attribute2.sourceSpan) : this._visitTextWithInterpolation(attribute2.valueTokens, attribute2.valueSpan || attribute2.sourceSpan, context, attribute2.i18n);
    return context.visitNodeFn(attribute2, node);
  }
  visitText(text2, context) {
    const node = text2.tokens.length === 1 ? new Text2(text2.value, text2.sourceSpan) : this._visitTextWithInterpolation(text2.tokens, text2.sourceSpan, context, text2.i18n);
    return context.visitNodeFn(text2, node);
  }
  visitComment(comment, context) {
    return null;
  }
  visitExpansion(icu, context) {
    context.icuDepth++;
    const i18nIcuCases = {};
    const i18nIcu = new Icu2(icu.switchValue, icu.type, i18nIcuCases, icu.sourceSpan);
    icu.cases.forEach((caze) => {
      i18nIcuCases[caze.value] = new Container(caze.expression.map((node2) => node2.visit(this, context)), caze.expSourceSpan);
    });
    context.icuDepth--;
    if (context.isIcu || context.icuDepth > 0) {
      const expPh = context.placeholderRegistry.getUniquePlaceholder(`VAR_${icu.type}`);
      i18nIcu.expressionPlaceholder = expPh;
      context.placeholderToContent[expPh] = {
        text: icu.switchValue,
        sourceSpan: icu.switchValueSourceSpan
      };
      return context.visitNodeFn(icu, i18nIcu);
    }
    const phName = context.placeholderRegistry.getPlaceholderName("ICU", icu.sourceSpan.toString());
    context.placeholderToMessage[phName] = this.toI18nMessage([icu], "", "", "", void 0);
    const node = new IcuPlaceholder(i18nIcu, phName, icu.sourceSpan);
    return context.visitNodeFn(icu, node);
  }
  visitExpansionCase(_icuCase, _context) {
    throw new Error("Unreachable code");
  }
  visitBlock(block, context) {
    var _a2;
    const children = visitAll2(this, block.children, context);
    if (this._containerBlocks.has(block.name)) {
      return new Container(children, block.sourceSpan);
    }
    const parameters = block.parameters.map((param) => param.expression);
    const startPhName = context.placeholderRegistry.getStartBlockPlaceholderName(block.name, parameters);
    const closePhName = context.placeholderRegistry.getCloseBlockPlaceholderName(block.name);
    context.placeholderToContent[startPhName] = {
      text: block.startSourceSpan.toString(),
      sourceSpan: block.startSourceSpan
    };
    context.placeholderToContent[closePhName] = {
      text: block.endSourceSpan ? block.endSourceSpan.toString() : "}",
      sourceSpan: (_a2 = block.endSourceSpan) != null ? _a2 : block.sourceSpan
    };
    const node = new BlockPlaceholder(block.name, parameters, startPhName, closePhName, children, block.sourceSpan, block.startSourceSpan, block.endSourceSpan);
    return context.visitNodeFn(block, node);
  }
  visitBlockParameter(_parameter, _context) {
    throw new Error("Unreachable code");
  }
  visitLetDeclaration(decl, context) {
    return null;
  }
  _visitTextWithInterpolation(tokens, sourceSpan, context, previousI18n) {
    const nodes = [];
    let hasInterpolation = false;
    for (const token of tokens) {
      switch (token.type) {
        case 8:
        case 17:
          hasInterpolation = true;
          const expression = token.parts[1];
          const baseName = extractPlaceholderName(expression) || "INTERPOLATION";
          const phName = context.placeholderRegistry.getPlaceholderName(baseName, expression);
          context.placeholderToContent[phName] = {
            text: token.parts.join(""),
            sourceSpan: token.sourceSpan
          };
          nodes.push(new Placeholder(expression, phName, token.sourceSpan));
          break;
        default:
          if (token.parts[0].length > 0 || this._retainEmptyTokens) {
            const previous = nodes[nodes.length - 1];
            if (previous instanceof Text2) {
              previous.value += token.parts[0];
              previous.sourceSpan = new ParseSourceSpan(previous.sourceSpan.start, token.sourceSpan.end, previous.sourceSpan.fullStart, previous.sourceSpan.details);
            } else {
              nodes.push(new Text2(token.parts[0], token.sourceSpan));
            }
          } else {
            if (this._retainEmptyTokens) {
              nodes.push(new Text2(token.parts[0], token.sourceSpan));
            }
          }
          break;
      }
    }
    if (hasInterpolation) {
      reusePreviousSourceSpans(nodes, previousI18n);
      return new Container(nodes, sourceSpan);
    } else {
      return nodes[0];
    }
  }
};
function reusePreviousSourceSpans(nodes, previousI18n) {
  if (previousI18n instanceof Message) {
    assertSingleContainerMessage(previousI18n);
    previousI18n = previousI18n.nodes[0];
  }
  if (previousI18n instanceof Container) {
    assertEquivalentNodes(previousI18n.children, nodes);
    for (let i = 0; i < nodes.length; i++) {
      nodes[i].sourceSpan = previousI18n.children[i].sourceSpan;
    }
  }
}
function assertSingleContainerMessage(message) {
  const nodes = message.nodes;
  if (nodes.length !== 1 || !(nodes[0] instanceof Container)) {
    throw new Error("Unexpected previous i18n message - expected it to consist of only a single `Container` node.");
  }
}
function assertEquivalentNodes(previousNodes, nodes) {
  if (previousNodes.length !== nodes.length) {
    throw new Error(`
The number of i18n message children changed between first and second pass.

First pass (${previousNodes.length} tokens):
${previousNodes.map((node) => `"${node.sourceSpan.toString()}"`).join("\n")}

Second pass (${nodes.length} tokens):
${nodes.map((node) => `"${node.sourceSpan.toString()}"`).join("\n")}
    `.trim());
  }
  if (previousNodes.some((node, i) => nodes[i].constructor !== node.constructor)) {
    throw new Error("The types of the i18n message children changed between first and second pass.");
  }
}
var _CUSTOM_PH_EXP = /\/\/[\s\S]*i18n[\s\S]*\([\s\S]*ph[\s\S]*=[\s\S]*("|')([\s\S]*?)\1[\s\S]*\)/g;
function extractPlaceholderName(input) {
  return input.split(_CUSTOM_PH_EXP)[2];
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/parse_util.mjs
var I18nError = class extends ParseError {
  constructor(span, msg) {
    super(span, msg);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/schema/trusted_types_sinks.mjs
var TRUSTED_TYPES_SINKS = /* @__PURE__ */ new Set([
  "iframe|srcdoc",
  "*|innerhtml",
  "*|outerhtml",
  "embed|src",
  "object|codebase",
  "object|data"
]);
function isTrustedTypesSink(tagName, propName) {
  tagName = tagName.toLowerCase();
  propName = propName.toLowerCase();
  return TRUSTED_TYPES_SINKS.has(tagName + "|" + propName) || TRUSTED_TYPES_SINKS.has("*|" + propName);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/i18n/meta.mjs
var setI18nRefs = (originalNodeMap) => {
  return (trimmedNode, i18nNode) => {
    var _a2;
    const originalNode = (_a2 = originalNodeMap.get(trimmedNode)) != null ? _a2 : trimmedNode;
    if (originalNode instanceof NodeWithI18n) {
      if (i18nNode instanceof IcuPlaceholder && originalNode.i18n instanceof Message) {
        i18nNode.previousMessage = originalNode.i18n;
      }
      originalNode.i18n = i18nNode;
    }
    return i18nNode;
  };
};
var I18nMetaVisitor = class {
  constructor(interpolationConfig = DEFAULT_INTERPOLATION_CONFIG, keepI18nAttrs = false, enableI18nLegacyMessageIdFormat = false, containerBlocks = DEFAULT_CONTAINER_BLOCKS, preserveSignificantWhitespace = true, retainEmptyTokens = !preserveSignificantWhitespace) {
    this.interpolationConfig = interpolationConfig;
    this.keepI18nAttrs = keepI18nAttrs;
    this.enableI18nLegacyMessageIdFormat = enableI18nLegacyMessageIdFormat;
    this.containerBlocks = containerBlocks;
    this.preserveSignificantWhitespace = preserveSignificantWhitespace;
    this.retainEmptyTokens = retainEmptyTokens;
    this.hasI18nMeta = false;
    this._errors = [];
  }
  _generateI18nMessage(nodes, meta = "", visitNodeFn) {
    const { meaning, description, customId } = this._parseMetadata(meta);
    const createI18nMessage2 = createI18nMessageFactory(this.interpolationConfig, this.containerBlocks, this.retainEmptyTokens);
    const message = createI18nMessage2(nodes, meaning, description, customId, visitNodeFn);
    this._setMessageId(message, meta);
    this._setLegacyIds(message, meta);
    return message;
  }
  visitAllWithErrors(nodes) {
    const result = nodes.map((node) => node.visit(this, null));
    return new ParseTreeResult(result, this._errors);
  }
  visitElement(element2) {
    let message = void 0;
    if (hasI18nAttrs(element2)) {
      this.hasI18nMeta = true;
      const attrs = [];
      const attrsMeta = {};
      for (const attr of element2.attrs) {
        if (attr.name === I18N_ATTR) {
          const i18n2 = element2.i18n || attr.value;
          const originalNodeMap = /* @__PURE__ */ new Map();
          const trimmedNodes = this.preserveSignificantWhitespace ? element2.children : visitAllWithSiblings(new WhitespaceVisitor(false, originalNodeMap), element2.children);
          message = this._generateI18nMessage(trimmedNodes, i18n2, setI18nRefs(originalNodeMap));
          if (message.nodes.length === 0) {
            message = void 0;
          }
          element2.i18n = message;
        } else if (attr.name.startsWith(I18N_ATTR_PREFIX)) {
          const name = attr.name.slice(I18N_ATTR_PREFIX.length);
          if (isTrustedTypesSink(element2.name, name)) {
            this._reportError(attr, `Translating attribute '${name}' is disallowed for security reasons.`);
          } else {
            attrsMeta[name] = attr.value;
          }
        } else {
          attrs.push(attr);
        }
      }
      if (Object.keys(attrsMeta).length) {
        for (const attr of attrs) {
          const meta = attrsMeta[attr.name];
          if (meta !== void 0 && attr.value) {
            attr.i18n = this._generateI18nMessage([attr], attr.i18n || meta);
          }
        }
      }
      if (!this.keepI18nAttrs) {
        element2.attrs = attrs;
      }
    }
    visitAll2(this, element2.children, message);
    return element2;
  }
  visitExpansion(expansion, currentMessage) {
    let message;
    const meta = expansion.i18n;
    this.hasI18nMeta = true;
    if (meta instanceof IcuPlaceholder) {
      const name = meta.name;
      message = this._generateI18nMessage([expansion], meta);
      const icu = icuFromI18nMessage(message);
      icu.name = name;
      if (currentMessage !== null) {
        currentMessage.placeholderToMessage[name] = message;
      }
    } else {
      message = this._generateI18nMessage([expansion], currentMessage || meta);
    }
    expansion.i18n = message;
    return expansion;
  }
  visitText(text2) {
    return text2;
  }
  visitAttribute(attribute2) {
    return attribute2;
  }
  visitComment(comment) {
    return comment;
  }
  visitExpansionCase(expansionCase) {
    return expansionCase;
  }
  visitBlock(block, context) {
    visitAll2(this, block.children, context);
    return block;
  }
  visitBlockParameter(parameter, context) {
    return parameter;
  }
  visitLetDeclaration(decl, context) {
    return decl;
  }
  _parseMetadata(meta) {
    return typeof meta === "string" ? parseI18nMeta(meta) : meta instanceof Message ? meta : {};
  }
  _setMessageId(message, meta) {
    if (!message.id) {
      message.id = meta instanceof Message && meta.id || decimalDigest(message, this.preserveSignificantWhitespace);
    }
  }
  _setLegacyIds(message, meta) {
    if (this.enableI18nLegacyMessageIdFormat) {
      message.legacyIds = [
        computeDigest(message),
        computeDecimalDigest(
          message,
          this.preserveSignificantWhitespace
        )
      ];
    } else if (typeof meta !== "string") {
      const previousMessage = meta instanceof Message ? meta : meta instanceof IcuPlaceholder ? meta.previousMessage : void 0;
      message.legacyIds = previousMessage ? previousMessage.legacyIds : [];
    }
  }
  _reportError(node, msg) {
    this._errors.push(new I18nError(node.sourceSpan, msg));
  }
};
var I18N_MEANING_SEPARATOR = "|";
var I18N_ID_SEPARATOR = "@@";
function parseI18nMeta(meta = "") {
  let customId;
  let meaning;
  let description;
  meta = meta.trim();
  if (meta) {
    const idIndex = meta.indexOf(I18N_ID_SEPARATOR);
    const descIndex = meta.indexOf(I18N_MEANING_SEPARATOR);
    let meaningAndDesc;
    [meaningAndDesc, customId] = idIndex > -1 ? [meta.slice(0, idIndex), meta.slice(idIndex + 2)] : [meta, ""];
    [meaning, description] = descIndex > -1 ? [meaningAndDesc.slice(0, descIndex), meaningAndDesc.slice(descIndex + 1)] : ["", meaningAndDesc];
  }
  return { customId, meaning, description };
}
function i18nMetaToJSDoc(meta) {
  const tags = [];
  if (meta.description) {
    tags.push({ tagName: "desc", text: meta.description });
  } else {
    tags.push({ tagName: "suppress", text: "{msgDescriptions}" });
  }
  if (meta.meaning) {
    tags.push({ tagName: "meaning", text: meta.meaning });
  }
  return jsDocComment(tags);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/i18n/get_msg_utils.mjs
var GOOG_GET_MSG = "goog.getMsg";
function createGoogleGetMsgStatements(variable2, message, closureVar, placeholderValues) {
  const messageString = serializeI18nMessageForGetMsg(message);
  const args = [literal(messageString)];
  if (Object.keys(placeholderValues).length) {
    args.push(mapLiteral(formatI18nPlaceholderNamesInMap(placeholderValues, true), true));
    args.push(mapLiteral({
      original_code: literalMap(Object.keys(placeholderValues).map((param) => ({
        key: formatI18nPlaceholderName(param),
        quoted: true,
        value: message.placeholders[param] ? literal(message.placeholders[param].sourceSpan.toString()) : literal(message.placeholderToMessage[param].nodes.map((node) => node.sourceSpan.toString()).join(""))
      })))
    }));
  }
  const googGetMsgStmt = closureVar.set(variable(GOOG_GET_MSG).callFn(args)).toConstDecl();
  googGetMsgStmt.addLeadingComment(i18nMetaToJSDoc(message));
  const i18nAssignmentStmt = new ExpressionStatement(variable2.set(closureVar));
  return [googGetMsgStmt, i18nAssignmentStmt];
}
var GetMsgSerializerVisitor = class {
  formatPh(value) {
    return `{$${formatI18nPlaceholderName(value)}}`;
  }
  visitText(text2) {
    return text2.value;
  }
  visitContainer(container) {
    return container.children.map((child) => child.visit(this)).join("");
  }
  visitIcu(icu) {
    return serializeIcuNode(icu);
  }
  visitTagPlaceholder(ph) {
    return ph.isVoid ? this.formatPh(ph.startName) : `${this.formatPh(ph.startName)}${ph.children.map((child) => child.visit(this)).join("")}${this.formatPh(ph.closeName)}`;
  }
  visitPlaceholder(ph) {
    return this.formatPh(ph.name);
  }
  visitBlockPlaceholder(ph) {
    return `${this.formatPh(ph.startName)}${ph.children.map((child) => child.visit(this)).join("")}${this.formatPh(ph.closeName)}`;
  }
  visitIcuPlaceholder(ph, context) {
    return this.formatPh(ph.name);
  }
};
var serializerVisitor2 = new GetMsgSerializerVisitor();
function serializeI18nMessageForGetMsg(message) {
  return message.nodes.map((node) => node.visit(serializerVisitor2, null)).join("");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/i18n/localize_utils.mjs
function createLocalizeStatements(variable2, message, params) {
  const { messageParts, placeHolders } = serializeI18nMessageForLocalize(message);
  const sourceSpan = getSourceSpan(message);
  const expressions = placeHolders.map((ph) => params[ph.text]);
  const localizedString2 = localizedString(message, messageParts, placeHolders, expressions, sourceSpan);
  const variableInitialization = variable2.set(localizedString2);
  return [new ExpressionStatement(variableInitialization)];
}
var LocalizeSerializerVisitor = class {
  constructor(placeholderToMessage, pieces) {
    this.placeholderToMessage = placeholderToMessage;
    this.pieces = pieces;
  }
  visitText(text2) {
    if (this.pieces[this.pieces.length - 1] instanceof LiteralPiece) {
      this.pieces[this.pieces.length - 1].text += text2.value;
    } else {
      const sourceSpan = new ParseSourceSpan(text2.sourceSpan.fullStart, text2.sourceSpan.end, text2.sourceSpan.fullStart, text2.sourceSpan.details);
      this.pieces.push(new LiteralPiece(text2.value, sourceSpan));
    }
  }
  visitContainer(container) {
    container.children.forEach((child) => child.visit(this));
  }
  visitIcu(icu) {
    this.pieces.push(new LiteralPiece(serializeIcuNode(icu), icu.sourceSpan));
  }
  visitTagPlaceholder(ph) {
    var _a2, _b2;
    this.pieces.push(this.createPlaceholderPiece(ph.startName, (_a2 = ph.startSourceSpan) != null ? _a2 : ph.sourceSpan));
    if (!ph.isVoid) {
      ph.children.forEach((child) => child.visit(this));
      this.pieces.push(this.createPlaceholderPiece(ph.closeName, (_b2 = ph.endSourceSpan) != null ? _b2 : ph.sourceSpan));
    }
  }
  visitPlaceholder(ph) {
    this.pieces.push(this.createPlaceholderPiece(ph.name, ph.sourceSpan));
  }
  visitBlockPlaceholder(ph) {
    var _a2, _b2;
    this.pieces.push(this.createPlaceholderPiece(ph.startName, (_a2 = ph.startSourceSpan) != null ? _a2 : ph.sourceSpan));
    ph.children.forEach((child) => child.visit(this));
    this.pieces.push(this.createPlaceholderPiece(ph.closeName, (_b2 = ph.endSourceSpan) != null ? _b2 : ph.sourceSpan));
  }
  visitIcuPlaceholder(ph) {
    this.pieces.push(this.createPlaceholderPiece(ph.name, ph.sourceSpan, this.placeholderToMessage[ph.name]));
  }
  createPlaceholderPiece(name, sourceSpan, associatedMessage) {
    return new PlaceholderPiece(formatI18nPlaceholderName(name, false), sourceSpan, associatedMessage);
  }
};
function serializeI18nMessageForLocalize(message) {
  const pieces = [];
  const serializerVisitor3 = new LocalizeSerializerVisitor(message.placeholderToMessage, pieces);
  message.nodes.forEach((node) => node.visit(serializerVisitor3));
  return processMessagePieces(pieces);
}
function getSourceSpan(message) {
  const startNode = message.nodes[0];
  const endNode = message.nodes[message.nodes.length - 1];
  return new ParseSourceSpan(startNode.sourceSpan.fullStart, endNode.sourceSpan.end, startNode.sourceSpan.fullStart, startNode.sourceSpan.details);
}
function processMessagePieces(pieces) {
  const messageParts = [];
  const placeHolders = [];
  if (pieces[0] instanceof PlaceholderPiece) {
    messageParts.push(createEmptyMessagePart(pieces[0].sourceSpan.start));
  }
  for (let i = 0; i < pieces.length; i++) {
    const part = pieces[i];
    if (part instanceof LiteralPiece) {
      messageParts.push(part);
    } else {
      placeHolders.push(part);
      if (pieces[i - 1] instanceof PlaceholderPiece) {
        messageParts.push(createEmptyMessagePart(pieces[i - 1].sourceSpan.end));
      }
    }
  }
  if (pieces[pieces.length - 1] instanceof PlaceholderPiece) {
    messageParts.push(createEmptyMessagePart(pieces[pieces.length - 1].sourceSpan.end));
  }
  return { messageParts, placeHolders };
}
function createEmptyMessagePart(location) {
  return new LiteralPiece("", new ParseSourceSpan(location, location));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/i18n_const_collection.mjs
var NG_I18N_CLOSURE_MODE = "ngI18nClosureMode";
var TRANSLATION_VAR_PREFIX = "i18n_";
var I18N_ICU_MAPPING_PREFIX = "I18N_EXP_";
var ESCAPE2 = "\uFFFD";
var CLOSURE_TRANSLATION_VAR_PREFIX = "MSG_";
function getTranslationConstPrefix(extra) {
  return `${CLOSURE_TRANSLATION_VAR_PREFIX}${extra}`.toUpperCase();
}
function declareI18nVariable(variable2) {
  return new DeclareVarStmt(variable2.name, void 0, INFERRED_TYPE, void 0, variable2.sourceSpan);
}
function collectI18nConsts(job) {
  var _a2, _b2;
  const fileBasedI18nSuffix = job.relativeContextFilePath.replace(/[^A-Za-z0-9]/g, "_").toUpperCase() + "_";
  const extractedAttributesByI18nContext = /* @__PURE__ */ new Map();
  const i18nAttributesByElement = /* @__PURE__ */ new Map();
  const i18nExpressionsByElement = /* @__PURE__ */ new Map();
  const messages = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      if (op.kind === OpKind.ExtractedAttribute && op.i18nContext !== null) {
        const attributes = (_a2 = extractedAttributesByI18nContext.get(op.i18nContext)) != null ? _a2 : [];
        attributes.push(op);
        extractedAttributesByI18nContext.set(op.i18nContext, attributes);
      } else if (op.kind === OpKind.I18nAttributes) {
        i18nAttributesByElement.set(op.target, op);
      } else if (op.kind === OpKind.I18nExpression && op.usage === I18nExpressionFor.I18nAttribute) {
        const expressions = (_b2 = i18nExpressionsByElement.get(op.target)) != null ? _b2 : [];
        expressions.push(op);
        i18nExpressionsByElement.set(op.target, expressions);
      } else if (op.kind === OpKind.I18nMessage) {
        messages.set(op.xref, op);
      }
    }
  }
  const i18nValuesByContext = /* @__PURE__ */ new Map();
  const messageConstIndices = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.I18nMessage) {
        if (op.messagePlaceholder === null) {
          const { mainVar, statements } = collectMessage(job, fileBasedI18nSuffix, messages, op);
          if (op.i18nBlock !== null) {
            const i18nConst = job.addConst(mainVar, statements);
            messageConstIndices.set(op.i18nBlock, i18nConst);
          } else {
            job.constsInitializers.push(...statements);
            i18nValuesByContext.set(op.i18nContext, mainVar);
            const attributesForMessage = extractedAttributesByI18nContext.get(op.i18nContext);
            if (attributesForMessage !== void 0) {
              for (const attr of attributesForMessage) {
                attr.expression = mainVar.clone();
              }
            }
          }
        }
        OpList.remove(op);
      }
    }
  }
  for (const unit of job.units) {
    for (const elem of unit.create) {
      if (isElementOrContainerOp(elem)) {
        const i18nAttributes2 = i18nAttributesByElement.get(elem.xref);
        if (i18nAttributes2 === void 0) {
          continue;
        }
        let i18nExpressions = i18nExpressionsByElement.get(elem.xref);
        if (i18nExpressions === void 0) {
          throw new Error("AssertionError: Could not find any i18n expressions associated with an I18nAttributes instruction");
        }
        const seenPropertyNames = /* @__PURE__ */ new Set();
        i18nExpressions = i18nExpressions.filter((i18nExpr) => {
          const seen = seenPropertyNames.has(i18nExpr.name);
          seenPropertyNames.add(i18nExpr.name);
          return !seen;
        });
        const i18nAttributeConfig = i18nExpressions.flatMap((i18nExpr) => {
          const i18nExprValue = i18nValuesByContext.get(i18nExpr.context);
          if (i18nExprValue === void 0) {
            throw new Error("AssertionError: Could not find i18n expression's value");
          }
          return [literal(i18nExpr.name), i18nExprValue];
        });
        i18nAttributes2.i18nAttributesConfig = job.addConst(new LiteralArrayExpr(i18nAttributeConfig));
      }
    }
  }
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.I18nStart) {
        const msgIndex = messageConstIndices.get(op.root);
        if (msgIndex === void 0) {
          throw new Error("AssertionError: Could not find corresponding i18n block index for an i18n message op; was an i18n message incorrectly assumed to correspond to an attribute?");
        }
        op.messageIndex = msgIndex;
      }
    }
  }
}
function collectMessage(job, fileBasedI18nSuffix, messages, messageOp) {
  var _a2;
  const statements = [];
  const subMessagePlaceholders = /* @__PURE__ */ new Map();
  for (const subMessageId of messageOp.subMessages) {
    const subMessage = messages.get(subMessageId);
    const { mainVar: subMessageVar, statements: subMessageStatements } = collectMessage(job, fileBasedI18nSuffix, messages, subMessage);
    statements.push(...subMessageStatements);
    const subMessages = (_a2 = subMessagePlaceholders.get(subMessage.messagePlaceholder)) != null ? _a2 : [];
    subMessages.push(subMessageVar);
    subMessagePlaceholders.set(subMessage.messagePlaceholder, subMessages);
  }
  addSubMessageParams(messageOp, subMessagePlaceholders);
  messageOp.params = new Map([...messageOp.params.entries()].sort());
  const mainVar = variable(job.pool.uniqueName(TRANSLATION_VAR_PREFIX));
  const closureVar = i18nGenerateClosureVar(job.pool, messageOp.message.id, fileBasedI18nSuffix, job.i18nUseExternalIds);
  let transformFn = void 0;
  if (messageOp.needsPostprocessing || messageOp.postprocessingParams.size > 0) {
    const postprocessingParams = Object.fromEntries([...messageOp.postprocessingParams.entries()].sort());
    const formattedPostprocessingParams = formatI18nPlaceholderNamesInMap(
      postprocessingParams,
      false
    );
    const extraTransformFnParams = [];
    if (messageOp.postprocessingParams.size > 0) {
      extraTransformFnParams.push(mapLiteral(formattedPostprocessingParams, true));
    }
    transformFn = (expr) => importExpr(Identifiers.i18nPostprocess).callFn([expr, ...extraTransformFnParams]);
  }
  statements.push(...getTranslationDeclStmts(messageOp.message, mainVar, closureVar, messageOp.params, transformFn));
  return { mainVar, statements };
}
function addSubMessageParams(messageOp, subMessagePlaceholders) {
  for (const [placeholder, subMessages] of subMessagePlaceholders) {
    if (subMessages.length === 1) {
      messageOp.params.set(placeholder, subMessages[0]);
    } else {
      messageOp.params.set(placeholder, literal(`${ESCAPE2}${I18N_ICU_MAPPING_PREFIX}${placeholder}${ESCAPE2}`));
      messageOp.postprocessingParams.set(placeholder, literalArr(subMessages));
    }
  }
}
function getTranslationDeclStmts(message, variable2, closureVar, params, transformFn) {
  const paramsObject = Object.fromEntries(params);
  const statements = [
    declareI18nVariable(variable2),
    ifStmt(createClosureModeGuard(), createGoogleGetMsgStatements(variable2, message, closureVar, paramsObject), createLocalizeStatements(variable2, message, formatI18nPlaceholderNamesInMap(paramsObject, false)))
  ];
  if (transformFn) {
    statements.push(new ExpressionStatement(variable2.set(transformFn(variable2))));
  }
  return statements;
}
function createClosureModeGuard() {
  return typeofExpr(variable(NG_I18N_CLOSURE_MODE)).notIdentical(literal("undefined", STRING_TYPE)).and(variable(NG_I18N_CLOSURE_MODE));
}
function i18nGenerateClosureVar(pool, messageId, fileBasedI18nSuffix, useExternalIds) {
  let name;
  const suffix = fileBasedI18nSuffix;
  if (useExternalIds) {
    const prefix = getTranslationConstPrefix(`EXTERNAL_`);
    const uniqueSuffix = pool.uniqueName(suffix);
    name = `${prefix}${sanitizeIdentifier(messageId)}$$${uniqueSuffix}`;
  } else {
    const prefix = getTranslationConstPrefix(suffix);
    name = pool.uniqueName(prefix);
  }
  return variable(name);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/i18n_text_extraction.mjs
function convertI18nText(job) {
  var _a2, _b2, _c2;
  for (const unit of job.units) {
    let currentI18n = null;
    let currentIcu = null;
    const textNodeI18nBlocks = /* @__PURE__ */ new Map();
    const textNodeIcus = /* @__PURE__ */ new Map();
    const icuPlaceholderByText = /* @__PURE__ */ new Map();
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nStart:
          if (op.context === null) {
            throw Error("I18n op should have its context set.");
          }
          currentI18n = op;
          break;
        case OpKind.I18nEnd:
          currentI18n = null;
          break;
        case OpKind.IcuStart:
          if (op.context === null) {
            throw Error("Icu op should have its context set.");
          }
          currentIcu = op;
          break;
        case OpKind.IcuEnd:
          currentIcu = null;
          break;
        case OpKind.Text:
          if (currentI18n !== null) {
            textNodeI18nBlocks.set(op.xref, currentI18n);
            textNodeIcus.set(op.xref, currentIcu);
            if (op.icuPlaceholder !== null) {
              const icuPlaceholderOp = createIcuPlaceholderOp(job.allocateXrefId(), op.icuPlaceholder, [op.initialValue]);
              OpList.replace(op, icuPlaceholderOp);
              icuPlaceholderByText.set(op.xref, icuPlaceholderOp);
            } else {
              OpList.remove(op);
            }
          }
          break;
      }
    }
    for (const op of unit.update) {
      switch (op.kind) {
        case OpKind.InterpolateText:
          if (!textNodeI18nBlocks.has(op.target)) {
            continue;
          }
          const i18nOp = textNodeI18nBlocks.get(op.target);
          const icuOp = textNodeIcus.get(op.target);
          const icuPlaceholder = icuPlaceholderByText.get(op.target);
          const contextId = icuOp ? icuOp.context : i18nOp.context;
          const resolutionTime = icuOp ? I18nParamResolutionTime.Postproccessing : I18nParamResolutionTime.Creation;
          const ops = [];
          for (let i = 0; i < op.interpolation.expressions.length; i++) {
            const expr = op.interpolation.expressions[i];
            ops.push(createI18nExpressionOp(contextId, i18nOp.xref, i18nOp.xref, i18nOp.handle, expr, (_a2 = icuPlaceholder == null ? void 0 : icuPlaceholder.xref) != null ? _a2 : null, (_b2 = op.interpolation.i18nPlaceholders[i]) != null ? _b2 : null, resolutionTime, I18nExpressionFor.I18nText, "", (_c2 = expr.sourceSpan) != null ? _c2 : op.sourceSpan));
          }
          OpList.replaceWithMany(op, ops);
          if (icuPlaceholder !== void 0) {
            icuPlaceholder.strings = op.interpolation.strings;
          }
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/local_refs.mjs
function liftLocalRefs(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.ElementStart:
        case OpKind.Template:
          if (!Array.isArray(op.localRefs)) {
            throw new Error(`AssertionError: expected localRefs to be an array still`);
          }
          op.numSlotsUsed += op.localRefs.length;
          if (op.localRefs.length > 0) {
            const localRefs = serializeLocalRefs(op.localRefs);
            op.localRefs = job.addConst(localRefs);
          } else {
            op.localRefs = null;
          }
          break;
      }
    }
  }
}
function serializeLocalRefs(refs) {
  const constRefs = [];
  for (const ref of refs) {
    constRefs.push(literal(ref.name), literal(ref.target));
  }
  return literalArr(constRefs);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/namespace.mjs
function emitNamespaceChanges(job) {
  for (const unit of job.units) {
    let activeNamespace = Namespace.HTML;
    for (const op of unit.create) {
      if (op.kind !== OpKind.ElementStart) {
        continue;
      }
      if (op.namespace !== activeNamespace) {
        OpList.insertBefore(createNamespaceOp(op.namespace), op);
        activeNamespace = op.namespace;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/parse_extracted_styles.mjs
function parse(value) {
  const styles = [];
  let i = 0;
  let parenDepth = 0;
  let quote = 0;
  let valueStart = 0;
  let propStart = 0;
  let currentProp = null;
  while (i < value.length) {
    const token = value.charCodeAt(i++);
    switch (token) {
      case 40:
        parenDepth++;
        break;
      case 41:
        parenDepth--;
        break;
      case 39:
        if (quote === 0) {
          quote = 39;
        } else if (quote === 39 && value.charCodeAt(i - 1) !== 92) {
          quote = 0;
        }
        break;
      case 34:
        if (quote === 0) {
          quote = 34;
        } else if (quote === 34 && value.charCodeAt(i - 1) !== 92) {
          quote = 0;
        }
        break;
      case 58:
        if (!currentProp && parenDepth === 0 && quote === 0) {
          currentProp = hyphenate2(value.substring(propStart, i - 1).trim());
          valueStart = i;
        }
        break;
      case 59:
        if (currentProp && valueStart > 0 && parenDepth === 0 && quote === 0) {
          const styleVal = value.substring(valueStart, i - 1).trim();
          styles.push(currentProp, styleVal);
          propStart = i;
          valueStart = 0;
          currentProp = null;
        }
        break;
    }
  }
  if (currentProp && valueStart) {
    const styleVal = value.slice(valueStart).trim();
    styles.push(currentProp, styleVal);
  }
  return styles;
}
function hyphenate2(value) {
  return value.replace(/[a-z][A-Z]/g, (v) => {
    return v.charAt(0) + "-" + v.charAt(1);
  }).toLowerCase();
}
function parseExtractedStyles(job) {
  const elements = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (isElementOrContainerOp(op)) {
        elements.set(op.xref, op);
      }
    }
  }
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.ExtractedAttribute && op.bindingKind === BindingKind.Attribute && isStringLiteral(op.expression)) {
        const target = elements.get(op.target);
        if (target !== void 0 && target.kind === OpKind.Template && target.templateKind === TemplateKind.Structural) {
          continue;
        }
        if (op.name === "style") {
          const parsedStyles = parse(op.expression.value);
          for (let i = 0; i < parsedStyles.length - 1; i += 2) {
            OpList.insertBefore(createExtractedAttributeOp(op.target, BindingKind.StyleProperty, null, parsedStyles[i], literal(parsedStyles[i + 1]), null, null, SecurityContext.STYLE), op);
          }
          OpList.remove(op);
        } else if (op.name === "class") {
          const parsedClasses = op.expression.value.trim().split(/\s+/g);
          for (const parsedClass of parsedClasses) {
            OpList.insertBefore(createExtractedAttributeOp(op.target, BindingKind.ClassName, null, parsedClass, null, null, null, SecurityContext.NONE), op);
          }
          OpList.remove(op);
        }
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/naming.mjs
function nameFunctionsAndVariables(job) {
  addNamesToView(job.root, job.componentName, { index: 0 }, job.compatibility === CompatibilityMode.TemplateDefinitionBuilder);
}
function addNamesToView(unit, baseName, state, compatibility) {
  if (unit.fnName === null) {
    unit.fnName = unit.job.pool.uniqueName(
      sanitizeIdentifier(`${baseName}_${unit.job.fnSuffix}`),
      false
    );
  }
  const varNames = /* @__PURE__ */ new Map();
  for (const op of unit.ops()) {
    switch (op.kind) {
      case OpKind.Property:
      case OpKind.HostProperty:
        if (op.isAnimationTrigger) {
          op.name = "@" + op.name;
        }
        break;
      case OpKind.Listener:
        if (op.handlerFnName !== null) {
          break;
        }
        if (!op.hostListener && op.targetSlot.slot === null) {
          throw new Error(`Expected a slot to be assigned`);
        }
        let animation = "";
        if (op.isAnimationListener) {
          op.name = `@${op.name}.${op.animationPhase}`;
          animation = "animation";
        }
        if (op.hostListener) {
          op.handlerFnName = `${baseName}_${animation}${op.name}_HostBindingHandler`;
        } else {
          op.handlerFnName = `${unit.fnName}_${op.tag.replace("-", "_")}_${animation}${op.name}_${op.targetSlot.slot}_listener`;
        }
        op.handlerFnName = sanitizeIdentifier(op.handlerFnName);
        break;
      case OpKind.TwoWayListener:
        if (op.handlerFnName !== null) {
          break;
        }
        if (op.targetSlot.slot === null) {
          throw new Error(`Expected a slot to be assigned`);
        }
        op.handlerFnName = sanitizeIdentifier(`${unit.fnName}_${op.tag.replace("-", "_")}_${op.name}_${op.targetSlot.slot}_listener`);
        break;
      case OpKind.Variable:
        varNames.set(op.xref, getVariableName(unit, op.variable, state));
        break;
      case OpKind.RepeaterCreate:
        if (!(unit instanceof ViewCompilationUnit)) {
          throw new Error(`AssertionError: must be compiling a component`);
        }
        if (op.handle.slot === null) {
          throw new Error(`Expected slot to be assigned`);
        }
        if (op.emptyView !== null) {
          const emptyView = unit.job.views.get(op.emptyView);
          addNamesToView(emptyView, `${baseName}_${op.functionNameSuffix}Empty_${op.handle.slot + 2}`, state, compatibility);
        }
        addNamesToView(unit.job.views.get(op.xref), `${baseName}_${op.functionNameSuffix}_${op.handle.slot + 1}`, state, compatibility);
        break;
      case OpKind.Projection:
        if (!(unit instanceof ViewCompilationUnit)) {
          throw new Error(`AssertionError: must be compiling a component`);
        }
        if (op.handle.slot === null) {
          throw new Error(`Expected slot to be assigned`);
        }
        if (op.fallbackView !== null) {
          const fallbackView = unit.job.views.get(op.fallbackView);
          addNamesToView(fallbackView, `${baseName}_ProjectionFallback_${op.handle.slot}`, state, compatibility);
        }
        break;
      case OpKind.Template:
        if (!(unit instanceof ViewCompilationUnit)) {
          throw new Error(`AssertionError: must be compiling a component`);
        }
        const childView = unit.job.views.get(op.xref);
        if (op.handle.slot === null) {
          throw new Error(`Expected slot to be assigned`);
        }
        const suffix = op.functionNameSuffix.length === 0 ? "" : `_${op.functionNameSuffix}`;
        addNamesToView(childView, `${baseName}${suffix}_${op.handle.slot}`, state, compatibility);
        break;
      case OpKind.StyleProp:
        op.name = normalizeStylePropName(op.name);
        if (compatibility) {
          op.name = stripImportant(op.name);
        }
        break;
      case OpKind.ClassProp:
        if (compatibility) {
          op.name = stripImportant(op.name);
        }
        break;
    }
  }
  for (const op of unit.ops()) {
    visitExpressionsInOp(op, (expr) => {
      if (!(expr instanceof ReadVariableExpr) || expr.name !== null) {
        return;
      }
      if (!varNames.has(expr.xref)) {
        throw new Error(`Variable ${expr.xref} not yet named`);
      }
      expr.name = varNames.get(expr.xref);
    });
  }
}
function getVariableName(unit, variable2, state) {
  if (variable2.name === null) {
    switch (variable2.kind) {
      case SemanticVariableKind.Context:
        variable2.name = `ctx_r${state.index++}`;
        break;
      case SemanticVariableKind.Identifier:
        if (unit.job.compatibility === CompatibilityMode.TemplateDefinitionBuilder) {
          const compatPrefix = variable2.identifier === "ctx" ? "i" : "";
          variable2.name = `${variable2.identifier}_${compatPrefix}r${++state.index}`;
        } else {
          variable2.name = `${variable2.identifier}_i${state.index++}`;
        }
        break;
      default:
        variable2.name = `_r${++state.index}`;
        break;
    }
  }
  return variable2.name;
}
function normalizeStylePropName(name) {
  return name.startsWith("--") ? name : hyphenate2(name);
}
function stripImportant(name) {
  const importantIndex = name.indexOf("!important");
  if (importantIndex > -1) {
    return name.substring(0, importantIndex);
  }
  return name;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/next_context_merging.mjs
function mergeNextContextExpressions(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
        mergeNextContextsInOps(op.handlerOps);
      }
    }
    mergeNextContextsInOps(unit.update);
  }
}
function mergeNextContextsInOps(ops) {
  for (const op of ops) {
    if (op.kind !== OpKind.Statement || !(op.statement instanceof ExpressionStatement) || !(op.statement.expr instanceof NextContextExpr)) {
      continue;
    }
    const mergeSteps = op.statement.expr.steps;
    let tryToMerge = true;
    for (let candidate = op.next; candidate.kind !== OpKind.ListEnd && tryToMerge; candidate = candidate.next) {
      visitExpressionsInOp(candidate, (expr, flags) => {
        if (!isIrExpression(expr)) {
          return expr;
        }
        if (!tryToMerge) {
          return;
        }
        if (flags & VisitorContextFlag.InChildOperation) {
          return;
        }
        switch (expr.kind) {
          case ExpressionKind.NextContext:
            expr.steps += mergeSteps;
            OpList.remove(op);
            tryToMerge = false;
            break;
          case ExpressionKind.GetCurrentView:
          case ExpressionKind.Reference:
          case ExpressionKind.ContextLetReference:
            tryToMerge = false;
            break;
        }
        return;
      });
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/ng_container.mjs
var CONTAINER_TAG = "ng-container";
function generateNgContainerOps(job) {
  for (const unit of job.units) {
    const updatedElementXrefs = /* @__PURE__ */ new Set();
    for (const op of unit.create) {
      if (op.kind === OpKind.ElementStart && op.tag === CONTAINER_TAG) {
        op.kind = OpKind.ContainerStart;
        updatedElementXrefs.add(op.xref);
      }
      if (op.kind === OpKind.ElementEnd && updatedElementXrefs.has(op.xref)) {
        op.kind = OpKind.ContainerEnd;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/nonbindable.mjs
function lookupElement3(elements, xref) {
  const el = elements.get(xref);
  if (el === void 0) {
    throw new Error("All attributes should have an element-like target.");
  }
  return el;
}
function disableBindings(job) {
  const elements = /* @__PURE__ */ new Map();
  for (const view of job.units) {
    for (const op of view.create) {
      if (!isElementOrContainerOp(op)) {
        continue;
      }
      elements.set(op.xref, op);
    }
  }
  for (const unit of job.units) {
    for (const op of unit.create) {
      if ((op.kind === OpKind.ElementStart || op.kind === OpKind.ContainerStart) && op.nonBindable) {
        OpList.insertAfter(createDisableBindingsOp(op.xref), op);
      }
      if ((op.kind === OpKind.ElementEnd || op.kind === OpKind.ContainerEnd) && lookupElement3(elements, op.xref).nonBindable) {
        OpList.insertBefore(createEnableBindingsOp(op.xref), op);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/nullish_coalescing.mjs
function generateNullishCoalesceExpressions(job) {
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      transformExpressionsInOp(op, (expr) => {
        if (!(expr instanceof BinaryOperatorExpr) || expr.operator !== BinaryOperator.NullishCoalesce) {
          return expr;
        }
        const assignment = new AssignTemporaryExpr(expr.lhs.clone(), job.allocateXrefId());
        const read = new ReadTemporaryExpr(assignment.xref);
        return new ConditionalExpr(new BinaryOperatorExpr(BinaryOperator.And, new BinaryOperatorExpr(BinaryOperator.NotIdentical, assignment, NULL_EXPR), new BinaryOperatorExpr(BinaryOperator.NotIdentical, read, new LiteralExpr(void 0))), read.clone(), expr.rhs);
      }, VisitorContextFlag.None);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/ordering.mjs
function kindTest(kind) {
  return (op) => op.kind === kind;
}
function kindWithInterpolationTest(kind, interpolation) {
  return (op) => {
    return op.kind === kind && interpolation === op.expression instanceof Interpolation2;
  };
}
function basicListenerKindTest(op) {
  return op.kind === OpKind.Listener && !(op.hostListener && op.isAnimationListener) || op.kind === OpKind.TwoWayListener;
}
function nonInterpolationPropertyKindTest(op) {
  return (op.kind === OpKind.Property || op.kind === OpKind.TwoWayProperty) && !(op.expression instanceof Interpolation2);
}
var CREATE_ORDERING = [
  { test: (op) => op.kind === OpKind.Listener && op.hostListener && op.isAnimationListener },
  { test: basicListenerKindTest }
];
var UPDATE_ORDERING = [
  { test: kindTest(OpKind.StyleMap), transform: keepLast },
  { test: kindTest(OpKind.ClassMap), transform: keepLast },
  { test: kindTest(OpKind.StyleProp) },
  { test: kindTest(OpKind.ClassProp) },
  { test: kindWithInterpolationTest(OpKind.Attribute, true) },
  { test: kindWithInterpolationTest(OpKind.Property, true) },
  { test: nonInterpolationPropertyKindTest },
  { test: kindWithInterpolationTest(OpKind.Attribute, false) }
];
var UPDATE_HOST_ORDERING = [
  { test: kindWithInterpolationTest(OpKind.HostProperty, true) },
  { test: kindWithInterpolationTest(OpKind.HostProperty, false) },
  { test: kindTest(OpKind.Attribute) },
  { test: kindTest(OpKind.StyleMap), transform: keepLast },
  { test: kindTest(OpKind.ClassMap), transform: keepLast },
  { test: kindTest(OpKind.StyleProp) },
  { test: kindTest(OpKind.ClassProp) }
];
var handledOpKinds = /* @__PURE__ */ new Set([
  OpKind.Listener,
  OpKind.TwoWayListener,
  OpKind.StyleMap,
  OpKind.ClassMap,
  OpKind.StyleProp,
  OpKind.ClassProp,
  OpKind.Property,
  OpKind.TwoWayProperty,
  OpKind.HostProperty,
  OpKind.Attribute
]);
function orderOps(job) {
  for (const unit of job.units) {
    orderWithin(unit.create, CREATE_ORDERING);
    const ordering = unit.job.kind === CompilationJobKind.Host ? UPDATE_HOST_ORDERING : UPDATE_ORDERING;
    orderWithin(unit.update, ordering);
  }
}
function orderWithin(opList, ordering) {
  let opsToOrder = [];
  let firstTargetInGroup = null;
  for (const op of opList) {
    const currentTarget = hasDependsOnSlotContextTrait(op) ? op.target : null;
    if (!handledOpKinds.has(op.kind) || currentTarget !== firstTargetInGroup && firstTargetInGroup !== null && currentTarget !== null) {
      OpList.insertBefore(reorder(opsToOrder, ordering), op);
      opsToOrder = [];
      firstTargetInGroup = null;
    }
    if (handledOpKinds.has(op.kind)) {
      opsToOrder.push(op);
      OpList.remove(op);
      firstTargetInGroup = currentTarget != null ? currentTarget : firstTargetInGroup;
    }
  }
  opList.push(reorder(opsToOrder, ordering));
}
function reorder(ops, ordering) {
  const groups = Array.from(ordering, () => new Array());
  for (const op of ops) {
    const groupIndex = ordering.findIndex((o) => o.test(op));
    groups[groupIndex].push(op);
  }
  return groups.flatMap((group, i) => {
    const transform2 = ordering[i].transform;
    return transform2 ? transform2(group) : group;
  });
}
function keepLast(ops) {
  return ops.slice(ops.length - 1);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/phase_remove_content_selectors.mjs
function removeContentSelectors(job) {
  for (const unit of job.units) {
    const elements = createOpXrefMap(unit);
    for (const op of unit.ops()) {
      switch (op.kind) {
        case OpKind.Binding:
          const target = lookupInXrefMap(elements, op.target);
          if (isSelectAttribute(op.name) && target.kind === OpKind.Projection) {
            OpList.remove(op);
          }
          break;
      }
    }
  }
}
function isSelectAttribute(name) {
  return name.toLowerCase() === "select";
}
function lookupInXrefMap(map, xref) {
  const el = map.get(xref);
  if (el === void 0) {
    throw new Error("All attributes should have an slottable target.");
  }
  return el;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/pipe_creation.mjs
function createPipes(job) {
  for (const unit of job.units) {
    processPipeBindingsInView(unit);
  }
}
function processPipeBindingsInView(unit) {
  for (const updateOp of unit.update) {
    visitExpressionsInOp(updateOp, (expr, flags) => {
      if (!isIrExpression(expr)) {
        return;
      }
      if (expr.kind !== ExpressionKind.PipeBinding) {
        return;
      }
      if (flags & VisitorContextFlag.InChildOperation) {
        throw new Error(`AssertionError: pipe bindings should not appear in child expressions`);
      }
      if (unit.job.compatibility) {
        const slotHandle = updateOp.target;
        if (slotHandle == void 0) {
          throw new Error(`AssertionError: expected slot handle to be assigned for pipe creation`);
        }
        addPipeToCreationBlock(unit, updateOp.target, expr);
      } else {
        unit.create.push(createPipeOp(expr.target, expr.targetSlot, expr.name));
      }
    });
  }
}
function addPipeToCreationBlock(unit, afterTargetXref, binding) {
  for (let op = unit.create.head.next; op.kind !== OpKind.ListEnd; op = op.next) {
    if (!hasConsumesSlotTrait(op)) {
      continue;
    }
    if (op.xref !== afterTargetXref) {
      continue;
    }
    while (op.next.kind === OpKind.Pipe) {
      op = op.next;
    }
    const pipe2 = createPipeOp(binding.target, binding.targetSlot, binding.name);
    OpList.insertBefore(pipe2, op.next);
    return;
  }
  throw new Error(`AssertionError: unable to find insertion point for pipe ${binding.name}`);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/pipe_variadic.mjs
function createVariadicPipes(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      transformExpressionsInOp(op, (expr) => {
        if (!(expr instanceof PipeBindingExpr)) {
          return expr;
        }
        if (expr.args.length <= 4) {
          return expr;
        }
        return new PipeBindingVariadicExpr(expr.target, expr.targetSlot, expr.name, literalArr(expr.args), expr.args.length);
      }, VisitorContextFlag.None);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/propagate_i18n_blocks.mjs
function propagateI18nBlocks(job) {
  propagateI18nBlocksToTemplates(job.root, 0);
}
function propagateI18nBlocksToTemplates(unit, subTemplateIndex) {
  let i18nBlock = null;
  for (const op of unit.create) {
    switch (op.kind) {
      case OpKind.I18nStart:
        op.subTemplateIndex = subTemplateIndex === 0 ? null : subTemplateIndex;
        i18nBlock = op;
        break;
      case OpKind.I18nEnd:
        if (i18nBlock.subTemplateIndex === null) {
          subTemplateIndex = 0;
        }
        i18nBlock = null;
        break;
      case OpKind.Template:
        subTemplateIndex = propagateI18nBlocksForView(unit.job.views.get(op.xref), i18nBlock, op.i18nPlaceholder, subTemplateIndex);
        break;
      case OpKind.RepeaterCreate:
        const forView = unit.job.views.get(op.xref);
        subTemplateIndex = propagateI18nBlocksForView(forView, i18nBlock, op.i18nPlaceholder, subTemplateIndex);
        if (op.emptyView !== null) {
          subTemplateIndex = propagateI18nBlocksForView(unit.job.views.get(op.emptyView), i18nBlock, op.emptyI18nPlaceholder, subTemplateIndex);
        }
        break;
    }
  }
  return subTemplateIndex;
}
function propagateI18nBlocksForView(view, i18nBlock, i18nPlaceholder, subTemplateIndex) {
  if (i18nPlaceholder !== void 0) {
    if (i18nBlock === null) {
      throw Error("Expected template with i18n placeholder to be in an i18n block.");
    }
    subTemplateIndex++;
    wrapTemplateWithI18n(view, i18nBlock);
  }
  return propagateI18nBlocksToTemplates(view, subTemplateIndex);
}
function wrapTemplateWithI18n(unit, parentI18n) {
  var _a2;
  if (((_a2 = unit.create.head.next) == null ? void 0 : _a2.kind) !== OpKind.I18nStart) {
    const id = unit.job.allocateXrefId();
    OpList.insertAfter(
      createI18nStartOp(id, parentI18n.message, parentI18n.root, null),
      unit.create.head
    );
    OpList.insertBefore(createI18nEndOp(id, null), unit.create.tail);
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/pure_function_extraction.mjs
function extractPureFunctions(job) {
  for (const view of job.units) {
    for (const op of view.ops()) {
      visitExpressionsInOp(op, (expr) => {
        if (!(expr instanceof PureFunctionExpr) || expr.body === null) {
          return;
        }
        const constantDef = new PureFunctionConstant(expr.args.length);
        expr.fn = job.pool.getSharedConstant(constantDef, expr.body);
        expr.body = null;
      });
    }
  }
}
var PureFunctionConstant = class extends GenericKeyFn {
  constructor(numArgs) {
    super();
    this.numArgs = numArgs;
  }
  keyOf(expr) {
    if (expr instanceof PureFunctionParameterExpr) {
      return `param(${expr.index})`;
    } else {
      return super.keyOf(expr);
    }
  }
  toSharedConstantDeclaration(declName, keyExpr) {
    const fnParams = [];
    for (let idx = 0; idx < this.numArgs; idx++) {
      fnParams.push(new FnParam("a" + idx));
    }
    const returnExpr = transformExpressionsInExpression(keyExpr, (expr) => {
      if (!(expr instanceof PureFunctionParameterExpr)) {
        return expr;
      }
      return variable("a" + expr.index);
    }, VisitorContextFlag.None);
    return new DeclareVarStmt(declName, new ArrowFunctionExpr(fnParams, returnExpr), void 0, StmtModifier.Final);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/pure_literal_structures.mjs
function generatePureLiteralStructures(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      transformExpressionsInOp(op, (expr, flags) => {
        if (flags & VisitorContextFlag.InChildOperation) {
          return expr;
        }
        if (expr instanceof LiteralArrayExpr) {
          return transformLiteralArray(expr);
        } else if (expr instanceof LiteralMapExpr) {
          return transformLiteralMap(expr);
        }
        return expr;
      }, VisitorContextFlag.None);
    }
  }
}
function transformLiteralArray(expr) {
  const derivedEntries = [];
  const nonConstantArgs = [];
  for (const entry of expr.entries) {
    if (entry.isConstant()) {
      derivedEntries.push(entry);
    } else {
      const idx = nonConstantArgs.length;
      nonConstantArgs.push(entry);
      derivedEntries.push(new PureFunctionParameterExpr(idx));
    }
  }
  return new PureFunctionExpr(literalArr(derivedEntries), nonConstantArgs);
}
function transformLiteralMap(expr) {
  let derivedEntries = [];
  const nonConstantArgs = [];
  for (const entry of expr.entries) {
    if (entry.value.isConstant()) {
      derivedEntries.push(entry);
    } else {
      const idx = nonConstantArgs.length;
      nonConstantArgs.push(entry.value);
      derivedEntries.push(new LiteralMapEntry(entry.key, new PureFunctionParameterExpr(idx), entry.quoted));
    }
  }
  return new PureFunctionExpr(literalMap(derivedEntries), nonConstantArgs);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/instruction.mjs
function element(slot, tag, constIndex, localRefIndex, sourceSpan) {
  return elementOrContainerBase(Identifiers.element, slot, tag, constIndex, localRefIndex, sourceSpan);
}
function elementStart(slot, tag, constIndex, localRefIndex, sourceSpan) {
  return elementOrContainerBase(Identifiers.elementStart, slot, tag, constIndex, localRefIndex, sourceSpan);
}
function elementOrContainerBase(instruction, slot, tag, constIndex, localRefIndex, sourceSpan) {
  const args = [literal(slot)];
  if (tag !== null) {
    args.push(literal(tag));
  }
  if (localRefIndex !== null) {
    args.push(
      literal(constIndex),
      literal(localRefIndex)
    );
  } else if (constIndex !== null) {
    args.push(literal(constIndex));
  }
  return call(instruction, args, sourceSpan);
}
function elementEnd(sourceSpan) {
  return call(Identifiers.elementEnd, [], sourceSpan);
}
function elementContainerStart(slot, constIndex, localRefIndex, sourceSpan) {
  return elementOrContainerBase(
    Identifiers.elementContainerStart,
    slot,
    null,
    constIndex,
    localRefIndex,
    sourceSpan
  );
}
function elementContainer(slot, constIndex, localRefIndex, sourceSpan) {
  return elementOrContainerBase(
    Identifiers.elementContainer,
    slot,
    null,
    constIndex,
    localRefIndex,
    sourceSpan
  );
}
function elementContainerEnd() {
  return call(Identifiers.elementContainerEnd, [], null);
}
function template(slot, templateFnRef, decls, vars, tag, constIndex, localRefs, sourceSpan) {
  const args = [
    literal(slot),
    templateFnRef,
    literal(decls),
    literal(vars),
    literal(tag),
    literal(constIndex)
  ];
  if (localRefs !== null) {
    args.push(literal(localRefs));
    args.push(importExpr(Identifiers.templateRefExtractor));
  }
  while (args[args.length - 1].isEquivalent(NULL_EXPR)) {
    args.pop();
  }
  return call(Identifiers.templateCreate, args, sourceSpan);
}
function disableBindings2() {
  return call(Identifiers.disableBindings, [], null);
}
function enableBindings() {
  return call(Identifiers.enableBindings, [], null);
}
function listener(name, handlerFn, eventTargetResolver, syntheticHost, sourceSpan) {
  const args = [literal(name), handlerFn];
  if (eventTargetResolver !== null) {
    args.push(literal(false));
    args.push(importExpr(eventTargetResolver));
  }
  return call(syntheticHost ? Identifiers.syntheticHostListener : Identifiers.listener, args, sourceSpan);
}
function twoWayBindingSet(target, value) {
  return importExpr(Identifiers.twoWayBindingSet).callFn([target, value]);
}
function twoWayListener(name, handlerFn, sourceSpan) {
  return call(Identifiers.twoWayListener, [literal(name), handlerFn], sourceSpan);
}
function pipe(slot, name) {
  return call(Identifiers.pipe, [literal(slot), literal(name)], null);
}
function namespaceHTML() {
  return call(Identifiers.namespaceHTML, [], null);
}
function namespaceSVG() {
  return call(Identifiers.namespaceSVG, [], null);
}
function namespaceMath() {
  return call(Identifiers.namespaceMathML, [], null);
}
function advance(delta, sourceSpan) {
  return call(Identifiers.advance, delta > 1 ? [literal(delta)] : [], sourceSpan);
}
function reference(slot) {
  return importExpr(Identifiers.reference).callFn([literal(slot)]);
}
function nextContext(steps) {
  return importExpr(Identifiers.nextContext).callFn(steps === 1 ? [] : [literal(steps)]);
}
function getCurrentView() {
  return importExpr(Identifiers.getCurrentView).callFn([]);
}
function restoreView(savedView) {
  return importExpr(Identifiers.restoreView).callFn([savedView]);
}
function resetView(returnValue) {
  return importExpr(Identifiers.resetView).callFn([returnValue]);
}
function text(slot, initialValue, sourceSpan) {
  const args = [literal(slot, null)];
  if (initialValue !== "") {
    args.push(literal(initialValue));
  }
  return call(Identifiers.text, args, sourceSpan);
}
function defer(selfSlot, primarySlot, dependencyResolverFn, loadingSlot, placeholderSlot, errorSlot, loadingConfig, placeholderConfig, enableTimerScheduling, sourceSpan) {
  const args = [
    literal(selfSlot),
    literal(primarySlot),
    dependencyResolverFn != null ? dependencyResolverFn : literal(null),
    literal(loadingSlot),
    literal(placeholderSlot),
    literal(errorSlot),
    loadingConfig != null ? loadingConfig : literal(null),
    placeholderConfig != null ? placeholderConfig : literal(null),
    enableTimerScheduling ? importExpr(Identifiers.deferEnableTimerScheduling) : literal(null)
  ];
  let expr;
  while ((expr = args[args.length - 1]) !== null && expr instanceof LiteralExpr && expr.value === null) {
    args.pop();
  }
  return call(Identifiers.defer, args, sourceSpan);
}
var deferTriggerToR3TriggerInstructionsMap = /* @__PURE__ */ new Map([
  [DeferTriggerKind.Idle, [Identifiers.deferOnIdle, Identifiers.deferPrefetchOnIdle]],
  [
    DeferTriggerKind.Immediate,
    [Identifiers.deferOnImmediate, Identifiers.deferPrefetchOnImmediate]
  ],
  [DeferTriggerKind.Timer, [Identifiers.deferOnTimer, Identifiers.deferPrefetchOnTimer]],
  [DeferTriggerKind.Hover, [Identifiers.deferOnHover, Identifiers.deferPrefetchOnHover]],
  [
    DeferTriggerKind.Interaction,
    [Identifiers.deferOnInteraction, Identifiers.deferPrefetchOnInteraction]
  ],
  [
    DeferTriggerKind.Viewport,
    [Identifiers.deferOnViewport, Identifiers.deferPrefetchOnViewport]
  ]
]);
function deferOn(trigger, args, prefetch, sourceSpan) {
  const instructions = deferTriggerToR3TriggerInstructionsMap.get(trigger);
  if (instructions === void 0) {
    throw new Error(`Unable to determine instruction for trigger ${trigger}`);
  }
  const instructionToCall = prefetch ? instructions[1] : instructions[0];
  return call(instructionToCall, args.map((a) => literal(a)), sourceSpan);
}
function projectionDef(def) {
  return call(Identifiers.projectionDef, def ? [def] : [], null);
}
function projection(slot, projectionSlotIndex, attributes, fallbackFnName, fallbackDecls, fallbackVars, sourceSpan) {
  const args = [literal(slot)];
  if (projectionSlotIndex !== 0 || attributes !== null || fallbackFnName !== null) {
    args.push(literal(projectionSlotIndex));
    if (attributes !== null) {
      args.push(attributes);
    }
    if (fallbackFnName !== null) {
      if (attributes === null) {
        args.push(literal(null));
      }
      args.push(variable(fallbackFnName), literal(fallbackDecls), literal(fallbackVars));
    }
  }
  return call(Identifiers.projection, args, sourceSpan);
}
function i18nStart(slot, constIndex, subTemplateIndex, sourceSpan) {
  const args = [literal(slot), literal(constIndex)];
  if (subTemplateIndex !== null) {
    args.push(literal(subTemplateIndex));
  }
  return call(Identifiers.i18nStart, args, sourceSpan);
}
function repeaterCreate(slot, viewFnName, decls, vars, tag, constIndex, trackByFn, trackByUsesComponentInstance, emptyViewFnName, emptyDecls, emptyVars, emptyTag, emptyConstIndex, sourceSpan) {
  const args = [
    literal(slot),
    variable(viewFnName),
    literal(decls),
    literal(vars),
    literal(tag),
    literal(constIndex),
    trackByFn
  ];
  if (trackByUsesComponentInstance || emptyViewFnName !== null) {
    args.push(literal(trackByUsesComponentInstance));
    if (emptyViewFnName !== null) {
      args.push(variable(emptyViewFnName), literal(emptyDecls), literal(emptyVars));
      if (emptyTag !== null || emptyConstIndex !== null) {
        args.push(literal(emptyTag));
      }
      if (emptyConstIndex !== null) {
        args.push(literal(emptyConstIndex));
      }
    }
  }
  return call(Identifiers.repeaterCreate, args, sourceSpan);
}
function repeater(collection, sourceSpan) {
  return call(Identifiers.repeater, [collection], sourceSpan);
}
function deferWhen(prefetch, expr, sourceSpan) {
  return call(prefetch ? Identifiers.deferPrefetchWhen : Identifiers.deferWhen, [expr], sourceSpan);
}
function declareLet(slot, sourceSpan) {
  return call(Identifiers.declareLet, [literal(slot)], sourceSpan);
}
function storeLet(value, sourceSpan) {
  return importExpr(Identifiers.storeLet).callFn([value], sourceSpan);
}
function readContextLet(slot) {
  return importExpr(Identifiers.readContextLet).callFn([literal(slot)]);
}
function i18n(slot, constIndex, subTemplateIndex, sourceSpan) {
  const args = [literal(slot), literal(constIndex)];
  if (subTemplateIndex) {
    args.push(literal(subTemplateIndex));
  }
  return call(Identifiers.i18n, args, sourceSpan);
}
function i18nEnd(endSourceSpan) {
  return call(Identifiers.i18nEnd, [], endSourceSpan);
}
function i18nAttributes(slot, i18nAttributesConfig) {
  const args = [literal(slot), literal(i18nAttributesConfig)];
  return call(Identifiers.i18nAttributes, args, null);
}
function property(name, expression, sanitizer, sourceSpan) {
  const args = [literal(name), expression];
  if (sanitizer !== null) {
    args.push(sanitizer);
  }
  return call(Identifiers.property, args, sourceSpan);
}
function twoWayProperty(name, expression, sanitizer, sourceSpan) {
  const args = [literal(name), expression];
  if (sanitizer !== null) {
    args.push(sanitizer);
  }
  return call(Identifiers.twoWayProperty, args, sourceSpan);
}
function attribute(name, expression, sanitizer, namespace) {
  const args = [literal(name), expression];
  if (sanitizer !== null || namespace !== null) {
    args.push(sanitizer != null ? sanitizer : literal(null));
  }
  if (namespace !== null) {
    args.push(literal(namespace));
  }
  return call(Identifiers.attribute, args, null);
}
function styleProp(name, expression, unit, sourceSpan) {
  const args = [literal(name), expression];
  if (unit !== null) {
    args.push(literal(unit));
  }
  return call(Identifiers.styleProp, args, sourceSpan);
}
function classProp(name, expression, sourceSpan) {
  return call(Identifiers.classProp, [literal(name), expression], sourceSpan);
}
function styleMap(expression, sourceSpan) {
  return call(Identifiers.styleMap, [expression], sourceSpan);
}
function classMap(expression, sourceSpan) {
  return call(Identifiers.classMap, [expression], sourceSpan);
}
var PIPE_BINDINGS = [
  Identifiers.pipeBind1,
  Identifiers.pipeBind2,
  Identifiers.pipeBind3,
  Identifiers.pipeBind4
];
function pipeBind(slot, varOffset, args) {
  if (args.length < 1 || args.length > PIPE_BINDINGS.length) {
    throw new Error(`pipeBind() argument count out of bounds`);
  }
  const instruction = PIPE_BINDINGS[args.length - 1];
  return importExpr(instruction).callFn([literal(slot), literal(varOffset), ...args]);
}
function pipeBindV(slot, varOffset, args) {
  return importExpr(Identifiers.pipeBindV).callFn([literal(slot), literal(varOffset), args]);
}
function textInterpolate(strings, expressions, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  return callVariadicInstruction(TEXT_INTERPOLATE_CONFIG, [], interpolationArgs, [], sourceSpan);
}
function i18nExp(expr, sourceSpan) {
  return call(Identifiers.i18nExp, [expr], sourceSpan);
}
function i18nApply(slot, sourceSpan) {
  return call(Identifiers.i18nApply, [literal(slot)], sourceSpan);
}
function propertyInterpolate(name, strings, expressions, sanitizer, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  const extraArgs = [];
  if (sanitizer !== null) {
    extraArgs.push(sanitizer);
  }
  return callVariadicInstruction(PROPERTY_INTERPOLATE_CONFIG, [literal(name)], interpolationArgs, extraArgs, sourceSpan);
}
function attributeInterpolate(name, strings, expressions, sanitizer, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  const extraArgs = [];
  if (sanitizer !== null) {
    extraArgs.push(sanitizer);
  }
  return callVariadicInstruction(ATTRIBUTE_INTERPOLATE_CONFIG, [literal(name)], interpolationArgs, extraArgs, sourceSpan);
}
function stylePropInterpolate(name, strings, expressions, unit, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  const extraArgs = [];
  if (unit !== null) {
    extraArgs.push(literal(unit));
  }
  return callVariadicInstruction(STYLE_PROP_INTERPOLATE_CONFIG, [literal(name)], interpolationArgs, extraArgs, sourceSpan);
}
function styleMapInterpolate(strings, expressions, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  return callVariadicInstruction(STYLE_MAP_INTERPOLATE_CONFIG, [], interpolationArgs, [], sourceSpan);
}
function classMapInterpolate(strings, expressions, sourceSpan) {
  const interpolationArgs = collateInterpolationArgs(strings, expressions);
  return callVariadicInstruction(CLASS_MAP_INTERPOLATE_CONFIG, [], interpolationArgs, [], sourceSpan);
}
function hostProperty(name, expression, sanitizer, sourceSpan) {
  const args = [literal(name), expression];
  if (sanitizer !== null) {
    args.push(sanitizer);
  }
  return call(Identifiers.hostProperty, args, sourceSpan);
}
function syntheticHostProperty(name, expression, sourceSpan) {
  return call(Identifiers.syntheticHostProperty, [literal(name), expression], sourceSpan);
}
function pureFunction(varOffset, fn2, args) {
  return callVariadicInstructionExpr(PURE_FUNCTION_CONFIG, [literal(varOffset), fn2], args, [], null);
}
function collateInterpolationArgs(strings, expressions) {
  if (strings.length < 1 || expressions.length !== strings.length - 1) {
    throw new Error(`AssertionError: expected specific shape of args for strings/expressions in interpolation`);
  }
  const interpolationArgs = [];
  if (expressions.length === 1 && strings[0] === "" && strings[1] === "") {
    interpolationArgs.push(expressions[0]);
  } else {
    let idx;
    for (idx = 0; idx < expressions.length; idx++) {
      interpolationArgs.push(literal(strings[idx]), expressions[idx]);
    }
    interpolationArgs.push(literal(strings[idx]));
  }
  return interpolationArgs;
}
function call(instruction, args, sourceSpan) {
  const expr = importExpr(instruction).callFn(args, sourceSpan);
  return createStatementOp(new ExpressionStatement(expr, sourceSpan));
}
function conditional(condition, contextValue, sourceSpan) {
  const args = [condition];
  if (contextValue !== null) {
    args.push(contextValue);
  }
  return call(Identifiers.conditional, args, sourceSpan);
}
var TEXT_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.textInterpolate,
    Identifiers.textInterpolate1,
    Identifiers.textInterpolate2,
    Identifiers.textInterpolate3,
    Identifiers.textInterpolate4,
    Identifiers.textInterpolate5,
    Identifiers.textInterpolate6,
    Identifiers.textInterpolate7,
    Identifiers.textInterpolate8
  ],
  variable: Identifiers.textInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var PROPERTY_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.propertyInterpolate,
    Identifiers.propertyInterpolate1,
    Identifiers.propertyInterpolate2,
    Identifiers.propertyInterpolate3,
    Identifiers.propertyInterpolate4,
    Identifiers.propertyInterpolate5,
    Identifiers.propertyInterpolate6,
    Identifiers.propertyInterpolate7,
    Identifiers.propertyInterpolate8
  ],
  variable: Identifiers.propertyInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var STYLE_PROP_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.styleProp,
    Identifiers.stylePropInterpolate1,
    Identifiers.stylePropInterpolate2,
    Identifiers.stylePropInterpolate3,
    Identifiers.stylePropInterpolate4,
    Identifiers.stylePropInterpolate5,
    Identifiers.stylePropInterpolate6,
    Identifiers.stylePropInterpolate7,
    Identifiers.stylePropInterpolate8
  ],
  variable: Identifiers.stylePropInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var ATTRIBUTE_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.attribute,
    Identifiers.attributeInterpolate1,
    Identifiers.attributeInterpolate2,
    Identifiers.attributeInterpolate3,
    Identifiers.attributeInterpolate4,
    Identifiers.attributeInterpolate5,
    Identifiers.attributeInterpolate6,
    Identifiers.attributeInterpolate7,
    Identifiers.attributeInterpolate8
  ],
  variable: Identifiers.attributeInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var STYLE_MAP_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.styleMap,
    Identifiers.styleMapInterpolate1,
    Identifiers.styleMapInterpolate2,
    Identifiers.styleMapInterpolate3,
    Identifiers.styleMapInterpolate4,
    Identifiers.styleMapInterpolate5,
    Identifiers.styleMapInterpolate6,
    Identifiers.styleMapInterpolate7,
    Identifiers.styleMapInterpolate8
  ],
  variable: Identifiers.styleMapInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var CLASS_MAP_INTERPOLATE_CONFIG = {
  constant: [
    Identifiers.classMap,
    Identifiers.classMapInterpolate1,
    Identifiers.classMapInterpolate2,
    Identifiers.classMapInterpolate3,
    Identifiers.classMapInterpolate4,
    Identifiers.classMapInterpolate5,
    Identifiers.classMapInterpolate6,
    Identifiers.classMapInterpolate7,
    Identifiers.classMapInterpolate8
  ],
  variable: Identifiers.classMapInterpolateV,
  mapping: (n) => {
    if (n % 2 === 0) {
      throw new Error(`Expected odd number of arguments`);
    }
    return (n - 1) / 2;
  }
};
var PURE_FUNCTION_CONFIG = {
  constant: [
    Identifiers.pureFunction0,
    Identifiers.pureFunction1,
    Identifiers.pureFunction2,
    Identifiers.pureFunction3,
    Identifiers.pureFunction4,
    Identifiers.pureFunction5,
    Identifiers.pureFunction6,
    Identifiers.pureFunction7,
    Identifiers.pureFunction8
  ],
  variable: Identifiers.pureFunctionV,
  mapping: (n) => n
};
function callVariadicInstructionExpr(config, baseArgs, interpolationArgs, extraArgs, sourceSpan) {
  const n = config.mapping(interpolationArgs.length);
  if (n < config.constant.length) {
    return importExpr(config.constant[n]).callFn([...baseArgs, ...interpolationArgs, ...extraArgs], sourceSpan);
  } else if (config.variable !== null) {
    return importExpr(config.variable).callFn([...baseArgs, literalArr(interpolationArgs), ...extraArgs], sourceSpan);
  } else {
    throw new Error(`AssertionError: unable to call variadic function`);
  }
}
function callVariadicInstruction(config, baseArgs, interpolationArgs, extraArgs, sourceSpan) {
  return createStatementOp(callVariadicInstructionExpr(config, baseArgs, interpolationArgs, extraArgs, sourceSpan).toStmt());
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/reify.mjs
var GLOBAL_TARGET_RESOLVERS = /* @__PURE__ */ new Map([
  ["window", Identifiers.resolveWindow],
  ["document", Identifiers.resolveDocument],
  ["body", Identifiers.resolveBody]
]);
function reify(job) {
  for (const unit of job.units) {
    reifyCreateOperations(unit, unit.create);
    reifyUpdateOperations(unit, unit.update);
  }
}
function reifyCreateOperations(unit, ops) {
  var _a2, _b2, _c2, _d2, _e2, _f2, _g2;
  for (const op of ops) {
    transformExpressionsInOp(op, reifyIrExpression, VisitorContextFlag.None);
    switch (op.kind) {
      case OpKind.Text:
        OpList.replace(op, text(op.handle.slot, op.initialValue, op.sourceSpan));
        break;
      case OpKind.ElementStart:
        OpList.replace(op, elementStart(op.handle.slot, op.tag, op.attributes, op.localRefs, op.startSourceSpan));
        break;
      case OpKind.Element:
        OpList.replace(op, element(op.handle.slot, op.tag, op.attributes, op.localRefs, op.wholeSourceSpan));
        break;
      case OpKind.ElementEnd:
        OpList.replace(op, elementEnd(op.sourceSpan));
        break;
      case OpKind.ContainerStart:
        OpList.replace(op, elementContainerStart(op.handle.slot, op.attributes, op.localRefs, op.startSourceSpan));
        break;
      case OpKind.Container:
        OpList.replace(op, elementContainer(op.handle.slot, op.attributes, op.localRefs, op.wholeSourceSpan));
        break;
      case OpKind.ContainerEnd:
        OpList.replace(op, elementContainerEnd());
        break;
      case OpKind.I18nStart:
        OpList.replace(op, i18nStart(op.handle.slot, op.messageIndex, op.subTemplateIndex, op.sourceSpan));
        break;
      case OpKind.I18nEnd:
        OpList.replace(op, i18nEnd(op.sourceSpan));
        break;
      case OpKind.I18n:
        OpList.replace(op, i18n(op.handle.slot, op.messageIndex, op.subTemplateIndex, op.sourceSpan));
        break;
      case OpKind.I18nAttributes:
        if (op.i18nAttributesConfig === null) {
          throw new Error(`AssertionError: i18nAttributesConfig was not set`);
        }
        OpList.replace(op, i18nAttributes(op.handle.slot, op.i18nAttributesConfig));
        break;
      case OpKind.Template:
        if (!(unit instanceof ViewCompilationUnit)) {
          throw new Error(`AssertionError: must be compiling a component`);
        }
        if (Array.isArray(op.localRefs)) {
          throw new Error(`AssertionError: local refs array should have been extracted into a constant`);
        }
        const childView = unit.job.views.get(op.xref);
        OpList.replace(op, template(op.handle.slot, variable(childView.fnName), childView.decls, childView.vars, op.tag, op.attributes, op.localRefs, op.startSourceSpan));
        break;
      case OpKind.DisableBindings:
        OpList.replace(op, disableBindings2());
        break;
      case OpKind.EnableBindings:
        OpList.replace(op, enableBindings());
        break;
      case OpKind.Pipe:
        OpList.replace(op, pipe(op.handle.slot, op.name));
        break;
      case OpKind.DeclareLet:
        OpList.replace(op, declareLet(op.handle.slot, op.sourceSpan));
        break;
      case OpKind.Listener:
        const listenerFn = reifyListenerHandler(unit, op.handlerFnName, op.handlerOps, op.consumesDollarEvent);
        const eventTargetResolver = op.eventTarget ? GLOBAL_TARGET_RESOLVERS.get(op.eventTarget) : null;
        if (eventTargetResolver === void 0) {
          throw new Error(`Unexpected global target '${op.eventTarget}' defined for '${op.name}' event. Supported list of global targets: window,document,body.`);
        }
        OpList.replace(op, listener(op.name, listenerFn, eventTargetResolver, op.hostListener && op.isAnimationListener, op.sourceSpan));
        break;
      case OpKind.TwoWayListener:
        OpList.replace(op, twoWayListener(op.name, reifyListenerHandler(unit, op.handlerFnName, op.handlerOps, true), op.sourceSpan));
        break;
      case OpKind.Variable:
        if (op.variable.name === null) {
          throw new Error(`AssertionError: unnamed variable ${op.xref}`);
        }
        OpList.replace(op, createStatementOp(new DeclareVarStmt(op.variable.name, op.initializer, void 0, StmtModifier.Final)));
        break;
      case OpKind.Namespace:
        switch (op.active) {
          case Namespace.HTML:
            OpList.replace(op, namespaceHTML());
            break;
          case Namespace.SVG:
            OpList.replace(op, namespaceSVG());
            break;
          case Namespace.Math:
            OpList.replace(op, namespaceMath());
            break;
        }
        break;
      case OpKind.Defer:
        const timerScheduling = !!op.loadingMinimumTime || !!op.loadingAfterTime || !!op.placeholderMinimumTime;
        OpList.replace(op, defer(op.handle.slot, op.mainSlot.slot, op.resolverFn, (_b2 = (_a2 = op.loadingSlot) == null ? void 0 : _a2.slot) != null ? _b2 : null, (_d2 = (_c2 = op.placeholderSlot) == null ? void 0 : _c2.slot) != null ? _d2 : null, (_f2 = (_e2 = op.errorSlot) == null ? void 0 : _e2.slot) != null ? _f2 : null, op.loadingConfig, op.placeholderConfig, timerScheduling, op.sourceSpan));
        break;
      case OpKind.DeferOn:
        let args = [];
        switch (op.trigger.kind) {
          case DeferTriggerKind.Idle:
          case DeferTriggerKind.Immediate:
            break;
          case DeferTriggerKind.Timer:
            args = [op.trigger.delay];
            break;
          case DeferTriggerKind.Interaction:
          case DeferTriggerKind.Hover:
          case DeferTriggerKind.Viewport:
            if (((_g2 = op.trigger.targetSlot) == null ? void 0 : _g2.slot) == null || op.trigger.targetSlotViewSteps === null) {
              throw new Error(`Slot or view steps not set in trigger reification for trigger kind ${op.trigger.kind}`);
            }
            args = [op.trigger.targetSlot.slot];
            if (op.trigger.targetSlotViewSteps !== 0) {
              args.push(op.trigger.targetSlotViewSteps);
            }
            break;
          default:
            throw new Error(`AssertionError: Unsupported reification of defer trigger kind ${op.trigger.kind}`);
        }
        OpList.replace(op, deferOn(op.trigger.kind, args, op.prefetch, op.sourceSpan));
        break;
      case OpKind.ProjectionDef:
        OpList.replace(op, projectionDef(op.def));
        break;
      case OpKind.Projection:
        if (op.handle.slot === null) {
          throw new Error("No slot was assigned for project instruction");
        }
        let fallbackViewFnName = null;
        let fallbackDecls = null;
        let fallbackVars = null;
        if (op.fallbackView !== null) {
          if (!(unit instanceof ViewCompilationUnit)) {
            throw new Error(`AssertionError: must be compiling a component`);
          }
          const fallbackView = unit.job.views.get(op.fallbackView);
          if (fallbackView === void 0) {
            throw new Error("AssertionError: projection had fallback view xref, but fallback view was not found");
          }
          if (fallbackView.fnName === null || fallbackView.decls === null || fallbackView.vars === null) {
            throw new Error(`AssertionError: expected projection fallback view to have been named and counted`);
          }
          fallbackViewFnName = fallbackView.fnName;
          fallbackDecls = fallbackView.decls;
          fallbackVars = fallbackView.vars;
        }
        OpList.replace(op, projection(op.handle.slot, op.projectionSlotIndex, op.attributes, fallbackViewFnName, fallbackDecls, fallbackVars, op.sourceSpan));
        break;
      case OpKind.RepeaterCreate:
        if (op.handle.slot === null) {
          throw new Error("No slot was assigned for repeater instruction");
        }
        if (!(unit instanceof ViewCompilationUnit)) {
          throw new Error(`AssertionError: must be compiling a component`);
        }
        const repeaterView = unit.job.views.get(op.xref);
        if (repeaterView.fnName === null) {
          throw new Error(`AssertionError: expected repeater primary view to have been named`);
        }
        let emptyViewFnName = null;
        let emptyDecls = null;
        let emptyVars = null;
        if (op.emptyView !== null) {
          const emptyView = unit.job.views.get(op.emptyView);
          if (emptyView === void 0) {
            throw new Error("AssertionError: repeater had empty view xref, but empty view was not found");
          }
          if (emptyView.fnName === null || emptyView.decls === null || emptyView.vars === null) {
            throw new Error(`AssertionError: expected repeater empty view to have been named and counted`);
          }
          emptyViewFnName = emptyView.fnName;
          emptyDecls = emptyView.decls;
          emptyVars = emptyView.vars;
        }
        OpList.replace(op, repeaterCreate(op.handle.slot, repeaterView.fnName, op.decls, op.vars, op.tag, op.attributes, op.trackByFn, op.usesComponentInstance, emptyViewFnName, emptyDecls, emptyVars, op.emptyTag, op.emptyAttributes, op.wholeSourceSpan));
        break;
      case OpKind.Statement:
        break;
      default:
        throw new Error(`AssertionError: Unsupported reification of create op ${OpKind[op.kind]}`);
    }
  }
}
function reifyUpdateOperations(_unit, ops) {
  for (const op of ops) {
    transformExpressionsInOp(op, reifyIrExpression, VisitorContextFlag.None);
    switch (op.kind) {
      case OpKind.Advance:
        OpList.replace(op, advance(op.delta, op.sourceSpan));
        break;
      case OpKind.Property:
        if (op.expression instanceof Interpolation2) {
          OpList.replace(op, propertyInterpolate(op.name, op.expression.strings, op.expression.expressions, op.sanitizer, op.sourceSpan));
        } else {
          OpList.replace(op, property(op.name, op.expression, op.sanitizer, op.sourceSpan));
        }
        break;
      case OpKind.TwoWayProperty:
        OpList.replace(op, twoWayProperty(op.name, op.expression, op.sanitizer, op.sourceSpan));
        break;
      case OpKind.StyleProp:
        if (op.expression instanceof Interpolation2) {
          OpList.replace(op, stylePropInterpolate(op.name, op.expression.strings, op.expression.expressions, op.unit, op.sourceSpan));
        } else {
          OpList.replace(op, styleProp(op.name, op.expression, op.unit, op.sourceSpan));
        }
        break;
      case OpKind.ClassProp:
        OpList.replace(op, classProp(op.name, op.expression, op.sourceSpan));
        break;
      case OpKind.StyleMap:
        if (op.expression instanceof Interpolation2) {
          OpList.replace(op, styleMapInterpolate(op.expression.strings, op.expression.expressions, op.sourceSpan));
        } else {
          OpList.replace(op, styleMap(op.expression, op.sourceSpan));
        }
        break;
      case OpKind.ClassMap:
        if (op.expression instanceof Interpolation2) {
          OpList.replace(op, classMapInterpolate(op.expression.strings, op.expression.expressions, op.sourceSpan));
        } else {
          OpList.replace(op, classMap(op.expression, op.sourceSpan));
        }
        break;
      case OpKind.I18nExpression:
        OpList.replace(op, i18nExp(op.expression, op.sourceSpan));
        break;
      case OpKind.I18nApply:
        OpList.replace(op, i18nApply(op.handle.slot, op.sourceSpan));
        break;
      case OpKind.InterpolateText:
        OpList.replace(op, textInterpolate(op.interpolation.strings, op.interpolation.expressions, op.sourceSpan));
        break;
      case OpKind.Attribute:
        if (op.expression instanceof Interpolation2) {
          OpList.replace(op, attributeInterpolate(op.name, op.expression.strings, op.expression.expressions, op.sanitizer, op.sourceSpan));
        } else {
          OpList.replace(op, attribute(op.name, op.expression, op.sanitizer, op.namespace));
        }
        break;
      case OpKind.HostProperty:
        if (op.expression instanceof Interpolation2) {
          throw new Error("not yet handled");
        } else {
          if (op.isAnimationTrigger) {
            OpList.replace(op, syntheticHostProperty(op.name, op.expression, op.sourceSpan));
          } else {
            OpList.replace(op, hostProperty(op.name, op.expression, op.sanitizer, op.sourceSpan));
          }
        }
        break;
      case OpKind.Variable:
        if (op.variable.name === null) {
          throw new Error(`AssertionError: unnamed variable ${op.xref}`);
        }
        OpList.replace(op, createStatementOp(new DeclareVarStmt(op.variable.name, op.initializer, void 0, StmtModifier.Final)));
        break;
      case OpKind.Conditional:
        if (op.processed === null) {
          throw new Error(`Conditional test was not set.`);
        }
        OpList.replace(op, conditional(op.processed, op.contextValue, op.sourceSpan));
        break;
      case OpKind.Repeater:
        OpList.replace(op, repeater(op.collection, op.sourceSpan));
        break;
      case OpKind.DeferWhen:
        OpList.replace(op, deferWhen(op.prefetch, op.expr, op.sourceSpan));
        break;
      case OpKind.StoreLet:
        throw new Error(`AssertionError: unexpected storeLet ${op.declaredName}`);
      case OpKind.Statement:
        break;
      default:
        throw new Error(`AssertionError: Unsupported reification of update op ${OpKind[op.kind]}`);
    }
  }
}
function reifyIrExpression(expr) {
  if (!isIrExpression(expr)) {
    return expr;
  }
  switch (expr.kind) {
    case ExpressionKind.NextContext:
      return nextContext(expr.steps);
    case ExpressionKind.Reference:
      return reference(expr.targetSlot.slot + 1 + expr.offset);
    case ExpressionKind.LexicalRead:
      throw new Error(`AssertionError: unresolved LexicalRead of ${expr.name}`);
    case ExpressionKind.TwoWayBindingSet:
      throw new Error(`AssertionError: unresolved TwoWayBindingSet`);
    case ExpressionKind.RestoreView:
      if (typeof expr.view === "number") {
        throw new Error(`AssertionError: unresolved RestoreView`);
      }
      return restoreView(expr.view);
    case ExpressionKind.ResetView:
      return resetView(expr.expr);
    case ExpressionKind.GetCurrentView:
      return getCurrentView();
    case ExpressionKind.ReadVariable:
      if (expr.name === null) {
        throw new Error(`Read of unnamed variable ${expr.xref}`);
      }
      return variable(expr.name);
    case ExpressionKind.ReadTemporaryExpr:
      if (expr.name === null) {
        throw new Error(`Read of unnamed temporary ${expr.xref}`);
      }
      return variable(expr.name);
    case ExpressionKind.AssignTemporaryExpr:
      if (expr.name === null) {
        throw new Error(`Assign of unnamed temporary ${expr.xref}`);
      }
      return variable(expr.name).set(expr.expr);
    case ExpressionKind.PureFunctionExpr:
      if (expr.fn === null) {
        throw new Error(`AssertionError: expected PureFunctions to have been extracted`);
      }
      return pureFunction(expr.varOffset, expr.fn, expr.args);
    case ExpressionKind.PureFunctionParameterExpr:
      throw new Error(`AssertionError: expected PureFunctionParameterExpr to have been extracted`);
    case ExpressionKind.PipeBinding:
      return pipeBind(expr.targetSlot.slot, expr.varOffset, expr.args);
    case ExpressionKind.PipeBindingVariadic:
      return pipeBindV(expr.targetSlot.slot, expr.varOffset, expr.args);
    case ExpressionKind.SlotLiteralExpr:
      return literal(expr.slot.slot);
    case ExpressionKind.ContextLetReference:
      return readContextLet(expr.targetSlot.slot);
    case ExpressionKind.StoreLet:
      return storeLet(expr.value, expr.sourceSpan);
    default:
      throw new Error(`AssertionError: Unsupported reification of ir.Expression kind: ${ExpressionKind[expr.kind]}`);
  }
}
function reifyListenerHandler(unit, name, handlerOps, consumesDollarEvent) {
  reifyUpdateOperations(unit, handlerOps);
  const handlerStmts = [];
  for (const op of handlerOps) {
    if (op.kind !== OpKind.Statement) {
      throw new Error(`AssertionError: expected reified statements, but found op ${OpKind[op.kind]}`);
    }
    handlerStmts.push(op.statement);
  }
  const params = [];
  if (consumesDollarEvent) {
    params.push(new FnParam("$event"));
  }
  return fn(params, handlerStmts, void 0, void 0, name);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/remove_empty_bindings.mjs
function removeEmptyBindings(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      switch (op.kind) {
        case OpKind.Attribute:
        case OpKind.Binding:
        case OpKind.ClassProp:
        case OpKind.ClassMap:
        case OpKind.Property:
        case OpKind.StyleProp:
        case OpKind.StyleMap:
          if (op.expression instanceof EmptyExpr2) {
            OpList.remove(op);
          }
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/remove_i18n_contexts.mjs
function removeI18nContexts(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nContext:
          OpList.remove(op);
          break;
        case OpKind.I18nStart:
          op.context = null;
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/remove_unused_i18n_attrs.mjs
function removeUnusedI18nAttributesOps(job) {
  for (const unit of job.units) {
    const ownersWithI18nExpressions = /* @__PURE__ */ new Set();
    for (const op of unit.update) {
      switch (op.kind) {
        case OpKind.I18nExpression:
          ownersWithI18nExpressions.add(op.i18nOwner);
      }
    }
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nAttributes:
          if (ownersWithI18nExpressions.has(op.xref)) {
            continue;
          }
          OpList.remove(op);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_contexts.mjs
function resolveContexts(job) {
  for (const unit of job.units) {
    processLexicalScope(unit, unit.create);
    processLexicalScope(unit, unit.update);
  }
}
function processLexicalScope(view, ops) {
  const scope = /* @__PURE__ */ new Map();
  scope.set(view.xref, variable("ctx"));
  for (const op of ops) {
    switch (op.kind) {
      case OpKind.Variable:
        switch (op.variable.kind) {
          case SemanticVariableKind.Context:
            scope.set(op.variable.view, new ReadVariableExpr(op.xref));
            break;
        }
        break;
      case OpKind.Listener:
      case OpKind.TwoWayListener:
        processLexicalScope(view, op.handlerOps);
        break;
    }
  }
  if (view === view.job.root) {
    scope.set(view.xref, variable("ctx"));
  }
  for (const op of ops) {
    transformExpressionsInOp(op, (expr) => {
      if (expr instanceof ContextExpr) {
        if (!scope.has(expr.view)) {
          throw new Error(`No context found for reference to view ${expr.view} from view ${view.xref}`);
        }
        return scope.get(expr.view);
      } else {
        return expr;
      }
    }, VisitorContextFlag.None);
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_dollar_event.mjs
function resolveDollarEvent(job) {
  for (const unit of job.units) {
    transformDollarEvent(unit.create);
    transformDollarEvent(unit.update);
  }
}
function transformDollarEvent(ops) {
  for (const op of ops) {
    if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
      transformExpressionsInOp(op, (expr) => {
        if (expr instanceof LexicalReadExpr && expr.name === "$event") {
          if (op.kind === OpKind.Listener) {
            op.consumesDollarEvent = true;
          }
          return new ReadVarExpr(expr.name);
        }
        return expr;
      }, VisitorContextFlag.InChildOperation);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_i18n_element_placeholders.mjs
function resolveI18nElementPlaceholders(job) {
  const i18nContexts = /* @__PURE__ */ new Map();
  const elements = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nContext:
          i18nContexts.set(op.xref, op);
          break;
        case OpKind.ElementStart:
          elements.set(op.xref, op);
          break;
      }
    }
  }
  resolvePlaceholdersForView(job, job.root, i18nContexts, elements);
}
function resolvePlaceholdersForView(job, unit, i18nContexts, elements, pendingStructuralDirective) {
  let currentOps = null;
  let pendingStructuralDirectiveCloses = /* @__PURE__ */ new Map();
  for (const op of unit.create) {
    switch (op.kind) {
      case OpKind.I18nStart:
        if (!op.context) {
          throw Error("Could not find i18n context for i18n op");
        }
        currentOps = { i18nBlock: op, i18nContext: i18nContexts.get(op.context) };
        break;
      case OpKind.I18nEnd:
        currentOps = null;
        break;
      case OpKind.ElementStart:
        if (op.i18nPlaceholder !== void 0) {
          if (currentOps === null) {
            throw Error("i18n tag placeholder should only occur inside an i18n block");
          }
          recordElementStart(op, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
          if (pendingStructuralDirective && op.i18nPlaceholder.closeName) {
            pendingStructuralDirectiveCloses.set(op.xref, pendingStructuralDirective);
          }
          pendingStructuralDirective = void 0;
        }
        break;
      case OpKind.ElementEnd:
        const startOp = elements.get(op.xref);
        if (startOp && startOp.i18nPlaceholder !== void 0) {
          if (currentOps === null) {
            throw Error("AssertionError: i18n tag placeholder should only occur inside an i18n block");
          }
          recordElementClose(startOp, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirectiveCloses.get(op.xref));
          pendingStructuralDirectiveCloses.delete(op.xref);
        }
        break;
      case OpKind.Projection:
        if (op.i18nPlaceholder !== void 0) {
          if (currentOps === null) {
            throw Error("i18n tag placeholder should only occur inside an i18n block");
          }
          recordElementStart(op, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
          recordElementClose(op, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
          pendingStructuralDirective = void 0;
        }
        break;
      case OpKind.Template:
        const view = job.views.get(op.xref);
        if (op.i18nPlaceholder === void 0) {
          resolvePlaceholdersForView(job, view, i18nContexts, elements);
        } else {
          if (currentOps === null) {
            throw Error("i18n tag placeholder should only occur inside an i18n block");
          }
          if (op.templateKind === TemplateKind.Structural) {
            resolvePlaceholdersForView(job, view, i18nContexts, elements, op);
          } else {
            recordTemplateStart(job, view, op.handle.slot, op.i18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
            resolvePlaceholdersForView(job, view, i18nContexts, elements);
            recordTemplateClose(job, view, op.handle.slot, op.i18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
            pendingStructuralDirective = void 0;
          }
        }
        break;
      case OpKind.RepeaterCreate:
        if (pendingStructuralDirective !== void 0) {
          throw Error("AssertionError: Unexpected structural directive associated with @for block");
        }
        const forSlot = op.handle.slot + 1;
        const forView = job.views.get(op.xref);
        if (op.i18nPlaceholder === void 0) {
          resolvePlaceholdersForView(job, forView, i18nContexts, elements);
        } else {
          if (currentOps === null) {
            throw Error("i18n tag placeholder should only occur inside an i18n block");
          }
          recordTemplateStart(job, forView, forSlot, op.i18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
          resolvePlaceholdersForView(job, forView, i18nContexts, elements);
          recordTemplateClose(job, forView, forSlot, op.i18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
          pendingStructuralDirective = void 0;
        }
        if (op.emptyView !== null) {
          const emptySlot = op.handle.slot + 2;
          const emptyView = job.views.get(op.emptyView);
          if (op.emptyI18nPlaceholder === void 0) {
            resolvePlaceholdersForView(job, emptyView, i18nContexts, elements);
          } else {
            if (currentOps === null) {
              throw Error("i18n tag placeholder should only occur inside an i18n block");
            }
            recordTemplateStart(job, emptyView, emptySlot, op.emptyI18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
            resolvePlaceholdersForView(job, emptyView, i18nContexts, elements);
            recordTemplateClose(job, emptyView, emptySlot, op.emptyI18nPlaceholder, currentOps.i18nContext, currentOps.i18nBlock, pendingStructuralDirective);
            pendingStructuralDirective = void 0;
          }
        }
        break;
    }
  }
}
function recordElementStart(op, i18nContext, i18nBlock, structuralDirective) {
  const { startName, closeName } = op.i18nPlaceholder;
  let flags = I18nParamValueFlags.ElementTag | I18nParamValueFlags.OpenTag;
  let value = op.handle.slot;
  if (structuralDirective !== void 0) {
    flags |= I18nParamValueFlags.TemplateTag;
    value = { element: value, template: structuralDirective.handle.slot };
  }
  if (!closeName) {
    flags |= I18nParamValueFlags.CloseTag;
  }
  addParam(i18nContext.params, startName, value, i18nBlock.subTemplateIndex, flags);
}
function recordElementClose(op, i18nContext, i18nBlock, structuralDirective) {
  const { closeName } = op.i18nPlaceholder;
  if (closeName) {
    let flags = I18nParamValueFlags.ElementTag | I18nParamValueFlags.CloseTag;
    let value = op.handle.slot;
    if (structuralDirective !== void 0) {
      flags |= I18nParamValueFlags.TemplateTag;
      value = { element: value, template: structuralDirective.handle.slot };
    }
    addParam(i18nContext.params, closeName, value, i18nBlock.subTemplateIndex, flags);
  }
}
function recordTemplateStart(job, view, slot, i18nPlaceholder, i18nContext, i18nBlock, structuralDirective) {
  let { startName, closeName } = i18nPlaceholder;
  let flags = I18nParamValueFlags.TemplateTag | I18nParamValueFlags.OpenTag;
  if (!closeName) {
    flags |= I18nParamValueFlags.CloseTag;
  }
  if (structuralDirective !== void 0) {
    addParam(i18nContext.params, startName, structuralDirective.handle.slot, i18nBlock.subTemplateIndex, flags);
  }
  addParam(i18nContext.params, startName, slot, getSubTemplateIndexForTemplateTag(job, i18nBlock, view), flags);
}
function recordTemplateClose(job, view, slot, i18nPlaceholder, i18nContext, i18nBlock, structuralDirective) {
  const { closeName } = i18nPlaceholder;
  const flags = I18nParamValueFlags.TemplateTag | I18nParamValueFlags.CloseTag;
  if (closeName) {
    addParam(i18nContext.params, closeName, slot, getSubTemplateIndexForTemplateTag(job, i18nBlock, view), flags);
    if (structuralDirective !== void 0) {
      addParam(i18nContext.params, closeName, structuralDirective.handle.slot, i18nBlock.subTemplateIndex, flags);
    }
  }
}
function getSubTemplateIndexForTemplateTag(job, i18nOp, view) {
  for (const childOp of view.create) {
    if (childOp.kind === OpKind.I18nStart) {
      return childOp.subTemplateIndex;
    }
  }
  return i18nOp.subTemplateIndex;
}
function addParam(params, placeholder, value, subTemplateIndex, flags) {
  var _a2;
  const values = (_a2 = params.get(placeholder)) != null ? _a2 : [];
  values.push({ value, subTemplateIndex, flags });
  params.set(placeholder, values);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_i18n_expression_placeholders.mjs
function resolveI18nExpressionPlaceholders(job) {
  var _a2;
  const subTemplateIndices = /* @__PURE__ */ new Map();
  const i18nContexts = /* @__PURE__ */ new Map();
  const icuPlaceholders = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nStart:
          subTemplateIndices.set(op.xref, op.subTemplateIndex);
          break;
        case OpKind.I18nContext:
          i18nContexts.set(op.xref, op);
          break;
        case OpKind.IcuPlaceholder:
          icuPlaceholders.set(op.xref, op);
          break;
      }
    }
  }
  const expressionIndices = /* @__PURE__ */ new Map();
  const referenceIndex = (op) => op.usage === I18nExpressionFor.I18nText ? op.i18nOwner : op.context;
  for (const unit of job.units) {
    for (const op of unit.update) {
      if (op.kind === OpKind.I18nExpression) {
        const index = expressionIndices.get(referenceIndex(op)) || 0;
        const subTemplateIndex = (_a2 = subTemplateIndices.get(op.i18nOwner)) != null ? _a2 : null;
        const value = {
          value: index,
          subTemplateIndex,
          flags: I18nParamValueFlags.ExpressionIndex
        };
        updatePlaceholder(op, value, i18nContexts, icuPlaceholders);
        expressionIndices.set(referenceIndex(op), index + 1);
      }
    }
  }
}
function updatePlaceholder(op, value, i18nContexts, icuPlaceholders) {
  if (op.i18nPlaceholder !== null) {
    const i18nContext = i18nContexts.get(op.context);
    const params = op.resolutionTime === I18nParamResolutionTime.Creation ? i18nContext.params : i18nContext.postprocessingParams;
    const values = params.get(op.i18nPlaceholder) || [];
    values.push(value);
    params.set(op.i18nPlaceholder, values);
  }
  if (op.icuPlaceholder !== null) {
    const icuPlaceholderOp = icuPlaceholders.get(op.icuPlaceholder);
    icuPlaceholderOp == null ? void 0 : icuPlaceholderOp.expressionPlaceholders.push(value);
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_names.mjs
function resolveNames(job) {
  for (const unit of job.units) {
    processLexicalScope2(unit, unit.create, null);
    processLexicalScope2(unit, unit.update, null);
  }
}
function processLexicalScope2(unit, ops, savedView) {
  const scope = /* @__PURE__ */ new Map();
  const localDefinitions = /* @__PURE__ */ new Map();
  for (const op of ops) {
    switch (op.kind) {
      case OpKind.Variable:
        switch (op.variable.kind) {
          case SemanticVariableKind.Identifier:
            if (op.variable.local) {
              if (localDefinitions.has(op.variable.identifier)) {
                continue;
              }
              localDefinitions.set(op.variable.identifier, op.xref);
            } else if (scope.has(op.variable.identifier)) {
              continue;
            }
            scope.set(op.variable.identifier, op.xref);
            break;
          case SemanticVariableKind.Alias:
            if (scope.has(op.variable.identifier)) {
              continue;
            }
            scope.set(op.variable.identifier, op.xref);
            break;
          case SemanticVariableKind.SavedView:
            savedView = {
              view: op.variable.view,
              variable: op.xref
            };
            break;
        }
        break;
      case OpKind.Listener:
      case OpKind.TwoWayListener:
        processLexicalScope2(unit, op.handlerOps, savedView);
        break;
    }
  }
  for (const op of ops) {
    if (op.kind == OpKind.Listener || op.kind === OpKind.TwoWayListener) {
      continue;
    }
    transformExpressionsInOp(op, (expr) => {
      if (expr instanceof LexicalReadExpr) {
        if (localDefinitions.has(expr.name)) {
          return new ReadVariableExpr(localDefinitions.get(expr.name));
        } else if (scope.has(expr.name)) {
          return new ReadVariableExpr(scope.get(expr.name));
        } else {
          return new ReadPropExpr(new ContextExpr(unit.job.root.xref), expr.name);
        }
      } else if (expr instanceof RestoreViewExpr && typeof expr.view === "number") {
        if (savedView === null || savedView.view !== expr.view) {
          throw new Error(`AssertionError: no saved view ${expr.view} from view ${unit.xref}`);
        }
        expr.view = new ReadVariableExpr(savedView.variable);
        return expr;
      } else {
        return expr;
      }
    }, VisitorContextFlag.None);
  }
  for (const op of ops) {
    visitExpressionsInOp(op, (expr) => {
      if (expr instanceof LexicalReadExpr) {
        throw new Error(`AssertionError: no lexical reads should remain, but found read of ${expr.name}`);
      }
    });
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/resolve_sanitizers.mjs
var sanitizerFns = /* @__PURE__ */ new Map([
  [SecurityContext.HTML, Identifiers.sanitizeHtml],
  [SecurityContext.RESOURCE_URL, Identifiers.sanitizeResourceUrl],
  [SecurityContext.SCRIPT, Identifiers.sanitizeScript],
  [SecurityContext.STYLE, Identifiers.sanitizeStyle],
  [SecurityContext.URL, Identifiers.sanitizeUrl]
]);
var trustedValueFns = /* @__PURE__ */ new Map([
  [SecurityContext.HTML, Identifiers.trustConstantHtml],
  [SecurityContext.RESOURCE_URL, Identifiers.trustConstantResourceUrl]
]);
function resolveSanitizers(job) {
  var _a2, _b2;
  for (const unit of job.units) {
    const elements = createOpXrefMap(unit);
    if (job.kind !== CompilationJobKind.Host) {
      for (const op of unit.create) {
        if (op.kind === OpKind.ExtractedAttribute) {
          const trustedValueFn = (_a2 = trustedValueFns.get(getOnlySecurityContext(op.securityContext))) != null ? _a2 : null;
          op.trustedValueFn = trustedValueFn !== null ? importExpr(trustedValueFn) : null;
        }
      }
    }
    for (const op of unit.update) {
      switch (op.kind) {
        case OpKind.Property:
        case OpKind.Attribute:
        case OpKind.HostProperty:
          let sanitizerFn = null;
          if (Array.isArray(op.securityContext) && op.securityContext.length === 2 && op.securityContext.indexOf(SecurityContext.URL) > -1 && op.securityContext.indexOf(SecurityContext.RESOURCE_URL) > -1) {
            sanitizerFn = Identifiers.sanitizeUrlOrResourceUrl;
          } else {
            sanitizerFn = (_b2 = sanitizerFns.get(getOnlySecurityContext(op.securityContext))) != null ? _b2 : null;
          }
          op.sanitizer = sanitizerFn !== null ? importExpr(sanitizerFn) : null;
          if (op.sanitizer === null) {
            let isIframe = false;
            if (job.kind === CompilationJobKind.Host || op.kind === OpKind.HostProperty) {
              isIframe = true;
            } else {
              const ownerOp = elements.get(op.target);
              if (ownerOp === void 0 || !isElementOrContainerOp(ownerOp)) {
                throw Error("Property should have an element-like owner");
              }
              isIframe = isIframeElement(ownerOp);
            }
            if (isIframe && isIframeSecuritySensitiveAttr(op.name)) {
              op.sanitizer = importExpr(Identifiers.validateIframeAttribute);
            }
          }
          break;
      }
    }
  }
}
function isIframeElement(op) {
  var _a2;
  return op.kind === OpKind.ElementStart && ((_a2 = op.tag) == null ? void 0 : _a2.toLowerCase()) === "iframe";
}
function getOnlySecurityContext(securityContext) {
  if (Array.isArray(securityContext)) {
    if (securityContext.length > 1) {
      throw Error(`AssertionError: Ambiguous security context`);
    }
    return securityContext[0] || SecurityContext.NONE;
  }
  return securityContext;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/transform_two_way_binding_set.mjs
function transformTwoWayBindingSet(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind === OpKind.TwoWayListener) {
        transformExpressionsInOp(op, (expr) => {
          if (!(expr instanceof TwoWayBindingSetExpr)) {
            return expr;
          }
          const { target, value } = expr;
          if (target instanceof ReadPropExpr || target instanceof ReadKeyExpr) {
            return twoWayBindingSet(target, value).or(target.set(value));
          }
          if (target instanceof ReadVariableExpr) {
            return twoWayBindingSet(target, value);
          }
          throw new Error(`Unsupported expression in two-way action binding.`);
        }, VisitorContextFlag.InChildOperation);
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/save_restore_view.mjs
function saveAndRestoreView(job) {
  for (const unit of job.units) {
    unit.create.prepend([
      createVariableOp(unit.job.allocateXrefId(), {
        kind: SemanticVariableKind.SavedView,
        name: null,
        view: unit.xref
      }, new GetCurrentViewExpr(), VariableFlags.None)
    ]);
    for (const op of unit.create) {
      if (op.kind !== OpKind.Listener && op.kind !== OpKind.TwoWayListener) {
        continue;
      }
      let needsRestoreView = unit !== job.root;
      if (!needsRestoreView) {
        for (const handlerOp of op.handlerOps) {
          visitExpressionsInOp(handlerOp, (expr) => {
            if (expr instanceof ReferenceExpr || expr instanceof ContextLetReferenceExpr) {
              needsRestoreView = true;
            }
          });
        }
      }
      if (needsRestoreView) {
        addSaveRestoreViewOperationToListener(unit, op);
      }
    }
  }
}
function addSaveRestoreViewOperationToListener(unit, op) {
  op.handlerOps.prepend([
    createVariableOp(unit.job.allocateXrefId(), {
      kind: SemanticVariableKind.Context,
      name: null,
      view: unit.xref
    }, new RestoreViewExpr(unit.xref), VariableFlags.None)
  ]);
  for (const handlerOp of op.handlerOps) {
    if (handlerOp.kind === OpKind.Statement && handlerOp.statement instanceof ReturnStatement) {
      handlerOp.statement.value = new ResetViewExpr(handlerOp.statement.value);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/slot_allocation.mjs
function allocateSlots(job) {
  const slotMap = /* @__PURE__ */ new Map();
  for (const unit of job.units) {
    let slotCount = 0;
    for (const op of unit.create) {
      if (!hasConsumesSlotTrait(op)) {
        continue;
      }
      op.handle.slot = slotCount;
      slotMap.set(op.xref, op.handle.slot);
      slotCount += op.numSlotsUsed;
    }
    unit.decls = slotCount;
  }
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      if (op.kind === OpKind.Template || op.kind === OpKind.RepeaterCreate) {
        const childView = job.views.get(op.xref);
        op.decls = childView.decls;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/style_binding_specialization.mjs
function specializeStyleBindings(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      if (op.kind !== OpKind.Binding) {
        continue;
      }
      switch (op.bindingKind) {
        case BindingKind.ClassName:
          if (op.expression instanceof Interpolation2) {
            throw new Error(`Unexpected interpolation in ClassName binding`);
          }
          OpList.replace(op, createClassPropOp(op.target, op.name, op.expression, op.sourceSpan));
          break;
        case BindingKind.StyleProperty:
          OpList.replace(op, createStylePropOp(op.target, op.name, op.expression, op.unit, op.sourceSpan));
          break;
        case BindingKind.Property:
        case BindingKind.Template:
          if (op.name === "style") {
            OpList.replace(op, createStyleMapOp(op.target, op.expression, op.sourceSpan));
          } else if (op.name === "class") {
            OpList.replace(op, createClassMapOp(op.target, op.expression, op.sourceSpan));
          }
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/temporary_variables.mjs
function generateTemporaryVariables(job) {
  for (const unit of job.units) {
    unit.create.prepend(generateTemporaries(unit.create));
    unit.update.prepend(generateTemporaries(unit.update));
  }
}
function generateTemporaries(ops) {
  let opCount = 0;
  let generatedStatements = [];
  for (const op of ops) {
    const finalReads = /* @__PURE__ */ new Map();
    visitExpressionsInOp(op, (expr, flag) => {
      if (flag & VisitorContextFlag.InChildOperation) {
        return;
      }
      if (expr instanceof ReadTemporaryExpr) {
        finalReads.set(expr.xref, expr);
      }
    });
    let count = 0;
    const assigned = /* @__PURE__ */ new Set();
    const released = /* @__PURE__ */ new Set();
    const defs = /* @__PURE__ */ new Map();
    visitExpressionsInOp(op, (expr, flag) => {
      if (flag & VisitorContextFlag.InChildOperation) {
        return;
      }
      if (expr instanceof AssignTemporaryExpr) {
        if (!assigned.has(expr.xref)) {
          assigned.add(expr.xref);
          defs.set(expr.xref, `tmp_${opCount}_${count++}`);
        }
        assignName(defs, expr);
      } else if (expr instanceof ReadTemporaryExpr) {
        if (finalReads.get(expr.xref) === expr) {
          released.add(expr.xref);
          count--;
        }
        assignName(defs, expr);
      }
    });
    generatedStatements.push(...Array.from(new Set(defs.values())).map((name) => createStatementOp(new DeclareVarStmt(name))));
    opCount++;
    if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
      op.handlerOps.prepend(generateTemporaries(op.handlerOps));
    }
  }
  return generatedStatements;
}
function assignName(names, expr) {
  const name = names.get(expr.xref);
  if (name === void 0) {
    throw new Error(`Found xref with unassigned name: ${expr.xref}`);
  }
  expr.name = name;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/track_fn_generation.mjs
function generateTrackFns(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind !== OpKind.RepeaterCreate) {
        continue;
      }
      if (op.trackByFn !== null) {
        continue;
      }
      let usesComponentContext = false;
      op.track = transformExpressionsInExpression(op.track, (expr) => {
        if (expr instanceof PipeBindingExpr || expr instanceof PipeBindingVariadicExpr) {
          throw new Error(`Illegal State: Pipes are not allowed in this context`);
        }
        if (expr instanceof TrackContextExpr) {
          usesComponentContext = true;
          return variable("this");
        }
        return expr;
      }, VisitorContextFlag.None);
      let fn2;
      const fnParams = [new FnParam("$index"), new FnParam("$item")];
      if (usesComponentContext) {
        fn2 = new FunctionExpr(fnParams, [new ReturnStatement(op.track)]);
      } else {
        fn2 = arrowFn(fnParams, op.track);
      }
      op.trackByFn = job.pool.getSharedFunctionReference(fn2, "_forTrack");
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/track_fn_optimization.mjs
function optimizeTrackFns(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind !== OpKind.RepeaterCreate) {
        continue;
      }
      if (op.track instanceof ReadVarExpr && op.track.name === "$index") {
        op.trackByFn = importExpr(Identifiers.repeaterTrackByIndex);
      } else if (op.track instanceof ReadVarExpr && op.track.name === "$item") {
        op.trackByFn = importExpr(Identifiers.repeaterTrackByIdentity);
      } else if (isTrackByFunctionCall(job.root.xref, op.track)) {
        op.usesComponentInstance = true;
        if (op.track.receiver.receiver.view === unit.xref) {
          op.trackByFn = op.track.receiver;
        } else {
          op.trackByFn = importExpr(Identifiers.componentInstance).callFn([]).prop(op.track.receiver.name);
          op.track = op.trackByFn;
        }
      } else {
        op.track = transformExpressionsInExpression(op.track, (expr) => {
          if (expr instanceof ContextExpr) {
            op.usesComponentInstance = true;
            return new TrackContextExpr(expr.view);
          }
          return expr;
        }, VisitorContextFlag.None);
      }
    }
  }
}
function isTrackByFunctionCall(rootView, expr) {
  if (!(expr instanceof InvokeFunctionExpr) || expr.args.length === 0 || expr.args.length > 2) {
    return false;
  }
  if (!(expr.receiver instanceof ReadPropExpr && expr.receiver.receiver instanceof ContextExpr) || expr.receiver.receiver.view !== rootView) {
    return false;
  }
  const [arg0, arg1] = expr.args;
  if (!(arg0 instanceof ReadVarExpr) || arg0.name !== "$index") {
    return false;
  } else if (expr.args.length === 1) {
    return true;
  }
  if (!(arg1 instanceof ReadVarExpr) || arg1.name !== "$item") {
    return false;
  }
  return true;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/track_variables.mjs
function generateTrackVariables(job) {
  for (const unit of job.units) {
    for (const op of unit.create) {
      if (op.kind !== OpKind.RepeaterCreate) {
        continue;
      }
      op.track = transformExpressionsInExpression(op.track, (expr) => {
        if (expr instanceof LexicalReadExpr) {
          if (op.varNames.$index.has(expr.name)) {
            return variable("$index");
          } else if (expr.name === op.varNames.$implicit) {
            return variable("$item");
          }
        }
        return expr;
      }, VisitorContextFlag.None);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/var_counting.mjs
function countVariables(job) {
  for (const unit of job.units) {
    let varCount = 0;
    for (const op of unit.ops()) {
      if (hasConsumesVarsTrait(op)) {
        varCount += varsUsedByOp(op);
      }
    }
    for (const op of unit.ops()) {
      visitExpressionsInOp(op, (expr) => {
        if (!isIrExpression(expr)) {
          return;
        }
        if (job.compatibility === CompatibilityMode.TemplateDefinitionBuilder && expr instanceof PureFunctionExpr) {
          return;
        }
        if (hasUsesVarOffsetTrait(expr)) {
          expr.varOffset = varCount;
        }
        if (hasConsumesVarsTrait(expr)) {
          varCount += varsUsedByIrExpression(expr);
        }
      });
    }
    if (job.compatibility === CompatibilityMode.TemplateDefinitionBuilder) {
      for (const op of unit.ops()) {
        visitExpressionsInOp(op, (expr) => {
          if (!isIrExpression(expr) || !(expr instanceof PureFunctionExpr)) {
            return;
          }
          if (hasUsesVarOffsetTrait(expr)) {
            expr.varOffset = varCount;
          }
          if (hasConsumesVarsTrait(expr)) {
            varCount += varsUsedByIrExpression(expr);
          }
        });
      }
    }
    unit.vars = varCount;
  }
  if (job instanceof ComponentCompilationJob) {
    for (const unit of job.units) {
      for (const op of unit.create) {
        if (op.kind !== OpKind.Template && op.kind !== OpKind.RepeaterCreate) {
          continue;
        }
        const childView = job.views.get(op.xref);
        op.vars = childView.vars;
      }
    }
  }
}
function varsUsedByOp(op) {
  let slots;
  switch (op.kind) {
    case OpKind.Property:
    case OpKind.HostProperty:
    case OpKind.Attribute:
      slots = 1;
      if (op.expression instanceof Interpolation2 && !isSingletonInterpolation(op.expression)) {
        slots += op.expression.expressions.length;
      }
      return slots;
    case OpKind.TwoWayProperty:
      return 1;
    case OpKind.StyleProp:
    case OpKind.ClassProp:
    case OpKind.StyleMap:
    case OpKind.ClassMap:
      slots = 2;
      if (op.expression instanceof Interpolation2) {
        slots += op.expression.expressions.length;
      }
      return slots;
    case OpKind.InterpolateText:
      return op.interpolation.expressions.length;
    case OpKind.I18nExpression:
    case OpKind.Conditional:
    case OpKind.DeferWhen:
    case OpKind.StoreLet:
      return 1;
    case OpKind.RepeaterCreate:
      return op.emptyView ? 1 : 0;
    default:
      throw new Error(`Unhandled op: ${OpKind[op.kind]}`);
  }
}
function varsUsedByIrExpression(expr) {
  switch (expr.kind) {
    case ExpressionKind.PureFunctionExpr:
      return 1 + expr.args.length;
    case ExpressionKind.PipeBinding:
      return 1 + expr.args.length;
    case ExpressionKind.PipeBindingVariadic:
      return 1 + expr.numArgs;
    case ExpressionKind.StoreLet:
      return 1;
    default:
      throw new Error(`AssertionError: unhandled ConsumesVarsTrait expression ${expr.constructor.name}`);
  }
}
function isSingletonInterpolation(expr) {
  if (expr.expressions.length !== 1 || expr.strings.length !== 2) {
    return false;
  }
  if (expr.strings[0] !== "" || expr.strings[1] !== "") {
    return false;
  }
  return true;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/variable_optimization.mjs
function optimizeVariables(job) {
  for (const unit of job.units) {
    inlineAlwaysInlineVariables(unit.create);
    inlineAlwaysInlineVariables(unit.update);
    for (const op of unit.create) {
      if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
        inlineAlwaysInlineVariables(op.handlerOps);
      }
    }
    optimizeVariablesInOpList(unit.create, job.compatibility);
    optimizeVariablesInOpList(unit.update, job.compatibility);
    for (const op of unit.create) {
      if (op.kind === OpKind.Listener || op.kind === OpKind.TwoWayListener) {
        optimizeVariablesInOpList(op.handlerOps, job.compatibility);
      }
    }
  }
}
var Fence;
(function(Fence2) {
  Fence2[Fence2["None"] = 0] = "None";
  Fence2[Fence2["ViewContextRead"] = 1] = "ViewContextRead";
  Fence2[Fence2["ViewContextWrite"] = 2] = "ViewContextWrite";
  Fence2[Fence2["SideEffectful"] = 4] = "SideEffectful";
})(Fence || (Fence = {}));
function inlineAlwaysInlineVariables(ops) {
  const vars = /* @__PURE__ */ new Map();
  for (const op of ops) {
    if (op.kind === OpKind.Variable && op.flags & VariableFlags.AlwaysInline) {
      visitExpressionsInOp(op, (expr) => {
        if (isIrExpression(expr) && fencesForIrExpression(expr) !== Fence.None) {
          throw new Error(`AssertionError: A context-sensitive variable was marked AlwaysInline`);
        }
      });
      vars.set(op.xref, op);
    }
    transformExpressionsInOp(op, (expr) => {
      if (expr instanceof ReadVariableExpr && vars.has(expr.xref)) {
        const varOp = vars.get(expr.xref);
        return varOp.initializer.clone();
      }
      return expr;
    }, VisitorContextFlag.None);
  }
  for (const op of vars.values()) {
    OpList.remove(op);
  }
}
function optimizeVariablesInOpList(ops, compatibility) {
  const varDecls = /* @__PURE__ */ new Map();
  const varUsages = /* @__PURE__ */ new Map();
  const varRemoteUsages = /* @__PURE__ */ new Set();
  const opMap = /* @__PURE__ */ new Map();
  for (const op of ops) {
    if (op.kind === OpKind.Variable) {
      if (varDecls.has(op.xref) || varUsages.has(op.xref)) {
        throw new Error(`Should not see two declarations of the same variable: ${op.xref}`);
      }
      varDecls.set(op.xref, op);
      varUsages.set(op.xref, 0);
    }
    opMap.set(op, collectOpInfo(op));
    countVariableUsages(op, varUsages, varRemoteUsages);
  }
  let contextIsUsed = false;
  for (const op of ops.reversed()) {
    const opInfo = opMap.get(op);
    if (op.kind === OpKind.Variable && varUsages.get(op.xref) === 0) {
      if (contextIsUsed && opInfo.fences & Fence.ViewContextWrite || opInfo.fences & Fence.SideEffectful) {
        const stmtOp = createStatementOp(op.initializer.toStmt());
        opMap.set(stmtOp, opInfo);
        OpList.replace(op, stmtOp);
      } else {
        uncountVariableUsages(op, varUsages);
        OpList.remove(op);
      }
      opMap.delete(op);
      varDecls.delete(op.xref);
      varUsages.delete(op.xref);
      continue;
    }
    if (opInfo.fences & Fence.ViewContextRead) {
      contextIsUsed = true;
    }
  }
  const toInline = [];
  for (const [id, count] of varUsages) {
    const decl = varDecls.get(id);
    const isAlwaysInline = !!(decl.flags & VariableFlags.AlwaysInline);
    if (count !== 1 || isAlwaysInline) {
      continue;
    }
    if (varRemoteUsages.has(id)) {
      continue;
    }
    toInline.push(id);
  }
  let candidate;
  while (candidate = toInline.pop()) {
    const decl = varDecls.get(candidate);
    const varInfo = opMap.get(decl);
    const isAlwaysInline = !!(decl.flags & VariableFlags.AlwaysInline);
    if (isAlwaysInline) {
      throw new Error(`AssertionError: Found an 'AlwaysInline' variable after the always inlining pass.`);
    }
    for (let targetOp = decl.next; targetOp.kind !== OpKind.ListEnd; targetOp = targetOp.next) {
      const opInfo = opMap.get(targetOp);
      if (opInfo.variablesUsed.has(candidate)) {
        if (compatibility === CompatibilityMode.TemplateDefinitionBuilder && !allowConservativeInlining(decl, targetOp)) {
          break;
        }
        if (tryInlineVariableInitializer(candidate, decl.initializer, targetOp, varInfo.fences)) {
          opInfo.variablesUsed.delete(candidate);
          for (const id of varInfo.variablesUsed) {
            opInfo.variablesUsed.add(id);
          }
          opInfo.fences |= varInfo.fences;
          varDecls.delete(candidate);
          varUsages.delete(candidate);
          opMap.delete(decl);
          OpList.remove(decl);
        }
        break;
      }
      if (!safeToInlinePastFences(opInfo.fences, varInfo.fences)) {
        break;
      }
    }
  }
}
function fencesForIrExpression(expr) {
  switch (expr.kind) {
    case ExpressionKind.NextContext:
      return Fence.ViewContextRead | Fence.ViewContextWrite;
    case ExpressionKind.RestoreView:
      return Fence.ViewContextRead | Fence.ViewContextWrite | Fence.SideEffectful;
    case ExpressionKind.StoreLet:
      return Fence.SideEffectful;
    case ExpressionKind.Reference:
    case ExpressionKind.ContextLetReference:
      return Fence.ViewContextRead;
    default:
      return Fence.None;
  }
}
function collectOpInfo(op) {
  let fences = Fence.None;
  const variablesUsed = /* @__PURE__ */ new Set();
  visitExpressionsInOp(op, (expr) => {
    if (!isIrExpression(expr)) {
      return;
    }
    switch (expr.kind) {
      case ExpressionKind.ReadVariable:
        variablesUsed.add(expr.xref);
        break;
      default:
        fences |= fencesForIrExpression(expr);
    }
  });
  return { fences, variablesUsed };
}
function countVariableUsages(op, varUsages, varRemoteUsage) {
  visitExpressionsInOp(op, (expr, flags) => {
    if (!isIrExpression(expr)) {
      return;
    }
    if (expr.kind !== ExpressionKind.ReadVariable) {
      return;
    }
    const count = varUsages.get(expr.xref);
    if (count === void 0) {
      return;
    }
    varUsages.set(expr.xref, count + 1);
    if (flags & VisitorContextFlag.InChildOperation) {
      varRemoteUsage.add(expr.xref);
    }
  });
}
function uncountVariableUsages(op, varUsages) {
  visitExpressionsInOp(op, (expr) => {
    if (!isIrExpression(expr)) {
      return;
    }
    if (expr.kind !== ExpressionKind.ReadVariable) {
      return;
    }
    const count = varUsages.get(expr.xref);
    if (count === void 0) {
      return;
    } else if (count === 0) {
      throw new Error(`Inaccurate variable count: ${expr.xref} - found another read but count is already 0`);
    }
    varUsages.set(expr.xref, count - 1);
  });
}
function safeToInlinePastFences(fences, declFences) {
  if (fences & Fence.ViewContextWrite) {
    if (declFences & Fence.ViewContextRead) {
      return false;
    }
  } else if (fences & Fence.ViewContextRead) {
    if (declFences & Fence.ViewContextWrite) {
      return false;
    }
  }
  return true;
}
function tryInlineVariableInitializer(id, initializer, target, declFences) {
  let inlined = false;
  let inliningAllowed = true;
  transformExpressionsInOp(target, (expr, flags) => {
    if (!isIrExpression(expr)) {
      return expr;
    }
    if (inlined || !inliningAllowed) {
      return expr;
    } else if (flags & VisitorContextFlag.InChildOperation && declFences & Fence.ViewContextRead) {
      return expr;
    }
    switch (expr.kind) {
      case ExpressionKind.ReadVariable:
        if (expr.xref === id) {
          inlined = true;
          return initializer;
        }
        break;
      default:
        const exprFences = fencesForIrExpression(expr);
        inliningAllowed = inliningAllowed && safeToInlinePastFences(exprFences, declFences);
        break;
    }
    return expr;
  }, VisitorContextFlag.None);
  return inlined;
}
function allowConservativeInlining(decl, target) {
  switch (decl.variable.kind) {
    case SemanticVariableKind.Identifier:
      if (decl.initializer instanceof ReadVarExpr && decl.initializer.name === "ctx") {
        return true;
      }
      return false;
    case SemanticVariableKind.Context:
      return target.kind === OpKind.Variable;
    default:
      return true;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/wrap_icus.mjs
function wrapI18nIcus(job) {
  for (const unit of job.units) {
    let currentI18nOp = null;
    let addedI18nId = null;
    for (const op of unit.create) {
      switch (op.kind) {
        case OpKind.I18nStart:
          currentI18nOp = op;
          break;
        case OpKind.I18nEnd:
          currentI18nOp = null;
          break;
        case OpKind.IcuStart:
          if (currentI18nOp === null) {
            addedI18nId = job.allocateXrefId();
            OpList.insertBefore(createI18nStartOp(addedI18nId, op.message, void 0, null), op);
          }
          break;
        case OpKind.IcuEnd:
          if (addedI18nId !== null) {
            OpList.insertAfter(createI18nEndOp(addedI18nId, null), op);
            addedI18nId = null;
          }
          break;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/store_let_optimization.mjs
function optimizeStoreLet(job) {
  const letUsedExternally = /* @__PURE__ */ new Set();
  for (const unit of job.units) {
    for (const op of unit.ops()) {
      visitExpressionsInOp(op, (expr) => {
        if (expr instanceof ContextLetReferenceExpr) {
          letUsedExternally.add(expr.target);
        }
      });
    }
  }
  for (const unit of job.units) {
    for (const op of unit.update) {
      transformExpressionsInOp(op, (expression) => expression instanceof StoreLetExpr && !letUsedExternally.has(expression.target) ? expression.value : expression, VisitorContextFlag.None);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/remove_illegal_let_references.mjs
function removeIllegalLetReferences(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      if (op.kind !== OpKind.Variable || op.variable.kind !== SemanticVariableKind.Identifier || !(op.initializer instanceof StoreLetExpr)) {
        continue;
      }
      const name = op.variable.identifier;
      let current = op;
      while (current && current.kind !== OpKind.ListEnd) {
        transformExpressionsInOp(current, (expr) => expr instanceof LexicalReadExpr && expr.name === name ? literal(void 0) : expr, VisitorContextFlag.None);
        current = current.prev;
      }
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/phases/generate_local_let_references.mjs
function generateLocalLetReferences(job) {
  for (const unit of job.units) {
    for (const op of unit.update) {
      if (op.kind !== OpKind.StoreLet) {
        continue;
      }
      const variable2 = {
        kind: SemanticVariableKind.Identifier,
        name: null,
        identifier: op.declaredName,
        local: true
      };
      OpList.replace(op, createVariableOp(job.allocateXrefId(), variable2, new StoreLetExpr(op.target, op.value, op.sourceSpan), VariableFlags.None));
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/emit.mjs
var phases = [
  { kind: CompilationJobKind.Tmpl, fn: removeContentSelectors },
  { kind: CompilationJobKind.Host, fn: parseHostStyleProperties },
  { kind: CompilationJobKind.Tmpl, fn: emitNamespaceChanges },
  { kind: CompilationJobKind.Tmpl, fn: propagateI18nBlocks },
  { kind: CompilationJobKind.Tmpl, fn: wrapI18nIcus },
  { kind: CompilationJobKind.Both, fn: deduplicateTextBindings },
  { kind: CompilationJobKind.Both, fn: specializeStyleBindings },
  { kind: CompilationJobKind.Both, fn: specializeBindings },
  { kind: CompilationJobKind.Both, fn: extractAttributes },
  { kind: CompilationJobKind.Tmpl, fn: createI18nContexts },
  { kind: CompilationJobKind.Both, fn: parseExtractedStyles },
  { kind: CompilationJobKind.Tmpl, fn: removeEmptyBindings },
  { kind: CompilationJobKind.Both, fn: collapseSingletonInterpolations },
  { kind: CompilationJobKind.Both, fn: orderOps },
  { kind: CompilationJobKind.Tmpl, fn: generateConditionalExpressions },
  { kind: CompilationJobKind.Tmpl, fn: createPipes },
  { kind: CompilationJobKind.Tmpl, fn: configureDeferInstructions },
  { kind: CompilationJobKind.Tmpl, fn: convertI18nText },
  { kind: CompilationJobKind.Tmpl, fn: convertI18nBindings },
  { kind: CompilationJobKind.Tmpl, fn: removeUnusedI18nAttributesOps },
  { kind: CompilationJobKind.Tmpl, fn: assignI18nSlotDependencies },
  { kind: CompilationJobKind.Tmpl, fn: applyI18nExpressions },
  { kind: CompilationJobKind.Tmpl, fn: createVariadicPipes },
  { kind: CompilationJobKind.Both, fn: generatePureLiteralStructures },
  { kind: CompilationJobKind.Tmpl, fn: generateProjectionDefs },
  { kind: CompilationJobKind.Tmpl, fn: generateLocalLetReferences },
  { kind: CompilationJobKind.Tmpl, fn: generateVariables },
  { kind: CompilationJobKind.Tmpl, fn: saveAndRestoreView },
  { kind: CompilationJobKind.Both, fn: deleteAnyCasts },
  { kind: CompilationJobKind.Both, fn: resolveDollarEvent },
  { kind: CompilationJobKind.Tmpl, fn: generateTrackVariables },
  { kind: CompilationJobKind.Tmpl, fn: removeIllegalLetReferences },
  { kind: CompilationJobKind.Both, fn: resolveNames },
  { kind: CompilationJobKind.Tmpl, fn: resolveDeferTargetNames },
  { kind: CompilationJobKind.Tmpl, fn: transformTwoWayBindingSet },
  { kind: CompilationJobKind.Tmpl, fn: optimizeTrackFns },
  { kind: CompilationJobKind.Both, fn: resolveContexts },
  { kind: CompilationJobKind.Both, fn: resolveSanitizers },
  { kind: CompilationJobKind.Tmpl, fn: liftLocalRefs },
  { kind: CompilationJobKind.Both, fn: generateNullishCoalesceExpressions },
  { kind: CompilationJobKind.Both, fn: expandSafeReads },
  { kind: CompilationJobKind.Both, fn: generateTemporaryVariables },
  { kind: CompilationJobKind.Both, fn: optimizeVariables },
  { kind: CompilationJobKind.Both, fn: optimizeStoreLet },
  { kind: CompilationJobKind.Tmpl, fn: allocateSlots },
  { kind: CompilationJobKind.Tmpl, fn: resolveI18nElementPlaceholders },
  { kind: CompilationJobKind.Tmpl, fn: resolveI18nExpressionPlaceholders },
  { kind: CompilationJobKind.Tmpl, fn: extractI18nMessages },
  { kind: CompilationJobKind.Tmpl, fn: generateTrackFns },
  { kind: CompilationJobKind.Tmpl, fn: collectI18nConsts },
  { kind: CompilationJobKind.Tmpl, fn: collectConstExpressions },
  { kind: CompilationJobKind.Both, fn: collectElementConsts },
  { kind: CompilationJobKind.Tmpl, fn: removeI18nContexts },
  { kind: CompilationJobKind.Both, fn: countVariables },
  { kind: CompilationJobKind.Tmpl, fn: generateAdvance },
  { kind: CompilationJobKind.Both, fn: nameFunctionsAndVariables },
  { kind: CompilationJobKind.Tmpl, fn: resolveDeferDepsFns },
  { kind: CompilationJobKind.Tmpl, fn: mergeNextContextExpressions },
  { kind: CompilationJobKind.Tmpl, fn: generateNgContainerOps },
  { kind: CompilationJobKind.Tmpl, fn: collapseEmptyInstructions },
  { kind: CompilationJobKind.Tmpl, fn: disableBindings },
  { kind: CompilationJobKind.Both, fn: extractPureFunctions },
  { kind: CompilationJobKind.Both, fn: reify },
  { kind: CompilationJobKind.Both, fn: chain }
];
function transform(job, kind) {
  for (const phase of phases) {
    if (phase.kind === kind || phase.kind === CompilationJobKind.Both) {
      phase.fn(job);
    }
  }
}
function emitTemplateFn(tpl, pool) {
  const rootFn = emitView(tpl.root);
  emitChildViews(tpl.root, pool);
  return rootFn;
}
function emitChildViews(parent, pool) {
  for (const unit of parent.job.units) {
    if (unit.parent !== parent.xref) {
      continue;
    }
    emitChildViews(unit, pool);
    const viewFn = emitView(unit);
    pool.statements.push(viewFn.toDeclStmt(viewFn.name));
  }
}
function emitView(view) {
  if (view.fnName === null) {
    throw new Error(`AssertionError: view ${view.xref} is unnamed`);
  }
  const createStatements = [];
  for (const op of view.create) {
    if (op.kind !== OpKind.Statement) {
      throw new Error(`AssertionError: expected all create ops to have been compiled, but got ${OpKind[op.kind]}`);
    }
    createStatements.push(op.statement);
  }
  const updateStatements = [];
  for (const op of view.update) {
    if (op.kind !== OpKind.Statement) {
      throw new Error(`AssertionError: expected all update ops to have been compiled, but got ${OpKind[op.kind]}`);
    }
    updateStatements.push(op.statement);
  }
  const createCond = maybeGenerateRfBlock(1, createStatements);
  const updateCond = maybeGenerateRfBlock(2, updateStatements);
  return fn(
    [new FnParam("rf"), new FnParam("ctx")],
    [...createCond, ...updateCond],
    void 0,
    void 0,
    view.fnName
  );
}
function maybeGenerateRfBlock(flag, statements) {
  if (statements.length === 0) {
    return [];
  }
  return [
    ifStmt(new BinaryOperatorExpr(BinaryOperator.BitwiseAnd, variable("rf"), literal(flag)), statements)
  ];
}
function emitHostBindingFunction(job) {
  if (job.root.fnName === null) {
    throw new Error(`AssertionError: host binding function is unnamed`);
  }
  const createStatements = [];
  for (const op of job.root.create) {
    if (op.kind !== OpKind.Statement) {
      throw new Error(`AssertionError: expected all create ops to have been compiled, but got ${OpKind[op.kind]}`);
    }
    createStatements.push(op.statement);
  }
  const updateStatements = [];
  for (const op of job.root.update) {
    if (op.kind !== OpKind.Statement) {
      throw new Error(`AssertionError: expected all update ops to have been compiled, but got ${OpKind[op.kind]}`);
    }
    updateStatements.push(op.statement);
  }
  if (createStatements.length === 0 && updateStatements.length === 0) {
    return null;
  }
  const createCond = maybeGenerateRfBlock(1, createStatements);
  const updateCond = maybeGenerateRfBlock(2, updateStatements);
  return fn(
    [new FnParam("rf"), new FnParam("ctx")],
    [...createCond, ...updateCond],
    void 0,
    void 0,
    job.root.fnName
  );
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template/pipeline/src/ingest.mjs
var compatibilityMode = CompatibilityMode.TemplateDefinitionBuilder;
var domSchema = new DomElementSchemaRegistry();
var NG_TEMPLATE_TAG_NAME = "ng-template";
function isI18nRootNode(meta) {
  return meta instanceof Message;
}
function isSingleI18nIcu(meta) {
  return isI18nRootNode(meta) && meta.nodes.length === 1 && meta.nodes[0] instanceof Icu2;
}
function ingestComponent(componentName, template2, constantPool, relativeContextFilePath, i18nUseExternalIds, deferMeta, allDeferrableDepsFn) {
  const job = new ComponentCompilationJob(componentName, constantPool, compatibilityMode, relativeContextFilePath, i18nUseExternalIds, deferMeta, allDeferrableDepsFn);
  ingestNodes(job.root, template2);
  return job;
}
function ingestHostBinding(input, bindingParser, constantPool) {
  var _a2, _b2, _c2;
  const job = new HostBindingCompilationJob(input.componentName, constantPool, compatibilityMode);
  for (const property2 of (_a2 = input.properties) != null ? _a2 : []) {
    let bindingKind = BindingKind.Property;
    if (property2.name.startsWith("attr.")) {
      property2.name = property2.name.substring("attr.".length);
      bindingKind = BindingKind.Attribute;
    }
    if (property2.isAnimation) {
      bindingKind = BindingKind.Animation;
    }
    const securityContexts = bindingParser.calcPossibleSecurityContexts(input.componentSelector, property2.name, bindingKind === BindingKind.Attribute).filter((context) => context !== SecurityContext.NONE);
    ingestHostProperty(job, property2, bindingKind, securityContexts);
  }
  for (const [name, expr] of (_b2 = Object.entries(input.attributes)) != null ? _b2 : []) {
    const securityContexts = bindingParser.calcPossibleSecurityContexts(input.componentSelector, name, true).filter((context) => context !== SecurityContext.NONE);
    ingestHostAttribute(job, name, expr, securityContexts);
  }
  for (const event of (_c2 = input.events) != null ? _c2 : []) {
    ingestHostEvent(job, event);
  }
  return job;
}
function ingestHostProperty(job, property2, bindingKind, securityContexts) {
  let expression;
  const ast = property2.expression.ast;
  if (ast instanceof Interpolation) {
    expression = new Interpolation2(ast.strings, ast.expressions.map((expr) => convertAst(expr, job, property2.sourceSpan)), []);
  } else {
    expression = convertAst(ast, job, property2.sourceSpan);
  }
  job.root.update.push(createBindingOp(
    job.root.xref,
    bindingKind,
    property2.name,
    expression,
    null,
    securityContexts,
    false,
    false,
    null,
    null,
    property2.sourceSpan
  ));
}
function ingestHostAttribute(job, name, value, securityContexts) {
  const attrBinding = createBindingOp(
    job.root.xref,
    BindingKind.Attribute,
    name,
    value,
    null,
    securityContexts,
    true,
    false,
    null,
    null,
    value.sourceSpan
  );
  job.root.update.push(attrBinding);
}
function ingestHostEvent(job, event) {
  const [phase, target] = event.type !== ParsedEventType.Animation ? [null, event.targetOrPhase] : [event.targetOrPhase, null];
  const eventBinding = createListenerOp(job.root.xref, new SlotHandle(), event.name, null, makeListenerHandlerOps(job.root, event.handler, event.handlerSpan), phase, target, true, event.sourceSpan);
  job.root.create.push(eventBinding);
}
function ingestNodes(unit, template2) {
  for (const node of template2) {
    if (node instanceof Element) {
      ingestElement(unit, node);
    } else if (node instanceof Template) {
      ingestTemplate(unit, node);
    } else if (node instanceof Content) {
      ingestContent(unit, node);
    } else if (node instanceof Text) {
      ingestText(unit, node, null);
    } else if (node instanceof BoundText) {
      ingestBoundText(unit, node, null);
    } else if (node instanceof IfBlock) {
      ingestIfBlock(unit, node);
    } else if (node instanceof SwitchBlock) {
      ingestSwitchBlock(unit, node);
    } else if (node instanceof DeferredBlock) {
      ingestDeferBlock(unit, node);
    } else if (node instanceof Icu) {
      ingestIcu(unit, node);
    } else if (node instanceof ForLoopBlock) {
      ingestForBlock(unit, node);
    } else if (node instanceof LetDeclaration) {
      ingestLetDeclaration(unit, node);
    } else {
      throw new Error(`Unsupported template node: ${node.constructor.name}`);
    }
  }
}
function ingestElement(unit, element2) {
  var _a2, _b2;
  if (element2.i18n !== void 0 && !(element2.i18n instanceof Message || element2.i18n instanceof TagPlaceholder)) {
    throw Error(`Unhandled i18n metadata type for element: ${element2.i18n.constructor.name}`);
  }
  const id = unit.job.allocateXrefId();
  const [namespaceKey, elementName] = splitNsName(element2.name);
  const startOp = createElementStartOp(elementName, id, namespaceForKey(namespaceKey), element2.i18n instanceof TagPlaceholder ? element2.i18n : void 0, element2.startSourceSpan, element2.sourceSpan);
  unit.create.push(startOp);
  ingestElementBindings(unit, startOp, element2);
  ingestReferences(startOp, element2);
  let i18nBlockId = null;
  if (element2.i18n instanceof Message) {
    i18nBlockId = unit.job.allocateXrefId();
    unit.create.push(createI18nStartOp(i18nBlockId, element2.i18n, void 0, element2.startSourceSpan));
  }
  ingestNodes(unit, element2.children);
  const endOp = createElementEndOp(id, (_a2 = element2.endSourceSpan) != null ? _a2 : element2.startSourceSpan);
  unit.create.push(endOp);
  if (i18nBlockId !== null) {
    OpList.insertBefore(createI18nEndOp(i18nBlockId, (_b2 = element2.endSourceSpan) != null ? _b2 : element2.startSourceSpan), endOp);
  }
}
function ingestTemplate(unit, tmpl) {
  var _a2;
  if (tmpl.i18n !== void 0 && !(tmpl.i18n instanceof Message || tmpl.i18n instanceof TagPlaceholder)) {
    throw Error(`Unhandled i18n metadata type for template: ${tmpl.i18n.constructor.name}`);
  }
  const childView = unit.job.allocateView(unit.xref);
  let tagNameWithoutNamespace = tmpl.tagName;
  let namespacePrefix = "";
  if (tmpl.tagName) {
    [namespacePrefix, tagNameWithoutNamespace] = splitNsName(tmpl.tagName);
  }
  const i18nPlaceholder = tmpl.i18n instanceof TagPlaceholder ? tmpl.i18n : void 0;
  const namespace = namespaceForKey(namespacePrefix);
  const functionNameSuffix = tagNameWithoutNamespace === null ? "" : prefixWithNamespace(tagNameWithoutNamespace, namespace);
  const templateKind = isPlainTemplate(tmpl) ? TemplateKind.NgTemplate : TemplateKind.Structural;
  const templateOp = createTemplateOp(childView.xref, templateKind, tagNameWithoutNamespace, functionNameSuffix, namespace, i18nPlaceholder, tmpl.startSourceSpan, tmpl.sourceSpan);
  unit.create.push(templateOp);
  ingestTemplateBindings(unit, templateOp, tmpl, templateKind);
  ingestReferences(templateOp, tmpl);
  ingestNodes(childView, tmpl.children);
  for (const { name, value } of tmpl.variables) {
    childView.contextVariables.set(name, value !== "" ? value : "$implicit");
  }
  if (templateKind === TemplateKind.NgTemplate && tmpl.i18n instanceof Message) {
    const id = unit.job.allocateXrefId();
    OpList.insertAfter(createI18nStartOp(id, tmpl.i18n, void 0, tmpl.startSourceSpan), childView.create.head);
    OpList.insertBefore(createI18nEndOp(id, (_a2 = tmpl.endSourceSpan) != null ? _a2 : tmpl.startSourceSpan), childView.create.tail);
  }
}
function ingestContent(unit, content) {
  var _a2;
  if (content.i18n !== void 0 && !(content.i18n instanceof TagPlaceholder)) {
    throw Error(`Unhandled i18n metadata type for element: ${content.i18n.constructor.name}`);
  }
  let fallbackView = null;
  if (content.children.some((child) => !(child instanceof Comment) && (!(child instanceof Text) || child.value.trim().length > 0))) {
    fallbackView = unit.job.allocateView(unit.xref);
    ingestNodes(fallbackView, content.children);
  }
  const id = unit.job.allocateXrefId();
  const op = createProjectionOp(id, content.selector, content.i18n, (_a2 = fallbackView == null ? void 0 : fallbackView.xref) != null ? _a2 : null, content.sourceSpan);
  for (const attr of content.attributes) {
    const securityContext = domSchema.securityContext(content.name, attr.name, true);
    unit.update.push(createBindingOp(op.xref, BindingKind.Attribute, attr.name, literal(attr.value), null, securityContext, true, false, null, asMessage(attr.i18n), attr.sourceSpan));
  }
  unit.create.push(op);
}
function ingestText(unit, text2, icuPlaceholder) {
  unit.create.push(createTextOp(unit.job.allocateXrefId(), text2.value, icuPlaceholder, text2.sourceSpan));
}
function ingestBoundText(unit, text2, icuPlaceholder) {
  var _a2;
  let value = text2.value;
  if (value instanceof ASTWithSource) {
    value = value.ast;
  }
  if (!(value instanceof Interpolation)) {
    throw new Error(`AssertionError: expected Interpolation for BoundText node, got ${value.constructor.name}`);
  }
  if (text2.i18n !== void 0 && !(text2.i18n instanceof Container)) {
    throw Error(`Unhandled i18n metadata type for text interpolation: ${(_a2 = text2.i18n) == null ? void 0 : _a2.constructor.name}`);
  }
  const i18nPlaceholders = text2.i18n instanceof Container ? text2.i18n.children.filter((node) => node instanceof Placeholder).map((placeholder) => placeholder.name) : [];
  if (i18nPlaceholders.length > 0 && i18nPlaceholders.length !== value.expressions.length) {
    throw Error(`Unexpected number of i18n placeholders (${value.expressions.length}) for BoundText with ${value.expressions.length} expressions`);
  }
  const textXref = unit.job.allocateXrefId();
  unit.create.push(createTextOp(textXref, "", icuPlaceholder, text2.sourceSpan));
  const baseSourceSpan = unit.job.compatibility ? null : text2.sourceSpan;
  unit.update.push(createInterpolateTextOp(textXref, new Interpolation2(value.strings, value.expressions.map((expr) => convertAst(expr, unit.job, baseSourceSpan)), i18nPlaceholders), text2.sourceSpan));
}
function ingestIfBlock(unit, ifBlock) {
  var _a2;
  let firstXref = null;
  let conditions = [];
  for (let i = 0; i < ifBlock.branches.length; i++) {
    const ifCase = ifBlock.branches[i];
    const cView = unit.job.allocateView(unit.xref);
    const tagName = ingestControlFlowInsertionPoint(unit, cView.xref, ifCase);
    if (ifCase.expressionAlias !== null) {
      cView.contextVariables.set(ifCase.expressionAlias.name, CTX_REF);
    }
    let ifCaseI18nMeta = void 0;
    if (ifCase.i18n !== void 0) {
      if (!(ifCase.i18n instanceof BlockPlaceholder)) {
        throw Error(`Unhandled i18n metadata type for if block: ${(_a2 = ifCase.i18n) == null ? void 0 : _a2.constructor.name}`);
      }
      ifCaseI18nMeta = ifCase.i18n;
    }
    const templateOp = createTemplateOp(cView.xref, TemplateKind.Block, tagName, "Conditional", Namespace.HTML, ifCaseI18nMeta, ifCase.startSourceSpan, ifCase.sourceSpan);
    unit.create.push(templateOp);
    if (firstXref === null) {
      firstXref = cView.xref;
    }
    const caseExpr = ifCase.expression ? convertAst(ifCase.expression, unit.job, null) : null;
    const conditionalCaseExpr = new ConditionalCaseExpr(caseExpr, templateOp.xref, templateOp.handle, ifCase.expressionAlias);
    conditions.push(conditionalCaseExpr);
    ingestNodes(cView, ifCase.children);
  }
  unit.update.push(createConditionalOp(firstXref, null, conditions, ifBlock.sourceSpan));
}
function ingestSwitchBlock(unit, switchBlock) {
  var _a2;
  if (switchBlock.cases.length === 0) {
    return;
  }
  let firstXref = null;
  let conditions = [];
  for (const switchCase of switchBlock.cases) {
    const cView = unit.job.allocateView(unit.xref);
    const tagName = ingestControlFlowInsertionPoint(unit, cView.xref, switchCase);
    let switchCaseI18nMeta = void 0;
    if (switchCase.i18n !== void 0) {
      if (!(switchCase.i18n instanceof BlockPlaceholder)) {
        throw Error(`Unhandled i18n metadata type for switch block: ${(_a2 = switchCase.i18n) == null ? void 0 : _a2.constructor.name}`);
      }
      switchCaseI18nMeta = switchCase.i18n;
    }
    const templateOp = createTemplateOp(cView.xref, TemplateKind.Block, tagName, "Case", Namespace.HTML, switchCaseI18nMeta, switchCase.startSourceSpan, switchCase.sourceSpan);
    unit.create.push(templateOp);
    if (firstXref === null) {
      firstXref = cView.xref;
    }
    const caseExpr = switchCase.expression ? convertAst(switchCase.expression, unit.job, switchBlock.startSourceSpan) : null;
    const conditionalCaseExpr = new ConditionalCaseExpr(caseExpr, templateOp.xref, templateOp.handle);
    conditions.push(conditionalCaseExpr);
    ingestNodes(cView, switchCase.children);
  }
  unit.update.push(createConditionalOp(firstXref, convertAst(switchBlock.expression, unit.job, null), conditions, switchBlock.sourceSpan));
}
function ingestDeferView(unit, suffix, i18nMeta, children, sourceSpan) {
  if (i18nMeta !== void 0 && !(i18nMeta instanceof BlockPlaceholder)) {
    throw Error("Unhandled i18n metadata type for defer block");
  }
  if (children === void 0) {
    return null;
  }
  const secondaryView = unit.job.allocateView(unit.xref);
  ingestNodes(secondaryView, children);
  const templateOp = createTemplateOp(secondaryView.xref, TemplateKind.Block, null, `Defer${suffix}`, Namespace.HTML, i18nMeta, sourceSpan, sourceSpan);
  unit.create.push(templateOp);
  return templateOp;
}
function ingestDeferBlock(unit, deferBlock) {
  var _a2, _b2, _c2, _d2, _e2, _f2, _g2, _h2, _i, _j, _k, _l, _m, _n, _o, _p, _q, _r, _s, _t;
  let ownResolverFn = null;
  if (unit.job.deferMeta.mode === 0) {
    if (!unit.job.deferMeta.blocks.has(deferBlock)) {
      throw new Error(`AssertionError: unable to find a dependency function for this deferred block`);
    }
    ownResolverFn = (_a2 = unit.job.deferMeta.blocks.get(deferBlock)) != null ? _a2 : null;
  }
  const main = ingestDeferView(unit, "", deferBlock.i18n, deferBlock.children, deferBlock.sourceSpan);
  const loading = ingestDeferView(unit, "Loading", (_b2 = deferBlock.loading) == null ? void 0 : _b2.i18n, (_c2 = deferBlock.loading) == null ? void 0 : _c2.children, (_d2 = deferBlock.loading) == null ? void 0 : _d2.sourceSpan);
  const placeholder = ingestDeferView(unit, "Placeholder", (_e2 = deferBlock.placeholder) == null ? void 0 : _e2.i18n, (_f2 = deferBlock.placeholder) == null ? void 0 : _f2.children, (_g2 = deferBlock.placeholder) == null ? void 0 : _g2.sourceSpan);
  const error = ingestDeferView(unit, "Error", (_h2 = deferBlock.error) == null ? void 0 : _h2.i18n, (_i = deferBlock.error) == null ? void 0 : _i.children, (_j = deferBlock.error) == null ? void 0 : _j.sourceSpan);
  const deferXref = unit.job.allocateXrefId();
  const deferOp = createDeferOp(deferXref, main.xref, main.handle, ownResolverFn, unit.job.allDeferrableDepsFn, deferBlock.sourceSpan);
  deferOp.placeholderView = (_k = placeholder == null ? void 0 : placeholder.xref) != null ? _k : null;
  deferOp.placeholderSlot = (_l = placeholder == null ? void 0 : placeholder.handle) != null ? _l : null;
  deferOp.loadingSlot = (_m = loading == null ? void 0 : loading.handle) != null ? _m : null;
  deferOp.errorSlot = (_n = error == null ? void 0 : error.handle) != null ? _n : null;
  deferOp.placeholderMinimumTime = (_p = (_o = deferBlock.placeholder) == null ? void 0 : _o.minimumTime) != null ? _p : null;
  deferOp.loadingMinimumTime = (_r = (_q = deferBlock.loading) == null ? void 0 : _q.minimumTime) != null ? _r : null;
  deferOp.loadingAfterTime = (_t = (_s = deferBlock.loading) == null ? void 0 : _s.afterTime) != null ? _t : null;
  unit.create.push(deferOp);
  let prefetch = false;
  let deferOnOps = [];
  let deferWhenOps = [];
  for (const triggers of [deferBlock.triggers, deferBlock.prefetchTriggers]) {
    if (triggers.idle !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, { kind: DeferTriggerKind.Idle }, prefetch, triggers.idle.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.immediate !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, { kind: DeferTriggerKind.Immediate }, prefetch, triggers.immediate.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.timer !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, { kind: DeferTriggerKind.Timer, delay: triggers.timer.delay }, prefetch, triggers.timer.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.hover !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, {
        kind: DeferTriggerKind.Hover,
        targetName: triggers.hover.reference,
        targetXref: null,
        targetSlot: null,
        targetView: null,
        targetSlotViewSteps: null
      }, prefetch, triggers.hover.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.interaction !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, {
        kind: DeferTriggerKind.Interaction,
        targetName: triggers.interaction.reference,
        targetXref: null,
        targetSlot: null,
        targetView: null,
        targetSlotViewSteps: null
      }, prefetch, triggers.interaction.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.viewport !== void 0) {
      const deferOnOp = createDeferOnOp(deferXref, {
        kind: DeferTriggerKind.Viewport,
        targetName: triggers.viewport.reference,
        targetXref: null,
        targetSlot: null,
        targetView: null,
        targetSlotViewSteps: null
      }, prefetch, triggers.viewport.sourceSpan);
      deferOnOps.push(deferOnOp);
    }
    if (triggers.when !== void 0) {
      if (triggers.when.value instanceof Interpolation) {
        throw new Error(`Unexpected interpolation in defer block when trigger`);
      }
      const deferOnOp = createDeferWhenOp(deferXref, convertAst(triggers.when.value, unit.job, triggers.when.sourceSpan), prefetch, triggers.when.sourceSpan);
      deferWhenOps.push(deferOnOp);
    }
    if (deferOnOps.length === 0 && deferWhenOps.length === 0) {
      deferOnOps.push(createDeferOnOp(deferXref, { kind: DeferTriggerKind.Idle }, false, null));
    }
    prefetch = true;
  }
  unit.create.push(deferOnOps);
  unit.update.push(deferWhenOps);
}
function ingestIcu(unit, icu) {
  var _a2;
  if (icu.i18n instanceof Message && isSingleI18nIcu(icu.i18n)) {
    const xref = unit.job.allocateXrefId();
    unit.create.push(createIcuStartOp(xref, icu.i18n, icuFromI18nMessage(icu.i18n).name, null));
    for (const [placeholder, text2] of Object.entries(__spreadValues(__spreadValues({}, icu.vars), icu.placeholders))) {
      if (text2 instanceof BoundText) {
        ingestBoundText(unit, text2, placeholder);
      } else {
        ingestText(unit, text2, placeholder);
      }
    }
    unit.create.push(createIcuEndOp(xref));
  } else {
    throw Error(`Unhandled i18n metadata type for ICU: ${(_a2 = icu.i18n) == null ? void 0 : _a2.constructor.name}`);
  }
}
function ingestForBlock(unit, forBlock) {
  var _a2, _b2, _c2;
  const repeaterView = unit.job.allocateView(unit.xref);
  const indexName = `\u0275$index_${repeaterView.xref}`;
  const countName = `\u0275$count_${repeaterView.xref}`;
  const indexVarNames = /* @__PURE__ */ new Set();
  repeaterView.contextVariables.set(forBlock.item.name, forBlock.item.value);
  for (const variable2 of forBlock.contextVariables) {
    if (variable2.value === "$index") {
      indexVarNames.add(variable2.name);
    }
    if (variable2.name === "$index") {
      repeaterView.contextVariables.set("$index", variable2.value).set(indexName, variable2.value);
    } else if (variable2.name === "$count") {
      repeaterView.contextVariables.set("$count", variable2.value).set(countName, variable2.value);
    } else {
      repeaterView.aliases.add({
        kind: SemanticVariableKind.Alias,
        name: null,
        identifier: variable2.name,
        expression: getComputedForLoopVariableExpression(variable2, indexName, countName)
      });
    }
  }
  const sourceSpan = convertSourceSpan(forBlock.trackBy.span, forBlock.sourceSpan);
  const track = convertAst(forBlock.trackBy, unit.job, sourceSpan);
  ingestNodes(repeaterView, forBlock.children);
  let emptyView = null;
  let emptyTagName = null;
  if (forBlock.empty !== null) {
    emptyView = unit.job.allocateView(unit.xref);
    ingestNodes(emptyView, forBlock.empty.children);
    emptyTagName = ingestControlFlowInsertionPoint(unit, emptyView.xref, forBlock.empty);
  }
  const varNames = {
    $index: indexVarNames,
    $implicit: forBlock.item.name
  };
  if (forBlock.i18n !== void 0 && !(forBlock.i18n instanceof BlockPlaceholder)) {
    throw Error("AssertionError: Unhandled i18n metadata type or @for");
  }
  if (((_a2 = forBlock.empty) == null ? void 0 : _a2.i18n) !== void 0 && !(forBlock.empty.i18n instanceof BlockPlaceholder)) {
    throw Error("AssertionError: Unhandled i18n metadata type or @empty");
  }
  const i18nPlaceholder = forBlock.i18n;
  const emptyI18nPlaceholder = (_b2 = forBlock.empty) == null ? void 0 : _b2.i18n;
  const tagName = ingestControlFlowInsertionPoint(unit, repeaterView.xref, forBlock);
  const repeaterCreate2 = createRepeaterCreateOp(repeaterView.xref, (_c2 = emptyView == null ? void 0 : emptyView.xref) != null ? _c2 : null, tagName, track, varNames, emptyTagName, i18nPlaceholder, emptyI18nPlaceholder, forBlock.startSourceSpan, forBlock.sourceSpan);
  unit.create.push(repeaterCreate2);
  const expression = convertAst(forBlock.expression, unit.job, convertSourceSpan(forBlock.expression.span, forBlock.sourceSpan));
  const repeater2 = createRepeaterOp(repeaterCreate2.xref, repeaterCreate2.handle, expression, forBlock.sourceSpan);
  unit.update.push(repeater2);
}
function getComputedForLoopVariableExpression(variable2, indexName, countName) {
  switch (variable2.value) {
    case "$index":
      return new LexicalReadExpr(indexName);
    case "$count":
      return new LexicalReadExpr(countName);
    case "$first":
      return new LexicalReadExpr(indexName).identical(literal(0));
    case "$last":
      return new LexicalReadExpr(indexName).identical(new LexicalReadExpr(countName).minus(literal(1)));
    case "$even":
      return new LexicalReadExpr(indexName).modulo(literal(2)).identical(literal(0));
    case "$odd":
      return new LexicalReadExpr(indexName).modulo(literal(2)).notIdentical(literal(0));
    default:
      throw new Error(`AssertionError: unknown @for loop variable ${variable2.value}`);
  }
}
function ingestLetDeclaration(unit, node) {
  const target = unit.job.allocateXrefId();
  unit.create.push(createDeclareLetOp(target, node.name, node.sourceSpan));
  unit.update.push(createStoreLetOp(target, node.name, convertAst(node.value, unit.job, node.valueSpan), node.sourceSpan));
}
function convertAst(ast, job, baseSourceSpan) {
  if (ast instanceof ASTWithSource) {
    return convertAst(ast.ast, job, baseSourceSpan);
  } else if (ast instanceof PropertyRead) {
    const isThisReceiver = ast.receiver instanceof ThisReceiver;
    const isImplicitReceiver = ast.receiver instanceof ImplicitReceiver && !(ast.receiver instanceof ThisReceiver);
    const isSpecialNode = ast.name === "$any" || ast.name === "$event";
    if (isImplicitReceiver || isThisReceiver && !isSpecialNode) {
      return new LexicalReadExpr(ast.name);
    } else {
      return new ReadPropExpr(convertAst(ast.receiver, job, baseSourceSpan), ast.name, null, convertSourceSpan(ast.span, baseSourceSpan));
    }
  } else if (ast instanceof PropertyWrite) {
    if (ast.receiver instanceof ImplicitReceiver) {
      return new WritePropExpr(
        new ContextExpr(job.root.xref),
        ast.name,
        convertAst(ast.value, job, baseSourceSpan),
        null,
        convertSourceSpan(ast.span, baseSourceSpan)
      );
    }
    return new WritePropExpr(convertAst(ast.receiver, job, baseSourceSpan), ast.name, convertAst(ast.value, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof KeyedWrite) {
    return new WriteKeyExpr(convertAst(ast.receiver, job, baseSourceSpan), convertAst(ast.key, job, baseSourceSpan), convertAst(ast.value, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof Call) {
    if (ast.receiver instanceof ImplicitReceiver) {
      throw new Error(`Unexpected ImplicitReceiver`);
    } else {
      return new InvokeFunctionExpr(convertAst(ast.receiver, job, baseSourceSpan), ast.args.map((arg) => convertAst(arg, job, baseSourceSpan)), void 0, convertSourceSpan(ast.span, baseSourceSpan));
    }
  } else if (ast instanceof LiteralPrimitive) {
    return literal(ast.value, void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof Unary) {
    switch (ast.operator) {
      case "+":
        return new UnaryOperatorExpr(UnaryOperator.Plus, convertAst(ast.expr, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
      case "-":
        return new UnaryOperatorExpr(UnaryOperator.Minus, convertAst(ast.expr, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
      default:
        throw new Error(`AssertionError: unknown unary operator ${ast.operator}`);
    }
  } else if (ast instanceof Binary) {
    const operator = BINARY_OPERATORS.get(ast.operation);
    if (operator === void 0) {
      throw new Error(`AssertionError: unknown binary operator ${ast.operation}`);
    }
    return new BinaryOperatorExpr(operator, convertAst(ast.left, job, baseSourceSpan), convertAst(ast.right, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof ThisReceiver) {
    return new ContextExpr(job.root.xref);
  } else if (ast instanceof KeyedRead) {
    return new ReadKeyExpr(convertAst(ast.receiver, job, baseSourceSpan), convertAst(ast.key, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof Chain) {
    throw new Error(`AssertionError: Chain in unknown context`);
  } else if (ast instanceof LiteralMap) {
    const entries = ast.keys.map((key, idx) => {
      const value = ast.values[idx];
      return new LiteralMapEntry(key.key, convertAst(value, job, baseSourceSpan), key.quoted);
    });
    return new LiteralMapExpr(entries, void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof LiteralArray) {
    return new LiteralArrayExpr(ast.expressions.map((expr) => convertAst(expr, job, baseSourceSpan)));
  } else if (ast instanceof Conditional) {
    return new ConditionalExpr(convertAst(ast.condition, job, baseSourceSpan), convertAst(ast.trueExp, job, baseSourceSpan), convertAst(ast.falseExp, job, baseSourceSpan), void 0, convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof NonNullAssert) {
    return convertAst(ast.expression, job, baseSourceSpan);
  } else if (ast instanceof BindingPipe) {
    return new PipeBindingExpr(job.allocateXrefId(), new SlotHandle(), ast.name, [
      convertAst(ast.exp, job, baseSourceSpan),
      ...ast.args.map((arg) => convertAst(arg, job, baseSourceSpan))
    ]);
  } else if (ast instanceof SafeKeyedRead) {
    return new SafeKeyedReadExpr(convertAst(ast.receiver, job, baseSourceSpan), convertAst(ast.key, job, baseSourceSpan), convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof SafePropertyRead) {
    return new SafePropertyReadExpr(convertAst(ast.receiver, job, baseSourceSpan), ast.name);
  } else if (ast instanceof SafeCall) {
    return new SafeInvokeFunctionExpr(convertAst(ast.receiver, job, baseSourceSpan), ast.args.map((a) => convertAst(a, job, baseSourceSpan)));
  } else if (ast instanceof EmptyExpr) {
    return new EmptyExpr2(convertSourceSpan(ast.span, baseSourceSpan));
  } else if (ast instanceof PrefixNot) {
    return not(convertAst(ast.expression, job, baseSourceSpan), convertSourceSpan(ast.span, baseSourceSpan));
  } else {
    throw new Error(`Unhandled expression type "${ast.constructor.name}" in file "${baseSourceSpan == null ? void 0 : baseSourceSpan.start.file.url}"`);
  }
}
function convertAstWithInterpolation(job, value, i18nMeta, sourceSpan) {
  var _a2, _b2;
  let expression;
  if (value instanceof Interpolation) {
    expression = new Interpolation2(value.strings, value.expressions.map((e) => convertAst(e, job, sourceSpan != null ? sourceSpan : null)), Object.keys((_b2 = (_a2 = asMessage(i18nMeta)) == null ? void 0 : _a2.placeholders) != null ? _b2 : {}));
  } else if (value instanceof AST) {
    expression = convertAst(value, job, sourceSpan != null ? sourceSpan : null);
  } else {
    expression = literal(value);
  }
  return expression;
}
var BINDING_KINDS = /* @__PURE__ */ new Map([
  [BindingType.Property, BindingKind.Property],
  [BindingType.TwoWay, BindingKind.TwoWayProperty],
  [BindingType.Attribute, BindingKind.Attribute],
  [BindingType.Class, BindingKind.ClassName],
  [BindingType.Style, BindingKind.StyleProperty],
  [BindingType.Animation, BindingKind.Animation]
]);
function isPlainTemplate(tmpl) {
  var _a2;
  return splitNsName((_a2 = tmpl.tagName) != null ? _a2 : "")[1] === NG_TEMPLATE_TAG_NAME;
}
function asMessage(i18nMeta) {
  if (i18nMeta == null) {
    return null;
  }
  if (!(i18nMeta instanceof Message)) {
    throw Error(`Expected i18n meta to be a Message, but got: ${i18nMeta.constructor.name}`);
  }
  return i18nMeta;
}
function ingestElementBindings(unit, op, element2) {
  var _a2;
  let bindings = new Array();
  let i18nAttributeBindingNames = /* @__PURE__ */ new Set();
  for (const attr of element2.attributes) {
    const securityContext = domSchema.securityContext(element2.name, attr.name, true);
    bindings.push(createBindingOp(op.xref, BindingKind.Attribute, attr.name, convertAstWithInterpolation(unit.job, attr.value, attr.i18n), null, securityContext, true, false, null, asMessage(attr.i18n), attr.sourceSpan));
    if (attr.i18n) {
      i18nAttributeBindingNames.add(attr.name);
    }
  }
  for (const input of element2.inputs) {
    if (i18nAttributeBindingNames.has(input.name)) {
      console.error(`On component ${unit.job.componentName}, the binding ${input.name} is both an i18n attribute and a property. You may want to remove the property binding. This will become a compilation error in future versions of Angular.`);
    }
    bindings.push(createBindingOp(op.xref, BINDING_KINDS.get(input.type), input.name, convertAstWithInterpolation(unit.job, astOf(input.value), input.i18n), input.unit, input.securityContext, false, false, null, (_a2 = asMessage(input.i18n)) != null ? _a2 : null, input.sourceSpan));
  }
  unit.create.push(bindings.filter((b) => (b == null ? void 0 : b.kind) === OpKind.ExtractedAttribute));
  unit.update.push(bindings.filter((b) => (b == null ? void 0 : b.kind) === OpKind.Binding));
  for (const output of element2.outputs) {
    if (output.type === ParsedEventType.Animation && output.phase === null) {
      throw Error("Animation listener should have a phase");
    }
    if (output.type === ParsedEventType.TwoWay) {
      unit.create.push(createTwoWayListenerOp(op.xref, op.handle, output.name, op.tag, makeTwoWayListenerHandlerOps(unit, output.handler, output.handlerSpan), output.sourceSpan));
    } else {
      unit.create.push(createListenerOp(op.xref, op.handle, output.name, op.tag, makeListenerHandlerOps(unit, output.handler, output.handlerSpan), output.phase, output.target, false, output.sourceSpan));
    }
  }
  if (bindings.some((b) => b == null ? void 0 : b.i18nMessage) !== null) {
    unit.create.push(createI18nAttributesOp(unit.job.allocateXrefId(), new SlotHandle(), op.xref));
  }
}
function ingestTemplateBindings(unit, op, template2, templateKind) {
  let bindings = new Array();
  for (const attr of template2.templateAttrs) {
    if (attr instanceof TextAttribute) {
      const securityContext = domSchema.securityContext(NG_TEMPLATE_TAG_NAME, attr.name, true);
      bindings.push(createTemplateBinding(unit, op.xref, BindingType.Attribute, attr.name, attr.value, null, securityContext, true, templateKind, asMessage(attr.i18n), attr.sourceSpan));
    } else {
      bindings.push(createTemplateBinding(unit, op.xref, attr.type, attr.name, astOf(attr.value), attr.unit, attr.securityContext, true, templateKind, asMessage(attr.i18n), attr.sourceSpan));
    }
  }
  for (const attr of template2.attributes) {
    const securityContext = domSchema.securityContext(NG_TEMPLATE_TAG_NAME, attr.name, true);
    bindings.push(createTemplateBinding(unit, op.xref, BindingType.Attribute, attr.name, attr.value, null, securityContext, false, templateKind, asMessage(attr.i18n), attr.sourceSpan));
  }
  for (const input of template2.inputs) {
    bindings.push(createTemplateBinding(unit, op.xref, input.type, input.name, astOf(input.value), input.unit, input.securityContext, false, templateKind, asMessage(input.i18n), input.sourceSpan));
  }
  unit.create.push(bindings.filter((b) => (b == null ? void 0 : b.kind) === OpKind.ExtractedAttribute));
  unit.update.push(bindings.filter((b) => (b == null ? void 0 : b.kind) === OpKind.Binding));
  for (const output of template2.outputs) {
    if (output.type === ParsedEventType.Animation && output.phase === null) {
      throw Error("Animation listener should have a phase");
    }
    if (templateKind === TemplateKind.NgTemplate) {
      if (output.type === ParsedEventType.TwoWay) {
        unit.create.push(createTwoWayListenerOp(op.xref, op.handle, output.name, op.tag, makeTwoWayListenerHandlerOps(unit, output.handler, output.handlerSpan), output.sourceSpan));
      } else {
        unit.create.push(createListenerOp(op.xref, op.handle, output.name, op.tag, makeListenerHandlerOps(unit, output.handler, output.handlerSpan), output.phase, output.target, false, output.sourceSpan));
      }
    }
    if (templateKind === TemplateKind.Structural && output.type !== ParsedEventType.Animation) {
      const securityContext = domSchema.securityContext(NG_TEMPLATE_TAG_NAME, output.name, false);
      unit.create.push(createExtractedAttributeOp(op.xref, BindingKind.Property, null, output.name, null, null, null, securityContext));
    }
  }
  if (bindings.some((b) => b == null ? void 0 : b.i18nMessage) !== null) {
    unit.create.push(createI18nAttributesOp(unit.job.allocateXrefId(), new SlotHandle(), op.xref));
  }
}
function createTemplateBinding(view, xref, type, name, value, unit, securityContext, isStructuralTemplateAttribute, templateKind, i18nMessage, sourceSpan) {
  const isTextBinding = typeof value === "string";
  if (templateKind === TemplateKind.Structural) {
    if (!isStructuralTemplateAttribute) {
      switch (type) {
        case BindingType.Property:
        case BindingType.Class:
        case BindingType.Style:
          return createExtractedAttributeOp(xref, BindingKind.Property, null, name, null, null, i18nMessage, securityContext);
        case BindingType.TwoWay:
          return createExtractedAttributeOp(xref, BindingKind.TwoWayProperty, null, name, null, null, i18nMessage, securityContext);
      }
    }
    if (!isTextBinding && (type === BindingType.Attribute || type === BindingType.Animation)) {
      return null;
    }
  }
  let bindingType = BINDING_KINDS.get(type);
  if (templateKind === TemplateKind.NgTemplate) {
    if (type === BindingType.Class || type === BindingType.Style || type === BindingType.Attribute && !isTextBinding) {
      bindingType = BindingKind.Property;
    }
  }
  return createBindingOp(xref, bindingType, name, convertAstWithInterpolation(view.job, value, i18nMessage), unit, securityContext, isTextBinding, isStructuralTemplateAttribute, templateKind, i18nMessage, sourceSpan);
}
function makeListenerHandlerOps(unit, handler, handlerSpan) {
  handler = astOf(handler);
  const handlerOps = new Array();
  let handlerExprs = handler instanceof Chain ? handler.expressions : [handler];
  if (handlerExprs.length === 0) {
    throw new Error("Expected listener to have non-empty expression list.");
  }
  const expressions = handlerExprs.map((expr) => convertAst(expr, unit.job, handlerSpan));
  const returnExpr = expressions.pop();
  handlerOps.push(...expressions.map((e) => createStatementOp(new ExpressionStatement(e, e.sourceSpan))));
  handlerOps.push(createStatementOp(new ReturnStatement(returnExpr, returnExpr.sourceSpan)));
  return handlerOps;
}
function makeTwoWayListenerHandlerOps(unit, handler, handlerSpan) {
  handler = astOf(handler);
  const handlerOps = new Array();
  if (handler instanceof Chain) {
    if (handler.expressions.length === 1) {
      handler = handler.expressions[0];
    } else {
      throw new Error("Expected two-way listener to have a single expression.");
    }
  }
  const handlerExpr = convertAst(handler, unit.job, handlerSpan);
  const eventReference = new LexicalReadExpr("$event");
  const twoWaySetExpr = new TwoWayBindingSetExpr(handlerExpr, eventReference);
  handlerOps.push(createStatementOp(new ExpressionStatement(twoWaySetExpr)));
  handlerOps.push(createStatementOp(new ReturnStatement(eventReference)));
  return handlerOps;
}
function astOf(ast) {
  return ast instanceof ASTWithSource ? ast.ast : ast;
}
function ingestReferences(op, element2) {
  assertIsArray(op.localRefs);
  for (const { name, value } of element2.references) {
    op.localRefs.push({
      name,
      target: value
    });
  }
}
function assertIsArray(value) {
  if (!Array.isArray(value)) {
    throw new Error(`AssertionError: expected an array`);
  }
}
function convertSourceSpan(span, baseSourceSpan) {
  if (baseSourceSpan === null) {
    return null;
  }
  const start = baseSourceSpan.start.moveBy(span.start);
  const end = baseSourceSpan.start.moveBy(span.end);
  const fullStart = baseSourceSpan.fullStart.moveBy(span.start);
  return new ParseSourceSpan(start, end, fullStart);
}
function ingestControlFlowInsertionPoint(unit, xref, node) {
  let root = null;
  for (const child of node.children) {
    if (child instanceof Comment) {
      continue;
    }
    if (root !== null) {
      return null;
    }
    if (child instanceof Element || child instanceof Template && child.tagName !== null) {
      root = child;
    }
  }
  if (root !== null) {
    for (const attr of root.attributes) {
      const securityContext = domSchema.securityContext(NG_TEMPLATE_TAG_NAME, attr.name, true);
      unit.update.push(createBindingOp(xref, BindingKind.Attribute, attr.name, literal(attr.value), null, securityContext, true, false, null, asMessage(attr.i18n), attr.sourceSpan));
    }
    for (const attr of root.inputs) {
      if (attr.type !== BindingType.Animation && attr.type !== BindingType.Attribute) {
        const securityContext = domSchema.securityContext(NG_TEMPLATE_TAG_NAME, attr.name, true);
        unit.create.push(createExtractedAttributeOp(xref, BindingKind.Property, null, attr.name, null, null, null, securityContext));
      }
    }
    const tagName = root instanceof Element ? root.name : root.tagName;
    return tagName === NG_TEMPLATE_TAG_NAME ? null : tagName;
  }
  return null;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/query_generation.mjs
function renderFlagCheckIfStmt(flags, statements) {
  return ifStmt(variable(RENDER_FLAGS).bitwiseAnd(literal(flags), null, false), statements);
}
function toQueryFlags(query) {
  return (query.descendants ? 1 : 0) | (query.static ? 2 : 0) | (query.emitDistinctChangesOnly ? 4 : 0);
}
function getQueryPredicate(query, constantPool) {
  if (Array.isArray(query.predicate)) {
    let predicate = [];
    query.predicate.forEach((selector) => {
      const selectors = selector.split(",").map((token) => literal(token.trim()));
      predicate.push(...selectors);
    });
    return constantPool.getConstLiteral(literalArr(predicate), true);
  } else {
    switch (query.predicate.forwardRef) {
      case 0:
      case 2:
        return query.predicate.expression;
      case 1:
        return importExpr(Identifiers.resolveForwardRef).callFn([query.predicate.expression]);
    }
  }
}
function createQueryCreateCall(query, constantPool, queryTypeFns, prependParams) {
  const parameters = [];
  if (prependParams !== void 0) {
    parameters.push(...prependParams);
  }
  if (query.isSignal) {
    parameters.push(new ReadPropExpr(variable(CONTEXT_NAME), query.propertyName));
  }
  parameters.push(getQueryPredicate(query, constantPool), literal(toQueryFlags(query)));
  if (query.read) {
    parameters.push(query.read);
  }
  const queryCreateFn = query.isSignal ? queryTypeFns.signalBased : queryTypeFns.nonSignal;
  return importExpr(queryCreateFn).callFn(parameters);
}
var queryAdvancePlaceholder = Symbol("queryAdvancePlaceholder");
function collapseAdvanceStatements(statements) {
  const result = [];
  let advanceCollapseCount = 0;
  const flushAdvanceCount = () => {
    if (advanceCollapseCount > 0) {
      result.unshift(importExpr(Identifiers.queryAdvance).callFn(advanceCollapseCount === 1 ? [] : [literal(advanceCollapseCount)]).toStmt());
      advanceCollapseCount = 0;
    }
  };
  for (let i = statements.length - 1; i >= 0; i--) {
    const st = statements[i];
    if (st === queryAdvancePlaceholder) {
      advanceCollapseCount++;
    } else {
      flushAdvanceCount();
      result.unshift(st);
    }
  }
  flushAdvanceCount();
  return result;
}
function createViewQueriesFunction(viewQueries, constantPool, name) {
  const createStatements = [];
  const updateStatements = [];
  const tempAllocator = temporaryAllocator((st) => updateStatements.push(st), TEMPORARY_NAME);
  viewQueries.forEach((query) => {
    const queryDefinitionCall = createQueryCreateCall(query, constantPool, {
      signalBased: Identifiers.viewQuerySignal,
      nonSignal: Identifiers.viewQuery
    });
    createStatements.push(queryDefinitionCall.toStmt());
    if (query.isSignal) {
      updateStatements.push(queryAdvancePlaceholder);
      return;
    }
    const temporary = tempAllocator();
    const getQueryList = importExpr(Identifiers.loadQuery).callFn([]);
    const refresh = importExpr(Identifiers.queryRefresh).callFn([temporary.set(getQueryList)]);
    const updateDirective = variable(CONTEXT_NAME).prop(query.propertyName).set(query.first ? temporary.prop("first") : temporary);
    updateStatements.push(refresh.and(updateDirective).toStmt());
  });
  const viewQueryFnName = name ? `${name}_Query` : null;
  return fn([new FnParam(RENDER_FLAGS, NUMBER_TYPE), new FnParam(CONTEXT_NAME, null)], [
    renderFlagCheckIfStmt(1, createStatements),
    renderFlagCheckIfStmt(2, collapseAdvanceStatements(updateStatements))
  ], INFERRED_TYPE, null, viewQueryFnName);
}
function createContentQueriesFunction(queries, constantPool, name) {
  const createStatements = [];
  const updateStatements = [];
  const tempAllocator = temporaryAllocator((st) => updateStatements.push(st), TEMPORARY_NAME);
  for (const query of queries) {
    createStatements.push(createQueryCreateCall(
      query,
      constantPool,
      { nonSignal: Identifiers.contentQuery, signalBased: Identifiers.contentQuerySignal },
      [variable("dirIndex")]
    ).toStmt());
    if (query.isSignal) {
      updateStatements.push(queryAdvancePlaceholder);
      continue;
    }
    const temporary = tempAllocator();
    const getQueryList = importExpr(Identifiers.loadQuery).callFn([]);
    const refresh = importExpr(Identifiers.queryRefresh).callFn([temporary.set(getQueryList)]);
    const updateDirective = variable(CONTEXT_NAME).prop(query.propertyName).set(query.first ? temporary.prop("first") : temporary);
    updateStatements.push(refresh.and(updateDirective).toStmt());
  }
  const contentQueriesFnName = name ? `${name}_ContentQueries` : null;
  return fn([
    new FnParam(RENDER_FLAGS, NUMBER_TYPE),
    new FnParam(CONTEXT_NAME, null),
    new FnParam("dirIndex", null)
  ], [
    renderFlagCheckIfStmt(1, createStatements),
    renderFlagCheckIfStmt(2, collapseAdvanceStatements(updateStatements))
  ], INFERRED_TYPE, null, contentQueriesFnName);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/html_parser.mjs
var HtmlParser = class extends Parser {
  constructor() {
    super(getHtmlTagDefinition);
  }
  parse(source, url, options) {
    return super.parse(source, url, options);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template_parser/binding_parser.mjs
var PROPERTY_PARTS_SEPARATOR = ".";
var ATTRIBUTE_PREFIX = "attr";
var CLASS_PREFIX = "class";
var STYLE_PREFIX = "style";
var TEMPLATE_ATTR_PREFIX = "*";
var ANIMATE_PROP_PREFIX = "animate-";
var BindingParser = class {
  constructor(_exprParser, _interpolationConfig, _schemaRegistry, errors, _allowInvalidAssignmentEvents = false) {
    this._exprParser = _exprParser;
    this._interpolationConfig = _interpolationConfig;
    this._schemaRegistry = _schemaRegistry;
    this.errors = errors;
    this._allowInvalidAssignmentEvents = _allowInvalidAssignmentEvents;
  }
  get interpolationConfig() {
    return this._interpolationConfig;
  }
  createBoundHostProperties(properties, sourceSpan) {
    const boundProps = [];
    for (const propName of Object.keys(properties)) {
      const expression = properties[propName];
      if (typeof expression === "string") {
        this.parsePropertyBinding(
          propName,
          expression,
          true,
          false,
          sourceSpan,
          sourceSpan.start.offset,
          void 0,
          [],
          boundProps,
          sourceSpan
        );
      } else {
        this._reportError(`Value of the host property binding "${propName}" needs to be a string representing an expression but got "${expression}" (${typeof expression})`, sourceSpan);
      }
    }
    return boundProps;
  }
  createDirectiveHostEventAsts(hostListeners, sourceSpan) {
    const targetEvents = [];
    for (const propName of Object.keys(hostListeners)) {
      const expression = hostListeners[propName];
      if (typeof expression === "string") {
        this.parseEvent(
          propName,
          expression,
          false,
          sourceSpan,
          sourceSpan,
          [],
          targetEvents,
          sourceSpan
        );
      } else {
        this._reportError(`Value of the host listener "${propName}" needs to be a string representing an expression but got "${expression}" (${typeof expression})`, sourceSpan);
      }
    }
    return targetEvents;
  }
  parseInterpolation(value, sourceSpan, interpolatedTokens) {
    const sourceInfo = sourceSpan.start.toString();
    const absoluteOffset = sourceSpan.fullStart.offset;
    try {
      const ast = this._exprParser.parseInterpolation(value, sourceInfo, absoluteOffset, interpolatedTokens, this._interpolationConfig);
      if (ast)
        this._reportExpressionParserErrors(ast.errors, sourceSpan);
      return ast;
    } catch (e) {
      this._reportError(`${e}`, sourceSpan);
      return this._exprParser.wrapLiteralPrimitive("ERROR", sourceInfo, absoluteOffset);
    }
  }
  parseInterpolationExpression(expression, sourceSpan) {
    const sourceInfo = sourceSpan.start.toString();
    const absoluteOffset = sourceSpan.start.offset;
    try {
      const ast = this._exprParser.parseInterpolationExpression(expression, sourceInfo, absoluteOffset);
      if (ast)
        this._reportExpressionParserErrors(ast.errors, sourceSpan);
      return ast;
    } catch (e) {
      this._reportError(`${e}`, sourceSpan);
      return this._exprParser.wrapLiteralPrimitive("ERROR", sourceInfo, absoluteOffset);
    }
  }
  parseInlineTemplateBinding(tplKey, tplValue, sourceSpan, absoluteValueOffset, targetMatchableAttrs, targetProps, targetVars, isIvyAst) {
    const absoluteKeyOffset = sourceSpan.start.offset + TEMPLATE_ATTR_PREFIX.length;
    const bindings = this._parseTemplateBindings(tplKey, tplValue, sourceSpan, absoluteKeyOffset, absoluteValueOffset);
    for (const binding of bindings) {
      const bindingSpan = moveParseSourceSpan(sourceSpan, binding.sourceSpan);
      const key = binding.key.source;
      const keySpan = moveParseSourceSpan(sourceSpan, binding.key.span);
      if (binding instanceof VariableBinding) {
        const value = binding.value ? binding.value.source : "$implicit";
        const valueSpan = binding.value ? moveParseSourceSpan(sourceSpan, binding.value.span) : void 0;
        targetVars.push(new ParsedVariable(key, value, bindingSpan, keySpan, valueSpan));
      } else if (binding.value) {
        const srcSpan = isIvyAst ? bindingSpan : sourceSpan;
        const valueSpan = moveParseSourceSpan(sourceSpan, binding.value.ast.sourceSpan);
        this._parsePropertyAst(key, binding.value, false, srcSpan, keySpan, valueSpan, targetMatchableAttrs, targetProps);
      } else {
        targetMatchableAttrs.push([key, ""]);
        this.parseLiteralAttr(key, null, keySpan, absoluteValueOffset, void 0, targetMatchableAttrs, targetProps, keySpan);
      }
    }
  }
  _parseTemplateBindings(tplKey, tplValue, sourceSpan, absoluteKeyOffset, absoluteValueOffset) {
    const sourceInfo = sourceSpan.start.toString();
    try {
      const bindingsResult = this._exprParser.parseTemplateBindings(tplKey, tplValue, sourceInfo, absoluteKeyOffset, absoluteValueOffset);
      this._reportExpressionParserErrors(bindingsResult.errors, sourceSpan);
      bindingsResult.warnings.forEach((warning) => {
        this._reportError(warning, sourceSpan, ParseErrorLevel.WARNING);
      });
      return bindingsResult.templateBindings;
    } catch (e) {
      this._reportError(`${e}`, sourceSpan);
      return [];
    }
  }
  parseLiteralAttr(name, value, sourceSpan, absoluteOffset, valueSpan, targetMatchableAttrs, targetProps, keySpan) {
    if (isAnimationLabel(name)) {
      name = name.substring(1);
      if (keySpan !== void 0) {
        keySpan = moveParseSourceSpan(keySpan, new AbsoluteSourceSpan(keySpan.start.offset + 1, keySpan.end.offset));
      }
      if (value) {
        this._reportError(`Assigning animation triggers via @prop="exp" attributes with an expression is invalid. Use property bindings (e.g. [@prop]="exp") or use an attribute without a value (e.g. @prop) instead.`, sourceSpan, ParseErrorLevel.ERROR);
      }
      this._parseAnimation(name, value, sourceSpan, absoluteOffset, keySpan, valueSpan, targetMatchableAttrs, targetProps);
    } else {
      targetProps.push(new ParsedProperty(name, this._exprParser.wrapLiteralPrimitive(value, "", absoluteOffset), ParsedPropertyType.LITERAL_ATTR, sourceSpan, keySpan, valueSpan));
    }
  }
  parsePropertyBinding(name, expression, isHost, isPartOfAssignmentBinding, sourceSpan, absoluteOffset, valueSpan, targetMatchableAttrs, targetProps, keySpan) {
    if (name.length === 0) {
      this._reportError(`Property name is missing in binding`, sourceSpan);
    }
    let isAnimationProp = false;
    if (name.startsWith(ANIMATE_PROP_PREFIX)) {
      isAnimationProp = true;
      name = name.substring(ANIMATE_PROP_PREFIX.length);
      if (keySpan !== void 0) {
        keySpan = moveParseSourceSpan(keySpan, new AbsoluteSourceSpan(keySpan.start.offset + ANIMATE_PROP_PREFIX.length, keySpan.end.offset));
      }
    } else if (isAnimationLabel(name)) {
      isAnimationProp = true;
      name = name.substring(1);
      if (keySpan !== void 0) {
        keySpan = moveParseSourceSpan(keySpan, new AbsoluteSourceSpan(keySpan.start.offset + 1, keySpan.end.offset));
      }
    }
    if (isAnimationProp) {
      this._parseAnimation(name, expression, sourceSpan, absoluteOffset, keySpan, valueSpan, targetMatchableAttrs, targetProps);
    } else {
      this._parsePropertyAst(name, this.parseBinding(expression, isHost, valueSpan || sourceSpan, absoluteOffset), isPartOfAssignmentBinding, sourceSpan, keySpan, valueSpan, targetMatchableAttrs, targetProps);
    }
  }
  parsePropertyInterpolation(name, value, sourceSpan, valueSpan, targetMatchableAttrs, targetProps, keySpan, interpolatedTokens) {
    const expr = this.parseInterpolation(value, valueSpan || sourceSpan, interpolatedTokens);
    if (expr) {
      this._parsePropertyAst(name, expr, false, sourceSpan, keySpan, valueSpan, targetMatchableAttrs, targetProps);
      return true;
    }
    return false;
  }
  _parsePropertyAst(name, ast, isPartOfAssignmentBinding, sourceSpan, keySpan, valueSpan, targetMatchableAttrs, targetProps) {
    targetMatchableAttrs.push([name, ast.source]);
    targetProps.push(new ParsedProperty(name, ast, isPartOfAssignmentBinding ? ParsedPropertyType.TWO_WAY : ParsedPropertyType.DEFAULT, sourceSpan, keySpan, valueSpan));
  }
  _parseAnimation(name, expression, sourceSpan, absoluteOffset, keySpan, valueSpan, targetMatchableAttrs, targetProps) {
    if (name.length === 0) {
      this._reportError("Animation trigger is missing", sourceSpan);
    }
    const ast = this.parseBinding(expression || "undefined", false, valueSpan || sourceSpan, absoluteOffset);
    targetMatchableAttrs.push([name, ast.source]);
    targetProps.push(new ParsedProperty(name, ast, ParsedPropertyType.ANIMATION, sourceSpan, keySpan, valueSpan));
  }
  parseBinding(value, isHostBinding2, sourceSpan, absoluteOffset) {
    const sourceInfo = (sourceSpan && sourceSpan.start || "(unknown)").toString();
    try {
      const ast = isHostBinding2 ? this._exprParser.parseSimpleBinding(value, sourceInfo, absoluteOffset, this._interpolationConfig) : this._exprParser.parseBinding(value, sourceInfo, absoluteOffset, this._interpolationConfig);
      if (ast)
        this._reportExpressionParserErrors(ast.errors, sourceSpan);
      return ast;
    } catch (e) {
      this._reportError(`${e}`, sourceSpan);
      return this._exprParser.wrapLiteralPrimitive("ERROR", sourceInfo, absoluteOffset);
    }
  }
  createBoundElementProperty(elementSelector, boundProp, skipValidation = false, mapPropertyName = true) {
    if (boundProp.isAnimation) {
      return new BoundElementProperty(boundProp.name, BindingType.Animation, SecurityContext.NONE, boundProp.expression, null, boundProp.sourceSpan, boundProp.keySpan, boundProp.valueSpan);
    }
    let unit = null;
    let bindingType = void 0;
    let boundPropertyName = null;
    const parts = boundProp.name.split(PROPERTY_PARTS_SEPARATOR);
    let securityContexts = void 0;
    if (parts.length > 1) {
      if (parts[0] == ATTRIBUTE_PREFIX) {
        boundPropertyName = parts.slice(1).join(PROPERTY_PARTS_SEPARATOR);
        if (!skipValidation) {
          this._validatePropertyOrAttributeName(boundPropertyName, boundProp.sourceSpan, true);
        }
        securityContexts = calcPossibleSecurityContexts(this._schemaRegistry, elementSelector, boundPropertyName, true);
        const nsSeparatorIdx = boundPropertyName.indexOf(":");
        if (nsSeparatorIdx > -1) {
          const ns = boundPropertyName.substring(0, nsSeparatorIdx);
          const name = boundPropertyName.substring(nsSeparatorIdx + 1);
          boundPropertyName = mergeNsAndName(ns, name);
        }
        bindingType = BindingType.Attribute;
      } else if (parts[0] == CLASS_PREFIX) {
        boundPropertyName = parts[1];
        bindingType = BindingType.Class;
        securityContexts = [SecurityContext.NONE];
      } else if (parts[0] == STYLE_PREFIX) {
        unit = parts.length > 2 ? parts[2] : null;
        boundPropertyName = parts[1];
        bindingType = BindingType.Style;
        securityContexts = [SecurityContext.STYLE];
      }
    }
    if (boundPropertyName === null) {
      const mappedPropName = this._schemaRegistry.getMappedPropName(boundProp.name);
      boundPropertyName = mapPropertyName ? mappedPropName : boundProp.name;
      securityContexts = calcPossibleSecurityContexts(this._schemaRegistry, elementSelector, mappedPropName, false);
      bindingType = boundProp.type === ParsedPropertyType.TWO_WAY ? BindingType.TwoWay : BindingType.Property;
      if (!skipValidation) {
        this._validatePropertyOrAttributeName(mappedPropName, boundProp.sourceSpan, false);
      }
    }
    return new BoundElementProperty(boundPropertyName, bindingType, securityContexts[0], boundProp.expression, unit, boundProp.sourceSpan, boundProp.keySpan, boundProp.valueSpan);
  }
  parseEvent(name, expression, isAssignmentEvent, sourceSpan, handlerSpan, targetMatchableAttrs, targetEvents, keySpan) {
    if (name.length === 0) {
      this._reportError(`Event name is missing in binding`, sourceSpan);
    }
    if (isAnimationLabel(name)) {
      name = name.slice(1);
      if (keySpan !== void 0) {
        keySpan = moveParseSourceSpan(keySpan, new AbsoluteSourceSpan(keySpan.start.offset + 1, keySpan.end.offset));
      }
      this._parseAnimationEvent(name, expression, sourceSpan, handlerSpan, targetEvents, keySpan);
    } else {
      this._parseRegularEvent(name, expression, isAssignmentEvent, sourceSpan, handlerSpan, targetMatchableAttrs, targetEvents, keySpan);
    }
  }
  calcPossibleSecurityContexts(selector, propName, isAttribute) {
    const prop = this._schemaRegistry.getMappedPropName(propName);
    return calcPossibleSecurityContexts(this._schemaRegistry, selector, prop, isAttribute);
  }
  _parseAnimationEvent(name, expression, sourceSpan, handlerSpan, targetEvents, keySpan) {
    const matches = splitAtPeriod(name, [name, ""]);
    const eventName = matches[0];
    const phase = matches[1].toLowerCase();
    const ast = this._parseAction(expression, handlerSpan);
    targetEvents.push(new ParsedEvent(eventName, phase, ParsedEventType.Animation, ast, sourceSpan, handlerSpan, keySpan));
    if (eventName.length === 0) {
      this._reportError(`Animation event name is missing in binding`, sourceSpan);
    }
    if (phase) {
      if (phase !== "start" && phase !== "done") {
        this._reportError(`The provided animation output phase value "${phase}" for "@${eventName}" is not supported (use start or done)`, sourceSpan);
      }
    } else {
      this._reportError(`The animation trigger output event (@${eventName}) is missing its phase value name (start or done are currently supported)`, sourceSpan);
    }
  }
  _parseRegularEvent(name, expression, isAssignmentEvent, sourceSpan, handlerSpan, targetMatchableAttrs, targetEvents, keySpan) {
    const [target, eventName] = splitAtColon(name, [null, name]);
    const prevErrorCount = this.errors.length;
    const ast = this._parseAction(expression, handlerSpan);
    const isValid = this.errors.length === prevErrorCount;
    targetMatchableAttrs.push([name, ast.source]);
    if (isAssignmentEvent && isValid && !this._isAllowedAssignmentEvent(ast)) {
      this._reportError("Unsupported expression in a two-way binding", sourceSpan);
    }
    targetEvents.push(new ParsedEvent(eventName, target, isAssignmentEvent ? ParsedEventType.TwoWay : ParsedEventType.Regular, ast, sourceSpan, handlerSpan, keySpan));
  }
  _parseAction(value, sourceSpan) {
    const sourceInfo = (sourceSpan && sourceSpan.start || "(unknown").toString();
    const absoluteOffset = sourceSpan && sourceSpan.start ? sourceSpan.start.offset : 0;
    try {
      const ast = this._exprParser.parseAction(value, sourceInfo, absoluteOffset, this._interpolationConfig);
      if (ast) {
        this._reportExpressionParserErrors(ast.errors, sourceSpan);
      }
      if (!ast || ast.ast instanceof EmptyExpr) {
        this._reportError(`Empty expressions are not allowed`, sourceSpan);
        return this._exprParser.wrapLiteralPrimitive("ERROR", sourceInfo, absoluteOffset);
      }
      return ast;
    } catch (e) {
      this._reportError(`${e}`, sourceSpan);
      return this._exprParser.wrapLiteralPrimitive("ERROR", sourceInfo, absoluteOffset);
    }
  }
  _reportError(message, sourceSpan, level = ParseErrorLevel.ERROR) {
    this.errors.push(new ParseError(sourceSpan, message, level));
  }
  _reportExpressionParserErrors(errors, sourceSpan) {
    for (const error of errors) {
      this._reportError(error.message, sourceSpan);
    }
  }
  _validatePropertyOrAttributeName(propName, sourceSpan, isAttr) {
    const report = isAttr ? this._schemaRegistry.validateAttribute(propName) : this._schemaRegistry.validateProperty(propName);
    if (report.error) {
      this._reportError(report.msg, sourceSpan, ParseErrorLevel.ERROR);
    }
  }
  _isAllowedAssignmentEvent(ast) {
    if (ast instanceof ASTWithSource) {
      return this._isAllowedAssignmentEvent(ast.ast);
    }
    if (ast instanceof NonNullAssert) {
      return this._isAllowedAssignmentEvent(ast.expression);
    }
    if (ast instanceof PropertyRead || ast instanceof KeyedRead) {
      return true;
    }
    if (!this._allowInvalidAssignmentEvents) {
      return false;
    }
    if (ast instanceof Binary) {
      return (ast.operation === "&&" || ast.operation === "||" || ast.operation === "??") && (ast.right instanceof PropertyRead || ast.right instanceof KeyedRead);
    }
    return ast instanceof Conditional || ast instanceof PrefixNot;
  }
};
function isAnimationLabel(name) {
  return name[0] == "@";
}
function calcPossibleSecurityContexts(registry, selector, propName, isAttribute) {
  const ctxs = [];
  CssSelector.parse(selector).forEach((selector2) => {
    const elementNames = selector2.element ? [selector2.element] : registry.allKnownElementNames();
    const notElementNames = new Set(selector2.notSelectors.filter((selector3) => selector3.isElementSelector()).map((selector3) => selector3.element));
    const possibleElementNames = elementNames.filter((elementName) => !notElementNames.has(elementName));
    ctxs.push(...possibleElementNames.map((elementName) => registry.securityContext(elementName, propName, isAttribute)));
  });
  return ctxs.length === 0 ? [SecurityContext.NONE] : Array.from(new Set(ctxs)).sort();
}
function moveParseSourceSpan(sourceSpan, absoluteSpan) {
  const startDiff = absoluteSpan.start - sourceSpan.start.offset;
  const endDiff = absoluteSpan.end - sourceSpan.end.offset;
  return new ParseSourceSpan(sourceSpan.start.moveBy(startDiff), sourceSpan.end.moveBy(endDiff), sourceSpan.fullStart.moveBy(startDiff), sourceSpan.details);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/style_url_resolver.mjs
function isStyleUrlResolvable(url) {
  if (url == null || url.length === 0 || url[0] == "/")
    return false;
  const schemeMatch = url.match(URL_WITH_SCHEMA_REGEXP);
  return schemeMatch === null || schemeMatch[1] == "package" || schemeMatch[1] == "asset";
}
var URL_WITH_SCHEMA_REGEXP = /^([^:/?#]+):/;

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/template_parser/template_preparser.mjs
var NG_CONTENT_SELECT_ATTR = "select";
var LINK_ELEMENT = "link";
var LINK_STYLE_REL_ATTR = "rel";
var LINK_STYLE_HREF_ATTR = "href";
var LINK_STYLE_REL_VALUE = "stylesheet";
var STYLE_ELEMENT = "style";
var SCRIPT_ELEMENT = "script";
var NG_NON_BINDABLE_ATTR = "ngNonBindable";
var NG_PROJECT_AS = "ngProjectAs";
function preparseElement(ast) {
  let selectAttr = null;
  let hrefAttr = null;
  let relAttr = null;
  let nonBindable = false;
  let projectAs = "";
  ast.attrs.forEach((attr) => {
    const lcAttrName = attr.name.toLowerCase();
    if (lcAttrName == NG_CONTENT_SELECT_ATTR) {
      selectAttr = attr.value;
    } else if (lcAttrName == LINK_STYLE_HREF_ATTR) {
      hrefAttr = attr.value;
    } else if (lcAttrName == LINK_STYLE_REL_ATTR) {
      relAttr = attr.value;
    } else if (attr.name == NG_NON_BINDABLE_ATTR) {
      nonBindable = true;
    } else if (attr.name == NG_PROJECT_AS) {
      if (attr.value.length > 0) {
        projectAs = attr.value;
      }
    }
  });
  selectAttr = normalizeNgContentSelect(selectAttr);
  const nodeName = ast.name.toLowerCase();
  let type = PreparsedElementType.OTHER;
  if (isNgContent(nodeName)) {
    type = PreparsedElementType.NG_CONTENT;
  } else if (nodeName == STYLE_ELEMENT) {
    type = PreparsedElementType.STYLE;
  } else if (nodeName == SCRIPT_ELEMENT) {
    type = PreparsedElementType.SCRIPT;
  } else if (nodeName == LINK_ELEMENT && relAttr == LINK_STYLE_REL_VALUE) {
    type = PreparsedElementType.STYLESHEET;
  }
  return new PreparsedElement(type, selectAttr, hrefAttr, nonBindable, projectAs);
}
var PreparsedElementType;
(function(PreparsedElementType2) {
  PreparsedElementType2[PreparsedElementType2["NG_CONTENT"] = 0] = "NG_CONTENT";
  PreparsedElementType2[PreparsedElementType2["STYLE"] = 1] = "STYLE";
  PreparsedElementType2[PreparsedElementType2["STYLESHEET"] = 2] = "STYLESHEET";
  PreparsedElementType2[PreparsedElementType2["SCRIPT"] = 3] = "SCRIPT";
  PreparsedElementType2[PreparsedElementType2["OTHER"] = 4] = "OTHER";
})(PreparsedElementType || (PreparsedElementType = {}));
var PreparsedElement = class {
  constructor(type, selectAttr, hrefAttr, nonBindable, projectAs) {
    this.type = type;
    this.selectAttr = selectAttr;
    this.hrefAttr = hrefAttr;
    this.nonBindable = nonBindable;
    this.projectAs = projectAs;
  }
};
function normalizeNgContentSelect(selectAttr) {
  if (selectAttr === null || selectAttr.length === 0) {
    return "*";
  }
  return selectAttr;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_control_flow.mjs
var FOR_LOOP_EXPRESSION_PATTERN = /^\s*([0-9A-Za-z_$]*)\s+of\s+([\S\s]*)/;
var FOR_LOOP_TRACK_PATTERN = /^track\s+([\S\s]*)/;
var CONDITIONAL_ALIAS_PATTERN = /^(as\s)+(.*)/;
var ELSE_IF_PATTERN = /^else[^\S\r\n]+if/;
var FOR_LOOP_LET_PATTERN = /^let\s+([\S\s]*)/;
var CHARACTERS_IN_SURROUNDING_WHITESPACE_PATTERN = /(\s*)(\S+)(\s*)/;
var ALLOWED_FOR_LOOP_LET_VARIABLES = /* @__PURE__ */ new Set([
  "$index",
  "$first",
  "$last",
  "$even",
  "$odd",
  "$count"
]);
function isConnectedForLoopBlock(name) {
  return name === "empty";
}
function isConnectedIfLoopBlock(name) {
  return name === "else" || ELSE_IF_PATTERN.test(name);
}
function createIfBlock(ast, connectedBlocks, visitor, bindingParser) {
  const errors = validateIfConnectedBlocks(connectedBlocks);
  const branches = [];
  const mainBlockParams = parseConditionalBlockParameters(ast, errors, bindingParser);
  if (mainBlockParams !== null) {
    branches.push(new IfBlockBranch(mainBlockParams.expression, visitAll2(visitor, ast.children, ast.children), mainBlockParams.expressionAlias, ast.sourceSpan, ast.startSourceSpan, ast.endSourceSpan, ast.nameSpan, ast.i18n));
  }
  for (const block of connectedBlocks) {
    if (ELSE_IF_PATTERN.test(block.name)) {
      const params = parseConditionalBlockParameters(block, errors, bindingParser);
      if (params !== null) {
        const children = visitAll2(visitor, block.children, block.children);
        branches.push(new IfBlockBranch(params.expression, children, params.expressionAlias, block.sourceSpan, block.startSourceSpan, block.endSourceSpan, block.nameSpan, block.i18n));
      }
    } else if (block.name === "else") {
      const children = visitAll2(visitor, block.children, block.children);
      branches.push(new IfBlockBranch(null, children, null, block.sourceSpan, block.startSourceSpan, block.endSourceSpan, block.nameSpan, block.i18n));
    }
  }
  const ifBlockStartSourceSpan = branches.length > 0 ? branches[0].startSourceSpan : ast.startSourceSpan;
  const ifBlockEndSourceSpan = branches.length > 0 ? branches[branches.length - 1].endSourceSpan : ast.endSourceSpan;
  let wholeSourceSpan = ast.sourceSpan;
  const lastBranch = branches[branches.length - 1];
  if (lastBranch !== void 0) {
    wholeSourceSpan = new ParseSourceSpan(ifBlockStartSourceSpan.start, lastBranch.sourceSpan.end);
  }
  return {
    node: new IfBlock(branches, wholeSourceSpan, ast.startSourceSpan, ifBlockEndSourceSpan, ast.nameSpan),
    errors
  };
}
function createForLoop(ast, connectedBlocks, visitor, bindingParser) {
  var _a2, _b2;
  const errors = [];
  const params = parseForLoopParameters(ast, errors, bindingParser);
  let node = null;
  let empty = null;
  for (const block of connectedBlocks) {
    if (block.name === "empty") {
      if (empty !== null) {
        errors.push(new ParseError(block.sourceSpan, "@for loop can only have one @empty block"));
      } else if (block.parameters.length > 0) {
        errors.push(new ParseError(block.sourceSpan, "@empty block cannot have parameters"));
      } else {
        empty = new ForLoopBlockEmpty(visitAll2(visitor, block.children, block.children), block.sourceSpan, block.startSourceSpan, block.endSourceSpan, block.nameSpan, block.i18n);
      }
    } else {
      errors.push(new ParseError(block.sourceSpan, `Unrecognized @for loop block "${block.name}"`));
    }
  }
  if (params !== null) {
    if (params.trackBy === null) {
      errors.push(new ParseError(ast.startSourceSpan, '@for loop must have a "track" expression'));
    } else {
      const endSpan = (_a2 = empty == null ? void 0 : empty.endSourceSpan) != null ? _a2 : ast.endSourceSpan;
      const sourceSpan = new ParseSourceSpan(ast.sourceSpan.start, (_b2 = endSpan == null ? void 0 : endSpan.end) != null ? _b2 : ast.sourceSpan.end);
      node = new ForLoopBlock(params.itemName, params.expression, params.trackBy.expression, params.trackBy.keywordSpan, params.context, visitAll2(visitor, ast.children, ast.children), empty, sourceSpan, ast.sourceSpan, ast.startSourceSpan, endSpan, ast.nameSpan, ast.i18n);
    }
  }
  return { node, errors };
}
function createSwitchBlock(ast, visitor, bindingParser) {
  const errors = validateSwitchBlock(ast);
  const primaryExpression = ast.parameters.length > 0 ? parseBlockParameterToBinding(ast.parameters[0], bindingParser) : bindingParser.parseBinding("", false, ast.sourceSpan, 0);
  const cases = [];
  const unknownBlocks = [];
  let defaultCase = null;
  for (const node of ast.children) {
    if (!(node instanceof Block)) {
      continue;
    }
    if ((node.name !== "case" || node.parameters.length === 0) && node.name !== "default") {
      unknownBlocks.push(new UnknownBlock(node.name, node.sourceSpan, node.nameSpan));
      continue;
    }
    const expression = node.name === "case" ? parseBlockParameterToBinding(node.parameters[0], bindingParser) : null;
    const ast2 = new SwitchBlockCase(expression, visitAll2(visitor, node.children, node.children), node.sourceSpan, node.startSourceSpan, node.endSourceSpan, node.nameSpan, node.i18n);
    if (expression === null) {
      defaultCase = ast2;
    } else {
      cases.push(ast2);
    }
  }
  if (defaultCase !== null) {
    cases.push(defaultCase);
  }
  return {
    node: new SwitchBlock(primaryExpression, cases, unknownBlocks, ast.sourceSpan, ast.startSourceSpan, ast.endSourceSpan, ast.nameSpan),
    errors
  };
}
function parseForLoopParameters(block, errors, bindingParser) {
  var _a2;
  if (block.parameters.length === 0) {
    errors.push(new ParseError(block.startSourceSpan, "@for loop does not have an expression"));
    return null;
  }
  const [expressionParam, ...secondaryParams] = block.parameters;
  const match = (_a2 = stripOptionalParentheses(expressionParam, errors)) == null ? void 0 : _a2.match(FOR_LOOP_EXPRESSION_PATTERN);
  if (!match || match[2].trim().length === 0) {
    errors.push(new ParseError(expressionParam.sourceSpan, 'Cannot parse expression. @for loop expression must match the pattern " of "'));
    return null;
  }
  const [, itemName, rawExpression] = match;
  if (ALLOWED_FOR_LOOP_LET_VARIABLES.has(itemName)) {
    errors.push(new ParseError(expressionParam.sourceSpan, `@for loop item name cannot be one of ${Array.from(ALLOWED_FOR_LOOP_LET_VARIABLES).join(", ")}.`));
  }
  const variableName = expressionParam.expression.split(" ")[0];
  const variableSpan = new ParseSourceSpan(expressionParam.sourceSpan.start, expressionParam.sourceSpan.start.moveBy(variableName.length));
  const result = {
    itemName: new Variable(itemName, "$implicit", variableSpan, variableSpan),
    trackBy: null,
    expression: parseBlockParameterToBinding(expressionParam, bindingParser, rawExpression),
    context: Array.from(ALLOWED_FOR_LOOP_LET_VARIABLES, (variableName2) => {
      const emptySpanAfterForBlockStart = new ParseSourceSpan(block.startSourceSpan.end, block.startSourceSpan.end);
      return new Variable(variableName2, variableName2, emptySpanAfterForBlockStart, emptySpanAfterForBlockStart);
    })
  };
  for (const param of secondaryParams) {
    const letMatch = param.expression.match(FOR_LOOP_LET_PATTERN);
    if (letMatch !== null) {
      const variablesSpan = new ParseSourceSpan(param.sourceSpan.start.moveBy(letMatch[0].length - letMatch[1].length), param.sourceSpan.end);
      parseLetParameter(param.sourceSpan, letMatch[1], variablesSpan, itemName, result.context, errors);
      continue;
    }
    const trackMatch = param.expression.match(FOR_LOOP_TRACK_PATTERN);
    if (trackMatch !== null) {
      if (result.trackBy !== null) {
        errors.push(new ParseError(param.sourceSpan, '@for loop can only have one "track" expression'));
      } else {
        const expression = parseBlockParameterToBinding(param, bindingParser, trackMatch[1]);
        if (expression.ast instanceof EmptyExpr) {
          errors.push(new ParseError(block.startSourceSpan, '@for loop must have a "track" expression'));
        }
        const keywordSpan = new ParseSourceSpan(param.sourceSpan.start, param.sourceSpan.start.moveBy("track".length));
        result.trackBy = { expression, keywordSpan };
      }
      continue;
    }
    errors.push(new ParseError(param.sourceSpan, `Unrecognized @for loop paramater "${param.expression}"`));
  }
  return result;
}
function parseLetParameter(sourceSpan, expression, span, loopItemName, context, errors) {
  var _a2, _b2, _c2;
  const parts = expression.split(",");
  let startSpan = span.start;
  for (const part of parts) {
    const expressionParts = part.split("=");
    const name = expressionParts.length === 2 ? expressionParts[0].trim() : "";
    const variableName = expressionParts.length === 2 ? expressionParts[1].trim() : "";
    if (name.length === 0 || variableName.length === 0) {
      errors.push(new ParseError(sourceSpan, `Invalid @for loop "let" parameter. Parameter should match the pattern " = "`));
    } else if (!ALLOWED_FOR_LOOP_LET_VARIABLES.has(variableName)) {
      errors.push(new ParseError(sourceSpan, `Unknown "let" parameter variable "${variableName}". The allowed variables are: ${Array.from(ALLOWED_FOR_LOOP_LET_VARIABLES).join(", ")}`));
    } else if (name === loopItemName) {
      errors.push(new ParseError(sourceSpan, `Invalid @for loop "let" parameter. Variable cannot be called "${loopItemName}"`));
    } else if (context.some((v) => v.name === name)) {
      errors.push(new ParseError(sourceSpan, `Duplicate "let" parameter variable "${variableName}"`));
    } else {
      const [, keyLeadingWhitespace, keyName] = (_a2 = expressionParts[0].match(CHARACTERS_IN_SURROUNDING_WHITESPACE_PATTERN)) != null ? _a2 : [];
      const keySpan = keyLeadingWhitespace !== void 0 && expressionParts.length === 2 ? new ParseSourceSpan(
        startSpan.moveBy(keyLeadingWhitespace.length),
        startSpan.moveBy(keyLeadingWhitespace.length + keyName.length)
      ) : span;
      let valueSpan = void 0;
      if (expressionParts.length === 2) {
        const [, valueLeadingWhitespace, implicit] = (_b2 = expressionParts[1].match(CHARACTERS_IN_SURROUNDING_WHITESPACE_PATTERN)) != null ? _b2 : [];
        valueSpan = valueLeadingWhitespace !== void 0 ? new ParseSourceSpan(startSpan.moveBy(expressionParts[0].length + 1 + valueLeadingWhitespace.length), startSpan.moveBy(expressionParts[0].length + 1 + valueLeadingWhitespace.length + implicit.length)) : void 0;
      }
      const sourceSpan2 = new ParseSourceSpan(keySpan.start, (_c2 = valueSpan == null ? void 0 : valueSpan.end) != null ? _c2 : keySpan.end);
      context.push(new Variable(name, variableName, sourceSpan2, keySpan, valueSpan));
    }
    startSpan = startSpan.moveBy(part.length + 1);
  }
}
function validateIfConnectedBlocks(connectedBlocks) {
  const errors = [];
  let hasElse = false;
  for (let i = 0; i < connectedBlocks.length; i++) {
    const block = connectedBlocks[i];
    if (block.name === "else") {
      if (hasElse) {
        errors.push(new ParseError(block.startSourceSpan, "Conditional can only have one @else block"));
      } else if (connectedBlocks.length > 1 && i < connectedBlocks.length - 1) {
        errors.push(new ParseError(block.startSourceSpan, "@else block must be last inside the conditional"));
      } else if (block.parameters.length > 0) {
        errors.push(new ParseError(block.startSourceSpan, "@else block cannot have parameters"));
      }
      hasElse = true;
    } else if (!ELSE_IF_PATTERN.test(block.name)) {
      errors.push(new ParseError(block.startSourceSpan, `Unrecognized conditional block @${block.name}`));
    }
  }
  return errors;
}
function validateSwitchBlock(ast) {
  const errors = [];
  let hasDefault = false;
  if (ast.parameters.length !== 1) {
    errors.push(new ParseError(ast.startSourceSpan, "@switch block must have exactly one parameter"));
    return errors;
  }
  for (const node of ast.children) {
    if (node instanceof Comment2 || node instanceof Text4 && node.value.trim().length === 0) {
      continue;
    }
    if (!(node instanceof Block) || node.name !== "case" && node.name !== "default") {
      errors.push(new ParseError(node.sourceSpan, "@switch block can only contain @case and @default blocks"));
      continue;
    }
    if (node.name === "default") {
      if (hasDefault) {
        errors.push(new ParseError(node.startSourceSpan, "@switch block can only have one @default block"));
      } else if (node.parameters.length > 0) {
        errors.push(new ParseError(node.startSourceSpan, "@default block cannot have parameters"));
      }
      hasDefault = true;
    } else if (node.name === "case" && node.parameters.length !== 1) {
      errors.push(new ParseError(node.startSourceSpan, "@case block must have exactly one parameter"));
    }
  }
  return errors;
}
function parseBlockParameterToBinding(ast, bindingParser, part) {
  let start;
  let end;
  if (typeof part === "string") {
    start = Math.max(0, ast.expression.lastIndexOf(part));
    end = start + part.length;
  } else {
    start = 0;
    end = ast.expression.length;
  }
  return bindingParser.parseBinding(ast.expression.slice(start, end), false, ast.sourceSpan, ast.sourceSpan.start.offset + start);
}
function parseConditionalBlockParameters(block, errors, bindingParser) {
  if (block.parameters.length === 0) {
    errors.push(new ParseError(block.startSourceSpan, "Conditional block does not have an expression"));
    return null;
  }
  const expression = parseBlockParameterToBinding(block.parameters[0], bindingParser);
  let expressionAlias = null;
  for (let i = 1; i < block.parameters.length; i++) {
    const param = block.parameters[i];
    const aliasMatch = param.expression.match(CONDITIONAL_ALIAS_PATTERN);
    if (aliasMatch === null) {
      errors.push(new ParseError(param.sourceSpan, `Unrecognized conditional paramater "${param.expression}"`));
    } else if (block.name !== "if") {
      errors.push(new ParseError(param.sourceSpan, '"as" expression is only allowed on the primary @if block'));
    } else if (expressionAlias !== null) {
      errors.push(new ParseError(param.sourceSpan, 'Conditional can only have one "as" expression'));
    } else {
      const name = aliasMatch[2].trim();
      const variableStart = param.sourceSpan.start.moveBy(aliasMatch[1].length);
      const variableSpan = new ParseSourceSpan(variableStart, variableStart.moveBy(name.length));
      expressionAlias = new Variable(name, name, variableSpan, variableSpan);
    }
  }
  return { expression, expressionAlias };
}
function stripOptionalParentheses(param, errors) {
  const expression = param.expression;
  const spaceRegex = /^\s$/;
  let openParens = 0;
  let start = 0;
  let end = expression.length - 1;
  for (let i = 0; i < expression.length; i++) {
    const char = expression[i];
    if (char === "(") {
      start = i + 1;
      openParens++;
    } else if (spaceRegex.test(char)) {
      continue;
    } else {
      break;
    }
  }
  if (openParens === 0) {
    return expression;
  }
  for (let i = expression.length - 1; i > -1; i--) {
    const char = expression[i];
    if (char === ")") {
      end = i;
      openParens--;
      if (openParens === 0) {
        break;
      }
    } else if (spaceRegex.test(char)) {
      continue;
    } else {
      break;
    }
  }
  if (openParens !== 0) {
    errors.push(new ParseError(param.sourceSpan, "Unclosed parentheses in expression"));
    return null;
  }
  return expression.slice(start, end);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_deferred_triggers.mjs
var TIME_PATTERN = /^\d+\.?\d*(ms|s)?$/;
var SEPARATOR_PATTERN = /^\s$/;
var COMMA_DELIMITED_SYNTAX = /* @__PURE__ */ new Map([
  [$LBRACE, $RBRACE],
  [$LBRACKET, $RBRACKET],
  [$LPAREN, $RPAREN]
]);
var OnTriggerType;
(function(OnTriggerType2) {
  OnTriggerType2["IDLE"] = "idle";
  OnTriggerType2["TIMER"] = "timer";
  OnTriggerType2["INTERACTION"] = "interaction";
  OnTriggerType2["IMMEDIATE"] = "immediate";
  OnTriggerType2["HOVER"] = "hover";
  OnTriggerType2["VIEWPORT"] = "viewport";
})(OnTriggerType || (OnTriggerType = {}));
function parseWhenTrigger({ expression, sourceSpan }, bindingParser, triggers, errors) {
  const whenIndex = expression.indexOf("when");
  const whenSourceSpan = new ParseSourceSpan(sourceSpan.start.moveBy(whenIndex), sourceSpan.start.moveBy(whenIndex + "when".length));
  const prefetchSpan = getPrefetchSpan(expression, sourceSpan);
  if (whenIndex === -1) {
    errors.push(new ParseError(sourceSpan, `Could not find "when" keyword in expression`));
  } else {
    const start = getTriggerParametersStart(expression, whenIndex + 1);
    const parsed = bindingParser.parseBinding(expression.slice(start), false, sourceSpan, sourceSpan.start.offset + start);
    trackTrigger("when", triggers, errors, new BoundDeferredTrigger(parsed, sourceSpan, prefetchSpan, whenSourceSpan));
  }
}
function parseOnTrigger({ expression, sourceSpan }, triggers, errors, placeholder) {
  const onIndex = expression.indexOf("on");
  const onSourceSpan = new ParseSourceSpan(sourceSpan.start.moveBy(onIndex), sourceSpan.start.moveBy(onIndex + "on".length));
  const prefetchSpan = getPrefetchSpan(expression, sourceSpan);
  if (onIndex === -1) {
    errors.push(new ParseError(sourceSpan, `Could not find "on" keyword in expression`));
  } else {
    const start = getTriggerParametersStart(expression, onIndex + 1);
    const parser = new OnTriggerParser(expression, start, sourceSpan, triggers, errors, placeholder, prefetchSpan, onSourceSpan);
    parser.parse();
  }
}
function getPrefetchSpan(expression, sourceSpan) {
  if (!expression.startsWith("prefetch")) {
    return null;
  }
  return new ParseSourceSpan(sourceSpan.start, sourceSpan.start.moveBy("prefetch".length));
}
var OnTriggerParser = class {
  constructor(expression, start, span, triggers, errors, placeholder, prefetchSpan, onSourceSpan) {
    this.expression = expression;
    this.start = start;
    this.span = span;
    this.triggers = triggers;
    this.errors = errors;
    this.placeholder = placeholder;
    this.prefetchSpan = prefetchSpan;
    this.onSourceSpan = onSourceSpan;
    this.index = 0;
    this.tokens = new Lexer().tokenize(expression.slice(start));
  }
  parse() {
    while (this.tokens.length > 0 && this.index < this.tokens.length) {
      const token = this.token();
      if (!token.isIdentifier()) {
        this.unexpectedToken(token);
        break;
      }
      if (this.isFollowedByOrLast($COMMA)) {
        this.consumeTrigger(token, []);
        this.advance();
      } else if (this.isFollowedByOrLast($LPAREN)) {
        this.advance();
        const prevErrors = this.errors.length;
        const parameters = this.consumeParameters();
        if (this.errors.length !== prevErrors) {
          break;
        }
        this.consumeTrigger(token, parameters);
        this.advance();
      } else if (this.index < this.tokens.length - 1) {
        this.unexpectedToken(this.tokens[this.index + 1]);
      }
      this.advance();
    }
  }
  advance() {
    this.index++;
  }
  isFollowedByOrLast(char) {
    if (this.index === this.tokens.length - 1) {
      return true;
    }
    return this.tokens[this.index + 1].isCharacter(char);
  }
  token() {
    return this.tokens[Math.min(this.index, this.tokens.length - 1)];
  }
  consumeTrigger(identifier, parameters) {
    const triggerNameStartSpan = this.span.start.moveBy(this.start + identifier.index - this.tokens[0].index);
    const nameSpan = new ParseSourceSpan(triggerNameStartSpan, triggerNameStartSpan.moveBy(identifier.strValue.length));
    const endSpan = triggerNameStartSpan.moveBy(this.token().end - identifier.index);
    const isFirstTrigger = identifier.index === 0;
    const onSourceSpan = isFirstTrigger ? this.onSourceSpan : null;
    const prefetchSourceSpan = isFirstTrigger ? this.prefetchSpan : null;
    const sourceSpan = new ParseSourceSpan(isFirstTrigger ? this.span.start : triggerNameStartSpan, endSpan);
    try {
      switch (identifier.toString()) {
        case OnTriggerType.IDLE:
          this.trackTrigger("idle", createIdleTrigger(parameters, nameSpan, sourceSpan, prefetchSourceSpan, onSourceSpan));
          break;
        case OnTriggerType.TIMER:
          this.trackTrigger("timer", createTimerTrigger(parameters, nameSpan, sourceSpan, this.prefetchSpan, this.onSourceSpan));
          break;
        case OnTriggerType.INTERACTION:
          this.trackTrigger("interaction", createInteractionTrigger(parameters, nameSpan, sourceSpan, this.prefetchSpan, this.onSourceSpan, this.placeholder));
          break;
        case OnTriggerType.IMMEDIATE:
          this.trackTrigger("immediate", createImmediateTrigger(parameters, nameSpan, sourceSpan, this.prefetchSpan, this.onSourceSpan));
          break;
        case OnTriggerType.HOVER:
          this.trackTrigger("hover", createHoverTrigger(parameters, nameSpan, sourceSpan, this.prefetchSpan, this.onSourceSpan, this.placeholder));
          break;
        case OnTriggerType.VIEWPORT:
          this.trackTrigger("viewport", createViewportTrigger(parameters, nameSpan, sourceSpan, this.prefetchSpan, this.onSourceSpan, this.placeholder));
          break;
        default:
          throw new Error(`Unrecognized trigger type "${identifier}"`);
      }
    } catch (e) {
      this.error(identifier, e.message);
    }
  }
  consumeParameters() {
    const parameters = [];
    if (!this.token().isCharacter($LPAREN)) {
      this.unexpectedToken(this.token());
      return parameters;
    }
    this.advance();
    const commaDelimStack = [];
    let current = "";
    while (this.index < this.tokens.length) {
      const token = this.token();
      if (token.isCharacter($RPAREN) && commaDelimStack.length === 0) {
        if (current.length) {
          parameters.push(current);
        }
        break;
      }
      if (token.type === TokenType.Character && COMMA_DELIMITED_SYNTAX.has(token.numValue)) {
        commaDelimStack.push(COMMA_DELIMITED_SYNTAX.get(token.numValue));
      }
      if (commaDelimStack.length > 0 && token.isCharacter(commaDelimStack[commaDelimStack.length - 1])) {
        commaDelimStack.pop();
      }
      if (commaDelimStack.length === 0 && token.isCharacter($COMMA) && current.length > 0) {
        parameters.push(current);
        current = "";
        this.advance();
        continue;
      }
      current += this.tokenText();
      this.advance();
    }
    if (!this.token().isCharacter($RPAREN) || commaDelimStack.length > 0) {
      this.error(this.token(), "Unexpected end of expression");
    }
    if (this.index < this.tokens.length - 1 && !this.tokens[this.index + 1].isCharacter($COMMA)) {
      this.unexpectedToken(this.tokens[this.index + 1]);
    }
    return parameters;
  }
  tokenText() {
    return this.expression.slice(this.start + this.token().index, this.start + this.token().end);
  }
  trackTrigger(name, trigger) {
    trackTrigger(name, this.triggers, this.errors, trigger);
  }
  error(token, message) {
    const newStart = this.span.start.moveBy(this.start + token.index);
    const newEnd = newStart.moveBy(token.end - token.index);
    this.errors.push(new ParseError(new ParseSourceSpan(newStart, newEnd), message));
  }
  unexpectedToken(token) {
    this.error(token, `Unexpected token "${token}"`);
  }
};
function trackTrigger(name, allTriggers, errors, trigger) {
  if (allTriggers[name]) {
    errors.push(new ParseError(trigger.sourceSpan, `Duplicate "${name}" trigger is not allowed`));
  } else {
    allTriggers[name] = trigger;
  }
}
function createIdleTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
  if (parameters.length > 0) {
    throw new Error(`"${OnTriggerType.IDLE}" trigger cannot have parameters`);
  }
  return new IdleDeferredTrigger(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function createTimerTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
  if (parameters.length !== 1) {
    throw new Error(`"${OnTriggerType.TIMER}" trigger must have exactly one parameter`);
  }
  const delay = parseDeferredTime(parameters[0]);
  if (delay === null) {
    throw new Error(`Could not parse time value of trigger "${OnTriggerType.TIMER}"`);
  }
  return new TimerDeferredTrigger(delay, nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function createImmediateTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan) {
  if (parameters.length > 0) {
    throw new Error(`"${OnTriggerType.IMMEDIATE}" trigger cannot have parameters`);
  }
  return new ImmediateDeferredTrigger(nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function createHoverTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan, placeholder) {
  var _a2;
  validateReferenceBasedTrigger(OnTriggerType.HOVER, parameters, placeholder);
  return new HoverDeferredTrigger((_a2 = parameters[0]) != null ? _a2 : null, nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function createInteractionTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan, placeholder) {
  var _a2;
  validateReferenceBasedTrigger(OnTriggerType.INTERACTION, parameters, placeholder);
  return new InteractionDeferredTrigger((_a2 = parameters[0]) != null ? _a2 : null, nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function createViewportTrigger(parameters, nameSpan, sourceSpan, prefetchSpan, onSourceSpan, placeholder) {
  var _a2;
  validateReferenceBasedTrigger(OnTriggerType.VIEWPORT, parameters, placeholder);
  return new ViewportDeferredTrigger((_a2 = parameters[0]) != null ? _a2 : null, nameSpan, sourceSpan, prefetchSpan, onSourceSpan);
}
function validateReferenceBasedTrigger(type, parameters, placeholder) {
  if (parameters.length > 1) {
    throw new Error(`"${type}" trigger can only have zero or one parameters`);
  }
  if (parameters.length === 0) {
    if (placeholder === null) {
      throw new Error(`"${type}" trigger with no parameters can only be placed on an @defer that has a @placeholder block`);
    }
    if (placeholder.children.length !== 1 || !(placeholder.children[0] instanceof Element)) {
      throw new Error(`"${type}" trigger with no parameters can only be placed on an @defer that has a @placeholder block with exactly one root element node`);
    }
  }
}
function getTriggerParametersStart(value, startPosition = 0) {
  let hasFoundSeparator = false;
  for (let i = startPosition; i < value.length; i++) {
    if (SEPARATOR_PATTERN.test(value[i])) {
      hasFoundSeparator = true;
    } else if (hasFoundSeparator) {
      return i;
    }
  }
  return -1;
}
function parseDeferredTime(value) {
  const match = value.match(TIME_PATTERN);
  if (!match) {
    return null;
  }
  const [time, units] = match;
  return parseFloat(time) * (units === "s" ? 1e3 : 1);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_deferred_blocks.mjs
var PREFETCH_WHEN_PATTERN = /^prefetch\s+when\s/;
var PREFETCH_ON_PATTERN = /^prefetch\s+on\s/;
var MINIMUM_PARAMETER_PATTERN = /^minimum\s/;
var AFTER_PARAMETER_PATTERN = /^after\s/;
var WHEN_PARAMETER_PATTERN = /^when\s/;
var ON_PARAMETER_PATTERN = /^on\s/;
function isConnectedDeferLoopBlock(name) {
  return name === "placeholder" || name === "loading" || name === "error";
}
function createDeferredBlock(ast, connectedBlocks, visitor, bindingParser) {
  const errors = [];
  const { placeholder, loading, error } = parseConnectedBlocks(connectedBlocks, errors, visitor);
  const { triggers, prefetchTriggers } = parsePrimaryTriggers(ast.parameters, bindingParser, errors, placeholder);
  let lastEndSourceSpan = ast.endSourceSpan;
  let endOfLastSourceSpan = ast.sourceSpan.end;
  if (connectedBlocks.length > 0) {
    const lastConnectedBlock = connectedBlocks[connectedBlocks.length - 1];
    lastEndSourceSpan = lastConnectedBlock.endSourceSpan;
    endOfLastSourceSpan = lastConnectedBlock.sourceSpan.end;
  }
  const sourceSpanWithConnectedBlocks = new ParseSourceSpan(ast.sourceSpan.start, endOfLastSourceSpan);
  const node = new DeferredBlock(visitAll2(visitor, ast.children, ast.children), triggers, prefetchTriggers, placeholder, loading, error, ast.nameSpan, sourceSpanWithConnectedBlocks, ast.sourceSpan, ast.startSourceSpan, lastEndSourceSpan, ast.i18n);
  return { node, errors };
}
function parseConnectedBlocks(connectedBlocks, errors, visitor) {
  let placeholder = null;
  let loading = null;
  let error = null;
  for (const block of connectedBlocks) {
    try {
      if (!isConnectedDeferLoopBlock(block.name)) {
        errors.push(new ParseError(block.startSourceSpan, `Unrecognized block "@${block.name}"`));
        break;
      }
      switch (block.name) {
        case "placeholder":
          if (placeholder !== null) {
            errors.push(new ParseError(block.startSourceSpan, `@defer block can only have one @placeholder block`));
          } else {
            placeholder = parsePlaceholderBlock(block, visitor);
          }
          break;
        case "loading":
          if (loading !== null) {
            errors.push(new ParseError(block.startSourceSpan, `@defer block can only have one @loading block`));
          } else {
            loading = parseLoadingBlock(block, visitor);
          }
          break;
        case "error":
          if (error !== null) {
            errors.push(new ParseError(block.startSourceSpan, `@defer block can only have one @error block`));
          } else {
            error = parseErrorBlock(block, visitor);
          }
          break;
      }
    } catch (e) {
      errors.push(new ParseError(block.startSourceSpan, e.message));
    }
  }
  return { placeholder, loading, error };
}
function parsePlaceholderBlock(ast, visitor) {
  let minimumTime = null;
  for (const param of ast.parameters) {
    if (MINIMUM_PARAMETER_PATTERN.test(param.expression)) {
      if (minimumTime != null) {
        throw new Error(`@placeholder block can only have one "minimum" parameter`);
      }
      const parsedTime = parseDeferredTime(param.expression.slice(getTriggerParametersStart(param.expression)));
      if (parsedTime === null) {
        throw new Error(`Could not parse time value of parameter "minimum"`);
      }
      minimumTime = parsedTime;
    } else {
      throw new Error(`Unrecognized parameter in @placeholder block: "${param.expression}"`);
    }
  }
  return new DeferredBlockPlaceholder(visitAll2(visitor, ast.children, ast.children), minimumTime, ast.nameSpan, ast.sourceSpan, ast.startSourceSpan, ast.endSourceSpan, ast.i18n);
}
function parseLoadingBlock(ast, visitor) {
  let afterTime = null;
  let minimumTime = null;
  for (const param of ast.parameters) {
    if (AFTER_PARAMETER_PATTERN.test(param.expression)) {
      if (afterTime != null) {
        throw new Error(`@loading block can only have one "after" parameter`);
      }
      const parsedTime = parseDeferredTime(param.expression.slice(getTriggerParametersStart(param.expression)));
      if (parsedTime === null) {
        throw new Error(`Could not parse time value of parameter "after"`);
      }
      afterTime = parsedTime;
    } else if (MINIMUM_PARAMETER_PATTERN.test(param.expression)) {
      if (minimumTime != null) {
        throw new Error(`@loading block can only have one "minimum" parameter`);
      }
      const parsedTime = parseDeferredTime(param.expression.slice(getTriggerParametersStart(param.expression)));
      if (parsedTime === null) {
        throw new Error(`Could not parse time value of parameter "minimum"`);
      }
      minimumTime = parsedTime;
    } else {
      throw new Error(`Unrecognized parameter in @loading block: "${param.expression}"`);
    }
  }
  return new DeferredBlockLoading(visitAll2(visitor, ast.children, ast.children), afterTime, minimumTime, ast.nameSpan, ast.sourceSpan, ast.startSourceSpan, ast.endSourceSpan, ast.i18n);
}
function parseErrorBlock(ast, visitor) {
  if (ast.parameters.length > 0) {
    throw new Error(`@error block cannot have parameters`);
  }
  return new DeferredBlockError(visitAll2(visitor, ast.children, ast.children), ast.nameSpan, ast.sourceSpan, ast.startSourceSpan, ast.endSourceSpan, ast.i18n);
}
function parsePrimaryTriggers(params, bindingParser, errors, placeholder) {
  const triggers = {};
  const prefetchTriggers = {};
  for (const param of params) {
    if (WHEN_PARAMETER_PATTERN.test(param.expression)) {
      parseWhenTrigger(param, bindingParser, triggers, errors);
    } else if (ON_PARAMETER_PATTERN.test(param.expression)) {
      parseOnTrigger(param, triggers, errors, placeholder);
    } else if (PREFETCH_WHEN_PATTERN.test(param.expression)) {
      parseWhenTrigger(param, bindingParser, prefetchTriggers, errors);
    } else if (PREFETCH_ON_PATTERN.test(param.expression)) {
      parseOnTrigger(param, prefetchTriggers, errors, placeholder);
    } else {
      errors.push(new ParseError(param.sourceSpan, "Unrecognized trigger"));
    }
  }
  return { triggers, prefetchTriggers };
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/r3_template_transform.mjs
var BIND_NAME_REGEXP = /^(?:(bind-)|(let-)|(ref-|#)|(on-)|(bindon-)|(@))(.*)$/;
var KW_BIND_IDX = 1;
var KW_LET_IDX = 2;
var KW_REF_IDX = 3;
var KW_ON_IDX = 4;
var KW_BINDON_IDX = 5;
var KW_AT_IDX = 6;
var IDENT_KW_IDX = 7;
var BINDING_DELIMS = {
  BANANA_BOX: { start: "[(", end: ")]" },
  PROPERTY: { start: "[", end: "]" },
  EVENT: { start: "(", end: ")" }
};
var TEMPLATE_ATTR_PREFIX2 = "*";
function htmlAstToRender3Ast(htmlNodes, bindingParser, options) {
  const transformer = new HtmlAstToIvyAst(bindingParser, options);
  const ivyNodes = visitAll2(transformer, htmlNodes, htmlNodes);
  const allErrors = bindingParser.errors.concat(transformer.errors);
  const result = {
    nodes: ivyNodes,
    errors: allErrors,
    styleUrls: transformer.styleUrls,
    styles: transformer.styles,
    ngContentSelectors: transformer.ngContentSelectors
  };
  if (options.collectCommentNodes) {
    result.commentNodes = transformer.commentNodes;
  }
  return result;
}
var HtmlAstToIvyAst = class {
  constructor(bindingParser, options) {
    this.bindingParser = bindingParser;
    this.options = options;
    this.errors = [];
    this.styles = [];
    this.styleUrls = [];
    this.ngContentSelectors = [];
    this.commentNodes = [];
    this.inI18nBlock = false;
    this.processedNodes = /* @__PURE__ */ new Set();
  }
  visitElement(element2) {
    const isI18nRootElement = isI18nRootNode(element2.i18n);
    if (isI18nRootElement) {
      if (this.inI18nBlock) {
        this.reportError("Cannot mark an element as translatable inside of a translatable section. Please remove the nested i18n marker.", element2.sourceSpan);
      }
      this.inI18nBlock = true;
    }
    const preparsedElement = preparseElement(element2);
    if (preparsedElement.type === PreparsedElementType.SCRIPT) {
      return null;
    } else if (preparsedElement.type === PreparsedElementType.STYLE) {
      const contents = textContents(element2);
      if (contents !== null) {
        this.styles.push(contents);
      }
      return null;
    } else if (preparsedElement.type === PreparsedElementType.STYLESHEET && isStyleUrlResolvable(preparsedElement.hrefAttr)) {
      this.styleUrls.push(preparsedElement.hrefAttr);
      return null;
    }
    const isTemplateElement = isNgTemplate(element2.name);
    const parsedProperties = [];
    const boundEvents = [];
    const variables = [];
    const references = [];
    const attributes = [];
    const i18nAttrsMeta = {};
    const templateParsedProperties = [];
    const templateVariables = [];
    let elementHasInlineTemplate = false;
    for (const attribute2 of element2.attrs) {
      let hasBinding = false;
      const normalizedName = normalizeAttributeName(attribute2.name);
      let isTemplateBinding = false;
      if (attribute2.i18n) {
        i18nAttrsMeta[attribute2.name] = attribute2.i18n;
      }
      if (normalizedName.startsWith(TEMPLATE_ATTR_PREFIX2)) {
        if (elementHasInlineTemplate) {
          this.reportError(`Can't have multiple template bindings on one element. Use only one attribute prefixed with *`, attribute2.sourceSpan);
        }
        isTemplateBinding = true;
        elementHasInlineTemplate = true;
        const templateValue = attribute2.value;
        const templateKey = normalizedName.substring(TEMPLATE_ATTR_PREFIX2.length);
        const parsedVariables = [];
        const absoluteValueOffset = attribute2.valueSpan ? attribute2.valueSpan.start.offset : attribute2.sourceSpan.start.offset + attribute2.name.length;
        this.bindingParser.parseInlineTemplateBinding(templateKey, templateValue, attribute2.sourceSpan, absoluteValueOffset, [], templateParsedProperties, parsedVariables, true);
        templateVariables.push(...parsedVariables.map((v) => new Variable(v.name, v.value, v.sourceSpan, v.keySpan, v.valueSpan)));
      } else {
        hasBinding = this.parseAttribute(isTemplateElement, attribute2, [], parsedProperties, boundEvents, variables, references);
      }
      if (!hasBinding && !isTemplateBinding) {
        attributes.push(this.visitAttribute(attribute2));
      }
    }
    let children;
    if (preparsedElement.nonBindable) {
      children = visitAll2(NON_BINDABLE_VISITOR, element2.children).flat(Infinity);
    } else {
      children = visitAll2(this, element2.children, element2.children);
    }
    let parsedElement;
    if (preparsedElement.type === PreparsedElementType.NG_CONTENT) {
      const selector = preparsedElement.selectAttr;
      const attrs = element2.attrs.map((attr) => this.visitAttribute(attr));
      parsedElement = new Content(selector, attrs, children, element2.sourceSpan, element2.i18n);
      this.ngContentSelectors.push(selector);
    } else if (isTemplateElement) {
      const attrs = this.extractAttributes(element2.name, parsedProperties, i18nAttrsMeta);
      parsedElement = new Template(element2.name, attributes, attrs.bound, boundEvents, [], children, references, variables, element2.sourceSpan, element2.startSourceSpan, element2.endSourceSpan, element2.i18n);
    } else {
      const attrs = this.extractAttributes(element2.name, parsedProperties, i18nAttrsMeta);
      parsedElement = new Element(element2.name, attributes, attrs.bound, boundEvents, children, references, element2.sourceSpan, element2.startSourceSpan, element2.endSourceSpan, element2.i18n);
    }
    if (elementHasInlineTemplate) {
      const attrs = this.extractAttributes("ng-template", templateParsedProperties, i18nAttrsMeta);
      const templateAttrs = [];
      attrs.literal.forEach((attr) => templateAttrs.push(attr));
      attrs.bound.forEach((attr) => templateAttrs.push(attr));
      const hoistedAttrs = parsedElement instanceof Element ? {
        attributes: parsedElement.attributes,
        inputs: parsedElement.inputs,
        outputs: parsedElement.outputs
      } : { attributes: [], inputs: [], outputs: [] };
      const i18n2 = isTemplateElement && isI18nRootElement ? void 0 : element2.i18n;
      const name = parsedElement instanceof Template ? null : parsedElement.name;
      parsedElement = new Template(name, hoistedAttrs.attributes, hoistedAttrs.inputs, hoistedAttrs.outputs, templateAttrs, [parsedElement], [], templateVariables, element2.sourceSpan, element2.startSourceSpan, element2.endSourceSpan, i18n2);
    }
    if (isI18nRootElement) {
      this.inI18nBlock = false;
    }
    return parsedElement;
  }
  visitAttribute(attribute2) {
    return new TextAttribute(attribute2.name, attribute2.value, attribute2.sourceSpan, attribute2.keySpan, attribute2.valueSpan, attribute2.i18n);
  }
  visitText(text2) {
    return this.processedNodes.has(text2) ? null : this._visitTextWithInterpolation(text2.value, text2.sourceSpan, text2.tokens, text2.i18n);
  }
  visitExpansion(expansion) {
    if (!expansion.i18n) {
      return null;
    }
    if (!isI18nRootNode(expansion.i18n)) {
      throw new Error(`Invalid type "${expansion.i18n.constructor}" for "i18n" property of ${expansion.sourceSpan.toString()}. Expected a "Message"`);
    }
    const message = expansion.i18n;
    const vars = {};
    const placeholders = {};
    Object.keys(message.placeholders).forEach((key) => {
      const value = message.placeholders[key];
      if (key.startsWith(I18N_ICU_VAR_PREFIX)) {
        const formattedKey = key.trim();
        const ast = this.bindingParser.parseInterpolationExpression(value.text, value.sourceSpan);
        vars[formattedKey] = new BoundText(ast, value.sourceSpan);
      } else {
        placeholders[key] = this._visitTextWithInterpolation(value.text, value.sourceSpan, null);
      }
    });
    return new Icu(vars, placeholders, expansion.sourceSpan, message);
  }
  visitExpansionCase(expansionCase) {
    return null;
  }
  visitComment(comment) {
    if (this.options.collectCommentNodes) {
      this.commentNodes.push(new Comment(comment.value || "", comment.sourceSpan));
    }
    return null;
  }
  visitLetDeclaration(decl, context) {
    const value = this.bindingParser.parseBinding(decl.value, false, decl.valueSpan, decl.valueSpan.start.offset);
    if (value.errors.length === 0 && value.ast instanceof EmptyExpr) {
      this.reportError("@let declaration value cannot be empty", decl.valueSpan);
    }
    return new LetDeclaration(decl.name, value, decl.sourceSpan, decl.nameSpan, decl.valueSpan);
  }
  visitBlockParameter() {
    return null;
  }
  visitBlock(block, context) {
    const index = Array.isArray(context) ? context.indexOf(block) : -1;
    if (index === -1) {
      throw new Error("Visitor invoked incorrectly. Expecting visitBlock to be invoked siblings array as its context");
    }
    if (this.processedNodes.has(block)) {
      return null;
    }
    let result = null;
    switch (block.name) {
      case "defer":
        result = createDeferredBlock(block, this.findConnectedBlocks(index, context, isConnectedDeferLoopBlock), this, this.bindingParser);
        break;
      case "switch":
        result = createSwitchBlock(block, this, this.bindingParser);
        break;
      case "for":
        result = createForLoop(block, this.findConnectedBlocks(index, context, isConnectedForLoopBlock), this, this.bindingParser);
        break;
      case "if":
        result = createIfBlock(block, this.findConnectedBlocks(index, context, isConnectedIfLoopBlock), this, this.bindingParser);
        break;
      default:
        let errorMessage;
        if (isConnectedDeferLoopBlock(block.name)) {
          errorMessage = `@${block.name} block can only be used after an @defer block.`;
          this.processedNodes.add(block);
        } else if (isConnectedForLoopBlock(block.name)) {
          errorMessage = `@${block.name} block can only be used after an @for block.`;
          this.processedNodes.add(block);
        } else if (isConnectedIfLoopBlock(block.name)) {
          errorMessage = `@${block.name} block can only be used after an @if or @else if block.`;
          this.processedNodes.add(block);
        } else {
          errorMessage = `Unrecognized block @${block.name}.`;
        }
        result = {
          node: new UnknownBlock(block.name, block.sourceSpan, block.nameSpan),
          errors: [new ParseError(block.sourceSpan, errorMessage)]
        };
        break;
    }
    this.errors.push(...result.errors);
    return result.node;
  }
  findConnectedBlocks(primaryBlockIndex, siblings, predicate) {
    const relatedBlocks = [];
    for (let i = primaryBlockIndex + 1; i < siblings.length; i++) {
      const node = siblings[i];
      if (node instanceof Comment2) {
        continue;
      }
      if (node instanceof Text4 && node.value.trim().length === 0) {
        this.processedNodes.add(node);
        continue;
      }
      if (!(node instanceof Block) || !predicate(node.name)) {
        break;
      }
      relatedBlocks.push(node);
      this.processedNodes.add(node);
    }
    return relatedBlocks;
  }
  extractAttributes(elementName, properties, i18nPropsMeta) {
    const bound = [];
    const literal2 = [];
    properties.forEach((prop) => {
      const i18n2 = i18nPropsMeta[prop.name];
      if (prop.isLiteral) {
        literal2.push(new TextAttribute(prop.name, prop.expression.source || "", prop.sourceSpan, prop.keySpan, prop.valueSpan, i18n2));
      } else {
        const bep = this.bindingParser.createBoundElementProperty(
          elementName,
          prop,
          true,
          false
        );
        bound.push(BoundAttribute.fromBoundElementProperty(bep, i18n2));
      }
    });
    return { bound, literal: literal2 };
  }
  parseAttribute(isTemplateElement, attribute2, matchableAttributes, parsedProperties, boundEvents, variables, references) {
    var _a2;
    const name = normalizeAttributeName(attribute2.name);
    const value = attribute2.value;
    const srcSpan = attribute2.sourceSpan;
    const absoluteOffset = attribute2.valueSpan ? attribute2.valueSpan.start.offset : srcSpan.start.offset;
    function createKeySpan(srcSpan2, prefix, identifier) {
      const normalizationAdjustment = attribute2.name.length - name.length;
      const keySpanStart = srcSpan2.start.moveBy(prefix.length + normalizationAdjustment);
      const keySpanEnd = keySpanStart.moveBy(identifier.length);
      return new ParseSourceSpan(keySpanStart, keySpanEnd, keySpanStart, identifier);
    }
    const bindParts = name.match(BIND_NAME_REGEXP);
    if (bindParts) {
      if (bindParts[KW_BIND_IDX] != null) {
        const identifier = bindParts[IDENT_KW_IDX];
        const keySpan2 = createKeySpan(srcSpan, bindParts[KW_BIND_IDX], identifier);
        this.bindingParser.parsePropertyBinding(identifier, value, false, false, srcSpan, absoluteOffset, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan2);
      } else if (bindParts[KW_LET_IDX]) {
        if (isTemplateElement) {
          const identifier = bindParts[IDENT_KW_IDX];
          const keySpan2 = createKeySpan(srcSpan, bindParts[KW_LET_IDX], identifier);
          this.parseVariable(identifier, value, srcSpan, keySpan2, attribute2.valueSpan, variables);
        } else {
          this.reportError(`"let-" is only supported on ng-template elements.`, srcSpan);
        }
      } else if (bindParts[KW_REF_IDX]) {
        const identifier = bindParts[IDENT_KW_IDX];
        const keySpan2 = createKeySpan(srcSpan, bindParts[KW_REF_IDX], identifier);
        this.parseReference(identifier, value, srcSpan, keySpan2, attribute2.valueSpan, references);
      } else if (bindParts[KW_ON_IDX]) {
        const events = [];
        const identifier = bindParts[IDENT_KW_IDX];
        const keySpan2 = createKeySpan(srcSpan, bindParts[KW_ON_IDX], identifier);
        this.bindingParser.parseEvent(
          identifier,
          value,
          false,
          srcSpan,
          attribute2.valueSpan || srcSpan,
          matchableAttributes,
          events,
          keySpan2
        );
        addEvents(events, boundEvents);
      } else if (bindParts[KW_BINDON_IDX]) {
        const identifier = bindParts[IDENT_KW_IDX];
        const keySpan2 = createKeySpan(srcSpan, bindParts[KW_BINDON_IDX], identifier);
        this.bindingParser.parsePropertyBinding(identifier, value, false, true, srcSpan, absoluteOffset, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan2);
        this.parseAssignmentEvent(identifier, value, srcSpan, attribute2.valueSpan, matchableAttributes, boundEvents, keySpan2);
      } else if (bindParts[KW_AT_IDX]) {
        const keySpan2 = createKeySpan(srcSpan, "", name);
        this.bindingParser.parseLiteralAttr(name, value, srcSpan, absoluteOffset, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan2);
      }
      return true;
    }
    let delims = null;
    if (name.startsWith(BINDING_DELIMS.BANANA_BOX.start)) {
      delims = BINDING_DELIMS.BANANA_BOX;
    } else if (name.startsWith(BINDING_DELIMS.PROPERTY.start)) {
      delims = BINDING_DELIMS.PROPERTY;
    } else if (name.startsWith(BINDING_DELIMS.EVENT.start)) {
      delims = BINDING_DELIMS.EVENT;
    }
    if (delims !== null && name.endsWith(delims.end) && name.length > delims.start.length + delims.end.length) {
      const identifier = name.substring(delims.start.length, name.length - delims.end.length);
      const keySpan2 = createKeySpan(srcSpan, delims.start, identifier);
      if (delims.start === BINDING_DELIMS.BANANA_BOX.start) {
        this.bindingParser.parsePropertyBinding(identifier, value, false, true, srcSpan, absoluteOffset, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan2);
        this.parseAssignmentEvent(identifier, value, srcSpan, attribute2.valueSpan, matchableAttributes, boundEvents, keySpan2);
      } else if (delims.start === BINDING_DELIMS.PROPERTY.start) {
        this.bindingParser.parsePropertyBinding(identifier, value, false, false, srcSpan, absoluteOffset, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan2);
      } else {
        const events = [];
        this.bindingParser.parseEvent(
          identifier,
          value,
          false,
          srcSpan,
          attribute2.valueSpan || srcSpan,
          matchableAttributes,
          events,
          keySpan2
        );
        addEvents(events, boundEvents);
      }
      return true;
    }
    const keySpan = createKeySpan(srcSpan, "", name);
    const hasBinding = this.bindingParser.parsePropertyInterpolation(name, value, srcSpan, attribute2.valueSpan, matchableAttributes, parsedProperties, keySpan, (_a2 = attribute2.valueTokens) != null ? _a2 : null);
    return hasBinding;
  }
  _visitTextWithInterpolation(value, sourceSpan, interpolatedTokens, i18n2) {
    const valueNoNgsp = replaceNgsp(value);
    const expr = this.bindingParser.parseInterpolation(valueNoNgsp, sourceSpan, interpolatedTokens);
    return expr ? new BoundText(expr, sourceSpan, i18n2) : new Text(valueNoNgsp, sourceSpan);
  }
  parseVariable(identifier, value, sourceSpan, keySpan, valueSpan, variables) {
    if (identifier.indexOf("-") > -1) {
      this.reportError(`"-" is not allowed in variable names`, sourceSpan);
    } else if (identifier.length === 0) {
      this.reportError(`Variable does not have a name`, sourceSpan);
    }
    variables.push(new Variable(identifier, value, sourceSpan, keySpan, valueSpan));
  }
  parseReference(identifier, value, sourceSpan, keySpan, valueSpan, references) {
    if (identifier.indexOf("-") > -1) {
      this.reportError(`"-" is not allowed in reference names`, sourceSpan);
    } else if (identifier.length === 0) {
      this.reportError(`Reference does not have a name`, sourceSpan);
    } else if (references.some((reference2) => reference2.name === identifier)) {
      this.reportError(`Reference "#${identifier}" is defined more than once`, sourceSpan);
    }
    references.push(new Reference(identifier, value, sourceSpan, keySpan, valueSpan));
  }
  parseAssignmentEvent(name, expression, sourceSpan, valueSpan, targetMatchableAttrs, boundEvents, keySpan) {
    const events = [];
    this.bindingParser.parseEvent(
      `${name}Change`,
      expression,
      true,
      sourceSpan,
      valueSpan || sourceSpan,
      targetMatchableAttrs,
      events,
      keySpan
    );
    addEvents(events, boundEvents);
  }
  reportError(message, sourceSpan, level = ParseErrorLevel.ERROR) {
    this.errors.push(new ParseError(sourceSpan, message, level));
  }
};
var NonBindableVisitor = class {
  visitElement(ast) {
    const preparsedElement = preparseElement(ast);
    if (preparsedElement.type === PreparsedElementType.SCRIPT || preparsedElement.type === PreparsedElementType.STYLE || preparsedElement.type === PreparsedElementType.STYLESHEET) {
      return null;
    }
    const children = visitAll2(this, ast.children, null);
    return new Element(
      ast.name,
      visitAll2(this, ast.attrs),
      [],
      [],
      children,
      [],
      ast.sourceSpan,
      ast.startSourceSpan,
      ast.endSourceSpan
    );
  }
  visitComment(comment) {
    return null;
  }
  visitAttribute(attribute2) {
    return new TextAttribute(attribute2.name, attribute2.value, attribute2.sourceSpan, attribute2.keySpan, attribute2.valueSpan, attribute2.i18n);
  }
  visitText(text2) {
    return new Text(text2.value, text2.sourceSpan);
  }
  visitExpansion(expansion) {
    return null;
  }
  visitExpansionCase(expansionCase) {
    return null;
  }
  visitBlock(block, context) {
    const nodes = [
      new Text(block.startSourceSpan.toString(), block.startSourceSpan),
      ...visitAll2(this, block.children)
    ];
    if (block.endSourceSpan !== null) {
      nodes.push(new Text(block.endSourceSpan.toString(), block.endSourceSpan));
    }
    return nodes;
  }
  visitBlockParameter(parameter, context) {
    return null;
  }
  visitLetDeclaration(decl, context) {
    return new Text(`@let ${decl.name} = ${decl.value};`, decl.sourceSpan);
  }
};
var NON_BINDABLE_VISITOR = new NonBindableVisitor();
function normalizeAttributeName(attrName) {
  return /^data-/i.test(attrName) ? attrName.substring(5) : attrName;
}
function addEvents(events, boundEvents) {
  boundEvents.push(...events.map((e) => BoundEvent.fromParsedEvent(e)));
}
function textContents(node) {
  if (node.children.length !== 1 || !(node.children[0] instanceof Text4)) {
    return null;
  } else {
    return node.children[0].value;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/template.mjs
var LEADING_TRIVIA_CHARS = [" ", "\n", "\r", "	"];
function parseTemplate(template2, templateUrl, options = {}) {
  var _a2, _b2, _c2;
  const { interpolationConfig, preserveWhitespaces, enableI18nLegacyMessageIdFormat, allowInvalidAssignmentEvents } = options;
  const bindingParser = makeBindingParser(interpolationConfig, allowInvalidAssignmentEvents);
  const htmlParser = new HtmlParser();
  const parseResult = htmlParser.parse(template2, templateUrl, __spreadProps(__spreadValues({
    leadingTriviaChars: LEADING_TRIVIA_CHARS
  }, options), {
    tokenizeExpansionForms: true,
    tokenizeBlocks: (_a2 = options.enableBlockSyntax) != null ? _a2 : true,
    tokenizeLet: (_b2 = options.enableLetSyntax) != null ? _b2 : true
  }));
  if (!options.alwaysAttemptHtmlToR3AstConversion && parseResult.errors && parseResult.errors.length > 0) {
    const parsedTemplate2 = {
      interpolationConfig,
      preserveWhitespaces,
      errors: parseResult.errors,
      nodes: [],
      styleUrls: [],
      styles: [],
      ngContentSelectors: []
    };
    if (options.collectCommentNodes) {
      parsedTemplate2.commentNodes = [];
    }
    return parsedTemplate2;
  }
  let rootNodes = parseResult.rootNodes;
  const retainEmptyTokens = !((_c2 = options.preserveSignificantWhitespace) != null ? _c2 : true);
  const i18nMetaVisitor = new I18nMetaVisitor(
    interpolationConfig,
    !preserveWhitespaces,
    enableI18nLegacyMessageIdFormat,
    void 0,
    options.preserveSignificantWhitespace,
    retainEmptyTokens
  );
  const i18nMetaResult = i18nMetaVisitor.visitAllWithErrors(rootNodes);
  if (!options.alwaysAttemptHtmlToR3AstConversion && i18nMetaResult.errors && i18nMetaResult.errors.length > 0) {
    const parsedTemplate2 = {
      interpolationConfig,
      preserveWhitespaces,
      errors: i18nMetaResult.errors,
      nodes: [],
      styleUrls: [],
      styles: [],
      ngContentSelectors: []
    };
    if (options.collectCommentNodes) {
      parsedTemplate2.commentNodes = [];
    }
    return parsedTemplate2;
  }
  rootNodes = i18nMetaResult.rootNodes;
  if (!preserveWhitespaces) {
    rootNodes = visitAll2(new WhitespaceVisitor(
      true,
      void 0,
      false
    ), rootNodes);
    if (i18nMetaVisitor.hasI18nMeta) {
      rootNodes = visitAll2(new I18nMetaVisitor(
        interpolationConfig,
        false,
        void 0,
        void 0,
        true,
        retainEmptyTokens
      ), rootNodes);
    }
  }
  const { nodes, errors, styleUrls, styles, ngContentSelectors, commentNodes } = htmlAstToRender3Ast(rootNodes, bindingParser, { collectCommentNodes: !!options.collectCommentNodes });
  errors.push(...parseResult.errors, ...i18nMetaResult.errors);
  const parsedTemplate = {
    interpolationConfig,
    preserveWhitespaces,
    errors: errors.length > 0 ? errors : null,
    nodes,
    styleUrls,
    styles,
    ngContentSelectors
  };
  if (options.collectCommentNodes) {
    parsedTemplate.commentNodes = commentNodes;
  }
  return parsedTemplate;
}
var elementRegistry = new DomElementSchemaRegistry();
function makeBindingParser(interpolationConfig = DEFAULT_INTERPOLATION_CONFIG, allowInvalidAssignmentEvents = false) {
  return new BindingParser(new Parser2(new Lexer()), interpolationConfig, elementRegistry, [], allowInvalidAssignmentEvents);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/compiler.mjs
var COMPONENT_VARIABLE = "%COMP%";
var HOST_ATTR = `_nghost-${COMPONENT_VARIABLE}`;
var CONTENT_ATTR = `_ngcontent-${COMPONENT_VARIABLE}`;
function baseDirectiveFields(meta, constantPool, bindingParser) {
  const definitionMap = new DefinitionMap();
  const selectors = parseSelectorToR3Selector(meta.selector);
  definitionMap.set("type", meta.type.value);
  if (selectors.length > 0) {
    definitionMap.set("selectors", asLiteral(selectors));
  }
  if (meta.queries.length > 0) {
    definitionMap.set("contentQueries", createContentQueriesFunction(meta.queries, constantPool, meta.name));
  }
  if (meta.viewQueries.length) {
    definitionMap.set("viewQuery", createViewQueriesFunction(meta.viewQueries, constantPool, meta.name));
  }
  definitionMap.set("hostBindings", createHostBindingsFunction(meta.host, meta.typeSourceSpan, bindingParser, constantPool, meta.selector || "", meta.name, definitionMap));
  definitionMap.set("inputs", conditionallyCreateDirectiveBindingLiteral(meta.inputs, true));
  definitionMap.set("outputs", conditionallyCreateDirectiveBindingLiteral(meta.outputs));
  if (meta.exportAs !== null) {
    definitionMap.set("exportAs", literalArr(meta.exportAs.map((e) => literal(e))));
  }
  if (meta.isStandalone) {
    definitionMap.set("standalone", literal(true));
  }
  if (meta.isSignal) {
    definitionMap.set("signals", literal(true));
  }
  return definitionMap;
}
function addFeatures(definitionMap, meta) {
  var _a2;
  const features = [];
  const providers = meta.providers;
  const viewProviders = meta.viewProviders;
  const inputKeys = Object.keys(meta.inputs);
  if (providers || viewProviders) {
    const args = [providers || new LiteralArrayExpr([])];
    if (viewProviders) {
      args.push(viewProviders);
    }
    features.push(importExpr(Identifiers.ProvidersFeature).callFn(args));
  }
  for (const key of inputKeys) {
    if (meta.inputs[key].transformFunction !== null) {
      features.push(importExpr(Identifiers.InputTransformsFeatureFeature));
      break;
    }
  }
  if ((_a2 = meta.hostDirectives) == null ? void 0 : _a2.length) {
    features.push(importExpr(Identifiers.HostDirectivesFeature).callFn([createHostDirectivesFeatureArg(meta.hostDirectives)]));
  }
  if (meta.usesInheritance) {
    features.push(importExpr(Identifiers.InheritDefinitionFeature));
  }
  if (meta.fullInheritance) {
    features.push(importExpr(Identifiers.CopyDefinitionFeature));
  }
  if (meta.lifecycle.usesOnChanges) {
    features.push(importExpr(Identifiers.NgOnChangesFeature));
  }
  if (meta.hasOwnProperty("template") && meta.isStandalone) {
    features.push(importExpr(Identifiers.StandaloneFeature));
  }
  if (features.length) {
    definitionMap.set("features", literalArr(features));
  }
}
function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {
  const definitionMap = baseDirectiveFields(meta, constantPool, bindingParser);
  addFeatures(definitionMap, meta);
  const expression = importExpr(Identifiers.defineDirective).callFn([definitionMap.toLiteralMap()], void 0, true);
  const type = createDirectiveType(meta);
  return { expression, type, statements: [] };
}
function compileComponentFromMetadata(meta, constantPool, bindingParser) {
  const definitionMap = baseDirectiveFields(meta, constantPool, bindingParser);
  addFeatures(definitionMap, meta);
  const selector = meta.selector && CssSelector.parse(meta.selector);
  const firstSelector = selector && selector[0];
  if (firstSelector) {
    const selectorAttributes = firstSelector.getAttrs();
    if (selectorAttributes.length) {
      definitionMap.set("attrs", constantPool.getConstLiteral(
        literalArr(selectorAttributes.map((value) => value != null ? literal(value) : literal(void 0))),
        true
      ));
    }
  }
  const templateTypeName = meta.name;
  let allDeferrableDepsFn = null;
  if (meta.defer.mode === 1 && meta.defer.dependenciesFn !== null) {
    const fnName = `${templateTypeName}_DeferFn`;
    constantPool.statements.push(new DeclareVarStmt(fnName, meta.defer.dependenciesFn, void 0, StmtModifier.Final));
    allDeferrableDepsFn = variable(fnName);
  }
  const tpl = ingestComponent(meta.name, meta.template.nodes, constantPool, meta.relativeContextFilePath, meta.i18nUseExternalIds, meta.defer, allDeferrableDepsFn);
  transform(tpl, CompilationJobKind.Tmpl);
  const templateFn = emitTemplateFn(tpl, constantPool);
  if (tpl.contentSelectors !== null) {
    definitionMap.set("ngContentSelectors", tpl.contentSelectors);
  }
  definitionMap.set("decls", literal(tpl.root.decls));
  definitionMap.set("vars", literal(tpl.root.vars));
  if (tpl.consts.length > 0) {
    if (tpl.constsInitializers.length > 0) {
      definitionMap.set("consts", arrowFn([], [...tpl.constsInitializers, new ReturnStatement(literalArr(tpl.consts))]));
    } else {
      definitionMap.set("consts", literalArr(tpl.consts));
    }
  }
  definitionMap.set("template", templateFn);
  if (meta.declarationListEmitMode !== 3 && meta.declarations.length > 0) {
    definitionMap.set("dependencies", compileDeclarationList(literalArr(meta.declarations.map((decl) => decl.type)), meta.declarationListEmitMode));
  } else if (meta.declarationListEmitMode === 3) {
    const args = [meta.type.value];
    if (meta.rawImports) {
      args.push(meta.rawImports);
    }
    definitionMap.set("dependencies", importExpr(Identifiers.getComponentDepsFactory).callFn(args));
  }
  if (meta.encapsulation === null) {
    meta.encapsulation = ViewEncapsulation.Emulated;
  }
  if (meta.styles && meta.styles.length) {
    const styleValues = meta.encapsulation == ViewEncapsulation.Emulated ? compileStyles(meta.styles, CONTENT_ATTR, HOST_ATTR) : meta.styles;
    const styleNodes = styleValues.reduce((result, style) => {
      if (style.trim().length > 0) {
        result.push(constantPool.getConstLiteral(literal(style)));
      }
      return result;
    }, []);
    if (styleNodes.length > 0) {
      definitionMap.set("styles", literalArr(styleNodes));
    }
  } else if (meta.encapsulation === ViewEncapsulation.Emulated) {
    meta.encapsulation = ViewEncapsulation.None;
  }
  if (meta.encapsulation !== ViewEncapsulation.Emulated) {
    definitionMap.set("encapsulation", literal(meta.encapsulation));
  }
  if (meta.animations !== null) {
    definitionMap.set("data", literalMap([{ key: "animation", value: meta.animations, quoted: false }]));
  }
  if (meta.changeDetection !== null) {
    if (typeof meta.changeDetection === "number" && meta.changeDetection !== ChangeDetectionStrategy.Default) {
      definitionMap.set("changeDetection", literal(meta.changeDetection));
    } else if (typeof meta.changeDetection === "object") {
      definitionMap.set("changeDetection", meta.changeDetection);
    }
  }
  const expression = importExpr(Identifiers.defineComponent).callFn([definitionMap.toLiteralMap()], void 0, true);
  const type = createComponentType(meta);
  return { expression, type, statements: [] };
}
function createComponentType(meta) {
  const typeParams = createBaseDirectiveTypeParams(meta);
  typeParams.push(stringArrayAsType(meta.template.ngContentSelectors));
  typeParams.push(expressionType(literal(meta.isStandalone)));
  typeParams.push(createHostDirectivesType(meta));
  if (meta.isSignal) {
    typeParams.push(expressionType(literal(meta.isSignal)));
  }
  return expressionType(importExpr(Identifiers.ComponentDeclaration, typeParams));
}
function compileDeclarationList(list, mode) {
  switch (mode) {
    case 0:
      return list;
    case 1:
      return arrowFn([], list);
    case 2:
      const resolvedList = list.prop("map").callFn([importExpr(Identifiers.resolveForwardRef)]);
      return arrowFn([], resolvedList);
    case 3:
      throw new Error(`Unsupported with an array of pre-resolved dependencies`);
  }
}
function stringAsType(str) {
  return expressionType(literal(str));
}
function stringMapAsLiteralExpression(map) {
  const mapValues = Object.keys(map).map((key) => {
    const value = Array.isArray(map[key]) ? map[key][0] : map[key];
    return {
      key,
      value: literal(value),
      quoted: true
    };
  });
  return literalMap(mapValues);
}
function stringArrayAsType(arr) {
  return arr.length > 0 ? expressionType(literalArr(arr.map((value) => literal(value)))) : NONE_TYPE;
}
function createBaseDirectiveTypeParams(meta) {
  const selectorForType = meta.selector !== null ? meta.selector.replace(/\n/g, "") : null;
  return [
    typeWithParameters(meta.type.type, meta.typeArgumentCount),
    selectorForType !== null ? stringAsType(selectorForType) : NONE_TYPE,
    meta.exportAs !== null ? stringArrayAsType(meta.exportAs) : NONE_TYPE,
    expressionType(getInputsTypeExpression(meta)),
    expressionType(stringMapAsLiteralExpression(meta.outputs)),
    stringArrayAsType(meta.queries.map((q) => q.propertyName))
  ];
}
function getInputsTypeExpression(meta) {
  return literalMap(Object.keys(meta.inputs).map((key) => {
    const value = meta.inputs[key];
    const values = [
      { key: "alias", value: literal(value.bindingPropertyName), quoted: true },
      { key: "required", value: literal(value.required), quoted: true }
    ];
    if (value.isSignal) {
      values.push({ key: "isSignal", value: literal(value.isSignal), quoted: true });
    }
    return { key, value: literalMap(values), quoted: true };
  }));
}
function createDirectiveType(meta) {
  const typeParams = createBaseDirectiveTypeParams(meta);
  typeParams.push(NONE_TYPE);
  typeParams.push(expressionType(literal(meta.isStandalone)));
  typeParams.push(createHostDirectivesType(meta));
  if (meta.isSignal) {
    typeParams.push(expressionType(literal(meta.isSignal)));
  }
  return expressionType(importExpr(Identifiers.DirectiveDeclaration, typeParams));
}
function createHostBindingsFunction(hostBindingsMetadata, typeSourceSpan, bindingParser, constantPool, selector, name, definitionMap) {
  const bindings = bindingParser.createBoundHostProperties(hostBindingsMetadata.properties, typeSourceSpan);
  const eventBindings = bindingParser.createDirectiveHostEventAsts(hostBindingsMetadata.listeners, typeSourceSpan);
  if (hostBindingsMetadata.specialAttributes.styleAttr) {
    hostBindingsMetadata.attributes["style"] = literal(hostBindingsMetadata.specialAttributes.styleAttr);
  }
  if (hostBindingsMetadata.specialAttributes.classAttr) {
    hostBindingsMetadata.attributes["class"] = literal(hostBindingsMetadata.specialAttributes.classAttr);
  }
  const hostJob = ingestHostBinding({
    componentName: name,
    componentSelector: selector,
    properties: bindings,
    events: eventBindings,
    attributes: hostBindingsMetadata.attributes
  }, bindingParser, constantPool);
  transform(hostJob, CompilationJobKind.Host);
  definitionMap.set("hostAttrs", hostJob.root.attributes);
  const varCount = hostJob.root.vars;
  if (varCount !== null && varCount > 0) {
    definitionMap.set("hostVars", literal(varCount));
  }
  return emitHostBindingFunction(hostJob);
}
var HOST_REG_EXP = /^(?:\[([^\]]+)\])|(?:\(([^\)]+)\))$/;
function parseHostBindings(host) {
  const attributes = {};
  const listeners = {};
  const properties = {};
  const specialAttributes = {};
  for (const key of Object.keys(host)) {
    const value = host[key];
    const matches = key.match(HOST_REG_EXP);
    if (matches === null) {
      switch (key) {
        case "class":
          if (typeof value !== "string") {
            throw new Error(`Class binding must be string`);
          }
          specialAttributes.classAttr = value;
          break;
        case "style":
          if (typeof value !== "string") {
            throw new Error(`Style binding must be string`);
          }
          specialAttributes.styleAttr = value;
          break;
        default:
          if (typeof value === "string") {
            attributes[key] = literal(value);
          } else {
            attributes[key] = value;
          }
      }
    } else if (matches[1] != null) {
      if (typeof value !== "string") {
        throw new Error(`Property binding must be string`);
      }
      properties[matches[1]] = value;
    } else if (matches[2] != null) {
      if (typeof value !== "string") {
        throw new Error(`Event binding must be string`);
      }
      listeners[matches[2]] = value;
    }
  }
  return { attributes, listeners, properties, specialAttributes };
}
function verifyHostBindings(bindings, sourceSpan) {
  const bindingParser = makeBindingParser();
  bindingParser.createDirectiveHostEventAsts(bindings.listeners, sourceSpan);
  bindingParser.createBoundHostProperties(bindings.properties, sourceSpan);
  return bindingParser.errors;
}
function compileStyles(styles, selector, hostSelector) {
  const shadowCss = new ShadowCss();
  return styles.map((style) => {
    return shadowCss.shimCssText(style, selector, hostSelector);
  });
}
function createHostDirectivesType(meta) {
  var _a2;
  if (!((_a2 = meta.hostDirectives) == null ? void 0 : _a2.length)) {
    return NONE_TYPE;
  }
  return expressionType(literalArr(meta.hostDirectives.map((hostMeta) => literalMap([
    { key: "directive", value: typeofExpr(hostMeta.directive.type), quoted: false },
    {
      key: "inputs",
      value: stringMapAsLiteralExpression(hostMeta.inputs || {}),
      quoted: false
    },
    {
      key: "outputs",
      value: stringMapAsLiteralExpression(hostMeta.outputs || {}),
      quoted: false
    }
  ]))));
}
function createHostDirectivesFeatureArg(hostDirectives) {
  const expressions = [];
  let hasForwardRef = false;
  for (const current of hostDirectives) {
    if (!current.inputs && !current.outputs) {
      expressions.push(current.directive.type);
    } else {
      const keys = [{ key: "directive", value: current.directive.type, quoted: false }];
      if (current.inputs) {
        const inputsLiteral = createHostDirectivesMappingArray(current.inputs);
        if (inputsLiteral) {
          keys.push({ key: "inputs", value: inputsLiteral, quoted: false });
        }
      }
      if (current.outputs) {
        const outputsLiteral = createHostDirectivesMappingArray(current.outputs);
        if (outputsLiteral) {
          keys.push({ key: "outputs", value: outputsLiteral, quoted: false });
        }
      }
      expressions.push(literalMap(keys));
    }
    if (current.isForwardReference) {
      hasForwardRef = true;
    }
  }
  return hasForwardRef ? new FunctionExpr([], [new ReturnStatement(literalArr(expressions))]) : literalArr(expressions);
}
function createHostDirectivesMappingArray(mapping) {
  const elements = [];
  for (const publicName in mapping) {
    if (mapping.hasOwnProperty(publicName)) {
      elements.push(literal(publicName), literal(mapping[publicName]));
    }
  }
  return elements.length > 0 ? literalArr(elements) : null;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/view/t2_binder.mjs
var R3TargetBinder = class {
  constructor(directiveMatcher) {
    this.directiveMatcher = directiveMatcher;
  }
  bind(target) {
    if (!target.template) {
      throw new Error("Binding without a template not yet supported");
    }
    const scope = Scope2.apply(target.template);
    const scopedNodeEntities = extractScopedNodeEntities(scope);
    const { directives, eagerDirectives, bindings, references } = DirectiveBinder.apply(target.template, this.directiveMatcher);
    const { expressions, symbols, nestingLevel, usedPipes, eagerPipes, deferBlocks } = TemplateBinder.applyWithScope(target.template, scope);
    return new R3BoundTarget(target, directives, eagerDirectives, bindings, references, expressions, symbols, nestingLevel, scopedNodeEntities, usedPipes, eagerPipes, deferBlocks);
  }
};
var Scope2 = class {
  constructor(parentScope, rootNode) {
    this.parentScope = parentScope;
    this.rootNode = rootNode;
    this.namedEntities = /* @__PURE__ */ new Map();
    this.elementsInScope = /* @__PURE__ */ new Set();
    this.childScopes = /* @__PURE__ */ new Map();
    this.isDeferred = parentScope !== null && parentScope.isDeferred ? true : rootNode instanceof DeferredBlock;
  }
  static newRootScope() {
    return new Scope2(null, null);
  }
  static apply(template2) {
    const scope = Scope2.newRootScope();
    scope.ingest(template2);
    return scope;
  }
  ingest(nodeOrNodes) {
    if (nodeOrNodes instanceof Template) {
      nodeOrNodes.variables.forEach((node) => this.visitVariable(node));
      nodeOrNodes.children.forEach((node) => node.visit(this));
    } else if (nodeOrNodes instanceof IfBlockBranch) {
      if (nodeOrNodes.expressionAlias !== null) {
        this.visitVariable(nodeOrNodes.expressionAlias);
      }
      nodeOrNodes.children.forEach((node) => node.visit(this));
    } else if (nodeOrNodes instanceof ForLoopBlock) {
      this.visitVariable(nodeOrNodes.item);
      nodeOrNodes.contextVariables.forEach((v) => this.visitVariable(v));
      nodeOrNodes.children.forEach((node) => node.visit(this));
    } else if (nodeOrNodes instanceof SwitchBlockCase || nodeOrNodes instanceof ForLoopBlockEmpty || nodeOrNodes instanceof DeferredBlock || nodeOrNodes instanceof DeferredBlockError || nodeOrNodes instanceof DeferredBlockPlaceholder || nodeOrNodes instanceof DeferredBlockLoading || nodeOrNodes instanceof Content) {
      nodeOrNodes.children.forEach((node) => node.visit(this));
    } else {
      nodeOrNodes.forEach((node) => node.visit(this));
    }
  }
  visitElement(element2) {
    element2.references.forEach((node) => this.visitReference(node));
    element2.children.forEach((node) => node.visit(this));
    this.elementsInScope.add(element2);
  }
  visitTemplate(template2) {
    template2.references.forEach((node) => this.visitReference(node));
    this.ingestScopedNode(template2);
  }
  visitVariable(variable2) {
    this.maybeDeclare(variable2);
  }
  visitReference(reference2) {
    this.maybeDeclare(reference2);
  }
  visitDeferredBlock(deferred) {
    var _a2, _b2, _c2;
    this.ingestScopedNode(deferred);
    (_a2 = deferred.placeholder) == null ? void 0 : _a2.visit(this);
    (_b2 = deferred.loading) == null ? void 0 : _b2.visit(this);
    (_c2 = deferred.error) == null ? void 0 : _c2.visit(this);
  }
  visitDeferredBlockPlaceholder(block) {
    this.ingestScopedNode(block);
  }
  visitDeferredBlockError(block) {
    this.ingestScopedNode(block);
  }
  visitDeferredBlockLoading(block) {
    this.ingestScopedNode(block);
  }
  visitSwitchBlock(block) {
    block.cases.forEach((node) => node.visit(this));
  }
  visitSwitchBlockCase(block) {
    this.ingestScopedNode(block);
  }
  visitForLoopBlock(block) {
    var _a2;
    this.ingestScopedNode(block);
    (_a2 = block.empty) == null ? void 0 : _a2.visit(this);
  }
  visitForLoopBlockEmpty(block) {
    this.ingestScopedNode(block);
  }
  visitIfBlock(block) {
    block.branches.forEach((node) => node.visit(this));
  }
  visitIfBlockBranch(block) {
    this.ingestScopedNode(block);
  }
  visitContent(content) {
    this.ingestScopedNode(content);
  }
  visitLetDeclaration(decl) {
    this.maybeDeclare(decl);
  }
  visitBoundAttribute(attr) {
  }
  visitBoundEvent(event) {
  }
  visitBoundText(text2) {
  }
  visitText(text2) {
  }
  visitTextAttribute(attr) {
  }
  visitIcu(icu) {
  }
  visitDeferredTrigger(trigger) {
  }
  visitUnknownBlock(block) {
  }
  maybeDeclare(thing) {
    if (!this.namedEntities.has(thing.name)) {
      this.namedEntities.set(thing.name, thing);
    }
  }
  lookup(name) {
    if (this.namedEntities.has(name)) {
      return this.namedEntities.get(name);
    } else if (this.parentScope !== null) {
      return this.parentScope.lookup(name);
    } else {
      return null;
    }
  }
  getChildScope(node) {
    const res = this.childScopes.get(node);
    if (res === void 0) {
      throw new Error(`Assertion error: child scope for ${node} not found`);
    }
    return res;
  }
  ingestScopedNode(node) {
    const scope = new Scope2(this, node);
    scope.ingest(node);
    this.childScopes.set(node, scope);
  }
};
var DirectiveBinder = class {
  constructor(matcher, directives, eagerDirectives, bindings, references) {
    this.matcher = matcher;
    this.directives = directives;
    this.eagerDirectives = eagerDirectives;
    this.bindings = bindings;
    this.references = references;
    this.isInDeferBlock = false;
  }
  static apply(template2, selectorMatcher) {
    const directives = /* @__PURE__ */ new Map();
    const bindings = /* @__PURE__ */ new Map();
    const references = /* @__PURE__ */ new Map();
    const eagerDirectives = [];
    const matcher = new DirectiveBinder(selectorMatcher, directives, eagerDirectives, bindings, references);
    matcher.ingest(template2);
    return { directives, eagerDirectives, bindings, references };
  }
  ingest(template2) {
    template2.forEach((node) => node.visit(this));
  }
  visitElement(element2) {
    this.visitElementOrTemplate(element2);
  }
  visitTemplate(template2) {
    this.visitElementOrTemplate(template2);
  }
  visitElementOrTemplate(node) {
    const cssSelector = createCssSelectorFromNode(node);
    const directives = [];
    this.matcher.match(cssSelector, (_selector, results) => directives.push(...results));
    if (directives.length > 0) {
      this.directives.set(node, directives);
      if (!this.isInDeferBlock) {
        this.eagerDirectives.push(...directives);
      }
    }
    node.references.forEach((ref) => {
      let dirTarget = null;
      if (ref.value.trim() === "") {
        dirTarget = directives.find((dir) => dir.isComponent) || null;
      } else {
        dirTarget = directives.find((dir) => dir.exportAs !== null && dir.exportAs.some((value) => value === ref.value)) || null;
        if (dirTarget === null) {
          return;
        }
      }
      if (dirTarget !== null) {
        this.references.set(ref, { directive: dirTarget, node });
      } else {
        this.references.set(ref, node);
      }
    });
    const setAttributeBinding = (attribute2, ioType) => {
      const dir = directives.find((dir2) => dir2[ioType].hasBindingPropertyName(attribute2.name));
      const binding = dir !== void 0 ? dir : node;
      this.bindings.set(attribute2, binding);
    };
    node.inputs.forEach((input) => setAttributeBinding(input, "inputs"));
    node.attributes.forEach((attr) => setAttributeBinding(attr, "inputs"));
    if (node instanceof Template) {
      node.templateAttrs.forEach((attr) => setAttributeBinding(attr, "inputs"));
    }
    node.outputs.forEach((output) => setAttributeBinding(output, "outputs"));
    node.children.forEach((child) => child.visit(this));
  }
  visitDeferredBlock(deferred) {
    var _a2, _b2, _c2;
    const wasInDeferBlock = this.isInDeferBlock;
    this.isInDeferBlock = true;
    deferred.children.forEach((child) => child.visit(this));
    this.isInDeferBlock = wasInDeferBlock;
    (_a2 = deferred.placeholder) == null ? void 0 : _a2.visit(this);
    (_b2 = deferred.loading) == null ? void 0 : _b2.visit(this);
    (_c2 = deferred.error) == null ? void 0 : _c2.visit(this);
  }
  visitDeferredBlockPlaceholder(block) {
    block.children.forEach((child) => child.visit(this));
  }
  visitDeferredBlockError(block) {
    block.children.forEach((child) => child.visit(this));
  }
  visitDeferredBlockLoading(block) {
    block.children.forEach((child) => child.visit(this));
  }
  visitSwitchBlock(block) {
    block.cases.forEach((node) => node.visit(this));
  }
  visitSwitchBlockCase(block) {
    block.children.forEach((node) => node.visit(this));
  }
  visitForLoopBlock(block) {
    var _a2;
    block.item.visit(this);
    block.contextVariables.forEach((v) => v.visit(this));
    block.children.forEach((node) => node.visit(this));
    (_a2 = block.empty) == null ? void 0 : _a2.visit(this);
  }
  visitForLoopBlockEmpty(block) {
    block.children.forEach((node) => node.visit(this));
  }
  visitIfBlock(block) {
    block.branches.forEach((node) => node.visit(this));
  }
  visitIfBlockBranch(block) {
    var _a2;
    (_a2 = block.expressionAlias) == null ? void 0 : _a2.visit(this);
    block.children.forEach((node) => node.visit(this));
  }
  visitContent(content) {
    content.children.forEach((child) => child.visit(this));
  }
  visitVariable(variable2) {
  }
  visitReference(reference2) {
  }
  visitTextAttribute(attribute2) {
  }
  visitBoundAttribute(attribute2) {
  }
  visitBoundEvent(attribute2) {
  }
  visitBoundAttributeOrEvent(node) {
  }
  visitText(text2) {
  }
  visitBoundText(text2) {
  }
  visitIcu(icu) {
  }
  visitDeferredTrigger(trigger) {
  }
  visitUnknownBlock(block) {
  }
  visitLetDeclaration(decl) {
  }
};
var TemplateBinder = class extends RecursiveAstVisitor {
  constructor(bindings, symbols, usedPipes, eagerPipes, deferBlocks, nestingLevel, scope, rootNode, level) {
    super();
    this.bindings = bindings;
    this.symbols = symbols;
    this.usedPipes = usedPipes;
    this.eagerPipes = eagerPipes;
    this.deferBlocks = deferBlocks;
    this.nestingLevel = nestingLevel;
    this.scope = scope;
    this.rootNode = rootNode;
    this.level = level;
    this.visitNode = (node) => node.visit(this);
  }
  visit(node, context) {
    if (node instanceof AST) {
      node.visit(this, context);
    } else {
      node.visit(this);
    }
  }
  static applyWithScope(nodes, scope) {
    const expressions = /* @__PURE__ */ new Map();
    const symbols = /* @__PURE__ */ new Map();
    const nestingLevel = /* @__PURE__ */ new Map();
    const usedPipes = /* @__PURE__ */ new Set();
    const eagerPipes = /* @__PURE__ */ new Set();
    const template2 = nodes instanceof Template ? nodes : null;
    const deferBlocks = [];
    const binder = new TemplateBinder(expressions, symbols, usedPipes, eagerPipes, deferBlocks, nestingLevel, scope, template2, 0);
    binder.ingest(nodes);
    return { expressions, symbols, nestingLevel, usedPipes, eagerPipes, deferBlocks };
  }
  ingest(nodeOrNodes) {
    if (nodeOrNodes instanceof Template) {
      nodeOrNodes.variables.forEach(this.visitNode);
      nodeOrNodes.children.forEach(this.visitNode);
      this.nestingLevel.set(nodeOrNodes, this.level);
    } else if (nodeOrNodes instanceof IfBlockBranch) {
      if (nodeOrNodes.expressionAlias !== null) {
        this.visitNode(nodeOrNodes.expressionAlias);
      }
      nodeOrNodes.children.forEach(this.visitNode);
      this.nestingLevel.set(nodeOrNodes, this.level);
    } else if (nodeOrNodes instanceof ForLoopBlock) {
      this.visitNode(nodeOrNodes.item);
      nodeOrNodes.contextVariables.forEach((v) => this.visitNode(v));
      nodeOrNodes.trackBy.visit(this);
      nodeOrNodes.children.forEach(this.visitNode);
      this.nestingLevel.set(nodeOrNodes, this.level);
    } else if (nodeOrNodes instanceof DeferredBlock) {
      if (this.scope.rootNode !== nodeOrNodes) {
        throw new Error(`Assertion error: resolved incorrect scope for deferred block ${nodeOrNodes}`);
      }
      this.deferBlocks.push([nodeOrNodes, this.scope]);
      nodeOrNodes.children.forEach((node) => node.visit(this));
      this.nestingLevel.set(nodeOrNodes, this.level);
    } else if (nodeOrNodes instanceof SwitchBlockCase || nodeOrNodes instanceof ForLoopBlockEmpty || nodeOrNodes instanceof DeferredBlockError || nodeOrNodes instanceof DeferredBlockPlaceholder || nodeOrNodes instanceof DeferredBlockLoading || nodeOrNodes instanceof Content) {
      nodeOrNodes.children.forEach((node) => node.visit(this));
      this.nestingLevel.set(nodeOrNodes, this.level);
    } else {
      nodeOrNodes.forEach(this.visitNode);
    }
  }
  visitElement(element2) {
    element2.inputs.forEach(this.visitNode);
    element2.outputs.forEach(this.visitNode);
    element2.children.forEach(this.visitNode);
    element2.references.forEach(this.visitNode);
  }
  visitTemplate(template2) {
    template2.inputs.forEach(this.visitNode);
    template2.outputs.forEach(this.visitNode);
    template2.templateAttrs.forEach(this.visitNode);
    template2.references.forEach(this.visitNode);
    this.ingestScopedNode(template2);
  }
  visitVariable(variable2) {
    if (this.rootNode !== null) {
      this.symbols.set(variable2, this.rootNode);
    }
  }
  visitReference(reference2) {
    if (this.rootNode !== null) {
      this.symbols.set(reference2, this.rootNode);
    }
  }
  visitText(text2) {
  }
  visitTextAttribute(attribute2) {
  }
  visitUnknownBlock(block) {
  }
  visitDeferredTrigger() {
  }
  visitIcu(icu) {
    Object.keys(icu.vars).forEach((key) => icu.vars[key].visit(this));
    Object.keys(icu.placeholders).forEach((key) => icu.placeholders[key].visit(this));
  }
  visitBoundAttribute(attribute2) {
    attribute2.value.visit(this);
  }
  visitBoundEvent(event) {
    event.handler.visit(this);
  }
  visitDeferredBlock(deferred) {
    var _a2, _b2;
    this.ingestScopedNode(deferred);
    (_a2 = deferred.triggers.when) == null ? void 0 : _a2.value.visit(this);
    (_b2 = deferred.prefetchTriggers.when) == null ? void 0 : _b2.value.visit(this);
    deferred.placeholder && this.visitNode(deferred.placeholder);
    deferred.loading && this.visitNode(deferred.loading);
    deferred.error && this.visitNode(deferred.error);
  }
  visitDeferredBlockPlaceholder(block) {
    this.ingestScopedNode(block);
  }
  visitDeferredBlockError(block) {
    this.ingestScopedNode(block);
  }
  visitDeferredBlockLoading(block) {
    this.ingestScopedNode(block);
  }
  visitSwitchBlock(block) {
    block.expression.visit(this);
    block.cases.forEach(this.visitNode);
  }
  visitSwitchBlockCase(block) {
    var _a2;
    (_a2 = block.expression) == null ? void 0 : _a2.visit(this);
    this.ingestScopedNode(block);
  }
  visitForLoopBlock(block) {
    var _a2;
    block.expression.visit(this);
    this.ingestScopedNode(block);
    (_a2 = block.empty) == null ? void 0 : _a2.visit(this);
  }
  visitForLoopBlockEmpty(block) {
    this.ingestScopedNode(block);
  }
  visitIfBlock(block) {
    block.branches.forEach((node) => node.visit(this));
  }
  visitIfBlockBranch(block) {
    var _a2;
    (_a2 = block.expression) == null ? void 0 : _a2.visit(this);
    this.ingestScopedNode(block);
  }
  visitContent(content) {
    this.ingestScopedNode(content);
  }
  visitBoundText(text2) {
    text2.value.visit(this);
  }
  visitLetDeclaration(decl) {
    decl.value.visit(this);
    if (this.rootNode !== null) {
      this.symbols.set(decl, this.rootNode);
    }
  }
  visitPipe(ast, context) {
    this.usedPipes.add(ast.name);
    if (!this.scope.isDeferred) {
      this.eagerPipes.add(ast.name);
    }
    return super.visitPipe(ast, context);
  }
  visitPropertyRead(ast, context) {
    this.maybeMap(ast, ast.name);
    return super.visitPropertyRead(ast, context);
  }
  visitSafePropertyRead(ast, context) {
    this.maybeMap(ast, ast.name);
    return super.visitSafePropertyRead(ast, context);
  }
  visitPropertyWrite(ast, context) {
    this.maybeMap(ast, ast.name);
    return super.visitPropertyWrite(ast, context);
  }
  ingestScopedNode(node) {
    const childScope = this.scope.getChildScope(node);
    const binder = new TemplateBinder(this.bindings, this.symbols, this.usedPipes, this.eagerPipes, this.deferBlocks, this.nestingLevel, childScope, node, this.level + 1);
    binder.ingest(node);
  }
  maybeMap(ast, name) {
    if (!(ast.receiver instanceof ImplicitReceiver)) {
      return;
    }
    const target = this.scope.lookup(name);
    if (target instanceof LetDeclaration && ast.receiver instanceof ThisReceiver) {
      return;
    }
    if (target !== null) {
      this.bindings.set(ast, target);
    }
  }
};
var R3BoundTarget = class {
  constructor(target, directives, eagerDirectives, bindings, references, exprTargets, symbols, nestingLevel, scopedNodeEntities, usedPipes, eagerPipes, rawDeferred) {
    this.target = target;
    this.directives = directives;
    this.eagerDirectives = eagerDirectives;
    this.bindings = bindings;
    this.references = references;
    this.exprTargets = exprTargets;
    this.symbols = symbols;
    this.nestingLevel = nestingLevel;
    this.scopedNodeEntities = scopedNodeEntities;
    this.usedPipes = usedPipes;
    this.eagerPipes = eagerPipes;
    this.deferredBlocks = rawDeferred.map((current) => current[0]);
    this.deferredScopes = new Map(rawDeferred);
  }
  getEntitiesInScope(node) {
    var _a2;
    return (_a2 = this.scopedNodeEntities.get(node)) != null ? _a2 : /* @__PURE__ */ new Set();
  }
  getDirectivesOfNode(node) {
    return this.directives.get(node) || null;
  }
  getReferenceTarget(ref) {
    return this.references.get(ref) || null;
  }
  getConsumerOfBinding(binding) {
    return this.bindings.get(binding) || null;
  }
  getExpressionTarget(expr) {
    return this.exprTargets.get(expr) || null;
  }
  getDefinitionNodeOfSymbol(symbol) {
    return this.symbols.get(symbol) || null;
  }
  getNestingLevel(node) {
    return this.nestingLevel.get(node) || 0;
  }
  getUsedDirectives() {
    const set = /* @__PURE__ */ new Set();
    this.directives.forEach((dirs) => dirs.forEach((dir) => set.add(dir)));
    return Array.from(set.values());
  }
  getEagerlyUsedDirectives() {
    const set = new Set(this.eagerDirectives);
    return Array.from(set.values());
  }
  getUsedPipes() {
    return Array.from(this.usedPipes);
  }
  getEagerlyUsedPipes() {
    return Array.from(this.eagerPipes);
  }
  getDeferBlocks() {
    return this.deferredBlocks;
  }
  getDeferredTriggerTarget(block, trigger) {
    if (!(trigger instanceof InteractionDeferredTrigger) && !(trigger instanceof ViewportDeferredTrigger) && !(trigger instanceof HoverDeferredTrigger)) {
      return null;
    }
    const name = trigger.reference;
    if (name === null) {
      let trigger2 = null;
      if (block.placeholder !== null) {
        for (const child of block.placeholder.children) {
          if (child instanceof Comment) {
            continue;
          }
          if (trigger2 !== null) {
            return null;
          }
          if (child instanceof Element) {
            trigger2 = child;
          }
        }
      }
      return trigger2;
    }
    const outsideRef = this.findEntityInScope(block, name);
    if (outsideRef instanceof Reference && this.getDefinitionNodeOfSymbol(outsideRef) !== block) {
      const target = this.getReferenceTarget(outsideRef);
      if (target !== null) {
        return this.referenceTargetToElement(target);
      }
    }
    if (block.placeholder !== null) {
      const refInPlaceholder = this.findEntityInScope(block.placeholder, name);
      const targetInPlaceholder = refInPlaceholder instanceof Reference ? this.getReferenceTarget(refInPlaceholder) : null;
      if (targetInPlaceholder !== null) {
        return this.referenceTargetToElement(targetInPlaceholder);
      }
    }
    return null;
  }
  isDeferred(element2) {
    for (const block of this.deferredBlocks) {
      if (!this.deferredScopes.has(block)) {
        continue;
      }
      const stack = [this.deferredScopes.get(block)];
      while (stack.length > 0) {
        const current = stack.pop();
        if (current.elementsInScope.has(element2)) {
          return true;
        }
        stack.push(...current.childScopes.values());
      }
    }
    return false;
  }
  findEntityInScope(rootNode, name) {
    const entities = this.getEntitiesInScope(rootNode);
    for (const entity of entities) {
      if (entity.name === name) {
        return entity;
      }
    }
    return null;
  }
  referenceTargetToElement(target) {
    if (target instanceof Element) {
      return target;
    }
    if (target instanceof Template) {
      return null;
    }
    return this.referenceTargetToElement(target.node);
  }
};
function extractScopedNodeEntities(rootScope) {
  const entityMap = /* @__PURE__ */ new Map();
  function extractScopeEntities(scope) {
    if (entityMap.has(scope.rootNode)) {
      return entityMap.get(scope.rootNode);
    }
    const currentEntities = scope.namedEntities;
    let entities;
    if (scope.parentScope !== null) {
      entities = new Map([...extractScopeEntities(scope.parentScope), ...currentEntities]);
    } else {
      entities = new Map(currentEntities);
    }
    entityMap.set(scope.rootNode, entities);
    return entities;
  }
  const scopesToProcess = [rootScope];
  while (scopesToProcess.length > 0) {
    const scope = scopesToProcess.pop();
    for (const childScope of scope.childScopes.values()) {
      scopesToProcess.push(childScope);
    }
    extractScopeEntities(scope);
  }
  const templateEntities = /* @__PURE__ */ new Map();
  for (const [template2, entities] of entityMap) {
    templateEntities.set(template2, new Set(entities.values()));
  }
  return templateEntities;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/resource_loader.mjs
var ResourceLoader = class {
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/jit_compiler_facade.mjs
var CompilerFacadeImpl = class {
  constructor(jitEvaluator = new JitEvaluator()) {
    this.jitEvaluator = jitEvaluator;
    this.FactoryTarget = FactoryTarget;
    this.ResourceLoader = ResourceLoader;
    this.elementSchemaRegistry = new DomElementSchemaRegistry();
  }
  compilePipe(angularCoreEnv, sourceMapUrl, facade) {
    const metadata = {
      name: facade.name,
      type: wrapReference(facade.type),
      typeArgumentCount: 0,
      deps: null,
      pipeName: facade.pipeName,
      pure: facade.pure,
      isStandalone: facade.isStandalone
    };
    const res = compilePipeFromMetadata(metadata);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, []);
  }
  compilePipeDeclaration(angularCoreEnv, sourceMapUrl, declaration) {
    const meta = convertDeclarePipeFacadeToMetadata(declaration);
    const res = compilePipeFromMetadata(meta);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, []);
  }
  compileInjectable(angularCoreEnv, sourceMapUrl, facade) {
    var _a2;
    const { expression, statements } = compileInjectable(
      {
        name: facade.name,
        type: wrapReference(facade.type),
        typeArgumentCount: facade.typeArgumentCount,
        providedIn: computeProvidedIn(facade.providedIn),
        useClass: convertToProviderExpression(facade, "useClass"),
        useFactory: wrapExpression(facade, "useFactory"),
        useValue: convertToProviderExpression(facade, "useValue"),
        useExisting: convertToProviderExpression(facade, "useExisting"),
        deps: (_a2 = facade.deps) == null ? void 0 : _a2.map(convertR3DependencyMetadata)
      },
      true
    );
    return this.jitExpression(expression, angularCoreEnv, sourceMapUrl, statements);
  }
  compileInjectableDeclaration(angularCoreEnv, sourceMapUrl, facade) {
    var _a2;
    const { expression, statements } = compileInjectable(
      {
        name: facade.type.name,
        type: wrapReference(facade.type),
        typeArgumentCount: 0,
        providedIn: computeProvidedIn(facade.providedIn),
        useClass: convertToProviderExpression(facade, "useClass"),
        useFactory: wrapExpression(facade, "useFactory"),
        useValue: convertToProviderExpression(facade, "useValue"),
        useExisting: convertToProviderExpression(facade, "useExisting"),
        deps: (_a2 = facade.deps) == null ? void 0 : _a2.map(convertR3DeclareDependencyMetadata)
      },
      true
    );
    return this.jitExpression(expression, angularCoreEnv, sourceMapUrl, statements);
  }
  compileInjector(angularCoreEnv, sourceMapUrl, facade) {
    const meta = {
      name: facade.name,
      type: wrapReference(facade.type),
      providers: facade.providers && facade.providers.length > 0 ? new WrappedNodeExpr(facade.providers) : null,
      imports: facade.imports.map((i) => new WrappedNodeExpr(i))
    };
    const res = compileInjector(meta);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, []);
  }
  compileInjectorDeclaration(angularCoreEnv, sourceMapUrl, declaration) {
    const meta = convertDeclareInjectorFacadeToMetadata(declaration);
    const res = compileInjector(meta);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, []);
  }
  compileNgModule(angularCoreEnv, sourceMapUrl, facade) {
    const meta = {
      kind: R3NgModuleMetadataKind.Global,
      type: wrapReference(facade.type),
      bootstrap: facade.bootstrap.map(wrapReference),
      declarations: facade.declarations.map(wrapReference),
      publicDeclarationTypes: null,
      imports: facade.imports.map(wrapReference),
      includeImportTypes: true,
      exports: facade.exports.map(wrapReference),
      selectorScopeMode: R3SelectorScopeMode.Inline,
      containsForwardDecls: false,
      schemas: facade.schemas ? facade.schemas.map(wrapReference) : null,
      id: facade.id ? new WrappedNodeExpr(facade.id) : null
    };
    const res = compileNgModule(meta);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, []);
  }
  compileNgModuleDeclaration(angularCoreEnv, sourceMapUrl, declaration) {
    const expression = compileNgModuleDeclarationExpression(declaration);
    return this.jitExpression(expression, angularCoreEnv, sourceMapUrl, []);
  }
  compileDirective(angularCoreEnv, sourceMapUrl, facade) {
    const meta = convertDirectiveFacadeToMetadata(facade);
    return this.compileDirectiveFromMeta(angularCoreEnv, sourceMapUrl, meta);
  }
  compileDirectiveDeclaration(angularCoreEnv, sourceMapUrl, declaration) {
    const typeSourceSpan = this.createParseSourceSpan("Directive", declaration.type.name, sourceMapUrl);
    const meta = convertDeclareDirectiveFacadeToMetadata(declaration, typeSourceSpan);
    return this.compileDirectiveFromMeta(angularCoreEnv, sourceMapUrl, meta);
  }
  compileDirectiveFromMeta(angularCoreEnv, sourceMapUrl, meta) {
    const constantPool = new ConstantPool();
    const bindingParser = makeBindingParser();
    const res = compileDirectiveFromMetadata(meta, constantPool, bindingParser);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, constantPool.statements);
  }
  compileComponent(angularCoreEnv, sourceMapUrl, facade) {
    var _a2;
    const { template: template2, interpolation, defer: defer2 } = parseJitTemplate(facade.template, facade.name, sourceMapUrl, facade.preserveWhitespaces, facade.interpolation, void 0);
    const meta = __spreadProps(__spreadValues(__spreadValues({}, facade), convertDirectiveFacadeToMetadata(facade)), {
      selector: facade.selector || this.elementSchemaRegistry.getDefaultComponentElementName(),
      template: template2,
      declarations: facade.declarations.map(convertDeclarationFacadeToMetadata),
      declarationListEmitMode: 0,
      defer: defer2,
      styles: [...facade.styles, ...template2.styles],
      encapsulation: facade.encapsulation,
      interpolation,
      changeDetection: (_a2 = facade.changeDetection) != null ? _a2 : null,
      animations: facade.animations != null ? new WrappedNodeExpr(facade.animations) : null,
      viewProviders: facade.viewProviders != null ? new WrappedNodeExpr(facade.viewProviders) : null,
      relativeContextFilePath: "",
      i18nUseExternalIds: true
    });
    const jitExpressionSourceMap = `ng:///${facade.name}.js`;
    return this.compileComponentFromMeta(angularCoreEnv, jitExpressionSourceMap, meta);
  }
  compileComponentDeclaration(angularCoreEnv, sourceMapUrl, declaration) {
    const typeSourceSpan = this.createParseSourceSpan("Component", declaration.type.name, sourceMapUrl);
    const meta = convertDeclareComponentFacadeToMetadata(declaration, typeSourceSpan, sourceMapUrl);
    return this.compileComponentFromMeta(angularCoreEnv, sourceMapUrl, meta);
  }
  compileComponentFromMeta(angularCoreEnv, sourceMapUrl, meta) {
    const constantPool = new ConstantPool();
    const bindingParser = makeBindingParser(meta.interpolation);
    const res = compileComponentFromMetadata(meta, constantPool, bindingParser);
    return this.jitExpression(res.expression, angularCoreEnv, sourceMapUrl, constantPool.statements);
  }
  compileFactory(angularCoreEnv, sourceMapUrl, meta) {
    const factoryRes = compileFactoryFunction({
      name: meta.name,
      type: wrapReference(meta.type),
      typeArgumentCount: meta.typeArgumentCount,
      deps: convertR3DependencyMetadataArray(meta.deps),
      target: meta.target
    });
    return this.jitExpression(factoryRes.expression, angularCoreEnv, sourceMapUrl, factoryRes.statements);
  }
  compileFactoryDeclaration(angularCoreEnv, sourceMapUrl, meta) {
    const factoryRes = compileFactoryFunction({
      name: meta.type.name,
      type: wrapReference(meta.type),
      typeArgumentCount: 0,
      deps: Array.isArray(meta.deps) ? meta.deps.map(convertR3DeclareDependencyMetadata) : meta.deps,
      target: meta.target
    });
    return this.jitExpression(factoryRes.expression, angularCoreEnv, sourceMapUrl, factoryRes.statements);
  }
  createParseSourceSpan(kind, typeName, sourceUrl) {
    return r3JitTypeSourceSpan(kind, typeName, sourceUrl);
  }
  jitExpression(def, context, sourceUrl, preStatements) {
    const statements = [
      ...preStatements,
      new DeclareVarStmt("$def", def, void 0, StmtModifier.Exported)
    ];
    const res = this.jitEvaluator.evaluateStatements(
      sourceUrl,
      statements,
      new R3JitReflector(context),
      true
    );
    return res["$def"];
  }
};
function convertToR3QueryMetadata(facade) {
  return __spreadProps(__spreadValues({}, facade), {
    isSignal: facade.isSignal,
    predicate: convertQueryPredicate(facade.predicate),
    read: facade.read ? new WrappedNodeExpr(facade.read) : null,
    static: facade.static,
    emitDistinctChangesOnly: facade.emitDistinctChangesOnly
  });
}
function convertQueryDeclarationToMetadata(declaration) {
  var _a2, _b2, _c2, _d2;
  return {
    propertyName: declaration.propertyName,
    first: (_a2 = declaration.first) != null ? _a2 : false,
    predicate: convertQueryPredicate(declaration.predicate),
    descendants: (_b2 = declaration.descendants) != null ? _b2 : false,
    read: declaration.read ? new WrappedNodeExpr(declaration.read) : null,
    static: (_c2 = declaration.static) != null ? _c2 : false,
    emitDistinctChangesOnly: (_d2 = declaration.emitDistinctChangesOnly) != null ? _d2 : true,
    isSignal: !!declaration.isSignal
  };
}
function convertQueryPredicate(predicate) {
  return Array.isArray(predicate) ? predicate : createMayBeForwardRefExpression(new WrappedNodeExpr(predicate), 1);
}
function convertDirectiveFacadeToMetadata(facade) {
  var _a2;
  const inputsFromMetadata = parseInputsArray(facade.inputs || []);
  const outputsFromMetadata = parseMappingStringArray(facade.outputs || []);
  const propMetadata = facade.propMetadata;
  const inputsFromType = {};
  const outputsFromType = {};
  for (const field in propMetadata) {
    if (propMetadata.hasOwnProperty(field)) {
      propMetadata[field].forEach((ann) => {
        if (isInput(ann)) {
          inputsFromType[field] = {
            bindingPropertyName: ann.alias || field,
            classPropertyName: field,
            required: ann.required || false,
            isSignal: !!ann.isSignal,
            transformFunction: ann.transform != null ? new WrappedNodeExpr(ann.transform) : null
          };
        } else if (isOutput(ann)) {
          outputsFromType[field] = ann.alias || field;
        }
      });
    }
  }
  const hostDirectives = ((_a2 = facade.hostDirectives) == null ? void 0 : _a2.length) ? facade.hostDirectives.map((hostDirective) => {
    return typeof hostDirective === "function" ? {
      directive: wrapReference(hostDirective),
      inputs: null,
      outputs: null,
      isForwardReference: false
    } : {
      directive: wrapReference(hostDirective.directive),
      isForwardReference: false,
      inputs: hostDirective.inputs ? parseMappingStringArray(hostDirective.inputs) : null,
      outputs: hostDirective.outputs ? parseMappingStringArray(hostDirective.outputs) : null
    };
  }) : null;
  return __spreadProps(__spreadValues({}, facade), {
    typeArgumentCount: 0,
    typeSourceSpan: facade.typeSourceSpan,
    type: wrapReference(facade.type),
    deps: null,
    host: __spreadValues({}, extractHostBindings(facade.propMetadata, facade.typeSourceSpan, facade.host)),
    inputs: __spreadValues(__spreadValues({}, inputsFromMetadata), inputsFromType),
    outputs: __spreadValues(__spreadValues({}, outputsFromMetadata), outputsFromType),
    queries: facade.queries.map(convertToR3QueryMetadata),
    providers: facade.providers != null ? new WrappedNodeExpr(facade.providers) : null,
    viewQueries: facade.viewQueries.map(convertToR3QueryMetadata),
    fullInheritance: false,
    hostDirectives
  });
}
function convertDeclareDirectiveFacadeToMetadata(declaration, typeSourceSpan) {
  var _a2, _b2, _c2, _d2, _e2, _f2, _g2, _h2, _i, _j;
  const hostDirectives = ((_a2 = declaration.hostDirectives) == null ? void 0 : _a2.length) ? declaration.hostDirectives.map((dir) => ({
    directive: wrapReference(dir.directive),
    isForwardReference: false,
    inputs: dir.inputs ? getHostDirectiveBindingMapping(dir.inputs) : null,
    outputs: dir.outputs ? getHostDirectiveBindingMapping(dir.outputs) : null
  })) : null;
  return {
    name: declaration.type.name,
    type: wrapReference(declaration.type),
    typeSourceSpan,
    selector: (_b2 = declaration.selector) != null ? _b2 : null,
    inputs: declaration.inputs ? inputsPartialMetadataToInputMetadata(declaration.inputs) : {},
    outputs: (_c2 = declaration.outputs) != null ? _c2 : {},
    host: convertHostDeclarationToMetadata(declaration.host),
    queries: ((_d2 = declaration.queries) != null ? _d2 : []).map(convertQueryDeclarationToMetadata),
    viewQueries: ((_e2 = declaration.viewQueries) != null ? _e2 : []).map(convertQueryDeclarationToMetadata),
    providers: declaration.providers !== void 0 ? new WrappedNodeExpr(declaration.providers) : null,
    exportAs: (_f2 = declaration.exportAs) != null ? _f2 : null,
    usesInheritance: (_g2 = declaration.usesInheritance) != null ? _g2 : false,
    lifecycle: { usesOnChanges: (_h2 = declaration.usesOnChanges) != null ? _h2 : false },
    deps: null,
    typeArgumentCount: 0,
    fullInheritance: false,
    isStandalone: (_i = declaration.isStandalone) != null ? _i : false,
    isSignal: (_j = declaration.isSignal) != null ? _j : false,
    hostDirectives
  };
}
function convertHostDeclarationToMetadata(host = {}) {
  var _a2, _b2, _c2;
  return {
    attributes: convertOpaqueValuesToExpressions((_a2 = host.attributes) != null ? _a2 : {}),
    listeners: (_b2 = host.listeners) != null ? _b2 : {},
    properties: (_c2 = host.properties) != null ? _c2 : {},
    specialAttributes: {
      classAttr: host.classAttribute,
      styleAttr: host.styleAttribute
    }
  };
}
function getHostDirectiveBindingMapping(array) {
  let result = null;
  for (let i = 1; i < array.length; i += 2) {
    result = result || {};
    result[array[i - 1]] = array[i];
  }
  return result;
}
function convertOpaqueValuesToExpressions(obj) {
  const result = {};
  for (const key of Object.keys(obj)) {
    result[key] = new WrappedNodeExpr(obj[key]);
  }
  return result;
}
function convertDeclareComponentFacadeToMetadata(decl, typeSourceSpan, sourceMapUrl) {
  var _a2, _b2, _c2, _d2;
  const { template: template2, interpolation, defer: defer2 } = parseJitTemplate(decl.template, decl.type.name, sourceMapUrl, (_a2 = decl.preserveWhitespaces) != null ? _a2 : false, decl.interpolation, decl.deferBlockDependencies);
  const declarations = [];
  if (decl.dependencies) {
    for (const innerDep of decl.dependencies) {
      switch (innerDep.kind) {
        case "directive":
        case "component":
          declarations.push(convertDirectiveDeclarationToMetadata(innerDep));
          break;
        case "pipe":
          declarations.push(convertPipeDeclarationToMetadata(innerDep));
          break;
      }
    }
  } else if (decl.components || decl.directives || decl.pipes) {
    decl.components && declarations.push(...decl.components.map((dir) => convertDirectiveDeclarationToMetadata(dir, true)));
    decl.directives && declarations.push(...decl.directives.map((dir) => convertDirectiveDeclarationToMetadata(dir)));
    decl.pipes && declarations.push(...convertPipeMapToMetadata(decl.pipes));
  }
  return __spreadProps(__spreadValues({}, convertDeclareDirectiveFacadeToMetadata(decl, typeSourceSpan)), {
    template: template2,
    styles: (_b2 = decl.styles) != null ? _b2 : [],
    declarations,
    viewProviders: decl.viewProviders !== void 0 ? new WrappedNodeExpr(decl.viewProviders) : null,
    animations: decl.animations !== void 0 ? new WrappedNodeExpr(decl.animations) : null,
    defer: defer2,
    changeDetection: (_c2 = decl.changeDetection) != null ? _c2 : ChangeDetectionStrategy.Default,
    encapsulation: (_d2 = decl.encapsulation) != null ? _d2 : ViewEncapsulation.Emulated,
    interpolation,
    declarationListEmitMode: 2,
    relativeContextFilePath: "",
    i18nUseExternalIds: true
  });
}
function convertDeclarationFacadeToMetadata(declaration) {
  return __spreadProps(__spreadValues({}, declaration), {
    type: new WrappedNodeExpr(declaration.type)
  });
}
function convertDirectiveDeclarationToMetadata(declaration, isComponent = null) {
  var _a2, _b2, _c2;
  return {
    kind: R3TemplateDependencyKind.Directive,
    isComponent: isComponent || declaration.kind === "component",
    selector: declaration.selector,
    type: new WrappedNodeExpr(declaration.type),
    inputs: (_a2 = declaration.inputs) != null ? _a2 : [],
    outputs: (_b2 = declaration.outputs) != null ? _b2 : [],
    exportAs: (_c2 = declaration.exportAs) != null ? _c2 : null
  };
}
function convertPipeMapToMetadata(pipes) {
  if (!pipes) {
    return [];
  }
  return Object.keys(pipes).map((name) => {
    return {
      kind: R3TemplateDependencyKind.Pipe,
      name,
      type: new WrappedNodeExpr(pipes[name])
    };
  });
}
function convertPipeDeclarationToMetadata(pipe2) {
  return {
    kind: R3TemplateDependencyKind.Pipe,
    name: pipe2.name,
    type: new WrappedNodeExpr(pipe2.type)
  };
}
function parseJitTemplate(template2, typeName, sourceMapUrl, preserveWhitespaces, interpolation, deferBlockDependencies) {
  const interpolationConfig = interpolation ? InterpolationConfig.fromArray(interpolation) : DEFAULT_INTERPOLATION_CONFIG;
  const parsed = parseTemplate(template2, sourceMapUrl, {
    preserveWhitespaces,
    interpolationConfig
  });
  if (parsed.errors !== null) {
    const errors = parsed.errors.map((err) => err.toString()).join(", ");
    throw new Error(`Errors during JIT compilation of template for ${typeName}: ${errors}`);
  }
  const binder = new R3TargetBinder(new SelectorMatcher());
  const boundTarget = binder.bind({ template: parsed.nodes });
  return {
    template: parsed,
    interpolation: interpolationConfig,
    defer: createR3ComponentDeferMetadata(boundTarget, deferBlockDependencies)
  };
}
function convertToProviderExpression(obj, property2) {
  if (obj.hasOwnProperty(property2)) {
    return createMayBeForwardRefExpression(new WrappedNodeExpr(obj[property2]), 0);
  } else {
    return void 0;
  }
}
function wrapExpression(obj, property2) {
  if (obj.hasOwnProperty(property2)) {
    return new WrappedNodeExpr(obj[property2]);
  } else {
    return void 0;
  }
}
function computeProvidedIn(providedIn) {
  const expression = typeof providedIn === "function" ? new WrappedNodeExpr(providedIn) : new LiteralExpr(providedIn != null ? providedIn : null);
  return createMayBeForwardRefExpression(expression, 0);
}
function convertR3DependencyMetadataArray(facades) {
  return facades == null ? null : facades.map(convertR3DependencyMetadata);
}
function convertR3DependencyMetadata(facade) {
  const isAttributeDep = facade.attribute != null;
  const rawToken = facade.token === null ? null : new WrappedNodeExpr(facade.token);
  const token = isAttributeDep ? new WrappedNodeExpr(facade.attribute) : rawToken;
  return createR3DependencyMetadata(token, isAttributeDep, facade.host, facade.optional, facade.self, facade.skipSelf);
}
function convertR3DeclareDependencyMetadata(facade) {
  var _a2, _b2, _c2, _d2, _e2;
  const isAttributeDep = (_a2 = facade.attribute) != null ? _a2 : false;
  const token = facade.token === null ? null : new WrappedNodeExpr(facade.token);
  return createR3DependencyMetadata(token, isAttributeDep, (_b2 = facade.host) != null ? _b2 : false, (_c2 = facade.optional) != null ? _c2 : false, (_d2 = facade.self) != null ? _d2 : false, (_e2 = facade.skipSelf) != null ? _e2 : false);
}
function createR3DependencyMetadata(token, isAttributeDep, host, optional, self, skipSelf) {
  const attributeNameType = isAttributeDep ? literal("unknown") : null;
  return { token, attributeNameType, host, optional, self, skipSelf };
}
function createR3ComponentDeferMetadata(boundTarget, deferBlockDependencies) {
  const deferredBlocks = boundTarget.getDeferBlocks();
  const blocks = /* @__PURE__ */ new Map();
  for (let i = 0; i < deferredBlocks.length; i++) {
    const dependencyFn = deferBlockDependencies == null ? void 0 : deferBlockDependencies[i];
    blocks.set(deferredBlocks[i], dependencyFn ? new WrappedNodeExpr(dependencyFn) : null);
  }
  return { mode: 0, blocks };
}
function extractHostBindings(propMetadata, sourceSpan, host) {
  const bindings = parseHostBindings(host || {});
  const errors = verifyHostBindings(bindings, sourceSpan);
  if (errors.length) {
    throw new Error(errors.map((error) => error.msg).join("\n"));
  }
  for (const field in propMetadata) {
    if (propMetadata.hasOwnProperty(field)) {
      propMetadata[field].forEach((ann) => {
        if (isHostBinding(ann)) {
          bindings.properties[ann.hostPropertyName || field] = getSafePropertyAccessString("this", field);
        } else if (isHostListener(ann)) {
          bindings.listeners[ann.eventName || field] = `${field}(${(ann.args || []).join(",")})`;
        }
      });
    }
  }
  return bindings;
}
function isHostBinding(value) {
  return value.ngMetadataName === "HostBinding";
}
function isHostListener(value) {
  return value.ngMetadataName === "HostListener";
}
function isInput(value) {
  return value.ngMetadataName === "Input";
}
function isOutput(value) {
  return value.ngMetadataName === "Output";
}
function inputsPartialMetadataToInputMetadata(inputs) {
  return Object.keys(inputs).reduce((result, minifiedClassName) => {
    const value = inputs[minifiedClassName];
    if (typeof value === "string" || Array.isArray(value)) {
      result[minifiedClassName] = parseLegacyInputPartialOutput(value);
    } else {
      result[minifiedClassName] = {
        bindingPropertyName: value.publicName,
        classPropertyName: minifiedClassName,
        transformFunction: value.transformFunction !== null ? new WrappedNodeExpr(value.transformFunction) : null,
        required: value.isRequired,
        isSignal: value.isSignal
      };
    }
    return result;
  }, {});
}
function parseLegacyInputPartialOutput(value) {
  if (typeof value === "string") {
    return {
      bindingPropertyName: value,
      classPropertyName: value,
      transformFunction: null,
      required: false,
      isSignal: false
    };
  }
  return {
    bindingPropertyName: value[0],
    classPropertyName: value[1],
    transformFunction: value[2] ? new WrappedNodeExpr(value[2]) : null,
    required: false,
    isSignal: false
  };
}
function parseInputsArray(values) {
  return values.reduce((results, value) => {
    if (typeof value === "string") {
      const [bindingPropertyName, classPropertyName] = parseMappingString(value);
      results[classPropertyName] = {
        bindingPropertyName,
        classPropertyName,
        required: false,
        isSignal: false,
        transformFunction: null
      };
    } else {
      results[value.name] = {
        bindingPropertyName: value.alias || value.name,
        classPropertyName: value.name,
        required: value.required || false,
        isSignal: false,
        transformFunction: value.transform != null ? new WrappedNodeExpr(value.transform) : null
      };
    }
    return results;
  }, {});
}
function parseMappingStringArray(values) {
  return values.reduce((results, value) => {
    const [alias, fieldName] = parseMappingString(value);
    results[fieldName] = alias;
    return results;
  }, {});
}
function parseMappingString(value) {
  const [fieldName, bindingPropertyName] = value.split(":", 2).map((str) => str.trim());
  return [bindingPropertyName != null ? bindingPropertyName : fieldName, fieldName];
}
function convertDeclarePipeFacadeToMetadata(declaration) {
  var _a2, _b2;
  return {
    name: declaration.type.name,
    type: wrapReference(declaration.type),
    typeArgumentCount: 0,
    pipeName: declaration.name,
    deps: null,
    pure: (_a2 = declaration.pure) != null ? _a2 : true,
    isStandalone: (_b2 = declaration.isStandalone) != null ? _b2 : false
  };
}
function convertDeclareInjectorFacadeToMetadata(declaration) {
  return {
    name: declaration.type.name,
    type: wrapReference(declaration.type),
    providers: declaration.providers !== void 0 && declaration.providers.length > 0 ? new WrappedNodeExpr(declaration.providers) : null,
    imports: declaration.imports !== void 0 ? declaration.imports.map((i) => new WrappedNodeExpr(i)) : []
  };
}
function publishFacade(global) {
  const ng = global.ng || (global.ng = {});
  ng.\u0275compilerFacade = new CompilerFacadeImpl();
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/version.mjs
var VERSION2 = new Version("18.2.6");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/i18n/extractor_merger.mjs
var _VisitorMode;
(function(_VisitorMode2) {
  _VisitorMode2[_VisitorMode2["Extract"] = 0] = "Extract";
  _VisitorMode2[_VisitorMode2["Merge"] = 1] = "Merge";
})(_VisitorMode || (_VisitorMode = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/ml_parser/xml_tags.mjs
var XmlTagDefinition = class {
  constructor() {
    this.closedByParent = false;
    this.implicitNamespacePrefix = null;
    this.isVoid = false;
    this.ignoreFirstLf = false;
    this.canSelfClose = true;
    this.preventNamespaceInheritance = false;
  }
  requireExtraParent(currentParent) {
    return false;
  }
  isClosedByChild(name) {
    return false;
  }
  getContentType() {
    return TagContentType.PARSABLE_DATA;
  }
};
var _TAG_DEFINITION = new XmlTagDefinition();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/render3/partial/api.mjs
var FactoryTarget2;
(function(FactoryTarget3) {
  FactoryTarget3[FactoryTarget3["Directive"] = 0] = "Directive";
  FactoryTarget3[FactoryTarget3["Component"] = 1] = "Component";
  FactoryTarget3[FactoryTarget3["Injectable"] = 2] = "Injectable";
  FactoryTarget3[FactoryTarget3["Pipe"] = 3] = "Pipe";
  FactoryTarget3[FactoryTarget3["NgModule"] = 4] = "NgModule";
})(FactoryTarget2 || (FactoryTarget2 = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler/src/compiler.mjs
publishFacade(_global);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/common/src/di.mjs
var import_typescript24 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/diagnostics/src/error_code.mjs
var ErrorCode;
(function(ErrorCode2) {
  ErrorCode2[ErrorCode2["DECORATOR_ARG_NOT_LITERAL"] = 1001] = "DECORATOR_ARG_NOT_LITERAL";
  ErrorCode2[ErrorCode2["DECORATOR_ARITY_WRONG"] = 1002] = "DECORATOR_ARITY_WRONG";
  ErrorCode2[ErrorCode2["DECORATOR_NOT_CALLED"] = 1003] = "DECORATOR_NOT_CALLED";
  ErrorCode2[ErrorCode2["DECORATOR_UNEXPECTED"] = 1005] = "DECORATOR_UNEXPECTED";
  ErrorCode2[ErrorCode2["DECORATOR_COLLISION"] = 1006] = "DECORATOR_COLLISION";
  ErrorCode2[ErrorCode2["VALUE_HAS_WRONG_TYPE"] = 1010] = "VALUE_HAS_WRONG_TYPE";
  ErrorCode2[ErrorCode2["VALUE_NOT_LITERAL"] = 1011] = "VALUE_NOT_LITERAL";
  ErrorCode2[ErrorCode2["INITIALIZER_API_WITH_DISALLOWED_DECORATOR"] = 1050] = "INITIALIZER_API_WITH_DISALLOWED_DECORATOR";
  ErrorCode2[ErrorCode2["INITIALIZER_API_DECORATOR_METADATA_COLLISION"] = 1051] = "INITIALIZER_API_DECORATOR_METADATA_COLLISION";
  ErrorCode2[ErrorCode2["INITIALIZER_API_NO_REQUIRED_FUNCTION"] = 1052] = "INITIALIZER_API_NO_REQUIRED_FUNCTION";
  ErrorCode2[ErrorCode2["INITIALIZER_API_DISALLOWED_MEMBER_VISIBILITY"] = 1053] = "INITIALIZER_API_DISALLOWED_MEMBER_VISIBILITY";
  ErrorCode2[ErrorCode2["INCORRECTLY_DECLARED_ON_STATIC_MEMBER"] = 1100] = "INCORRECTLY_DECLARED_ON_STATIC_MEMBER";
  ErrorCode2[ErrorCode2["COMPONENT_MISSING_TEMPLATE"] = 2001] = "COMPONENT_MISSING_TEMPLATE";
  ErrorCode2[ErrorCode2["PIPE_MISSING_NAME"] = 2002] = "PIPE_MISSING_NAME";
  ErrorCode2[ErrorCode2["PARAM_MISSING_TOKEN"] = 2003] = "PARAM_MISSING_TOKEN";
  ErrorCode2[ErrorCode2["DIRECTIVE_MISSING_SELECTOR"] = 2004] = "DIRECTIVE_MISSING_SELECTOR";
  ErrorCode2[ErrorCode2["UNDECORATED_PROVIDER"] = 2005] = "UNDECORATED_PROVIDER";
  ErrorCode2[ErrorCode2["DIRECTIVE_INHERITS_UNDECORATED_CTOR"] = 2006] = "DIRECTIVE_INHERITS_UNDECORATED_CTOR";
  ErrorCode2[ErrorCode2["UNDECORATED_CLASS_USING_ANGULAR_FEATURES"] = 2007] = "UNDECORATED_CLASS_USING_ANGULAR_FEATURES";
  ErrorCode2[ErrorCode2["COMPONENT_RESOURCE_NOT_FOUND"] = 2008] = "COMPONENT_RESOURCE_NOT_FOUND";
  ErrorCode2[ErrorCode2["COMPONENT_INVALID_SHADOW_DOM_SELECTOR"] = 2009] = "COMPONENT_INVALID_SHADOW_DOM_SELECTOR";
  ErrorCode2[ErrorCode2["COMPONENT_NOT_STANDALONE"] = 2010] = "COMPONENT_NOT_STANDALONE";
  ErrorCode2[ErrorCode2["COMPONENT_IMPORT_NOT_STANDALONE"] = 2011] = "COMPONENT_IMPORT_NOT_STANDALONE";
  ErrorCode2[ErrorCode2["COMPONENT_UNKNOWN_IMPORT"] = 2012] = "COMPONENT_UNKNOWN_IMPORT";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_INVALID"] = 2013] = "HOST_DIRECTIVE_INVALID";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_NOT_STANDALONE"] = 2014] = "HOST_DIRECTIVE_NOT_STANDALONE";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_COMPONENT"] = 2015] = "HOST_DIRECTIVE_COMPONENT";
  ErrorCode2[ErrorCode2["INJECTABLE_INHERITS_INVALID_CONSTRUCTOR"] = 2016] = "INJECTABLE_INHERITS_INVALID_CONSTRUCTOR";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_UNDEFINED_BINDING"] = 2017] = "HOST_DIRECTIVE_UNDEFINED_BINDING";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_CONFLICTING_ALIAS"] = 2018] = "HOST_DIRECTIVE_CONFLICTING_ALIAS";
  ErrorCode2[ErrorCode2["HOST_DIRECTIVE_MISSING_REQUIRED_BINDING"] = 2019] = "HOST_DIRECTIVE_MISSING_REQUIRED_BINDING";
  ErrorCode2[ErrorCode2["CONFLICTING_INPUT_TRANSFORM"] = 2020] = "CONFLICTING_INPUT_TRANSFORM";
  ErrorCode2[ErrorCode2["COMPONENT_INVALID_STYLE_URLS"] = 2021] = "COMPONENT_INVALID_STYLE_URLS";
  ErrorCode2[ErrorCode2["COMPONENT_UNKNOWN_DEFERRED_IMPORT"] = 2022] = "COMPONENT_UNKNOWN_DEFERRED_IMPORT";
  ErrorCode2[ErrorCode2["SYMBOL_NOT_EXPORTED"] = 3001] = "SYMBOL_NOT_EXPORTED";
  ErrorCode2[ErrorCode2["IMPORT_CYCLE_DETECTED"] = 3003] = "IMPORT_CYCLE_DETECTED";
  ErrorCode2[ErrorCode2["IMPORT_GENERATION_FAILURE"] = 3004] = "IMPORT_GENERATION_FAILURE";
  ErrorCode2[ErrorCode2["CONFIG_FLAT_MODULE_NO_INDEX"] = 4001] = "CONFIG_FLAT_MODULE_NO_INDEX";
  ErrorCode2[ErrorCode2["CONFIG_STRICT_TEMPLATES_IMPLIES_FULL_TEMPLATE_TYPECHECK"] = 4002] = "CONFIG_STRICT_TEMPLATES_IMPLIES_FULL_TEMPLATE_TYPECHECK";
  ErrorCode2[ErrorCode2["CONFIG_EXTENDED_DIAGNOSTICS_IMPLIES_STRICT_TEMPLATES"] = 4003] = "CONFIG_EXTENDED_DIAGNOSTICS_IMPLIES_STRICT_TEMPLATES";
  ErrorCode2[ErrorCode2["CONFIG_EXTENDED_DIAGNOSTICS_UNKNOWN_CATEGORY_LABEL"] = 4004] = "CONFIG_EXTENDED_DIAGNOSTICS_UNKNOWN_CATEGORY_LABEL";
  ErrorCode2[ErrorCode2["CONFIG_EXTENDED_DIAGNOSTICS_UNKNOWN_CHECK"] = 4005] = "CONFIG_EXTENDED_DIAGNOSTICS_UNKNOWN_CHECK";
  ErrorCode2[ErrorCode2["HOST_BINDING_PARSE_ERROR"] = 5001] = "HOST_BINDING_PARSE_ERROR";
  ErrorCode2[ErrorCode2["TEMPLATE_PARSE_ERROR"] = 5002] = "TEMPLATE_PARSE_ERROR";
  ErrorCode2[ErrorCode2["NGMODULE_INVALID_DECLARATION"] = 6001] = "NGMODULE_INVALID_DECLARATION";
  ErrorCode2[ErrorCode2["NGMODULE_INVALID_IMPORT"] = 6002] = "NGMODULE_INVALID_IMPORT";
  ErrorCode2[ErrorCode2["NGMODULE_INVALID_EXPORT"] = 6003] = "NGMODULE_INVALID_EXPORT";
  ErrorCode2[ErrorCode2["NGMODULE_INVALID_REEXPORT"] = 6004] = "NGMODULE_INVALID_REEXPORT";
  ErrorCode2[ErrorCode2["NGMODULE_MODULE_WITH_PROVIDERS_MISSING_GENERIC"] = 6005] = "NGMODULE_MODULE_WITH_PROVIDERS_MISSING_GENERIC";
  ErrorCode2[ErrorCode2["NGMODULE_REEXPORT_NAME_COLLISION"] = 6006] = "NGMODULE_REEXPORT_NAME_COLLISION";
  ErrorCode2[ErrorCode2["NGMODULE_DECLARATION_NOT_UNIQUE"] = 6007] = "NGMODULE_DECLARATION_NOT_UNIQUE";
  ErrorCode2[ErrorCode2["NGMODULE_DECLARATION_IS_STANDALONE"] = 6008] = "NGMODULE_DECLARATION_IS_STANDALONE";
  ErrorCode2[ErrorCode2["NGMODULE_BOOTSTRAP_IS_STANDALONE"] = 6009] = "NGMODULE_BOOTSTRAP_IS_STANDALONE";
  ErrorCode2[ErrorCode2["WARN_NGMODULE_ID_UNNECESSARY"] = 6100] = "WARN_NGMODULE_ID_UNNECESSARY";
  ErrorCode2[ErrorCode2["SCHEMA_INVALID_ELEMENT"] = 8001] = "SCHEMA_INVALID_ELEMENT";
  ErrorCode2[ErrorCode2["SCHEMA_INVALID_ATTRIBUTE"] = 8002] = "SCHEMA_INVALID_ATTRIBUTE";
  ErrorCode2[ErrorCode2["MISSING_REFERENCE_TARGET"] = 8003] = "MISSING_REFERENCE_TARGET";
  ErrorCode2[ErrorCode2["MISSING_PIPE"] = 8004] = "MISSING_PIPE";
  ErrorCode2[ErrorCode2["WRITE_TO_READ_ONLY_VARIABLE"] = 8005] = "WRITE_TO_READ_ONLY_VARIABLE";
  ErrorCode2[ErrorCode2["DUPLICATE_VARIABLE_DECLARATION"] = 8006] = "DUPLICATE_VARIABLE_DECLARATION";
  ErrorCode2[ErrorCode2["SPLIT_TWO_WAY_BINDING"] = 8007] = "SPLIT_TWO_WAY_BINDING";
  ErrorCode2[ErrorCode2["MISSING_REQUIRED_INPUTS"] = 8008] = "MISSING_REQUIRED_INPUTS";
  ErrorCode2[ErrorCode2["ILLEGAL_FOR_LOOP_TRACK_ACCESS"] = 8009] = "ILLEGAL_FOR_LOOP_TRACK_ACCESS";
  ErrorCode2[ErrorCode2["INACCESSIBLE_DEFERRED_TRIGGER_ELEMENT"] = 8010] = "INACCESSIBLE_DEFERRED_TRIGGER_ELEMENT";
  ErrorCode2[ErrorCode2["CONTROL_FLOW_PREVENTING_CONTENT_PROJECTION"] = 8011] = "CONTROL_FLOW_PREVENTING_CONTENT_PROJECTION";
  ErrorCode2[ErrorCode2["DEFERRED_PIPE_USED_EAGERLY"] = 8012] = "DEFERRED_PIPE_USED_EAGERLY";
  ErrorCode2[ErrorCode2["DEFERRED_DIRECTIVE_USED_EAGERLY"] = 8013] = "DEFERRED_DIRECTIVE_USED_EAGERLY";
  ErrorCode2[ErrorCode2["DEFERRED_DEPENDENCY_IMPORTED_EAGERLY"] = 8014] = "DEFERRED_DEPENDENCY_IMPORTED_EAGERLY";
  ErrorCode2[ErrorCode2["ILLEGAL_LET_WRITE"] = 8015] = "ILLEGAL_LET_WRITE";
  ErrorCode2[ErrorCode2["LET_USED_BEFORE_DEFINITION"] = 8016] = "LET_USED_BEFORE_DEFINITION";
  ErrorCode2[ErrorCode2["CONFLICTING_LET_DECLARATION"] = 8017] = "CONFLICTING_LET_DECLARATION";
  ErrorCode2[ErrorCode2["INVALID_BANANA_IN_BOX"] = 8101] = "INVALID_BANANA_IN_BOX";
  ErrorCode2[ErrorCode2["NULLISH_COALESCING_NOT_NULLABLE"] = 8102] = "NULLISH_COALESCING_NOT_NULLABLE";
  ErrorCode2[ErrorCode2["MISSING_CONTROL_FLOW_DIRECTIVE"] = 8103] = "MISSING_CONTROL_FLOW_DIRECTIVE";
  ErrorCode2[ErrorCode2["TEXT_ATTRIBUTE_NOT_BINDING"] = 8104] = "TEXT_ATTRIBUTE_NOT_BINDING";
  ErrorCode2[ErrorCode2["MISSING_NGFOROF_LET"] = 8105] = "MISSING_NGFOROF_LET";
  ErrorCode2[ErrorCode2["SUFFIX_NOT_SUPPORTED"] = 8106] = "SUFFIX_NOT_SUPPORTED";
  ErrorCode2[ErrorCode2["OPTIONAL_CHAIN_NOT_NULLABLE"] = 8107] = "OPTIONAL_CHAIN_NOT_NULLABLE";
  ErrorCode2[ErrorCode2["SKIP_HYDRATION_NOT_STATIC"] = 8108] = "SKIP_HYDRATION_NOT_STATIC";
  ErrorCode2[ErrorCode2["INTERPOLATED_SIGNAL_NOT_INVOKED"] = 8109] = "INTERPOLATED_SIGNAL_NOT_INVOKED";
  ErrorCode2[ErrorCode2["UNSUPPORTED_INITIALIZER_API_USAGE"] = 8110] = "UNSUPPORTED_INITIALIZER_API_USAGE";
  ErrorCode2[ErrorCode2["UNINVOKED_FUNCTION_IN_EVENT_BINDING"] = 8111] = "UNINVOKED_FUNCTION_IN_EVENT_BINDING";
  ErrorCode2[ErrorCode2["UNUSED_LET_DECLARATION"] = 8112] = "UNUSED_LET_DECLARATION";
  ErrorCode2[ErrorCode2["INLINE_TCB_REQUIRED"] = 8900] = "INLINE_TCB_REQUIRED";
  ErrorCode2[ErrorCode2["INLINE_TYPE_CTOR_REQUIRED"] = 8901] = "INLINE_TYPE_CTOR_REQUIRED";
  ErrorCode2[ErrorCode2["INJECTABLE_DUPLICATE_PROV"] = 9001] = "INJECTABLE_DUPLICATE_PROV";
  ErrorCode2[ErrorCode2["SUGGEST_STRICT_TEMPLATES"] = 10001] = "SUGGEST_STRICT_TEMPLATES";
  ErrorCode2[ErrorCode2["SUGGEST_SUBOPTIMAL_TYPE_INFERENCE"] = 10002] = "SUGGEST_SUBOPTIMAL_TYPE_INFERENCE";
  ErrorCode2[ErrorCode2["LOCAL_COMPILATION_UNRESOLVED_CONST"] = 11001] = "LOCAL_COMPILATION_UNRESOLVED_CONST";
  ErrorCode2[ErrorCode2["LOCAL_COMPILATION_UNSUPPORTED_EXPRESSION"] = 11003] = "LOCAL_COMPILATION_UNSUPPORTED_EXPRESSION";
})(ErrorCode || (ErrorCode = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/diagnostics/src/docs.mjs
var COMPILER_ERRORS_WITH_GUIDES = /* @__PURE__ */ new Set([
  ErrorCode.DECORATOR_ARG_NOT_LITERAL,
  ErrorCode.IMPORT_CYCLE_DETECTED,
  ErrorCode.PARAM_MISSING_TOKEN,
  ErrorCode.SCHEMA_INVALID_ELEMENT,
  ErrorCode.SCHEMA_INVALID_ATTRIBUTE,
  ErrorCode.MISSING_REFERENCE_TARGET,
  ErrorCode.COMPONENT_INVALID_SHADOW_DOM_SELECTOR,
  ErrorCode.WARN_NGMODULE_ID_UNNECESSARY
]);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/diagnostics/src/error.mjs
var import_typescript3 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/diagnostics/src/extended_template_diagnostic_name.mjs
var ExtendedTemplateDiagnosticName;
(function(ExtendedTemplateDiagnosticName2) {
  ExtendedTemplateDiagnosticName2["INVALID_BANANA_IN_BOX"] = "invalidBananaInBox";
  ExtendedTemplateDiagnosticName2["NULLISH_COALESCING_NOT_NULLABLE"] = "nullishCoalescingNotNullable";
  ExtendedTemplateDiagnosticName2["OPTIONAL_CHAIN_NOT_NULLABLE"] = "optionalChainNotNullable";
  ExtendedTemplateDiagnosticName2["MISSING_CONTROL_FLOW_DIRECTIVE"] = "missingControlFlowDirective";
  ExtendedTemplateDiagnosticName2["TEXT_ATTRIBUTE_NOT_BINDING"] = "textAttributeNotBinding";
  ExtendedTemplateDiagnosticName2["UNINVOKED_FUNCTION_IN_EVENT_BINDING"] = "uninvokedFunctionInEventBinding";
  ExtendedTemplateDiagnosticName2["MISSING_NGFOROF_LET"] = "missingNgForOfLet";
  ExtendedTemplateDiagnosticName2["SUFFIX_NOT_SUPPORTED"] = "suffixNotSupported";
  ExtendedTemplateDiagnosticName2["SKIP_HYDRATION_NOT_STATIC"] = "skipHydrationNotStatic";
  ExtendedTemplateDiagnosticName2["INTERPOLATED_SIGNAL_NOT_INVOKED"] = "interpolatedSignalNotInvoked";
  ExtendedTemplateDiagnosticName2["CONTROL_FLOW_PREVENTING_CONTENT_PROJECTION"] = "controlFlowPreventingContentProjection";
  ExtendedTemplateDiagnosticName2["UNUSED_LET_DECLARATION"] = "unusedLetDeclaration";
})(ExtendedTemplateDiagnosticName || (ExtendedTemplateDiagnosticName = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/common/src/util.mjs
var import_typescript23 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/emitter.mjs
var import_typescript7 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/file_system/src/compiler_host.mjs
var import_typescript4 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/file_system/src/invalid_file_system.mjs
var InvalidFileSystem = class {
  exists(path2) {
    throw makeError();
  }
  readFile(path2) {
    throw makeError();
  }
  readFileBuffer(path2) {
    throw makeError();
  }
  writeFile(path2, data, exclusive) {
    throw makeError();
  }
  removeFile(path2) {
    throw makeError();
  }
  symlink(target, path2) {
    throw makeError();
  }
  readdir(path2) {
    throw makeError();
  }
  lstat(path2) {
    throw makeError();
  }
  stat(path2) {
    throw makeError();
  }
  pwd() {
    throw makeError();
  }
  chdir(path2) {
    throw makeError();
  }
  extname(path2) {
    throw makeError();
  }
  copyFile(from, to) {
    throw makeError();
  }
  moveFile(from, to) {
    throw makeError();
  }
  ensureDir(path2) {
    throw makeError();
  }
  removeDeep(path2) {
    throw makeError();
  }
  isCaseSensitive() {
    throw makeError();
  }
  resolve(...paths) {
    throw makeError();
  }
  dirname(file) {
    throw makeError();
  }
  join(basePath, ...paths) {
    throw makeError();
  }
  isRoot(path2) {
    throw makeError();
  }
  isRooted(path2) {
    throw makeError();
  }
  relative(from, to) {
    throw makeError();
  }
  basename(filePath, extension) {
    throw makeError();
  }
  realpath(filePath) {
    throw makeError();
  }
  getDefaultLibLocation() {
    throw makeError();
  }
  normalize(path2) {
    throw makeError();
  }
};
function makeError() {
  return new Error("FileSystem has not been configured. Please call `setFileSystem()` before calling this method.");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/file_system/src/helpers.mjs
var fs = new InvalidFileSystem();
var ABSOLUTE_PATH = Symbol("AbsolutePath");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/file_system/src/node_js_file_system.mjs
var import_url = require("url");
var import_meta3 = {};
var isCommonJS = typeof __filename !== "undefined";
var currentFileUrl = isCommonJS ? null : import_meta3.url;
var currentFileName = isCommonJS ? __filename : (0, import_url.fileURLToPath)(currentFileUrl);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/util/src/typescript.mjs
var import_typescript5 = __toESM(require("typescript"), 1);
function identifierOfNode(decl) {
  if (decl.name !== void 0 && import_typescript5.default.isIdentifier(decl.name)) {
    return decl.name;
  } else {
    return null;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/emitter.mjs
var ImportFlags;
(function(ImportFlags2) {
  ImportFlags2[ImportFlags2["None"] = 0] = "None";
  ImportFlags2[ImportFlags2["ForceNewImport"] = 1] = "ForceNewImport";
  ImportFlags2[ImportFlags2["NoAliasing"] = 2] = "NoAliasing";
  ImportFlags2[ImportFlags2["AllowTypeImports"] = 4] = "AllowTypeImports";
  ImportFlags2[ImportFlags2["AllowRelativeDtsImports"] = 8] = "AllowRelativeDtsImports";
  ImportFlags2[ImportFlags2["AllowAmbientReferences"] = 16] = "AllowAmbientReferences";
})(ImportFlags || (ImportFlags = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/patch_alias_reference_resolution.mjs
var import_typescript9 = __toESM(require("typescript"), 1);
var patchedReferencedAliasesSymbol = Symbol("patchedReferencedAliases");
function loadIsReferencedAliasDeclarationPatch(context) {
  if (!isTransformationContextWithEmitResolver(context)) {
    throwIncompatibleTransformationContextError();
  }
  const emitResolver = context.getEmitResolver();
  const existingReferencedAliases = emitResolver[patchedReferencedAliasesSymbol];
  if (existingReferencedAliases !== void 0) {
    return existingReferencedAliases;
  }
  const originalIsReferencedAliasDeclaration = emitResolver.isReferencedAliasDeclaration;
  if (originalIsReferencedAliasDeclaration === void 0) {
    throwIncompatibleTransformationContextError();
  }
  const referencedAliases = /* @__PURE__ */ new Set();
  emitResolver.isReferencedAliasDeclaration = function(node, ...args) {
    if (isAliasImportDeclaration(node) && referencedAliases.has(node)) {
      return true;
    }
    return originalIsReferencedAliasDeclaration.call(emitResolver, node, ...args);
  };
  return emitResolver[patchedReferencedAliasesSymbol] = referencedAliases;
}
function isAliasImportDeclaration(node) {
  return import_typescript9.default.isImportSpecifier(node) || import_typescript9.default.isNamespaceImport(node) || import_typescript9.default.isImportClause(node);
}
function isTransformationContextWithEmitResolver(context) {
  return context.getEmitResolver !== void 0;
}
function throwIncompatibleTransformationContextError() {
  throw Error("Angular compiler is incompatible with this version of the TypeScript compiler.\n\nIf you recently updated TypeScript and this issue surfaces now, consider downgrading.\n\nPlease report an issue on the Angular repositories when this issue surfaces and you are using a supposedly compatible TypeScript version.");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/default.mjs
var DefaultImportDeclaration = Symbol("DefaultImportDeclaration");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/deferred_symbol_tracker.mjs
var import_typescript15 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/reflection/src/typescript.mjs
var import_typescript14 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/reflection/src/host.mjs
var import_typescript11 = __toESM(require("typescript"), 1);
var ClassMemberKind;
(function(ClassMemberKind2) {
  ClassMemberKind2[ClassMemberKind2["Constructor"] = 0] = "Constructor";
  ClassMemberKind2[ClassMemberKind2["Getter"] = 1] = "Getter";
  ClassMemberKind2[ClassMemberKind2["Setter"] = 2] = "Setter";
  ClassMemberKind2[ClassMemberKind2["Property"] = 3] = "Property";
  ClassMemberKind2[ClassMemberKind2["Method"] = 4] = "Method";
})(ClassMemberKind || (ClassMemberKind = {}));
var ClassMemberAccessLevel;
(function(ClassMemberAccessLevel2) {
  ClassMemberAccessLevel2[ClassMemberAccessLevel2["PublicWritable"] = 0] = "PublicWritable";
  ClassMemberAccessLevel2[ClassMemberAccessLevel2["PublicReadonly"] = 1] = "PublicReadonly";
  ClassMemberAccessLevel2[ClassMemberAccessLevel2["Protected"] = 2] = "Protected";
  ClassMemberAccessLevel2[ClassMemberAccessLevel2["Private"] = 3] = "Private";
  ClassMemberAccessLevel2[ClassMemberAccessLevel2["EcmaScriptPrivate"] = 4] = "EcmaScriptPrivate";
})(ClassMemberAccessLevel || (ClassMemberAccessLevel = {}));
var AmbientImport = {};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/reflection/src/type_to_value.mjs
var import_typescript12 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/reflection/src/util.mjs
var import_typescript13 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/reflection/src/typescript.mjs
var LocalExportedDeclarations = Symbol("LocalExportedDeclarations");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/imported_symbols_tracker.mjs
var import_typescript17 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/local_compilation_extra_imports_tracker.mjs
var import_typescript18 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/imports/src/references.mjs
var Reference2 = class {
  constructor(node, bestGuessOwningModule = null) {
    this.node = node;
    this.identifiers = [];
    this.synthetic = false;
    this._alias = null;
    if (bestGuessOwningModule === AmbientImport) {
      this.isAmbient = true;
      this.bestGuessOwningModule = null;
    } else {
      this.isAmbient = false;
      this.bestGuessOwningModule = bestGuessOwningModule;
    }
    const id = identifierOfNode(node);
    if (id !== null) {
      this.identifiers.push(id);
    }
  }
  get ownedByModuleGuess() {
    if (this.bestGuessOwningModule !== null) {
      return this.bestGuessOwningModule.specifier;
    } else {
      return null;
    }
  }
  get hasOwningModuleGuess() {
    return this.bestGuessOwningModule !== null;
  }
  get debugName() {
    const id = identifierOfNode(this.node);
    return id !== null ? id.text : null;
  }
  get alias() {
    return this._alias;
  }
  addIdentifier(identifier) {
    this.identifiers.push(identifier);
  }
  getIdentityIn(context) {
    return this.identifiers.find((id) => id.getSourceFile() === context) || null;
  }
  getIdentityInExpression(expr) {
    const sf = expr.getSourceFile();
    return this.identifiers.find((id) => {
      if (id.getSourceFile() !== sf) {
        return false;
      }
      return id.pos >= expr.pos && id.end <= expr.end;
    }) || null;
  }
  getOriginForDiagnostics(container, fallback = container) {
    const id = this.getIdentityInExpression(container);
    return id !== null ? id : fallback;
  }
  cloneWithAlias(alias) {
    const ref = new Reference2(this.node, this.isAmbient ? AmbientImport : this.bestGuessOwningModule);
    ref.identifiers = [...this.identifiers];
    ref._alias = alias;
    return ref;
  }
  cloneWithNoIdentifiers() {
    const ref = new Reference2(this.node, this.isAmbient ? AmbientImport : this.bestGuessOwningModule);
    ref._alias = this._alias;
    ref.identifiers = [];
    return ref;
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/common/src/diagnostics.mjs
var import_typescript47 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/metadata/src/api.mjs
var MetaKind;
(function(MetaKind2) {
  MetaKind2[MetaKind2["Directive"] = 0] = "Directive";
  MetaKind2[MetaKind2["Pipe"] = 1] = "Pipe";
  MetaKind2[MetaKind2["NgModule"] = 2] = "NgModule";
})(MetaKind || (MetaKind = {}));
var MatchSource;
(function(MatchSource2) {
  MatchSource2[MatchSource2["Selector"] = 0] = "Selector";
  MatchSource2[MatchSource2["HostDirective"] = 1] = "HostDirective";
})(MatchSource || (MatchSource = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/metadata/src/dts.mjs
var import_typescript27 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/metadata/src/property_mapping.mjs
var ClassPropertyMapping = class {
  constructor(forwardMap) {
    this.forwardMap = forwardMap;
    this.reverseMap = reverseMapFromForwardMap(forwardMap);
  }
  static empty() {
    return new ClassPropertyMapping(/* @__PURE__ */ new Map());
  }
  static fromMappedObject(obj) {
    const forwardMap = /* @__PURE__ */ new Map();
    for (const classPropertyName of Object.keys(obj)) {
      const value = obj[classPropertyName];
      let inputOrOutput;
      if (typeof value === "string") {
        inputOrOutput = {
          classPropertyName,
          bindingPropertyName: value,
          isSignal: false
        };
      } else {
        inputOrOutput = value;
      }
      forwardMap.set(classPropertyName, inputOrOutput);
    }
    return new ClassPropertyMapping(forwardMap);
  }
  static merge(a, b) {
    const forwardMap = new Map(a.forwardMap.entries());
    for (const [classPropertyName, inputOrOutput] of b.forwardMap) {
      forwardMap.set(classPropertyName, inputOrOutput);
    }
    return new ClassPropertyMapping(forwardMap);
  }
  get classPropertyNames() {
    return Array.from(this.forwardMap.keys());
  }
  get propertyNames() {
    return Array.from(this.reverseMap.keys());
  }
  hasBindingPropertyName(propertyName) {
    return this.reverseMap.has(propertyName);
  }
  getByBindingPropertyName(propertyName) {
    return this.reverseMap.has(propertyName) ? this.reverseMap.get(propertyName) : null;
  }
  getByClassPropertyName(classPropertyName) {
    return this.forwardMap.has(classPropertyName) ? this.forwardMap.get(classPropertyName) : null;
  }
  toDirectMappedObject() {
    const obj = {};
    for (const [classPropertyName, inputOrOutput] of this.forwardMap) {
      obj[classPropertyName] = inputOrOutput.bindingPropertyName;
    }
    return obj;
  }
  toJointMappedObject(transform2) {
    const obj = {};
    for (const [classPropertyName, inputOrOutput] of this.forwardMap) {
      obj[classPropertyName] = transform2(inputOrOutput);
    }
    return obj;
  }
  *[Symbol.iterator]() {
    for (const inputOrOutput of this.forwardMap.values()) {
      yield inputOrOutput;
    }
  }
};
function reverseMapFromForwardMap(forwardMap) {
  const reverseMap = /* @__PURE__ */ new Map();
  for (const [_, inputOrOutput] of forwardMap) {
    if (!reverseMap.has(inputOrOutput.bindingPropertyName)) {
      reverseMap.set(inputOrOutput.bindingPropertyName, []);
    }
    reverseMap.get(inputOrOutput.bindingPropertyName).push(inputOrOutput);
  }
  return reverseMap;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/metadata/src/util.mjs
var import_typescript25 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/partial_evaluator/src/diagnostics.mjs
var import_typescript29 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/partial_evaluator/src/interpreter.mjs
var import_typescript30 = __toESM(require("typescript"), 1);
function literalBinaryOp(op) {
  return { op, literal: true };
}
function referenceBinaryOp(op) {
  return { op, literal: false };
}
var BINARY_OPERATORS2 = /* @__PURE__ */ new Map([
  [import_typescript30.default.SyntaxKind.PlusToken, literalBinaryOp((a, b) => a + b)],
  [import_typescript30.default.SyntaxKind.MinusToken, literalBinaryOp((a, b) => a - b)],
  [import_typescript30.default.SyntaxKind.AsteriskToken, literalBinaryOp((a, b) => a * b)],
  [import_typescript30.default.SyntaxKind.SlashToken, literalBinaryOp((a, b) => a / b)],
  [import_typescript30.default.SyntaxKind.PercentToken, literalBinaryOp((a, b) => a % b)],
  [import_typescript30.default.SyntaxKind.AmpersandToken, literalBinaryOp((a, b) => a & b)],
  [import_typescript30.default.SyntaxKind.BarToken, literalBinaryOp((a, b) => a | b)],
  [import_typescript30.default.SyntaxKind.CaretToken, literalBinaryOp((a, b) => a ^ b)],
  [import_typescript30.default.SyntaxKind.LessThanToken, literalBinaryOp((a, b) => a < b)],
  [import_typescript30.default.SyntaxKind.LessThanEqualsToken, literalBinaryOp((a, b) => a <= b)],
  [import_typescript30.default.SyntaxKind.GreaterThanToken, literalBinaryOp((a, b) => a > b)],
  [import_typescript30.default.SyntaxKind.GreaterThanEqualsToken, literalBinaryOp((a, b) => a >= b)],
  [import_typescript30.default.SyntaxKind.EqualsEqualsToken, literalBinaryOp((a, b) => a == b)],
  [import_typescript30.default.SyntaxKind.EqualsEqualsEqualsToken, literalBinaryOp((a, b) => a === b)],
  [import_typescript30.default.SyntaxKind.ExclamationEqualsToken, literalBinaryOp((a, b) => a != b)],
  [import_typescript30.default.SyntaxKind.ExclamationEqualsEqualsToken, literalBinaryOp((a, b) => a !== b)],
  [import_typescript30.default.SyntaxKind.LessThanLessThanToken, literalBinaryOp((a, b) => a << b)],
  [import_typescript30.default.SyntaxKind.GreaterThanGreaterThanToken, literalBinaryOp((a, b) => a >> b)],
  [import_typescript30.default.SyntaxKind.GreaterThanGreaterThanGreaterThanToken, literalBinaryOp((a, b) => a >>> b)],
  [import_typescript30.default.SyntaxKind.AsteriskAsteriskToken, literalBinaryOp((a, b) => Math.pow(a, b))],
  [import_typescript30.default.SyntaxKind.AmpersandAmpersandToken, referenceBinaryOp((a, b) => a && b)],
  [import_typescript30.default.SyntaxKind.BarBarToken, referenceBinaryOp((a, b) => a || b)]
]);
var UNARY_OPERATORS = /* @__PURE__ */ new Map([
  [import_typescript30.default.SyntaxKind.TildeToken, (a) => ~a],
  [import_typescript30.default.SyntaxKind.MinusToken, (a) => -a],
  [import_typescript30.default.SyntaxKind.PlusToken, (a) => +a],
  [import_typescript30.default.SyntaxKind.ExclamationToken, (a) => !a]
]);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/api.mjs
var CompilationMode;
(function(CompilationMode2) {
  CompilationMode2[CompilationMode2["FULL"] = 0] = "FULL";
  CompilationMode2[CompilationMode2["PARTIAL"] = 1] = "PARTIAL";
  CompilationMode2[CompilationMode2["LOCAL"] = 2] = "LOCAL";
})(CompilationMode || (CompilationMode = {}));
var HandlerPrecedence;
(function(HandlerPrecedence2) {
  HandlerPrecedence2[HandlerPrecedence2["PRIMARY"] = 0] = "PRIMARY";
  HandlerPrecedence2[HandlerPrecedence2["SHARED"] = 1] = "SHARED";
  HandlerPrecedence2[HandlerPrecedence2["WEAK"] = 2] = "WEAK";
})(HandlerPrecedence || (HandlerPrecedence = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/alias.mjs
var import_typescript32 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/compilation.mjs
var import_typescript33 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/perf/src/api.mjs
var PerfPhase;
(function(PerfPhase2) {
  PerfPhase2[PerfPhase2["Unaccounted"] = 0] = "Unaccounted";
  PerfPhase2[PerfPhase2["Setup"] = 1] = "Setup";
  PerfPhase2[PerfPhase2["TypeScriptProgramCreate"] = 2] = "TypeScriptProgramCreate";
  PerfPhase2[PerfPhase2["Reconciliation"] = 3] = "Reconciliation";
  PerfPhase2[PerfPhase2["ResourceUpdate"] = 4] = "ResourceUpdate";
  PerfPhase2[PerfPhase2["TypeScriptDiagnostics"] = 5] = "TypeScriptDiagnostics";
  PerfPhase2[PerfPhase2["Analysis"] = 6] = "Analysis";
  PerfPhase2[PerfPhase2["Resolve"] = 7] = "Resolve";
  PerfPhase2[PerfPhase2["CycleDetection"] = 8] = "CycleDetection";
  PerfPhase2[PerfPhase2["TcbGeneration"] = 9] = "TcbGeneration";
  PerfPhase2[PerfPhase2["TcbUpdateProgram"] = 10] = "TcbUpdateProgram";
  PerfPhase2[PerfPhase2["TypeScriptEmit"] = 11] = "TypeScriptEmit";
  PerfPhase2[PerfPhase2["Compile"] = 12] = "Compile";
  PerfPhase2[PerfPhase2["TtcAutocompletion"] = 13] = "TtcAutocompletion";
  PerfPhase2[PerfPhase2["TtcDiagnostics"] = 14] = "TtcDiagnostics";
  PerfPhase2[PerfPhase2["TtcSymbol"] = 15] = "TtcSymbol";
  PerfPhase2[PerfPhase2["LsReferencesAndRenames"] = 16] = "LsReferencesAndRenames";
  PerfPhase2[PerfPhase2["LsQuickInfo"] = 17] = "LsQuickInfo";
  PerfPhase2[PerfPhase2["LsDefinition"] = 18] = "LsDefinition";
  PerfPhase2[PerfPhase2["LsCompletions"] = 19] = "LsCompletions";
  PerfPhase2[PerfPhase2["LsTcb"] = 20] = "LsTcb";
  PerfPhase2[PerfPhase2["LsDiagnostics"] = 21] = "LsDiagnostics";
  PerfPhase2[PerfPhase2["LsComponentLocations"] = 22] = "LsComponentLocations";
  PerfPhase2[PerfPhase2["LsSignatureHelp"] = 23] = "LsSignatureHelp";
  PerfPhase2[PerfPhase2["OutliningSpans"] = 24] = "OutliningSpans";
  PerfPhase2[PerfPhase2["LAST"] = 25] = "LAST";
  PerfPhase2[PerfPhase2["LsCodeFixes"] = 26] = "LsCodeFixes";
  PerfPhase2[PerfPhase2["LsCodeFixesAll"] = 27] = "LsCodeFixesAll";
  PerfPhase2[PerfPhase2["LSComputeApplicableRefactorings"] = 28] = "LSComputeApplicableRefactorings";
  PerfPhase2[PerfPhase2["LSApplyRefactoring"] = 29] = "LSApplyRefactoring";
})(PerfPhase || (PerfPhase = {}));
var PerfEvent;
(function(PerfEvent2) {
  PerfEvent2[PerfEvent2["InputDtsFile"] = 0] = "InputDtsFile";
  PerfEvent2[PerfEvent2["InputTsFile"] = 1] = "InputTsFile";
  PerfEvent2[PerfEvent2["AnalyzeComponent"] = 2] = "AnalyzeComponent";
  PerfEvent2[PerfEvent2["AnalyzeDirective"] = 3] = "AnalyzeDirective";
  PerfEvent2[PerfEvent2["AnalyzeInjectable"] = 4] = "AnalyzeInjectable";
  PerfEvent2[PerfEvent2["AnalyzeNgModule"] = 5] = "AnalyzeNgModule";
  PerfEvent2[PerfEvent2["AnalyzePipe"] = 6] = "AnalyzePipe";
  PerfEvent2[PerfEvent2["TraitAnalyze"] = 7] = "TraitAnalyze";
  PerfEvent2[PerfEvent2["TraitReuseAnalysis"] = 8] = "TraitReuseAnalysis";
  PerfEvent2[PerfEvent2["SourceFilePhysicalChange"] = 9] = "SourceFilePhysicalChange";
  PerfEvent2[PerfEvent2["SourceFileLogicalChange"] = 10] = "SourceFileLogicalChange";
  PerfEvent2[PerfEvent2["SourceFileReuseAnalysis"] = 11] = "SourceFileReuseAnalysis";
  PerfEvent2[PerfEvent2["GenerateTcb"] = 12] = "GenerateTcb";
  PerfEvent2[PerfEvent2["SkipGenerateTcbNoInline"] = 13] = "SkipGenerateTcbNoInline";
  PerfEvent2[PerfEvent2["ReuseTypeCheckFile"] = 14] = "ReuseTypeCheckFile";
  PerfEvent2[PerfEvent2["UpdateTypeCheckProgram"] = 15] = "UpdateTypeCheckProgram";
  PerfEvent2[PerfEvent2["EmitSkipSourceFile"] = 16] = "EmitSkipSourceFile";
  PerfEvent2[PerfEvent2["EmitSourceFile"] = 17] = "EmitSourceFile";
  PerfEvent2[PerfEvent2["LAST"] = 18] = "LAST";
})(PerfEvent || (PerfEvent = {}));
var PerfCheckpoint;
(function(PerfCheckpoint2) {
  PerfCheckpoint2[PerfCheckpoint2["Initial"] = 0] = "Initial";
  PerfCheckpoint2[PerfCheckpoint2["TypeScriptProgramCreate"] = 1] = "TypeScriptProgramCreate";
  PerfCheckpoint2[PerfCheckpoint2["PreAnalysis"] = 2] = "PreAnalysis";
  PerfCheckpoint2[PerfCheckpoint2["Analysis"] = 3] = "Analysis";
  PerfCheckpoint2[PerfCheckpoint2["Resolve"] = 4] = "Resolve";
  PerfCheckpoint2[PerfCheckpoint2["TtcGeneration"] = 5] = "TtcGeneration";
  PerfCheckpoint2[PerfCheckpoint2["TtcUpdateProgram"] = 6] = "TtcUpdateProgram";
  PerfCheckpoint2[PerfCheckpoint2["PreEmit"] = 7] = "PreEmit";
  PerfCheckpoint2[PerfCheckpoint2["Emit"] = 8] = "Emit";
  PerfCheckpoint2[PerfCheckpoint2["LAST"] = 9] = "LAST";
})(PerfCheckpoint || (PerfCheckpoint = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/perf/src/noop.mjs
var NoopPerfRecorder = class {
  eventCount() {
  }
  memory() {
  }
  phase() {
    return PerfPhase.Unaccounted;
  }
  inPhase(phase, fn2) {
    return fn2();
  }
  reset() {
  }
};
var NOOP_PERF_RECORDER = new NoopPerfRecorder();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/trait.mjs
var TraitState;
(function(TraitState2) {
  TraitState2[TraitState2["Pending"] = 0] = "Pending";
  TraitState2[TraitState2["Analyzed"] = 1] = "Analyzed";
  TraitState2[TraitState2["Resolved"] = 2] = "Resolved";
  TraitState2[TraitState2["Skipped"] = 3] = "Skipped";
})(TraitState || (TraitState = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/declaration.mjs
var import_typescript44 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/import_manager.mjs
var import_typescript39 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/check_unique_identifier_name.mjs
var import_typescript35 = __toESM(require("typescript"), 1);
function createGenerateUniqueIdentifierHelper() {
  const generatedIdentifiers = /* @__PURE__ */ new Set();
  const isGeneratedIdentifier = (sf, identifierName2) => generatedIdentifiers.has(`${sf.fileName}@@${identifierName2}`);
  const markIdentifierAsGenerated = (sf, identifierName2) => generatedIdentifiers.add(`${sf.fileName}@@${identifierName2}`);
  return (sourceFile, symbolName) => {
    const sf = sourceFile;
    if (sf.identifiers === void 0) {
      throw new Error("Source file unexpectedly lacks map of parsed `identifiers`.");
    }
    const isUniqueIdentifier = (name2) => !sf.identifiers.has(name2) && !isGeneratedIdentifier(sf, name2);
    if (isUniqueIdentifier(symbolName)) {
      markIdentifierAsGenerated(sf, symbolName);
      return null;
    }
    let name = null;
    let counter = 1;
    do {
      name = `${symbolName}_${counter++}`;
    } while (!isUniqueIdentifier(name));
    markIdentifierAsGenerated(sf, name);
    return import_typescript35.default.factory.createUniqueName(name, import_typescript35.default.GeneratedIdentifierFlags.Optimistic);
  };
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/import_typescript_transform.mjs
var import_typescript36 = __toESM(require("typescript"), 1);
function createTsTransformForImportManager(manager, extraStatementsForFiles) {
  return (ctx) => {
    const { affectedFiles, newImports, updatedImports, reusedOriginalAliasDeclarations, deletedImports } = manager.finalize();
    if (reusedOriginalAliasDeclarations.size > 0) {
      const referencedAliasDeclarations = loadIsReferencedAliasDeclarationPatch(ctx);
      reusedOriginalAliasDeclarations.forEach((aliasDecl) => referencedAliasDeclarations.add(aliasDecl));
    }
    if (extraStatementsForFiles !== void 0) {
      for (const [fileName, statements] of extraStatementsForFiles.entries()) {
        if (statements.length > 0) {
          affectedFiles.add(fileName);
        }
      }
    }
    const visitStatement = (node) => {
      if (!import_typescript36.default.isImportDeclaration(node)) {
        return node;
      }
      if (deletedImports.has(node)) {
        return void 0;
      }
      if (node.importClause === void 0 || !import_typescript36.default.isImportClause(node.importClause)) {
        return node;
      }
      const clause = node.importClause;
      if (clause.namedBindings === void 0 || !import_typescript36.default.isNamedImports(clause.namedBindings) || !updatedImports.has(clause.namedBindings)) {
        return node;
      }
      const newClause = ctx.factory.updateImportClause(clause, clause.isTypeOnly, clause.name, updatedImports.get(clause.namedBindings));
      const newImport = ctx.factory.updateImportDeclaration(node, node.modifiers, newClause, node.moduleSpecifier, node.attributes);
      import_typescript36.default.setOriginalNode(newImport, {
        importClause: newClause,
        kind: newImport.kind
      });
      return newImport;
    };
    return (sourceFile) => {
      var _a2, _b2;
      if (!affectedFiles.has(sourceFile.fileName)) {
        return sourceFile;
      }
      sourceFile = import_typescript36.default.visitEachChild(sourceFile, visitStatement, ctx);
      const extraStatements = (_a2 = extraStatementsForFiles == null ? void 0 : extraStatementsForFiles.get(sourceFile.fileName)) != null ? _a2 : [];
      const existingImports = [];
      const body = [];
      for (const statement of sourceFile.statements) {
        if (isImportStatement(statement)) {
          existingImports.push(statement);
        } else {
          body.push(statement);
        }
      }
      return ctx.factory.updateSourceFile(sourceFile, [
        ...existingImports,
        ...(_b2 = newImports.get(sourceFile.fileName)) != null ? _b2 : [],
        ...extraStatements,
        ...body
      ], sourceFile.isDeclarationFile, sourceFile.referencedFiles, sourceFile.typeReferenceDirectives, sourceFile.hasNoDefaultLib, sourceFile.libReferenceDirectives);
    };
  };
}
function isImportStatement(stmt) {
  return import_typescript36.default.isImportDeclaration(stmt) || import_typescript36.default.isImportEqualsDeclaration(stmt) || import_typescript36.default.isNamespaceImport(stmt);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/reuse_generated_imports.mjs
var import_typescript37 = __toESM(require("typescript"), 1);
function attemptToReuseGeneratedImports(tracker, request) {
  const requestHash = hashImportRequest(request);
  const existingExactImport = tracker.directReuseCache.get(requestHash);
  if (existingExactImport !== void 0) {
    return existingExactImport;
  }
  const potentialNamespaceImport = tracker.namespaceImportReuseCache.get(request.exportModuleSpecifier);
  if (potentialNamespaceImport === void 0) {
    return null;
  }
  if (request.exportSymbolName === null) {
    return potentialNamespaceImport;
  }
  return [potentialNamespaceImport, import_typescript37.default.factory.createIdentifier(request.exportSymbolName)];
}
function captureGeneratedImport(request, tracker, referenceNode) {
  tracker.directReuseCache.set(hashImportRequest(request), referenceNode);
  if (request.exportSymbolName === null && !Array.isArray(referenceNode)) {
    tracker.namespaceImportReuseCache.set(request.exportModuleSpecifier, referenceNode);
  }
}
function hashImportRequest(req) {
  return `${req.requestedFile.fileName}:${req.exportModuleSpecifier}:${req.exportSymbolName}${req.unsafeAliasOverride ? ":" + req.unsafeAliasOverride : ""}`;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/reuse_source_file_imports.mjs
var import_typescript38 = __toESM(require("typescript"), 1);
function attemptToReuseExistingSourceFileImports(tracker, sourceFile, request) {
  let candidateImportToBeUpdated = null;
  for (let i = sourceFile.statements.length - 1; i >= 0; i--) {
    const statement = sourceFile.statements[i];
    if (!import_typescript38.default.isImportDeclaration(statement) || !import_typescript38.default.isStringLiteral(statement.moduleSpecifier)) {
      continue;
    }
    if (!statement.importClause || statement.importClause.isTypeOnly) {
      continue;
    }
    const moduleSpecifier = statement.moduleSpecifier.text;
    if (moduleSpecifier !== request.exportModuleSpecifier) {
      continue;
    }
    if (statement.importClause.namedBindings) {
      const namedBindings = statement.importClause.namedBindings;
      if (import_typescript38.default.isNamespaceImport(namedBindings)) {
        tracker.reusedAliasDeclarations.add(namedBindings);
        if (request.exportSymbolName === null) {
          return namedBindings.name;
        }
        return [namedBindings.name, import_typescript38.default.factory.createIdentifier(request.exportSymbolName)];
      }
      if (import_typescript38.default.isNamedImports(namedBindings) && request.exportSymbolName !== null) {
        const existingElement = namedBindings.elements.find((e) => {
          var _a2;
          let nameMatches;
          if (request.unsafeAliasOverride) {
            nameMatches = ((_a2 = e.propertyName) == null ? void 0 : _a2.text) === request.exportSymbolName && e.name.text === request.unsafeAliasOverride;
          } else {
            nameMatches = e.propertyName ? e.propertyName.text === request.exportSymbolName : e.name.text === request.exportSymbolName;
          }
          return !e.isTypeOnly && nameMatches;
        });
        if (existingElement !== void 0) {
          tracker.reusedAliasDeclarations.add(existingElement);
          return existingElement.name;
        }
        candidateImportToBeUpdated = statement;
      }
    }
  }
  if (candidateImportToBeUpdated === null || request.exportSymbolName === null) {
    return null;
  }
  if (!tracker.updatedImports.has(candidateImportToBeUpdated)) {
    tracker.updatedImports.set(candidateImportToBeUpdated, []);
  }
  const symbolsToBeImported = tracker.updatedImports.get(candidateImportToBeUpdated);
  const propertyName = import_typescript38.default.factory.createIdentifier(request.exportSymbolName);
  const fileUniqueAlias = request.unsafeAliasOverride ? import_typescript38.default.factory.createIdentifier(request.unsafeAliasOverride) : tracker.generateUniqueIdentifier(sourceFile, request.exportSymbolName);
  symbolsToBeImported.push({
    propertyName,
    fileUniqueAlias
  });
  return fileUniqueAlias != null ? fileUniqueAlias : propertyName;
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager/import_manager.mjs
var ImportManager = class {
  constructor(config = {}) {
    var _a2, _b2, _c2, _d2, _e2, _f2;
    this.newImports = /* @__PURE__ */ new Map();
    this.removedImports = /* @__PURE__ */ new Map();
    this.nextUniqueIndex = 0;
    this.reuseGeneratedImportsTracker = {
      directReuseCache: /* @__PURE__ */ new Map(),
      namespaceImportReuseCache: /* @__PURE__ */ new Map()
    };
    this.config = {
      shouldUseSingleQuotes: (_a2 = config.shouldUseSingleQuotes) != null ? _a2 : () => false,
      rewriter: (_b2 = config.rewriter) != null ? _b2 : null,
      disableOriginalSourceFileReuse: (_c2 = config.disableOriginalSourceFileReuse) != null ? _c2 : false,
      forceGenerateNamespacesForNewImports: (_d2 = config.forceGenerateNamespacesForNewImports) != null ? _d2 : false,
      namespaceImportPrefix: (_e2 = config.namespaceImportPrefix) != null ? _e2 : "i",
      generateUniqueIdentifier: (_f2 = config.generateUniqueIdentifier) != null ? _f2 : createGenerateUniqueIdentifierHelper()
    };
    this.reuseSourceFileImportsTracker = {
      generateUniqueIdentifier: this.config.generateUniqueIdentifier,
      reusedAliasDeclarations: /* @__PURE__ */ new Set(),
      updatedImports: /* @__PURE__ */ new Map()
    };
  }
  addSideEffectImport(requestedFile, moduleSpecifier) {
    if (this.config.rewriter !== null) {
      moduleSpecifier = this.config.rewriter.rewriteSpecifier(moduleSpecifier, requestedFile.fileName);
    }
    this._getNewImportsTrackerForFile(requestedFile).sideEffectImports.add(moduleSpecifier);
  }
  addImport(request) {
    var _a2, _b2;
    if (this.config.rewriter !== null) {
      if (request.exportSymbolName !== null) {
        request.exportSymbolName = this.config.rewriter.rewriteSymbol(request.exportSymbolName, request.exportModuleSpecifier);
      }
      request.exportModuleSpecifier = this.config.rewriter.rewriteSpecifier(request.exportModuleSpecifier, request.requestedFile.fileName);
    }
    if (request.exportSymbolName !== null && !request.asTypeReference) {
      (_b2 = (_a2 = this.removedImports.get(request.requestedFile)) == null ? void 0 : _a2.get(request.exportModuleSpecifier)) == null ? void 0 : _b2.delete(request.exportSymbolName);
    }
    const previousGeneratedImportRef = attemptToReuseGeneratedImports(this.reuseGeneratedImportsTracker, request);
    if (previousGeneratedImportRef !== null) {
      return createImportReference(!!request.asTypeReference, previousGeneratedImportRef);
    }
    const resultImportRef = this._generateNewImport(request);
    captureGeneratedImport(request, this.reuseGeneratedImportsTracker, resultImportRef);
    return createImportReference(!!request.asTypeReference, resultImportRef);
  }
  removeImport(requestedFile, exportSymbolName, moduleSpecifier) {
    let moduleMap = this.removedImports.get(requestedFile);
    if (!moduleMap) {
      moduleMap = /* @__PURE__ */ new Map();
      this.removedImports.set(requestedFile, moduleMap);
    }
    let removedSymbols = moduleMap.get(moduleSpecifier);
    if (!removedSymbols) {
      removedSymbols = /* @__PURE__ */ new Set();
      moduleMap.set(moduleSpecifier, removedSymbols);
    }
    removedSymbols.add(exportSymbolName);
  }
  _generateNewImport(request) {
    var _a2;
    const { requestedFile: sourceFile } = request;
    const disableOriginalSourceFileReuse = this.config.disableOriginalSourceFileReuse;
    const forceGenerateNamespacesForNewImports = this.config.forceGenerateNamespacesForNewImports;
    if (!disableOriginalSourceFileReuse) {
      const reuseResult = attemptToReuseExistingSourceFileImports(this.reuseSourceFileImportsTracker, sourceFile, request);
      if (reuseResult !== null) {
        return reuseResult;
      }
    }
    const { namedImports, namespaceImports } = this._getNewImportsTrackerForFile(sourceFile);
    if (request.exportSymbolName === null || forceGenerateNamespacesForNewImports) {
      const namespaceImportName = `${this.config.namespaceImportPrefix}${this.nextUniqueIndex++}`;
      const namespaceImport = import_typescript39.default.factory.createNamespaceImport((_a2 = this.config.generateUniqueIdentifier(sourceFile, namespaceImportName)) != null ? _a2 : import_typescript39.default.factory.createIdentifier(namespaceImportName));
      namespaceImports.set(request.exportModuleSpecifier, namespaceImport);
      captureGeneratedImport(__spreadProps(__spreadValues({}, request), { exportSymbolName: null }), this.reuseGeneratedImportsTracker, namespaceImport.name);
      if (request.exportSymbolName !== null) {
        return [namespaceImport.name, import_typescript39.default.factory.createIdentifier(request.exportSymbolName)];
      }
      return namespaceImport.name;
    }
    if (!namedImports.has(request.exportModuleSpecifier)) {
      namedImports.set(request.exportModuleSpecifier, []);
    }
    const exportSymbolName = import_typescript39.default.factory.createIdentifier(request.exportSymbolName);
    const fileUniqueName = request.unsafeAliasOverride ? null : this.config.generateUniqueIdentifier(sourceFile, request.exportSymbolName);
    let needsAlias;
    let specifierName;
    if (request.unsafeAliasOverride) {
      needsAlias = true;
      specifierName = import_typescript39.default.factory.createIdentifier(request.unsafeAliasOverride);
    } else if (fileUniqueName !== null) {
      needsAlias = true;
      specifierName = fileUniqueName;
    } else {
      needsAlias = false;
      specifierName = exportSymbolName;
    }
    namedImports.get(request.exportModuleSpecifier).push(import_typescript39.default.factory.createImportSpecifier(false, needsAlias ? exportSymbolName : void 0, specifierName));
    return specifierName;
  }
  finalize() {
    const affectedFiles = /* @__PURE__ */ new Set();
    const updatedImportsResult = /* @__PURE__ */ new Map();
    const newImportsResult = /* @__PURE__ */ new Map();
    const deletedImports = /* @__PURE__ */ new Set();
    const importDeclarationsPerFile = /* @__PURE__ */ new Map();
    const addNewImport = (fileName, importDecl) => {
      affectedFiles.add(fileName);
      if (newImportsResult.has(fileName)) {
        newImportsResult.get(fileName).push(importDecl);
      } else {
        newImportsResult.set(fileName, [importDecl]);
      }
    };
    this.reuseSourceFileImportsTracker.updatedImports.forEach((expressions, importDecl) => {
      const sourceFile = importDecl.getSourceFile();
      const namedBindings = importDecl.importClause.namedBindings;
      const moduleName = importDecl.moduleSpecifier.text;
      const newElements = namedBindings.elements.concat(expressions.map(({ propertyName, fileUniqueAlias }) => import_typescript39.default.factory.createImportSpecifier(false, fileUniqueAlias !== null ? propertyName : void 0, fileUniqueAlias != null ? fileUniqueAlias : propertyName))).filter((specifier) => this._canAddSpecifier(sourceFile, moduleName, specifier));
      affectedFiles.add(sourceFile.fileName);
      if (newElements.length === 0) {
        deletedImports.add(importDecl);
      } else {
        updatedImportsResult.set(namedBindings, import_typescript39.default.factory.updateNamedImports(namedBindings, newElements));
      }
    });
    this.removedImports.forEach((removeMap, sourceFile) => {
      var _a2;
      if (removeMap.size === 0) {
        return;
      }
      let allImports = importDeclarationsPerFile.get(sourceFile);
      if (!allImports) {
        allImports = sourceFile.statements.filter(import_typescript39.default.isImportDeclaration);
        importDeclarationsPerFile.set(sourceFile, allImports);
      }
      for (const node of allImports) {
        if (!((_a2 = node.importClause) == null ? void 0 : _a2.namedBindings) || !import_typescript39.default.isNamedImports(node.importClause.namedBindings) || this.reuseSourceFileImportsTracker.updatedImports.has(node) || deletedImports.has(node)) {
          continue;
        }
        const namedBindings = node.importClause.namedBindings;
        const moduleName = node.moduleSpecifier.text;
        const newImports = namedBindings.elements.filter((specifier) => this._canAddSpecifier(sourceFile, moduleName, specifier));
        if (newImports.length === 0) {
          affectedFiles.add(sourceFile.fileName);
          deletedImports.add(node);
        } else if (newImports.length !== namedBindings.elements.length) {
          affectedFiles.add(sourceFile.fileName);
          updatedImportsResult.set(namedBindings, import_typescript39.default.factory.updateNamedImports(namedBindings, newImports));
        }
      }
    });
    this.newImports.forEach(({ namedImports, namespaceImports, sideEffectImports }, sourceFile) => {
      const useSingleQuotes = this.config.shouldUseSingleQuotes(sourceFile);
      const fileName = sourceFile.fileName;
      sideEffectImports.forEach((moduleName) => {
        addNewImport(fileName, import_typescript39.default.factory.createImportDeclaration(void 0, void 0, import_typescript39.default.factory.createStringLiteral(moduleName)));
      });
      namespaceImports.forEach((namespaceImport, moduleName) => {
        const newImport = import_typescript39.default.factory.createImportDeclaration(void 0, import_typescript39.default.factory.createImportClause(false, void 0, namespaceImport), import_typescript39.default.factory.createStringLiteral(moduleName, useSingleQuotes));
        import_typescript39.default.setOriginalNode(namespaceImport.name, newImport);
        addNewImport(fileName, newImport);
      });
      namedImports.forEach((specifiers, moduleName) => {
        const filteredSpecifiers = specifiers.filter((specifier) => this._canAddSpecifier(sourceFile, moduleName, specifier));
        if (filteredSpecifiers.length > 0) {
          const newImport = import_typescript39.default.factory.createImportDeclaration(void 0, import_typescript39.default.factory.createImportClause(false, void 0, import_typescript39.default.factory.createNamedImports(filteredSpecifiers)), import_typescript39.default.factory.createStringLiteral(moduleName, useSingleQuotes));
          addNewImport(fileName, newImport);
        }
      });
    });
    return {
      affectedFiles,
      newImports: newImportsResult,
      updatedImports: updatedImportsResult,
      reusedOriginalAliasDeclarations: this.reuseSourceFileImportsTracker.reusedAliasDeclarations,
      deletedImports
    };
  }
  toTsTransform(extraStatementsMap) {
    return createTsTransformForImportManager(this, extraStatementsMap);
  }
  transformTsFile(ctx, file, extraStatementsAfterImports) {
    const extraStatementsMap = extraStatementsAfterImports ? /* @__PURE__ */ new Map([[file.fileName, extraStatementsAfterImports]]) : void 0;
    return this.toTsTransform(extraStatementsMap)(ctx)(file);
  }
  _getNewImportsTrackerForFile(file) {
    if (!this.newImports.has(file)) {
      this.newImports.set(file, {
        namespaceImports: /* @__PURE__ */ new Map(),
        namedImports: /* @__PURE__ */ new Map(),
        sideEffectImports: /* @__PURE__ */ new Set()
      });
    }
    return this.newImports.get(file);
  }
  _canAddSpecifier(sourceFile, moduleSpecifier, specifier) {
    var _a2, _b2;
    return !((_b2 = (_a2 = this.removedImports.get(sourceFile)) == null ? void 0 : _a2.get(moduleSpecifier)) == null ? void 0 : _b2.has((specifier.propertyName || specifier.name).text));
  }
};
function createImportReference(asTypeReference, ref) {
  if (asTypeReference) {
    return Array.isArray(ref) ? import_typescript39.default.factory.createQualifiedName(ref[0], ref[1]) : ref;
  } else {
    return Array.isArray(ref) ? import_typescript39.default.factory.createPropertyAccessExpression(ref[0], ref[1]) : ref;
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/translator.mjs
var UNARY_OPERATORS2 = /* @__PURE__ */ new Map([
  [UnaryOperator.Minus, "-"],
  [UnaryOperator.Plus, "+"]
]);
var BINARY_OPERATORS3 = /* @__PURE__ */ new Map([
  [BinaryOperator.And, "&&"],
  [BinaryOperator.Bigger, ">"],
  [BinaryOperator.BiggerEquals, ">="],
  [BinaryOperator.BitwiseAnd, "&"],
  [BinaryOperator.BitwiseOr, "|"],
  [BinaryOperator.Divide, "/"],
  [BinaryOperator.Equals, "=="],
  [BinaryOperator.Identical, "==="],
  [BinaryOperator.Lower, "<"],
  [BinaryOperator.LowerEquals, "<="],
  [BinaryOperator.Minus, "-"],
  [BinaryOperator.Modulo, "%"],
  [BinaryOperator.Multiply, "*"],
  [BinaryOperator.NotEquals, "!="],
  [BinaryOperator.NotIdentical, "!=="],
  [BinaryOperator.Or, "||"],
  [BinaryOperator.Plus, "+"],
  [BinaryOperator.NullishCoalesce, "??"]
]);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/type_emitter.mjs
var import_typescript40 = __toESM(require("typescript"), 1);
var INELIGIBLE = {};
function canEmitType(type, canEmit) {
  return canEmitTypeWorker(type);
  function canEmitTypeWorker(type2) {
    return visitNode(type2) !== INELIGIBLE;
  }
  function visitNode(node) {
    if (import_typescript40.default.isImportTypeNode(node)) {
      return INELIGIBLE;
    }
    if (import_typescript40.default.isTypeReferenceNode(node) && !canEmitTypeReference(node)) {
      return INELIGIBLE;
    } else {
      return import_typescript40.default.forEachChild(node, visitNode);
    }
  }
  function canEmitTypeReference(type2) {
    if (!canEmit(type2)) {
      return false;
    }
    return type2.typeArguments === void 0 || type2.typeArguments.every(canEmitTypeWorker);
  }
}
var TypeEmitter = class {
  constructor(translator) {
    this.translator = translator;
  }
  emitType(type) {
    const typeReferenceTransformer = (context) => {
      const visitNode = (node) => {
        if (import_typescript40.default.isImportTypeNode(node)) {
          throw new Error("Unable to emit import type");
        }
        if (import_typescript40.default.isTypeReferenceNode(node)) {
          return this.emitTypeReference(node);
        } else if (import_typescript40.default.isLiteralExpression(node)) {
          let clone;
          if (import_typescript40.default.isStringLiteral(node)) {
            clone = import_typescript40.default.factory.createStringLiteral(node.text);
          } else if (import_typescript40.default.isNumericLiteral(node)) {
            clone = import_typescript40.default.factory.createNumericLiteral(node.text);
          } else if (import_typescript40.default.isBigIntLiteral(node)) {
            clone = import_typescript40.default.factory.createBigIntLiteral(node.text);
          } else if (import_typescript40.default.isNoSubstitutionTemplateLiteral(node)) {
            clone = import_typescript40.default.factory.createNoSubstitutionTemplateLiteral(node.text, node.rawText);
          } else if (import_typescript40.default.isRegularExpressionLiteral(node)) {
            clone = import_typescript40.default.factory.createRegularExpressionLiteral(node.text);
          } else {
            throw new Error(`Unsupported literal kind ${import_typescript40.default.SyntaxKind[node.kind]}`);
          }
          import_typescript40.default.setTextRange(clone, { pos: -1, end: -1 });
          return clone;
        } else {
          return import_typescript40.default.visitEachChild(node, visitNode, context);
        }
      };
      return (node) => import_typescript40.default.visitNode(node, visitNode, import_typescript40.default.isTypeNode);
    };
    return import_typescript40.default.transform(type, [typeReferenceTransformer]).transformed[0];
  }
  emitTypeReference(type) {
    const translatedType = this.translator(type);
    if (translatedType === null) {
      throw new Error("Unable to emit an unresolved reference");
    }
    let typeArguments = void 0;
    if (type.typeArguments !== void 0) {
      typeArguments = import_typescript40.default.factory.createNodeArray(type.typeArguments.map((typeArg) => this.emitType(typeArg)));
    }
    return import_typescript40.default.factory.updateTypeReferenceNode(type, translatedType.typeName, typeArguments);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/type_translator.mjs
var import_typescript42 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/ts_util.mjs
var import_typescript41 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/typescript_ast_factory.mjs
var import_typescript43 = __toESM(require("typescript"), 1);
var PureAnnotation;
(function(PureAnnotation2) {
  PureAnnotation2["CLOSURE"] = "* @pureOrBreakMyCode ";
  PureAnnotation2["TERSER"] = "@__PURE__";
})(PureAnnotation || (PureAnnotation = {}));
var UNARY_OPERATORS3 = {
  "+": import_typescript43.default.SyntaxKind.PlusToken,
  "-": import_typescript43.default.SyntaxKind.MinusToken,
  "!": import_typescript43.default.SyntaxKind.ExclamationToken
};
var BINARY_OPERATORS4 = {
  "&&": import_typescript43.default.SyntaxKind.AmpersandAmpersandToken,
  ">": import_typescript43.default.SyntaxKind.GreaterThanToken,
  ">=": import_typescript43.default.SyntaxKind.GreaterThanEqualsToken,
  "&": import_typescript43.default.SyntaxKind.AmpersandToken,
  "|": import_typescript43.default.SyntaxKind.BarToken,
  "/": import_typescript43.default.SyntaxKind.SlashToken,
  "==": import_typescript43.default.SyntaxKind.EqualsEqualsToken,
  "===": import_typescript43.default.SyntaxKind.EqualsEqualsEqualsToken,
  "<": import_typescript43.default.SyntaxKind.LessThanToken,
  "<=": import_typescript43.default.SyntaxKind.LessThanEqualsToken,
  "-": import_typescript43.default.SyntaxKind.MinusToken,
  "%": import_typescript43.default.SyntaxKind.PercentToken,
  "*": import_typescript43.default.SyntaxKind.AsteriskToken,
  "!=": import_typescript43.default.SyntaxKind.ExclamationEqualsToken,
  "!==": import_typescript43.default.SyntaxKind.ExclamationEqualsEqualsToken,
  "||": import_typescript43.default.SyntaxKind.BarBarToken,
  "+": import_typescript43.default.SyntaxKind.PlusToken,
  "??": import_typescript43.default.SyntaxKind.QuestionQuestionToken
};
var VAR_TYPES = {
  "const": import_typescript43.default.NodeFlags.Const,
  "let": import_typescript43.default.NodeFlags.Let,
  "var": import_typescript43.default.NodeFlags.None
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/transform/src/transform.mjs
var import_typescript46 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/util/src/visitor.mjs
var import_typescript45 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/common/src/evaluation.mjs
var import_typescript49 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/common/src/metadata.mjs
var import_typescript50 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/component/src/handler.mjs
var import_typescript89 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/incremental/semantic_graph/src/api.mjs
var import_typescript51 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/incremental/semantic_graph/src/type_parameters.mjs
var import_typescript52 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/scope/src/api.mjs
var ComponentScopeKind;
(function(ComponentScopeKind2) {
  ComponentScopeKind2[ComponentScopeKind2["NgModule"] = 0] = "NgModule";
  ComponentScopeKind2[ComponentScopeKind2["Standalone"] = 1] = "Standalone";
})(ComponentScopeKind || (ComponentScopeKind = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/scope/src/local.mjs
var import_typescript53 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/scope/src/typecheck.mjs
var import_typescript55 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/shared.mjs
var import_typescript59 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/initializer_functions.mjs
var import_typescript56 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/input_output_parse_options.mjs
var import_typescript57 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/input_function.mjs
var INPUT_INITIALIZER_FN = {
  functionName: "input",
  owningModule: "@angular/core",
  allowedAccessLevels: [
    ClassMemberAccessLevel.PublicWritable,
    ClassMemberAccessLevel.PublicReadonly,
    ClassMemberAccessLevel.Protected
  ]
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/model_function.mjs
var MODEL_INITIALIZER_FN = {
  functionName: "model",
  owningModule: "@angular/core",
  allowedAccessLevels: [
    ClassMemberAccessLevel.PublicWritable,
    ClassMemberAccessLevel.PublicReadonly,
    ClassMemberAccessLevel.Protected
  ]
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/output_function.mjs
var allowedAccessLevels = [
  ClassMemberAccessLevel.PublicWritable,
  ClassMemberAccessLevel.PublicReadonly,
  ClassMemberAccessLevel.Protected
];

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/query_functions.mjs
var import_typescript58 = __toESM(require("typescript"), 1);
var queryFunctionNames = [
  "viewChild",
  "viewChildren",
  "contentChild",
  "contentChildren"
];
var QUERY_INITIALIZER_FNS = queryFunctionNames.map((fnName) => ({
  functionName: fnName,
  owningModule: "@angular/core",
  allowedAccessLevels: [
    ClassMemberAccessLevel.PublicWritable,
    ClassMemberAccessLevel.PublicReadonly,
    ClassMemberAccessLevel.Protected,
    ClassMemberAccessLevel.Private
  ]
}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/directive/src/shared.mjs
var queryDecoratorNames = [
  "ViewChild",
  "ViewChildren",
  "ContentChild",
  "ContentChildren"
];
var QUERY_TYPES = new Set(queryDecoratorNames);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/ng_module/src/handler.mjs
var import_typescript61 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/ng_module/src/module_with_providers.mjs
var import_typescript60 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/component/src/resources.mjs
var import_typescript63 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/program_driver/src/api.mjs
var NgOriginalFile = Symbol("NgOriginalFile");
var UpdateMode;
(function(UpdateMode2) {
  UpdateMode2[UpdateMode2["Complete"] = 0] = "Complete";
  UpdateMode2[UpdateMode2["Incremental"] = 1] = "Incremental";
})(UpdateMode || (UpdateMode = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/program_driver/src/ts_create_program_driver.mjs
var import_typescript67 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/shims/src/adapter.mjs
var import_typescript64 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/shims/src/expando.mjs
var NgExtension = Symbol("NgExtension");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/api/checker.mjs
var OptimizeFor;
(function(OptimizeFor2) {
  OptimizeFor2[OptimizeFor2["SingleFile"] = 0] = "SingleFile";
  OptimizeFor2[OptimizeFor2["WholeProgram"] = 1] = "WholeProgram";
})(OptimizeFor || (OptimizeFor = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/api/completion.mjs
var CompletionKind;
(function(CompletionKind2) {
  CompletionKind2[CompletionKind2["Reference"] = 0] = "Reference";
  CompletionKind2[CompletionKind2["Variable"] = 1] = "Variable";
  CompletionKind2[CompletionKind2["LetDeclaration"] = 2] = "LetDeclaration";
})(CompletionKind || (CompletionKind = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/api/scope.mjs
var PotentialImportKind;
(function(PotentialImportKind2) {
  PotentialImportKind2[PotentialImportKind2["NgModule"] = 0] = "NgModule";
  PotentialImportKind2[PotentialImportKind2["Standalone"] = 1] = "Standalone";
})(PotentialImportKind || (PotentialImportKind = {}));
var PotentialImportMode;
(function(PotentialImportMode2) {
  PotentialImportMode2[PotentialImportMode2["Normal"] = 0] = "Normal";
  PotentialImportMode2[PotentialImportMode2["ForceDirect"] = 1] = "ForceDirect";
})(PotentialImportMode || (PotentialImportMode = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/api/symbols.mjs
var SymbolKind;
(function(SymbolKind2) {
  SymbolKind2[SymbolKind2["Input"] = 0] = "Input";
  SymbolKind2[SymbolKind2["Output"] = 1] = "Output";
  SymbolKind2[SymbolKind2["Binding"] = 2] = "Binding";
  SymbolKind2[SymbolKind2["Reference"] = 3] = "Reference";
  SymbolKind2[SymbolKind2["Variable"] = 4] = "Variable";
  SymbolKind2[SymbolKind2["Directive"] = 5] = "Directive";
  SymbolKind2[SymbolKind2["Element"] = 6] = "Element";
  SymbolKind2[SymbolKind2["Template"] = 7] = "Template";
  SymbolKind2[SymbolKind2["Expression"] = 8] = "Expression";
  SymbolKind2[SymbolKind2["DomBinding"] = 9] = "DomBinding";
  SymbolKind2[SymbolKind2["Pipe"] = 10] = "Pipe";
  SymbolKind2[SymbolKind2["LetDeclaration"] = 11] = "LetDeclaration";
})(SymbolKind || (SymbolKind = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/diagnostics/src/diagnostic.mjs
var import_typescript69 = __toESM(require("typescript"), 1);
var TemplateSourceFile = Symbol("TemplateSourceFile");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/diagnostics/src/id.mjs
var TEMPLATE_ID = Symbol("ngTemplateId");
var NEXT_TEMPLATE_ID = Symbol("ngNextTemplateId");

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/completion.mjs
var import_typescript71 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/comments.mjs
var import_typescript70 = __toESM(require("typescript"), 1);
var CommentTriviaType;
(function(CommentTriviaType2) {
  CommentTriviaType2["DIAGNOSTIC"] = "D";
  CommentTriviaType2["EXPRESSION_TYPE_IDENTIFIER"] = "T";
})(CommentTriviaType || (CommentTriviaType = {}));
var ExpressionIdentifier;
(function(ExpressionIdentifier2) {
  ExpressionIdentifier2["DIRECTIVE"] = "DIR";
  ExpressionIdentifier2["COMPONENT_COMPLETION"] = "COMPCOMP";
  ExpressionIdentifier2["EVENT_PARAMETER"] = "EP";
  ExpressionIdentifier2["VARIABLE_AS_EXPRESSION"] = "VAE";
})(ExpressionIdentifier || (ExpressionIdentifier = {}));
function addExpressionIdentifier(node, identifier) {
  import_typescript70.default.addSyntheticTrailingComment(
    node,
    import_typescript70.default.SyntaxKind.MultiLineCommentTrivia,
    `${CommentTriviaType.EXPRESSION_TYPE_IDENTIFIER}:${identifier}`,
    false
  );
}
var IGNORE_FOR_DIAGNOSTICS_MARKER = `${CommentTriviaType.DIAGNOSTIC}:ignore`;
function markIgnoreDiagnostics(node) {
  import_typescript70.default.addSyntheticTrailingComment(
    node,
    import_typescript70.default.SyntaxKind.MultiLineCommentTrivia,
    IGNORE_FOR_DIAGNOSTICS_MARKER,
    false
  );
}

// node_modules/@jridgewell/sourcemap-codec/dist/sourcemap-codec.mjs
var comma = ",".charCodeAt(0);
var semicolon = ";".charCodeAt(0);
var chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
var intToChar = new Uint8Array(64);
var charToInt = new Uint8Array(128);
for (let i = 0; i < chars.length; i++) {
  const c = chars.charCodeAt(i);
  intToChar[i] = c;
  charToInt[c] = i;
}
var bufLength = 1024 * 16;

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/context.mjs
var import_typescript85 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/dom.mjs
var import_typescript72 = __toESM(require("typescript"), 1);
var REGISTRY = new DomElementSchemaRegistry();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/environment.mjs
var import_typescript78 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/ts_util.mjs
var import_typescript73 = __toESM(require("typescript"), 1);
var SAFE_TO_CAST_WITHOUT_PARENS = /* @__PURE__ */ new Set([
  import_typescript73.default.SyntaxKind.ParenthesizedExpression,
  import_typescript73.default.SyntaxKind.Identifier,
  import_typescript73.default.SyntaxKind.CallExpression,
  import_typescript73.default.SyntaxKind.NonNullExpression,
  import_typescript73.default.SyntaxKind.ElementAccessExpression,
  import_typescript73.default.SyntaxKind.PropertyAccessExpression,
  import_typescript73.default.SyntaxKind.ArrayLiteralExpression,
  import_typescript73.default.SyntaxKind.ObjectLiteralExpression,
  import_typescript73.default.SyntaxKind.StringLiteral,
  import_typescript73.default.SyntaxKind.NumericLiteral,
  import_typescript73.default.SyntaxKind.TrueKeyword,
  import_typescript73.default.SyntaxKind.FalseKeyword,
  import_typescript73.default.SyntaxKind.NullKeyword,
  import_typescript73.default.SyntaxKind.UndefinedKeyword
]);
function tsCastToAny(expr) {
  if (!SAFE_TO_CAST_WITHOUT_PARENS.has(expr.kind)) {
    expr = import_typescript73.default.factory.createParenthesizedExpression(expr);
  }
  return import_typescript73.default.factory.createParenthesizedExpression(import_typescript73.default.factory.createAsExpression(expr, import_typescript73.default.factory.createKeywordTypeNode(import_typescript73.default.SyntaxKind.AnyKeyword)));
}
function tsCreateElement(tagName) {
  const createElement = import_typescript73.default.factory.createPropertyAccessExpression(
    import_typescript73.default.factory.createIdentifier("document"),
    "createElement"
  );
  return import_typescript73.default.factory.createCallExpression(
    createElement,
    void 0,
    [import_typescript73.default.factory.createStringLiteral(tagName)]
  );
}
function tsDeclareVariable(id, type) {
  addExpressionIdentifier(type, ExpressionIdentifier.VARIABLE_AS_EXPRESSION);
  const initializer = import_typescript73.default.factory.createAsExpression(import_typescript73.default.factory.createNonNullExpression(import_typescript73.default.factory.createNull()), type);
  const decl = import_typescript73.default.factory.createVariableDeclaration(
    id,
    void 0,
    void 0,
    initializer
  );
  return import_typescript73.default.factory.createVariableStatement(
    void 0,
    [decl]
  );
}
function tsCreateTypeQueryForCoercedInput(typeName, coercedInputName) {
  return import_typescript73.default.factory.createTypeQueryNode(import_typescript73.default.factory.createQualifiedName(typeName, `ngAcceptInputType_${coercedInputName}`));
}
function tsCreateVariable(id, initializer, flags = null) {
  const decl = import_typescript73.default.factory.createVariableDeclaration(
    id,
    void 0,
    void 0,
    initializer
  );
  return import_typescript73.default.factory.createVariableStatement(
    void 0,
    flags === null ? [decl] : import_typescript73.default.factory.createVariableDeclarationList([decl], flags)
  );
}
function tsCallMethod(receiver, methodName, args = []) {
  const methodAccess = import_typescript73.default.factory.createPropertyAccessExpression(receiver, methodName);
  return import_typescript73.default.factory.createCallExpression(
    methodAccess,
    void 0,
    args
  );
}
function tsNumericExpression2(value) {
  if (value < 0) {
    const operand = import_typescript73.default.factory.createNumericLiteral(Math.abs(value));
    return import_typescript73.default.factory.createPrefixUnaryExpression(import_typescript73.default.SyntaxKind.MinusToken, operand);
  }
  return import_typescript73.default.factory.createNumericLiteral(value);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_constructor.mjs
var import_typescript77 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/tcb_util.mjs
var import_typescript75 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_parameter_emitter.mjs
var import_typescript74 = __toESM(require("typescript"), 1);
var TypeParameterEmitter = class {
  constructor(typeParameters, reflector) {
    this.typeParameters = typeParameters;
    this.reflector = reflector;
  }
  canEmit(canEmitReference) {
    if (this.typeParameters === void 0) {
      return true;
    }
    return this.typeParameters.every((typeParam) => {
      return this.canEmitType(typeParam.constraint, canEmitReference) && this.canEmitType(typeParam.default, canEmitReference);
    });
  }
  canEmitType(type, canEmitReference) {
    if (type === void 0) {
      return true;
    }
    return canEmitType(type, (typeReference) => {
      const reference2 = this.resolveTypeReference(typeReference);
      if (reference2 === null) {
        return false;
      }
      if (reference2 instanceof Reference2) {
        return canEmitReference(reference2);
      }
      return true;
    });
  }
  emit(emitReference) {
    if (this.typeParameters === void 0) {
      return void 0;
    }
    const emitter = new TypeEmitter((type) => this.translateTypeReference(type, emitReference));
    return this.typeParameters.map((typeParam) => {
      const constraint = typeParam.constraint !== void 0 ? emitter.emitType(typeParam.constraint) : void 0;
      const defaultType = typeParam.default !== void 0 ? emitter.emitType(typeParam.default) : void 0;
      return import_typescript74.default.factory.updateTypeParameterDeclaration(typeParam, typeParam.modifiers, typeParam.name, constraint, defaultType);
    });
  }
  resolveTypeReference(type) {
    const target = import_typescript74.default.isIdentifier(type.typeName) ? type.typeName : type.typeName.right;
    const declaration = this.reflector.getDeclarationOfIdentifier(target);
    if (declaration === null || declaration.node === null) {
      return null;
    }
    if (this.isLocalTypeParameter(declaration.node)) {
      return type;
    }
    let owningModule = null;
    if (typeof declaration.viaModule === "string") {
      owningModule = {
        specifier: declaration.viaModule,
        resolutionContext: type.getSourceFile().fileName
      };
    }
    return new Reference2(declaration.node, declaration.viaModule === AmbientImport ? AmbientImport : owningModule);
  }
  translateTypeReference(type, emitReference) {
    const reference2 = this.resolveTypeReference(type);
    if (!(reference2 instanceof Reference2)) {
      return reference2;
    }
    const typeNode = emitReference(reference2);
    if (typeNode === null) {
      return null;
    }
    if (!import_typescript74.default.isTypeReferenceNode(typeNode)) {
      throw new Error(`Expected TypeReferenceNode for emitted reference, got ${import_typescript74.default.SyntaxKind[typeNode.kind]}.`);
    }
    return typeNode;
  }
  isLocalTypeParameter(decl) {
    return this.typeParameters.some((param) => param === decl);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/tcb_util.mjs
var TCB_FILE_IMPORT_GRAPH_PREPARE_IDENTIFIERS = [
  Identifiers.InputSignalBrandWriteType
];
var TcbInliningRequirement;
(function(TcbInliningRequirement2) {
  TcbInliningRequirement2[TcbInliningRequirement2["MustInline"] = 0] = "MustInline";
  TcbInliningRequirement2[TcbInliningRequirement2["ShouldInlineForGenericBounds"] = 1] = "ShouldInlineForGenericBounds";
  TcbInliningRequirement2[TcbInliningRequirement2["None"] = 2] = "None";
})(TcbInliningRequirement || (TcbInliningRequirement = {}));
function checkIfGenericTypeBoundsCanBeEmitted(node, reflector, env) {
  const emitter = new TypeParameterEmitter(node.typeParameters, reflector);
  return emitter.canEmit((ref) => env.canReferenceType(ref));
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_constructor.mjs
function requiresInlineTypeCtor(node, host, env) {
  return !checkIfGenericTypeBoundsCanBeEmitted(node, host, env);
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/oob.mjs
var import_typescript79 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/shim.mjs
var import_typescript80 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_check_block.mjs
var import_typescript83 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/diagnostics.mjs
var import_typescript81 = __toESM(require("typescript"), 1);
function wrapForDiagnostics(expr) {
  return import_typescript81.default.factory.createParenthesizedExpression(expr);
}
function wrapForTypeChecker(expr) {
  return import_typescript81.default.factory.createParenthesizedExpression(expr);
}
function addParseSpanInfo(node, span) {
  let commentText;
  if (span instanceof AbsoluteSourceSpan) {
    commentText = `${span.start},${span.end}`;
  } else {
    commentText = `${span.start.offset},${span.end.offset}`;
  }
  import_typescript81.default.addSyntheticTrailingComment(
    node,
    import_typescript81.default.SyntaxKind.MultiLineCommentTrivia,
    commentText,
    false
  );
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/expression.mjs
var import_typescript82 = __toESM(require("typescript"), 1);
var ANY_EXPRESSION = import_typescript82.default.factory.createAsExpression(import_typescript82.default.factory.createNumericLiteral("0"), import_typescript82.default.factory.createKeywordTypeNode(import_typescript82.default.SyntaxKind.AnyKeyword));
var UNDEFINED = import_typescript82.default.factory.createIdentifier("undefined");
var UNARY_OPS = /* @__PURE__ */ new Map([
  ["+", import_typescript82.default.SyntaxKind.PlusToken],
  ["-", import_typescript82.default.SyntaxKind.MinusToken]
]);
var BINARY_OPS = /* @__PURE__ */ new Map([
  ["+", import_typescript82.default.SyntaxKind.PlusToken],
  ["-", import_typescript82.default.SyntaxKind.MinusToken],
  ["<", import_typescript82.default.SyntaxKind.LessThanToken],
  [">", import_typescript82.default.SyntaxKind.GreaterThanToken],
  ["<=", import_typescript82.default.SyntaxKind.LessThanEqualsToken],
  [">=", import_typescript82.default.SyntaxKind.GreaterThanEqualsToken],
  ["==", import_typescript82.default.SyntaxKind.EqualsEqualsToken],
  ["===", import_typescript82.default.SyntaxKind.EqualsEqualsEqualsToken],
  ["*", import_typescript82.default.SyntaxKind.AsteriskToken],
  ["/", import_typescript82.default.SyntaxKind.SlashToken],
  ["%", import_typescript82.default.SyntaxKind.PercentToken],
  ["!=", import_typescript82.default.SyntaxKind.ExclamationEqualsToken],
  ["!==", import_typescript82.default.SyntaxKind.ExclamationEqualsEqualsToken],
  ["||", import_typescript82.default.SyntaxKind.BarBarToken],
  ["&&", import_typescript82.default.SyntaxKind.AmpersandAmpersandToken],
  ["&", import_typescript82.default.SyntaxKind.AmpersandToken],
  ["|", import_typescript82.default.SyntaxKind.BarToken],
  ["??", import_typescript82.default.SyntaxKind.QuestionQuestionToken]
]);
function astToTypescript(ast, maybeResolve, config) {
  const translator = new AstTranslator(maybeResolve, config);
  return translator.translate(ast);
}
var AstTranslator = class {
  constructor(maybeResolve, config) {
    this.maybeResolve = maybeResolve;
    this.config = config;
  }
  translate(ast) {
    if (ast instanceof ASTWithSource) {
      ast = ast.ast;
    }
    if (ast instanceof EmptyExpr) {
      const res = import_typescript82.default.factory.createIdentifier("undefined");
      addParseSpanInfo(res, ast.sourceSpan);
      return res;
    }
    const resolved = this.maybeResolve(ast);
    if (resolved !== null) {
      return resolved;
    }
    return ast.visit(this);
  }
  visitUnary(ast) {
    const expr = this.translate(ast.expr);
    const op = UNARY_OPS.get(ast.operator);
    if (op === void 0) {
      throw new Error(`Unsupported Unary.operator: ${ast.operator}`);
    }
    const node = wrapForDiagnostics(import_typescript82.default.factory.createPrefixUnaryExpression(op, expr));
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitBinary(ast) {
    const lhs = wrapForDiagnostics(this.translate(ast.left));
    const rhs = wrapForDiagnostics(this.translate(ast.right));
    const op = BINARY_OPS.get(ast.operation);
    if (op === void 0) {
      throw new Error(`Unsupported Binary.operation: ${ast.operation}`);
    }
    const node = import_typescript82.default.factory.createBinaryExpression(lhs, op, rhs);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitChain(ast) {
    const elements = ast.expressions.map((expr) => this.translate(expr));
    const node = wrapForDiagnostics(import_typescript82.default.factory.createCommaListExpression(elements));
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitConditional(ast) {
    const condExpr = this.translate(ast.condition);
    const trueExpr = this.translate(ast.trueExp);
    const falseExpr = wrapForTypeChecker(this.translate(ast.falseExp));
    const node = import_typescript82.default.factory.createParenthesizedExpression(import_typescript82.default.factory.createConditionalExpression(condExpr, void 0, trueExpr, void 0, falseExpr));
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitImplicitReceiver(ast) {
    throw new Error("Method not implemented.");
  }
  visitThisReceiver(ast) {
    throw new Error("Method not implemented.");
  }
  visitInterpolation(ast) {
    return ast.expressions.reduce((lhs, ast2) => import_typescript82.default.factory.createBinaryExpression(lhs, import_typescript82.default.SyntaxKind.PlusToken, wrapForTypeChecker(this.translate(ast2))), import_typescript82.default.factory.createStringLiteral(""));
  }
  visitKeyedRead(ast) {
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    const key = this.translate(ast.key);
    const node = import_typescript82.default.factory.createElementAccessExpression(receiver, key);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitKeyedWrite(ast) {
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    const left = import_typescript82.default.factory.createElementAccessExpression(receiver, this.translate(ast.key));
    const right = wrapForTypeChecker(this.translate(ast.value));
    const node = wrapForDiagnostics(import_typescript82.default.factory.createBinaryExpression(left, import_typescript82.default.SyntaxKind.EqualsToken, right));
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitLiteralArray(ast) {
    const elements = ast.expressions.map((expr) => this.translate(expr));
    const literal2 = import_typescript82.default.factory.createArrayLiteralExpression(elements);
    const node = this.config.strictLiteralTypes ? literal2 : tsCastToAny(literal2);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitLiteralMap(ast) {
    const properties = ast.keys.map(({ key }, idx) => {
      const value = this.translate(ast.values[idx]);
      return import_typescript82.default.factory.createPropertyAssignment(import_typescript82.default.factory.createStringLiteral(key), value);
    });
    const literal2 = import_typescript82.default.factory.createObjectLiteralExpression(properties, true);
    const node = this.config.strictLiteralTypes ? literal2 : tsCastToAny(literal2);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitLiteralPrimitive(ast) {
    let node;
    if (ast.value === void 0) {
      node = import_typescript82.default.factory.createIdentifier("undefined");
    } else if (ast.value === null) {
      node = import_typescript82.default.factory.createNull();
    } else if (typeof ast.value === "string") {
      node = import_typescript82.default.factory.createStringLiteral(ast.value);
    } else if (typeof ast.value === "number") {
      node = tsNumericExpression2(ast.value);
    } else if (typeof ast.value === "boolean") {
      node = ast.value ? import_typescript82.default.factory.createTrue() : import_typescript82.default.factory.createFalse();
    } else {
      throw Error(`Unsupported AST value of type ${typeof ast.value}`);
    }
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitNonNullAssert(ast) {
    const expr = wrapForDiagnostics(this.translate(ast.expression));
    const node = import_typescript82.default.factory.createNonNullExpression(expr);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitPipe(ast) {
    throw new Error("Method not implemented.");
  }
  visitPrefixNot(ast) {
    const expression = wrapForDiagnostics(this.translate(ast.expression));
    const node = import_typescript82.default.factory.createLogicalNot(expression);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitPropertyRead(ast) {
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    const name = import_typescript82.default.factory.createPropertyAccessExpression(receiver, ast.name);
    addParseSpanInfo(name, ast.nameSpan);
    const node = wrapForDiagnostics(name);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitPropertyWrite(ast) {
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    const left = import_typescript82.default.factory.createPropertyAccessExpression(receiver, ast.name);
    addParseSpanInfo(left, ast.nameSpan);
    const leftWithPath = wrapForDiagnostics(left);
    addParseSpanInfo(leftWithPath, ast.sourceSpan);
    const right = wrapForTypeChecker(this.translate(ast.value));
    const node = wrapForDiagnostics(import_typescript82.default.factory.createBinaryExpression(leftWithPath, import_typescript82.default.SyntaxKind.EqualsToken, right));
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitSafePropertyRead(ast) {
    let node;
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    if (this.config.strictSafeNavigationTypes) {
      const expr = import_typescript82.default.factory.createPropertyAccessExpression(import_typescript82.default.factory.createNonNullExpression(receiver), ast.name);
      addParseSpanInfo(expr, ast.nameSpan);
      node = import_typescript82.default.factory.createParenthesizedExpression(import_typescript82.default.factory.createConditionalExpression(ANY_EXPRESSION, void 0, expr, void 0, UNDEFINED));
    } else if (VeSafeLhsInferenceBugDetector.veWillInferAnyFor(ast)) {
      node = import_typescript82.default.factory.createPropertyAccessExpression(tsCastToAny(receiver), ast.name);
    } else {
      const expr = import_typescript82.default.factory.createPropertyAccessExpression(import_typescript82.default.factory.createNonNullExpression(receiver), ast.name);
      addParseSpanInfo(expr, ast.nameSpan);
      node = tsCastToAny(expr);
    }
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitSafeKeyedRead(ast) {
    const receiver = wrapForDiagnostics(this.translate(ast.receiver));
    const key = this.translate(ast.key);
    let node;
    if (this.config.strictSafeNavigationTypes) {
      const expr = import_typescript82.default.factory.createElementAccessExpression(import_typescript82.default.factory.createNonNullExpression(receiver), key);
      addParseSpanInfo(expr, ast.sourceSpan);
      node = import_typescript82.default.factory.createParenthesizedExpression(import_typescript82.default.factory.createConditionalExpression(ANY_EXPRESSION, void 0, expr, void 0, UNDEFINED));
    } else if (VeSafeLhsInferenceBugDetector.veWillInferAnyFor(ast)) {
      node = import_typescript82.default.factory.createElementAccessExpression(tsCastToAny(receiver), key);
    } else {
      const expr = import_typescript82.default.factory.createElementAccessExpression(import_typescript82.default.factory.createNonNullExpression(receiver), key);
      addParseSpanInfo(expr, ast.sourceSpan);
      node = tsCastToAny(expr);
    }
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitCall(ast) {
    const args = ast.args.map((expr2) => this.translate(expr2));
    let expr;
    const receiver = ast.receiver;
    if (receiver instanceof PropertyRead) {
      const resolved = this.maybeResolve(receiver);
      if (resolved !== null) {
        expr = resolved;
      } else {
        const propertyReceiver = wrapForDiagnostics(this.translate(receiver.receiver));
        expr = import_typescript82.default.factory.createPropertyAccessExpression(propertyReceiver, receiver.name);
        addParseSpanInfo(expr, receiver.nameSpan);
      }
    } else {
      expr = this.translate(receiver);
    }
    let node;
    if (ast.receiver instanceof SafePropertyRead || ast.receiver instanceof SafeKeyedRead) {
      node = this.convertToSafeCall(ast, expr, args);
    } else {
      node = import_typescript82.default.factory.createCallExpression(expr, void 0, args);
    }
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  visitSafeCall(ast) {
    const args = ast.args.map((expr2) => this.translate(expr2));
    const expr = wrapForDiagnostics(this.translate(ast.receiver));
    const node = this.convertToSafeCall(ast, expr, args);
    addParseSpanInfo(node, ast.sourceSpan);
    return node;
  }
  convertToSafeCall(ast, expr, args) {
    if (this.config.strictSafeNavigationTypes) {
      const call2 = import_typescript82.default.factory.createCallExpression(import_typescript82.default.factory.createNonNullExpression(expr), void 0, args);
      return import_typescript82.default.factory.createParenthesizedExpression(import_typescript82.default.factory.createConditionalExpression(ANY_EXPRESSION, void 0, call2, void 0, UNDEFINED));
    }
    if (VeSafeLhsInferenceBugDetector.veWillInferAnyFor(ast)) {
      return import_typescript82.default.factory.createCallExpression(tsCastToAny(expr), void 0, args);
    }
    return tsCastToAny(import_typescript82.default.factory.createCallExpression(import_typescript82.default.factory.createNonNullExpression(expr), void 0, args));
  }
};
var _VeSafeLhsInferenceBugDetector = class {
  static veWillInferAnyFor(ast) {
    const visitor = _VeSafeLhsInferenceBugDetector.SINGLETON;
    return ast instanceof Call ? ast.visit(visitor) : ast.receiver.visit(visitor);
  }
  visitUnary(ast) {
    return ast.expr.visit(this);
  }
  visitBinary(ast) {
    return ast.left.visit(this) || ast.right.visit(this);
  }
  visitChain(ast) {
    return false;
  }
  visitConditional(ast) {
    return ast.condition.visit(this) || ast.trueExp.visit(this) || ast.falseExp.visit(this);
  }
  visitCall(ast) {
    return true;
  }
  visitSafeCall(ast) {
    return false;
  }
  visitImplicitReceiver(ast) {
    return false;
  }
  visitThisReceiver(ast) {
    return false;
  }
  visitInterpolation(ast) {
    return ast.expressions.some((exp) => exp.visit(this));
  }
  visitKeyedRead(ast) {
    return false;
  }
  visitKeyedWrite(ast) {
    return false;
  }
  visitLiteralArray(ast) {
    return true;
  }
  visitLiteralMap(ast) {
    return true;
  }
  visitLiteralPrimitive(ast) {
    return false;
  }
  visitPipe(ast) {
    return true;
  }
  visitPrefixNot(ast) {
    return ast.expression.visit(this);
  }
  visitNonNullAssert(ast) {
    return ast.expression.visit(this);
  }
  visitPropertyRead(ast) {
    return false;
  }
  visitPropertyWrite(ast) {
    return false;
  }
  visitSafePropertyRead(ast) {
    return false;
  }
  visitSafeKeyedRead(ast) {
    return false;
  }
};
var VeSafeLhsInferenceBugDetector = _VeSafeLhsInferenceBugDetector;
(() => {
  _VeSafeLhsInferenceBugDetector.SINGLETON = new _VeSafeLhsInferenceBugDetector();
})();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_check_block.mjs
var TcbGenericContextBehavior;
(function(TcbGenericContextBehavior2) {
  TcbGenericContextBehavior2[TcbGenericContextBehavior2["UseEmitter"] = 0] = "UseEmitter";
  TcbGenericContextBehavior2[TcbGenericContextBehavior2["CopyClassNodes"] = 1] = "CopyClassNodes";
  TcbGenericContextBehavior2[TcbGenericContextBehavior2["FallbackToAny"] = 2] = "FallbackToAny";
})(TcbGenericContextBehavior || (TcbGenericContextBehavior = {}));
var TcbOp = class {
  circularFallback() {
    return INFER_TYPE_FOR_CIRCULAR_OP_EXPR;
  }
};
var TcbElementOp = class extends TcbOp {
  constructor(tcb, scope, element2) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.element = element2;
  }
  get optional() {
    return true;
  }
  execute() {
    const id = this.tcb.allocateId();
    const initializer = tsCreateElement(this.element.name);
    addParseSpanInfo(initializer, this.element.startSourceSpan || this.element.sourceSpan);
    this.scope.addStatement(tsCreateVariable(id, initializer));
    return id;
  }
};
var TcbTemplateVariableOp = class extends TcbOp {
  constructor(tcb, scope, template2, variable2) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.template = template2;
    this.variable = variable2;
  }
  get optional() {
    return false;
  }
  execute() {
    const ctx = this.scope.resolve(this.template);
    const id = this.tcb.allocateId();
    const initializer = import_typescript83.default.factory.createPropertyAccessExpression(
      ctx,
      this.variable.value || "$implicit"
    );
    addParseSpanInfo(id, this.variable.keySpan);
    let variable2;
    if (this.variable.valueSpan !== void 0) {
      addParseSpanInfo(initializer, this.variable.valueSpan);
      variable2 = tsCreateVariable(id, wrapForTypeChecker(initializer));
    } else {
      variable2 = tsCreateVariable(id, initializer);
    }
    addParseSpanInfo(variable2.declarationList.declarations[0], this.variable.sourceSpan);
    this.scope.addStatement(variable2);
    return id;
  }
};
var TcbTemplateContextOp = class extends TcbOp {
  constructor(tcb, scope) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.optional = true;
  }
  execute() {
    const ctx = this.tcb.allocateId();
    const type = import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword);
    this.scope.addStatement(tsDeclareVariable(ctx, type));
    return ctx;
  }
};
var TcbLetDeclarationOp = class extends TcbOp {
  constructor(tcb, scope, node) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.optional = false;
  }
  execute() {
    const id = this.tcb.allocateId();
    addParseSpanInfo(id, this.node.nameSpan);
    const value = tcbExpression(this.node.value, this.tcb, this.scope);
    const varStatement = tsCreateVariable(id, wrapForTypeChecker(value), import_typescript83.default.NodeFlags.Const);
    addParseSpanInfo(varStatement.declarationList.declarations[0], this.node.sourceSpan);
    this.scope.addStatement(varStatement);
    return id;
  }
};
var TcbTemplateBodyOp = class extends TcbOp {
  constructor(tcb, scope, template2) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.template = template2;
  }
  get optional() {
    return false;
  }
  execute() {
    const directiveGuards = [];
    const directives = this.tcb.boundTarget.getDirectivesOfNode(this.template);
    if (directives !== null) {
      for (const dir of directives) {
        const dirInstId = this.scope.resolve(this.template, dir);
        const dirId = this.tcb.env.reference(dir.ref);
        dir.ngTemplateGuards.forEach((guard2) => {
          const boundInput = this.template.inputs.find((i) => i.name === guard2.inputName) || this.template.templateAttrs.find((i) => i instanceof BoundAttribute && i.name === guard2.inputName);
          if (boundInput !== void 0) {
            const expr = tcbExpression(boundInput.value, this.tcb, this.scope);
            markIgnoreDiagnostics(expr);
            if (guard2.type === "binding") {
              directiveGuards.push(expr);
            } else {
              const guardInvoke = tsCallMethod(dirId, `ngTemplateGuard_${guard2.inputName}`, [
                dirInstId,
                expr
              ]);
              addParseSpanInfo(guardInvoke, boundInput.value.sourceSpan);
              directiveGuards.push(guardInvoke);
            }
          }
        });
        if (dir.hasNgTemplateContextGuard) {
          if (this.tcb.env.config.applyTemplateContextGuards) {
            const ctx = this.scope.resolve(this.template);
            const guardInvoke = tsCallMethod(dirId, "ngTemplateContextGuard", [dirInstId, ctx]);
            addParseSpanInfo(guardInvoke, this.template.sourceSpan);
            directiveGuards.push(guardInvoke);
          } else if (this.template.variables.length > 0 && this.tcb.env.config.suggestionsForSuboptimalTypeInference) {
            this.tcb.oobRecorder.suboptimalTypeInference(this.tcb.id, this.template.variables);
          }
        }
      }
    }
    let guard = null;
    if (directiveGuards.length > 0) {
      guard = directiveGuards.reduce((expr, dirGuard) => import_typescript83.default.factory.createBinaryExpression(expr, import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, dirGuard), directiveGuards.pop());
    }
    const tmplScope = Scope3.forNodes(this.tcb, this.scope, this.template, this.template.children, guard);
    const statements = tmplScope.render();
    if (statements.length === 0) {
      return null;
    }
    let tmplBlock = import_typescript83.default.factory.createBlock(statements);
    if (guard !== null) {
      tmplBlock = import_typescript83.default.factory.createIfStatement(
        guard,
        tmplBlock
      );
    }
    this.scope.addStatement(tmplBlock);
    return null;
  }
};
var TcbExpressionOp = class extends TcbOp {
  constructor(tcb, scope, expression) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.expression = expression;
  }
  get optional() {
    return false;
  }
  execute() {
    const expr = tcbExpression(this.expression, this.tcb, this.scope);
    this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(expr));
    return null;
  }
};
var TcbDirectiveTypeOpBase = class extends TcbOp {
  constructor(tcb, scope, node, dir) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.dir = dir;
  }
  get optional() {
    return true;
  }
  execute() {
    const dirRef = this.dir.ref;
    const rawType = this.tcb.env.referenceType(this.dir.ref);
    let type;
    if (this.dir.isGeneric === false || dirRef.node.typeParameters === void 0) {
      type = rawType;
    } else {
      if (!import_typescript83.default.isTypeReferenceNode(rawType)) {
        throw new Error(`Expected TypeReferenceNode when referencing the type for ${this.dir.ref.debugName}`);
      }
      const typeArguments = dirRef.node.typeParameters.map(() => import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
      type = import_typescript83.default.factory.createTypeReferenceNode(rawType.typeName, typeArguments);
    }
    const id = this.tcb.allocateId();
    addExpressionIdentifier(id, ExpressionIdentifier.DIRECTIVE);
    addParseSpanInfo(id, this.node.startSourceSpan || this.node.sourceSpan);
    this.scope.addStatement(tsDeclareVariable(id, type));
    return id;
  }
};
var TcbNonGenericDirectiveTypeOp = class extends TcbDirectiveTypeOpBase {
  execute() {
    const dirRef = this.dir.ref;
    if (this.dir.isGeneric) {
      throw new Error(`Assertion Error: expected ${dirRef.debugName} not to be generic.`);
    }
    return super.execute();
  }
};
var TcbGenericDirectiveTypeWithAnyParamsOp = class extends TcbDirectiveTypeOpBase {
  execute() {
    const dirRef = this.dir.ref;
    if (dirRef.node.typeParameters === void 0) {
      throw new Error(`Assertion Error: expected typeParameters when creating a declaration for ${dirRef.debugName}`);
    }
    return super.execute();
  }
};
var TcbReferenceOp = class extends TcbOp {
  constructor(tcb, scope, node, host, target) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.host = host;
    this.target = target;
    this.optional = true;
  }
  execute() {
    const id = this.tcb.allocateId();
    let initializer = this.target instanceof Template || this.target instanceof Element ? this.scope.resolve(this.target) : this.scope.resolve(this.host, this.target);
    if (this.target instanceof Element && !this.tcb.env.config.checkTypeOfDomReferences || !this.tcb.env.config.checkTypeOfNonDomReferences) {
      initializer = import_typescript83.default.factory.createAsExpression(initializer, import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
    } else if (this.target instanceof Template) {
      initializer = import_typescript83.default.factory.createAsExpression(initializer, import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
      initializer = import_typescript83.default.factory.createAsExpression(initializer, this.tcb.env.referenceExternalType("@angular/core", "TemplateRef", [DYNAMIC_TYPE]));
      initializer = import_typescript83.default.factory.createParenthesizedExpression(initializer);
    }
    addParseSpanInfo(initializer, this.node.sourceSpan);
    addParseSpanInfo(id, this.node.keySpan);
    this.scope.addStatement(tsCreateVariable(id, initializer));
    return id;
  }
};
var TcbInvalidReferenceOp = class extends TcbOp {
  constructor(tcb, scope) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.optional = true;
  }
  execute() {
    const id = this.tcb.allocateId();
    this.scope.addStatement(tsCreateVariable(id, ANY_EXPRESSION));
    return id;
  }
};
var TcbDirectiveCtorOp = class extends TcbOp {
  constructor(tcb, scope, node, dir) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.dir = dir;
  }
  get optional() {
    return true;
  }
  execute() {
    const id = this.tcb.allocateId();
    addExpressionIdentifier(id, ExpressionIdentifier.DIRECTIVE);
    addParseSpanInfo(id, this.node.startSourceSpan || this.node.sourceSpan);
    const genericInputs = /* @__PURE__ */ new Map();
    const boundAttrs = getBoundAttributes(this.dir, this.node);
    for (const attr of boundAttrs) {
      if (!this.tcb.env.config.checkTypeOfAttributes && attr.attribute instanceof TextAttribute) {
        continue;
      }
      for (const { fieldName, isTwoWayBinding } of attr.inputs) {
        if (genericInputs.has(fieldName)) {
          continue;
        }
        const expression = translateInput(attr.attribute, this.tcb, this.scope);
        genericInputs.set(fieldName, {
          type: "binding",
          field: fieldName,
          expression,
          sourceSpan: attr.attribute.sourceSpan,
          isTwoWayBinding
        });
      }
    }
    for (const { classPropertyName } of this.dir.inputs) {
      if (!genericInputs.has(classPropertyName)) {
        genericInputs.set(classPropertyName, { type: "unset", field: classPropertyName });
      }
    }
    const typeCtor = tcbCallTypeCtor(this.dir, this.tcb, Array.from(genericInputs.values()));
    markIgnoreDiagnostics(typeCtor);
    this.scope.addStatement(tsCreateVariable(id, typeCtor));
    return id;
  }
  circularFallback() {
    return new TcbDirectiveCtorCircularFallbackOp(this.tcb, this.scope, this.node, this.dir);
  }
};
var TcbDirectiveInputsOp = class extends TcbOp {
  constructor(tcb, scope, node, dir) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.dir = dir;
  }
  get optional() {
    return false;
  }
  execute() {
    let dirId = null;
    const boundAttrs = getBoundAttributes(this.dir, this.node);
    const seenRequiredInputs = /* @__PURE__ */ new Set();
    for (const attr of boundAttrs) {
      const expr = widenBinding(translateInput(attr.attribute, this.tcb, this.scope), this.tcb);
      let assignment = wrapForDiagnostics(expr);
      for (const { fieldName, required, transformType, isSignal, isTwoWayBinding } of attr.inputs) {
        let target;
        if (required) {
          seenRequiredInputs.add(fieldName);
        }
        if (this.dir.coercedInputFields.has(fieldName)) {
          let type;
          if (transformType !== null) {
            type = this.tcb.env.referenceTransplantedType(new TransplantedType(transformType));
          } else {
            const dirTypeRef = this.tcb.env.referenceType(this.dir.ref);
            if (!import_typescript83.default.isTypeReferenceNode(dirTypeRef)) {
              throw new Error(`Expected TypeReferenceNode from reference to ${this.dir.ref.debugName}`);
            }
            type = tsCreateTypeQueryForCoercedInput(dirTypeRef.typeName, fieldName);
          }
          const id = this.tcb.allocateId();
          this.scope.addStatement(tsDeclareVariable(id, type));
          target = id;
        } else if (this.dir.undeclaredInputFields.has(fieldName)) {
          continue;
        } else if (!this.tcb.env.config.honorAccessModifiersForInputBindings && this.dir.restrictedInputFields.has(fieldName)) {
          if (dirId === null) {
            dirId = this.scope.resolve(this.node, this.dir);
          }
          const id = this.tcb.allocateId();
          const dirTypeRef = this.tcb.env.referenceType(this.dir.ref);
          if (!import_typescript83.default.isTypeReferenceNode(dirTypeRef)) {
            throw new Error(`Expected TypeReferenceNode from reference to ${this.dir.ref.debugName}`);
          }
          const type = import_typescript83.default.factory.createIndexedAccessTypeNode(import_typescript83.default.factory.createTypeQueryNode(dirId), import_typescript83.default.factory.createLiteralTypeNode(import_typescript83.default.factory.createStringLiteral(fieldName)));
          const temp = tsDeclareVariable(id, type);
          this.scope.addStatement(temp);
          target = id;
        } else {
          if (dirId === null) {
            dirId = this.scope.resolve(this.node, this.dir);
          }
          target = this.dir.stringLiteralInputFields.has(fieldName) ? import_typescript83.default.factory.createElementAccessExpression(dirId, import_typescript83.default.factory.createStringLiteral(fieldName)) : import_typescript83.default.factory.createPropertyAccessExpression(dirId, import_typescript83.default.factory.createIdentifier(fieldName));
        }
        if (isSignal) {
          const inputSignalBrandWriteSymbol = this.tcb.env.referenceExternalSymbol(Identifiers.InputSignalBrandWriteType.moduleName, Identifiers.InputSignalBrandWriteType.name);
          if (!import_typescript83.default.isIdentifier(inputSignalBrandWriteSymbol) && !import_typescript83.default.isPropertyAccessExpression(inputSignalBrandWriteSymbol)) {
            throw new Error(`Expected identifier or property access for reference to ${Identifiers.InputSignalBrandWriteType.name}`);
          }
          target = import_typescript83.default.factory.createElementAccessExpression(target, inputSignalBrandWriteSymbol);
        }
        if (attr.attribute.keySpan !== void 0) {
          addParseSpanInfo(target, attr.attribute.keySpan);
        }
        if (isTwoWayBinding && this.tcb.env.config.allowSignalsInTwoWayBindings) {
          assignment = unwrapWritableSignal(assignment, this.tcb);
        }
        assignment = import_typescript83.default.factory.createBinaryExpression(target, import_typescript83.default.SyntaxKind.EqualsToken, assignment);
      }
      addParseSpanInfo(assignment, attr.attribute.sourceSpan);
      if (!this.tcb.env.config.checkTypeOfAttributes && attr.attribute instanceof TextAttribute) {
        markIgnoreDiagnostics(assignment);
      }
      this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(assignment));
    }
    this.checkRequiredInputs(seenRequiredInputs);
    return null;
  }
  checkRequiredInputs(seenRequiredInputs) {
    const missing = [];
    for (const input of this.dir.inputs) {
      if (input.required && !seenRequiredInputs.has(input.classPropertyName)) {
        missing.push(input.bindingPropertyName);
      }
    }
    if (missing.length > 0) {
      this.tcb.oobRecorder.missingRequiredInputs(this.tcb.id, this.node, this.dir.name, this.dir.isComponent, missing);
    }
  }
};
var TcbDirectiveCtorCircularFallbackOp = class extends TcbOp {
  constructor(tcb, scope, node, dir) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.dir = dir;
  }
  get optional() {
    return false;
  }
  execute() {
    const id = this.tcb.allocateId();
    const typeCtor = this.tcb.env.typeCtorFor(this.dir);
    const circularPlaceholder = import_typescript83.default.factory.createCallExpression(
      typeCtor,
      void 0,
      [import_typescript83.default.factory.createNonNullExpression(import_typescript83.default.factory.createNull())]
    );
    this.scope.addStatement(tsCreateVariable(id, circularPlaceholder));
    return id;
  }
};
var TcbDomSchemaCheckerOp = class extends TcbOp {
  constructor(tcb, element2, checkElement, claimedInputs) {
    super();
    this.tcb = tcb;
    this.element = element2;
    this.checkElement = checkElement;
    this.claimedInputs = claimedInputs;
  }
  get optional() {
    return false;
  }
  execute() {
    var _a2;
    if (this.checkElement) {
      this.tcb.domSchemaChecker.checkElement(this.tcb.id, this.element, this.tcb.schemas, this.tcb.hostIsStandalone);
    }
    for (const binding of this.element.inputs) {
      const isPropertyBinding = binding.type === BindingType.Property || binding.type === BindingType.TwoWay;
      if (isPropertyBinding && this.claimedInputs.has(binding.name)) {
        continue;
      }
      if (isPropertyBinding && binding.name !== "style" && binding.name !== "class") {
        const propertyName = (_a2 = ATTR_TO_PROP.get(binding.name)) != null ? _a2 : binding.name;
        this.tcb.domSchemaChecker.checkProperty(this.tcb.id, this.element, propertyName, binding.sourceSpan, this.tcb.schemas, this.tcb.hostIsStandalone);
      }
    }
    return null;
  }
};
var TcbControlFlowContentProjectionOp = class extends TcbOp {
  constructor(tcb, element2, ngContentSelectors, componentName) {
    super();
    this.tcb = tcb;
    this.element = element2;
    this.ngContentSelectors = ngContentSelectors;
    this.componentName = componentName;
    this.optional = false;
    this.category = tcb.env.config.controlFlowPreventingContentProjection === "error" ? import_typescript83.default.DiagnosticCategory.Error : import_typescript83.default.DiagnosticCategory.Warning;
  }
  execute() {
    const controlFlowToCheck = this.findPotentialControlFlowNodes();
    if (controlFlowToCheck.length > 0) {
      const matcher = new SelectorMatcher();
      for (const selector of this.ngContentSelectors) {
        if (selector !== "*") {
          matcher.addSelectables(CssSelector.parse(selector), selector);
        }
      }
      for (const root of controlFlowToCheck) {
        for (const child of root.children) {
          if (child instanceof Element || child instanceof Template) {
            matcher.match(createCssSelectorFromNode(child), (_, originalSelector) => {
              this.tcb.oobRecorder.controlFlowPreventingContentProjection(this.tcb.id, this.category, child, this.componentName, originalSelector, root, this.tcb.hostPreserveWhitespaces);
            });
          }
        }
      }
    }
    return null;
  }
  findPotentialControlFlowNodes() {
    const result = [];
    for (const child of this.element.children) {
      if (child instanceof ForLoopBlock) {
        if (this.shouldCheck(child)) {
          result.push(child);
        }
        if (child.empty !== null && this.shouldCheck(child.empty)) {
          result.push(child.empty);
        }
      } else if (child instanceof IfBlock) {
        for (const branch of child.branches) {
          if (this.shouldCheck(branch)) {
            result.push(branch);
          }
        }
      } else if (child instanceof SwitchBlock) {
        for (const current of child.cases) {
          if (this.shouldCheck(current)) {
            result.push(current);
          }
        }
      }
    }
    return result;
  }
  shouldCheck(node) {
    if (node.children.length < 2) {
      return false;
    }
    let hasSeenRootNode = false;
    for (const child of node.children) {
      if (!(child instanceof Text) || this.tcb.hostPreserveWhitespaces || child.value.trim().length > 0) {
        if (hasSeenRootNode) {
          return true;
        }
        hasSeenRootNode = true;
      }
    }
    return false;
  }
};
var ATTR_TO_PROP = new Map(Object.entries({
  "class": "className",
  "for": "htmlFor",
  "formaction": "formAction",
  "innerHtml": "innerHTML",
  "readonly": "readOnly",
  "tabindex": "tabIndex"
}));
var TcbUnclaimedInputsOp = class extends TcbOp {
  constructor(tcb, scope, element2, claimedInputs) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.element = element2;
    this.claimedInputs = claimedInputs;
  }
  get optional() {
    return false;
  }
  execute() {
    var _a2;
    let elId = null;
    for (const binding of this.element.inputs) {
      const isPropertyBinding = binding.type === BindingType.Property || binding.type === BindingType.TwoWay;
      if (isPropertyBinding && this.claimedInputs.has(binding.name)) {
        continue;
      }
      const expr = widenBinding(tcbExpression(binding.value, this.tcb, this.scope), this.tcb);
      if (this.tcb.env.config.checkTypeOfDomBindings && isPropertyBinding) {
        if (binding.name !== "style" && binding.name !== "class") {
          if (elId === null) {
            elId = this.scope.resolve(this.element);
          }
          const propertyName = (_a2 = ATTR_TO_PROP.get(binding.name)) != null ? _a2 : binding.name;
          const prop = import_typescript83.default.factory.createElementAccessExpression(elId, import_typescript83.default.factory.createStringLiteral(propertyName));
          const stmt = import_typescript83.default.factory.createBinaryExpression(prop, import_typescript83.default.SyntaxKind.EqualsToken, wrapForDiagnostics(expr));
          addParseSpanInfo(stmt, binding.sourceSpan);
          this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(stmt));
        } else {
          this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(expr));
        }
      } else {
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(expr));
      }
    }
    return null;
  }
};
var TcbDirectiveOutputsOp = class extends TcbOp {
  constructor(tcb, scope, node, dir) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.node = node;
    this.dir = dir;
  }
  get optional() {
    return false;
  }
  execute() {
    let dirId = null;
    const outputs = this.dir.outputs;
    for (const output of this.node.outputs) {
      if (output.type === ParsedEventType.Animation || !outputs.hasBindingPropertyName(output.name)) {
        continue;
      }
      if (this.tcb.env.config.checkTypeOfOutputEvents && output.name.endsWith("Change")) {
        const inputName = output.name.slice(0, -6);
        isSplitTwoWayBinding(inputName, output, this.node.inputs, this.tcb);
      }
      const field = outputs.getByBindingPropertyName(output.name)[0].classPropertyName;
      if (dirId === null) {
        dirId = this.scope.resolve(this.node, this.dir);
      }
      const outputField = import_typescript83.default.factory.createElementAccessExpression(dirId, import_typescript83.default.factory.createStringLiteral(field));
      addParseSpanInfo(outputField, output.keySpan);
      if (this.tcb.env.config.checkTypeOfOutputEvents) {
        const handler = tcbCreateEventHandler(output, this.tcb, this.scope, 0);
        const subscribeFn = import_typescript83.default.factory.createPropertyAccessExpression(outputField, "subscribe");
        const call2 = import_typescript83.default.factory.createCallExpression(subscribeFn, void 0, [
          handler
        ]);
        addParseSpanInfo(call2, output.sourceSpan);
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(call2));
      } else {
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(outputField));
        const handler = tcbCreateEventHandler(output, this.tcb, this.scope, 1);
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(handler));
      }
    }
    return null;
  }
};
var TcbUnclaimedOutputsOp = class extends TcbOp {
  constructor(tcb, scope, element2, claimedOutputs) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.element = element2;
    this.claimedOutputs = claimedOutputs;
  }
  get optional() {
    return false;
  }
  execute() {
    let elId = null;
    for (const output of this.element.outputs) {
      if (this.claimedOutputs.has(output.name)) {
        continue;
      }
      if (this.tcb.env.config.checkTypeOfOutputEvents && output.name.endsWith("Change")) {
        const inputName = output.name.slice(0, -6);
        if (isSplitTwoWayBinding(inputName, output, this.element.inputs, this.tcb)) {
          continue;
        }
      }
      if (output.type === ParsedEventType.Animation) {
        const eventType = this.tcb.env.config.checkTypeOfAnimationEvents ? this.tcb.env.referenceExternalType("@angular/animations", "AnimationEvent") : 1;
        const handler = tcbCreateEventHandler(output, this.tcb, this.scope, eventType);
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(handler));
      } else if (this.tcb.env.config.checkTypeOfDomEvents) {
        const handler = tcbCreateEventHandler(output, this.tcb, this.scope, 0);
        if (elId === null) {
          elId = this.scope.resolve(this.element);
        }
        const propertyAccess = import_typescript83.default.factory.createPropertyAccessExpression(elId, "addEventListener");
        addParseSpanInfo(propertyAccess, output.keySpan);
        const call2 = import_typescript83.default.factory.createCallExpression(
          propertyAccess,
          void 0,
          [import_typescript83.default.factory.createStringLiteral(output.name), handler]
        );
        addParseSpanInfo(call2, output.sourceSpan);
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(call2));
      } else {
        const handler = tcbCreateEventHandler(output, this.tcb, this.scope, 1);
        this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(handler));
      }
    }
    return null;
  }
};
var TcbComponentContextCompletionOp = class extends TcbOp {
  constructor(scope) {
    super();
    this.scope = scope;
    this.optional = false;
  }
  execute() {
    const ctx = import_typescript83.default.factory.createThis();
    const ctxDot = import_typescript83.default.factory.createPropertyAccessExpression(ctx, "");
    markIgnoreDiagnostics(ctxDot);
    addExpressionIdentifier(ctxDot, ExpressionIdentifier.COMPONENT_COMPLETION);
    this.scope.addStatement(import_typescript83.default.factory.createExpressionStatement(ctxDot));
    return null;
  }
};
var TcbBlockVariableOp = class extends TcbOp {
  constructor(tcb, scope, initializer, variable2) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.initializer = initializer;
    this.variable = variable2;
  }
  get optional() {
    return false;
  }
  execute() {
    const id = this.tcb.allocateId();
    addParseSpanInfo(id, this.variable.keySpan);
    const variable2 = tsCreateVariable(id, wrapForTypeChecker(this.initializer));
    addParseSpanInfo(variable2.declarationList.declarations[0], this.variable.sourceSpan);
    this.scope.addStatement(variable2);
    return id;
  }
};
var TcbBlockImplicitVariableOp = class extends TcbOp {
  constructor(tcb, scope, type, variable2) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.type = type;
    this.variable = variable2;
    this.optional = true;
  }
  execute() {
    const id = this.tcb.allocateId();
    addParseSpanInfo(id, this.variable.keySpan);
    const variable2 = tsDeclareVariable(id, this.type);
    addParseSpanInfo(variable2.declarationList.declarations[0], this.variable.sourceSpan);
    this.scope.addStatement(variable2);
    return id;
  }
};
var TcbIfOp = class extends TcbOp {
  constructor(tcb, scope, block) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.block = block;
    this.expressionScopes = /* @__PURE__ */ new Map();
  }
  get optional() {
    return false;
  }
  execute() {
    const root = this.generateBranch(0);
    root && this.scope.addStatement(root);
    return null;
  }
  generateBranch(index) {
    const branch = this.block.branches[index];
    if (!branch) {
      return void 0;
    }
    if (branch.expression === null) {
      const branchScope = this.getBranchScope(this.scope, branch, index);
      return import_typescript83.default.factory.createBlock(branchScope.render());
    }
    const outerScope = Scope3.forNodes(this.tcb, this.scope, branch, [], null);
    outerScope.render().forEach((stmt) => this.scope.addStatement(stmt));
    this.expressionScopes.set(branch, outerScope);
    let expression = tcbExpression(branch.expression, this.tcb, this.scope);
    if (branch.expressionAlias !== null) {
      expression = import_typescript83.default.factory.createBinaryExpression(import_typescript83.default.factory.createParenthesizedExpression(expression), import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, outerScope.resolve(branch.expressionAlias));
    }
    const bodyScope = this.getBranchScope(outerScope, branch, index);
    return import_typescript83.default.factory.createIfStatement(expression, import_typescript83.default.factory.createBlock(bodyScope.render()), this.generateBranch(index + 1));
  }
  getBranchScope(parentScope, branch, index) {
    const checkBody = this.tcb.env.config.checkControlFlowBodies;
    return Scope3.forNodes(this.tcb, parentScope, null, checkBody ? branch.children : [], checkBody ? this.generateBranchGuard(index) : null);
  }
  generateBranchGuard(index) {
    let guard = null;
    for (let i = 0; i <= index; i++) {
      const branch = this.block.branches[i];
      if (branch.expression === null) {
        continue;
      }
      if (!this.expressionScopes.has(branch)) {
        throw new Error(`Could not determine expression scope of branch at index ${i}`);
      }
      const expressionScope = this.expressionScopes.get(branch);
      let expression;
      expression = tcbExpression(branch.expression, this.tcb, expressionScope);
      if (branch.expressionAlias !== null) {
        expression = import_typescript83.default.factory.createBinaryExpression(import_typescript83.default.factory.createParenthesizedExpression(expression), import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, expressionScope.resolve(branch.expressionAlias));
      }
      markIgnoreDiagnostics(expression);
      const comparisonExpression = i === index ? expression : import_typescript83.default.factory.createPrefixUnaryExpression(import_typescript83.default.SyntaxKind.ExclamationToken, import_typescript83.default.factory.createParenthesizedExpression(expression));
      guard = guard === null ? comparisonExpression : import_typescript83.default.factory.createBinaryExpression(guard, import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, comparisonExpression);
    }
    return guard;
  }
};
var TcbSwitchOp = class extends TcbOp {
  constructor(tcb, scope, block) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.block = block;
  }
  get optional() {
    return false;
  }
  execute() {
    const switchExpression = tcbExpression(this.block.expression, this.tcb, this.scope);
    const clauses = this.block.cases.map((current) => {
      const checkBody = this.tcb.env.config.checkControlFlowBodies;
      const clauseScope = Scope3.forNodes(this.tcb, this.scope, null, checkBody ? current.children : [], checkBody ? this.generateGuard(current, switchExpression) : null);
      const statements = [...clauseScope.render(), import_typescript83.default.factory.createBreakStatement()];
      return current.expression === null ? import_typescript83.default.factory.createDefaultClause(statements) : import_typescript83.default.factory.createCaseClause(tcbExpression(current.expression, this.tcb, clauseScope), statements);
    });
    this.scope.addStatement(import_typescript83.default.factory.createSwitchStatement(switchExpression, import_typescript83.default.factory.createCaseBlock(clauses)));
    return null;
  }
  generateGuard(node, switchValue) {
    if (node.expression !== null) {
      const expression = tcbExpression(node.expression, this.tcb, this.scope);
      markIgnoreDiagnostics(expression);
      return import_typescript83.default.factory.createBinaryExpression(switchValue, import_typescript83.default.SyntaxKind.EqualsEqualsEqualsToken, expression);
    }
    let guard = null;
    for (const current of this.block.cases) {
      if (current.expression === null) {
        continue;
      }
      const expression = tcbExpression(current.expression, this.tcb, this.scope);
      markIgnoreDiagnostics(expression);
      const comparison = import_typescript83.default.factory.createBinaryExpression(switchValue, import_typescript83.default.SyntaxKind.ExclamationEqualsEqualsToken, expression);
      if (guard === null) {
        guard = comparison;
      } else {
        guard = import_typescript83.default.factory.createBinaryExpression(guard, import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, comparison);
      }
    }
    return guard;
  }
};
var TcbForOfOp = class extends TcbOp {
  constructor(tcb, scope, block) {
    super();
    this.tcb = tcb;
    this.scope = scope;
    this.block = block;
  }
  get optional() {
    return false;
  }
  execute() {
    const loopScope = Scope3.forNodes(this.tcb, this.scope, this.block, this.tcb.env.config.checkControlFlowBodies ? this.block.children : [], null);
    const initializerId = loopScope.resolve(this.block.item);
    if (!import_typescript83.default.isIdentifier(initializerId)) {
      throw new Error(`Could not resolve for loop variable ${this.block.item.name} to an identifier`);
    }
    const initializer = import_typescript83.default.factory.createVariableDeclarationList([import_typescript83.default.factory.createVariableDeclaration(initializerId)], import_typescript83.default.NodeFlags.Const);
    addParseSpanInfo(initializer, this.block.item.keySpan);
    const expression = import_typescript83.default.factory.createNonNullExpression(tcbExpression(this.block.expression, this.tcb, this.scope));
    const trackTranslator = new TcbForLoopTrackTranslator(this.tcb, loopScope, this.block);
    const trackExpression = trackTranslator.translate(this.block.trackBy);
    const statements = [
      ...loopScope.render(),
      import_typescript83.default.factory.createExpressionStatement(trackExpression)
    ];
    this.scope.addStatement(import_typescript83.default.factory.createForOfStatement(void 0, initializer, expression, import_typescript83.default.factory.createBlock(statements)));
    return null;
  }
};
var INFER_TYPE_FOR_CIRCULAR_OP_EXPR = import_typescript83.default.factory.createNonNullExpression(import_typescript83.default.factory.createNull());
var _Scope = class {
  constructor(tcb, parent = null, guard = null) {
    this.tcb = tcb;
    this.parent = parent;
    this.guard = guard;
    this.opQueue = [];
    this.elementOpMap = /* @__PURE__ */ new Map();
    this.directiveOpMap = /* @__PURE__ */ new Map();
    this.referenceOpMap = /* @__PURE__ */ new Map();
    this.templateCtxOpMap = /* @__PURE__ */ new Map();
    this.varMap = /* @__PURE__ */ new Map();
    this.letDeclOpMap = /* @__PURE__ */ new Map();
    this.statements = [];
  }
  static forNodes(tcb, parentScope, scopedNode, children, guard) {
    const scope = new _Scope(tcb, parentScope, guard);
    if (parentScope === null && tcb.env.config.enableTemplateTypeChecker) {
      scope.opQueue.push(new TcbComponentContextCompletionOp(scope));
    }
    if (scopedNode instanceof Template) {
      const varMap = /* @__PURE__ */ new Map();
      for (const v of scopedNode.variables) {
        if (!varMap.has(v.name)) {
          varMap.set(v.name, v);
        } else {
          const firstDecl = varMap.get(v.name);
          tcb.oobRecorder.duplicateTemplateVar(tcb.id, v, firstDecl);
        }
        this.registerVariable(scope, v, new TcbTemplateVariableOp(tcb, scope, scopedNode, v));
      }
    } else if (scopedNode instanceof IfBlockBranch) {
      const { expression, expressionAlias } = scopedNode;
      if (expression !== null && expressionAlias !== null) {
        this.registerVariable(scope, expressionAlias, new TcbBlockVariableOp(tcb, scope, tcbExpression(expression, tcb, scope), expressionAlias));
      }
    } else if (scopedNode instanceof ForLoopBlock) {
      const loopInitializer = tcb.allocateId();
      addParseSpanInfo(loopInitializer, scopedNode.item.sourceSpan);
      scope.varMap.set(scopedNode.item, loopInitializer);
      for (const variable2 of scopedNode.contextVariables) {
        if (!this.forLoopContextVariableTypes.has(variable2.value)) {
          throw new Error(`Unrecognized for loop context variable ${variable2.name}`);
        }
        const type = import_typescript83.default.factory.createKeywordTypeNode(this.forLoopContextVariableTypes.get(variable2.value));
        this.registerVariable(scope, variable2, new TcbBlockImplicitVariableOp(tcb, scope, type, variable2));
      }
    }
    for (const node of children) {
      scope.appendNode(node);
    }
    for (const variable2 of scope.varMap.keys()) {
      _Scope.checkConflictingLet(scope, variable2);
    }
    for (const ref of scope.referenceOpMap.keys()) {
      _Scope.checkConflictingLet(scope, ref);
    }
    return scope;
  }
  static registerVariable(scope, variable2, op) {
    const opIndex = scope.opQueue.push(op) - 1;
    scope.varMap.set(variable2, opIndex);
  }
  resolve(node, directive) {
    const res = this.resolveLocal(node, directive);
    if (res !== null) {
      let clone;
      if (import_typescript83.default.isIdentifier(res)) {
        clone = import_typescript83.default.factory.createIdentifier(res.text);
      } else if (import_typescript83.default.isNonNullExpression(res)) {
        clone = import_typescript83.default.factory.createNonNullExpression(res.expression);
      } else {
        throw new Error(`Could not resolve ${node} to an Identifier or a NonNullExpression`);
      }
      import_typescript83.default.setOriginalNode(clone, res);
      clone.parent = clone.parent;
      return import_typescript83.default.setSyntheticTrailingComments(clone, []);
    } else if (this.parent !== null) {
      return this.parent.resolve(node, directive);
    } else {
      throw new Error(`Could not resolve ${node} / ${directive}`);
    }
  }
  addStatement(stmt) {
    this.statements.push(stmt);
  }
  render() {
    for (let i = 0; i < this.opQueue.length; i++) {
      const skipOptional = !this.tcb.env.config.enableTemplateTypeChecker;
      this.executeOp(i, skipOptional);
    }
    return this.statements;
  }
  guards() {
    let parentGuards = null;
    if (this.parent !== null) {
      parentGuards = this.parent.guards();
    }
    if (this.guard === null) {
      return parentGuards;
    } else if (parentGuards === null) {
      return this.guard;
    } else {
      return import_typescript83.default.factory.createBinaryExpression(parentGuards, import_typescript83.default.SyntaxKind.AmpersandAmpersandToken, this.guard);
    }
  }
  isLocal(node) {
    if (node instanceof Variable) {
      return this.varMap.has(node);
    }
    if (node instanceof LetDeclaration) {
      return this.letDeclOpMap.has(node.name);
    }
    return this.referenceOpMap.has(node);
  }
  resolveLocal(ref, directive) {
    if (ref instanceof Reference && this.referenceOpMap.has(ref)) {
      return this.resolveOp(this.referenceOpMap.get(ref));
    } else if (ref instanceof LetDeclaration && this.letDeclOpMap.has(ref.name)) {
      return this.resolveOp(this.letDeclOpMap.get(ref.name).opIndex);
    } else if (ref instanceof Variable && this.varMap.has(ref)) {
      const opIndexOrNode = this.varMap.get(ref);
      return typeof opIndexOrNode === "number" ? this.resolveOp(opIndexOrNode) : opIndexOrNode;
    } else if (ref instanceof Template && directive === void 0 && this.templateCtxOpMap.has(ref)) {
      return this.resolveOp(this.templateCtxOpMap.get(ref));
    } else if ((ref instanceof Element || ref instanceof Template) && directive !== void 0 && this.directiveOpMap.has(ref)) {
      const dirMap = this.directiveOpMap.get(ref);
      if (dirMap.has(directive)) {
        return this.resolveOp(dirMap.get(directive));
      } else {
        return null;
      }
    } else if (ref instanceof Element && this.elementOpMap.has(ref)) {
      return this.resolveOp(this.elementOpMap.get(ref));
    } else {
      return null;
    }
  }
  resolveOp(opIndex) {
    const res = this.executeOp(opIndex, false);
    if (res === null) {
      throw new Error(`Error resolving operation, got null`);
    }
    return res;
  }
  executeOp(opIndex, skipOptional) {
    const op = this.opQueue[opIndex];
    if (!(op instanceof TcbOp)) {
      return op;
    }
    if (skipOptional && op.optional) {
      return null;
    }
    this.opQueue[opIndex] = op.circularFallback();
    const res = op.execute();
    this.opQueue[opIndex] = res;
    return res;
  }
  appendNode(node) {
    if (node instanceof Element) {
      const opIndex = this.opQueue.push(new TcbElementOp(this.tcb, this, node)) - 1;
      this.elementOpMap.set(node, opIndex);
      if (this.tcb.env.config.controlFlowPreventingContentProjection !== "suppress") {
        this.appendContentProjectionCheckOp(node);
      }
      this.appendDirectivesAndInputsOfNode(node);
      this.appendOutputsOfNode(node);
      this.appendChildren(node);
      this.checkAndAppendReferencesOfNode(node);
    } else if (node instanceof Template) {
      this.appendDirectivesAndInputsOfNode(node);
      this.appendOutputsOfNode(node);
      const ctxIndex = this.opQueue.push(new TcbTemplateContextOp(this.tcb, this)) - 1;
      this.templateCtxOpMap.set(node, ctxIndex);
      if (this.tcb.env.config.checkTemplateBodies) {
        this.opQueue.push(new TcbTemplateBodyOp(this.tcb, this, node));
      } else if (this.tcb.env.config.alwaysCheckSchemaInTemplateBodies) {
        this.appendDeepSchemaChecks(node.children);
      }
      this.checkAndAppendReferencesOfNode(node);
    } else if (node instanceof DeferredBlock) {
      this.appendDeferredBlock(node);
    } else if (node instanceof IfBlock) {
      this.opQueue.push(new TcbIfOp(this.tcb, this, node));
    } else if (node instanceof SwitchBlock) {
      this.opQueue.push(new TcbSwitchOp(this.tcb, this, node));
    } else if (node instanceof ForLoopBlock) {
      this.opQueue.push(new TcbForOfOp(this.tcb, this, node));
      node.empty && this.tcb.env.config.checkControlFlowBodies && this.appendChildren(node.empty);
    } else if (node instanceof BoundText) {
      this.opQueue.push(new TcbExpressionOp(this.tcb, this, node.value));
    } else if (node instanceof Icu) {
      this.appendIcuExpressions(node);
    } else if (node instanceof Content) {
      this.appendChildren(node);
    } else if (node instanceof LetDeclaration) {
      const opIndex = this.opQueue.push(new TcbLetDeclarationOp(this.tcb, this, node)) - 1;
      if (this.isLocal(node)) {
        this.tcb.oobRecorder.conflictingDeclaration(this.tcb.id, node);
      } else {
        this.letDeclOpMap.set(node.name, { opIndex, node });
      }
    }
  }
  appendChildren(node) {
    for (const child of node.children) {
      this.appendNode(child);
    }
  }
  checkAndAppendReferencesOfNode(node) {
    for (const ref of node.references) {
      const target = this.tcb.boundTarget.getReferenceTarget(ref);
      let ctxIndex;
      if (target === null) {
        this.tcb.oobRecorder.missingReferenceTarget(this.tcb.id, ref);
        ctxIndex = this.opQueue.push(new TcbInvalidReferenceOp(this.tcb, this)) - 1;
      } else if (target instanceof Template || target instanceof Element) {
        ctxIndex = this.opQueue.push(new TcbReferenceOp(this.tcb, this, ref, node, target)) - 1;
      } else {
        ctxIndex = this.opQueue.push(new TcbReferenceOp(this.tcb, this, ref, node, target.directive)) - 1;
      }
      this.referenceOpMap.set(ref, ctxIndex);
    }
  }
  appendDirectivesAndInputsOfNode(node) {
    const claimedInputs = /* @__PURE__ */ new Set();
    const directives = this.tcb.boundTarget.getDirectivesOfNode(node);
    if (directives === null || directives.length === 0) {
      if (node instanceof Element) {
        this.opQueue.push(new TcbUnclaimedInputsOp(this.tcb, this, node, claimedInputs));
        this.opQueue.push(new TcbDomSchemaCheckerOp(this.tcb, node, true, claimedInputs));
      }
      return;
    } else {
      if (node instanceof Element) {
        const isDeferred = this.tcb.boundTarget.isDeferred(node);
        if (!isDeferred && directives.some((dirMeta) => dirMeta.isExplicitlyDeferred)) {
          this.tcb.oobRecorder.deferredComponentUsedEagerly(this.tcb.id, node);
        }
      }
    }
    const dirMap = /* @__PURE__ */ new Map();
    for (const dir of directives) {
      let directiveOp;
      const host = this.tcb.env.reflector;
      const dirRef = dir.ref;
      if (!dir.isGeneric) {
        directiveOp = new TcbNonGenericDirectiveTypeOp(this.tcb, this, node, dir);
      } else if (!requiresInlineTypeCtor(dirRef.node, host, this.tcb.env) || this.tcb.env.config.useInlineTypeConstructors) {
        directiveOp = new TcbDirectiveCtorOp(this.tcb, this, node, dir);
      } else {
        directiveOp = new TcbGenericDirectiveTypeWithAnyParamsOp(this.tcb, this, node, dir);
      }
      const dirIndex = this.opQueue.push(directiveOp) - 1;
      dirMap.set(dir, dirIndex);
      this.opQueue.push(new TcbDirectiveInputsOp(this.tcb, this, node, dir));
    }
    this.directiveOpMap.set(node, dirMap);
    if (node instanceof Element) {
      for (const dir of directives) {
        for (const propertyName of dir.inputs.propertyNames) {
          claimedInputs.add(propertyName);
        }
      }
      this.opQueue.push(new TcbUnclaimedInputsOp(this.tcb, this, node, claimedInputs));
      const checkElement = directives.length === 0;
      this.opQueue.push(new TcbDomSchemaCheckerOp(this.tcb, node, checkElement, claimedInputs));
    }
  }
  appendOutputsOfNode(node) {
    const claimedOutputs = /* @__PURE__ */ new Set();
    const directives = this.tcb.boundTarget.getDirectivesOfNode(node);
    if (directives === null || directives.length === 0) {
      if (node instanceof Element) {
        this.opQueue.push(new TcbUnclaimedOutputsOp(this.tcb, this, node, claimedOutputs));
      }
      return;
    }
    for (const dir of directives) {
      this.opQueue.push(new TcbDirectiveOutputsOp(this.tcb, this, node, dir));
    }
    if (node instanceof Element) {
      for (const dir of directives) {
        for (const outputProperty of dir.outputs.propertyNames) {
          claimedOutputs.add(outputProperty);
        }
      }
      this.opQueue.push(new TcbUnclaimedOutputsOp(this.tcb, this, node, claimedOutputs));
    }
  }
  appendDeepSchemaChecks(nodes) {
    for (const node of nodes) {
      if (!(node instanceof Element || node instanceof Template)) {
        continue;
      }
      if (node instanceof Element) {
        const claimedInputs = /* @__PURE__ */ new Set();
        const directives = this.tcb.boundTarget.getDirectivesOfNode(node);
        let hasDirectives;
        if (directives === null || directives.length === 0) {
          hasDirectives = false;
        } else {
          hasDirectives = true;
          for (const dir of directives) {
            for (const propertyName of dir.inputs.propertyNames) {
              claimedInputs.add(propertyName);
            }
          }
        }
        this.opQueue.push(new TcbDomSchemaCheckerOp(this.tcb, node, !hasDirectives, claimedInputs));
      }
      this.appendDeepSchemaChecks(node.children);
    }
  }
  appendIcuExpressions(node) {
    for (const variable2 of Object.values(node.vars)) {
      this.opQueue.push(new TcbExpressionOp(this.tcb, this, variable2.value));
    }
    for (const placeholder of Object.values(node.placeholders)) {
      if (placeholder instanceof BoundText) {
        this.opQueue.push(new TcbExpressionOp(this.tcb, this, placeholder.value));
      }
    }
  }
  appendContentProjectionCheckOp(root) {
    var _a2;
    const meta = ((_a2 = this.tcb.boundTarget.getDirectivesOfNode(root)) == null ? void 0 : _a2.find((meta2) => meta2.isComponent)) || null;
    if (meta !== null && meta.ngContentSelectors !== null && meta.ngContentSelectors.length > 0) {
      const selectors = meta.ngContentSelectors;
      if (selectors.length > 1 || selectors.length === 1 && selectors[0] !== "*") {
        this.opQueue.push(new TcbControlFlowContentProjectionOp(this.tcb, root, selectors, meta.name));
      }
    }
  }
  appendDeferredBlock(block) {
    this.appendDeferredTriggers(block, block.triggers);
    this.appendDeferredTriggers(block, block.prefetchTriggers);
    this.appendChildren(block);
    if (block.placeholder !== null) {
      this.appendChildren(block.placeholder);
    }
    if (block.loading !== null) {
      this.appendChildren(block.loading);
    }
    if (block.error !== null) {
      this.appendChildren(block.error);
    }
  }
  appendDeferredTriggers(block, triggers) {
    if (triggers.when !== void 0) {
      this.opQueue.push(new TcbExpressionOp(this.tcb, this, triggers.when.value));
    }
    if (triggers.hover !== void 0) {
      this.appendReferenceBasedDeferredTrigger(block, triggers.hover);
    }
    if (triggers.interaction !== void 0) {
      this.appendReferenceBasedDeferredTrigger(block, triggers.interaction);
    }
    if (triggers.viewport !== void 0) {
      this.appendReferenceBasedDeferredTrigger(block, triggers.viewport);
    }
  }
  appendReferenceBasedDeferredTrigger(block, trigger) {
    if (this.tcb.boundTarget.getDeferredTriggerTarget(block, trigger) === null) {
      this.tcb.oobRecorder.inaccessibleDeferredTriggerElement(this.tcb.id, trigger);
    }
  }
  static checkConflictingLet(scope, node) {
    if (scope.letDeclOpMap.has(node.name)) {
      scope.tcb.oobRecorder.conflictingDeclaration(scope.tcb.id, scope.letDeclOpMap.get(node.name).node);
    }
  }
};
var Scope3 = _Scope;
(() => {
  _Scope.forLoopContextVariableTypes = /* @__PURE__ */ new Map([
    ["$first", import_typescript83.default.SyntaxKind.BooleanKeyword],
    ["$last", import_typescript83.default.SyntaxKind.BooleanKeyword],
    ["$even", import_typescript83.default.SyntaxKind.BooleanKeyword],
    ["$odd", import_typescript83.default.SyntaxKind.BooleanKeyword],
    ["$index", import_typescript83.default.SyntaxKind.NumberKeyword],
    ["$count", import_typescript83.default.SyntaxKind.NumberKeyword]
  ]);
})();
function tcbExpression(ast, tcb, scope) {
  const translator = new TcbExpressionTranslator(tcb, scope);
  return translator.translate(ast);
}
var TcbExpressionTranslator = class {
  constructor(tcb, scope) {
    this.tcb = tcb;
    this.scope = scope;
  }
  translate(ast) {
    return astToTypescript(ast, (ast2) => this.resolve(ast2), this.tcb.env.config);
  }
  resolve(ast) {
    if (ast instanceof PropertyRead && ast.receiver instanceof ImplicitReceiver) {
      const target = this.tcb.boundTarget.getExpressionTarget(ast);
      const targetExpression = target === null ? null : this.getTargetNodeExpression(target, ast);
      if (target instanceof LetDeclaration && !this.isValidLetDeclarationAccess(target, ast)) {
        this.tcb.oobRecorder.letUsedBeforeDefinition(this.tcb.id, ast, target);
        if (targetExpression !== null) {
          return import_typescript83.default.factory.createAsExpression(targetExpression, import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
        }
      }
      return targetExpression;
    } else if (ast instanceof PropertyWrite && ast.receiver instanceof ImplicitReceiver) {
      const target = this.tcb.boundTarget.getExpressionTarget(ast);
      if (target === null) {
        return null;
      }
      const targetExpression = this.getTargetNodeExpression(target, ast);
      const expr = this.translate(ast.value);
      const result = import_typescript83.default.factory.createParenthesizedExpression(import_typescript83.default.factory.createBinaryExpression(targetExpression, import_typescript83.default.SyntaxKind.EqualsToken, expr));
      addParseSpanInfo(result, ast.sourceSpan);
      if (target instanceof LetDeclaration) {
        markIgnoreDiagnostics(result);
        this.tcb.oobRecorder.illegalWriteToLetDeclaration(this.tcb.id, ast, target);
      }
      return result;
    } else if (ast instanceof ImplicitReceiver) {
      return import_typescript83.default.factory.createThis();
    } else if (ast instanceof BindingPipe) {
      const expr = this.translate(ast.exp);
      const pipeMeta = this.tcb.getPipeByName(ast.name);
      let pipe2;
      if (pipeMeta === null) {
        this.tcb.oobRecorder.missingPipe(this.tcb.id, ast);
        pipe2 = ANY_EXPRESSION;
      } else if (pipeMeta.isExplicitlyDeferred && this.tcb.boundTarget.getEagerlyUsedPipes().includes(ast.name)) {
        this.tcb.oobRecorder.deferredPipeUsedEagerly(this.tcb.id, ast);
        pipe2 = ANY_EXPRESSION;
      } else {
        pipe2 = this.tcb.env.pipeInst(pipeMeta.ref);
      }
      const args = ast.args.map((arg) => this.translate(arg));
      let methodAccess = import_typescript83.default.factory.createPropertyAccessExpression(pipe2, "transform");
      addParseSpanInfo(methodAccess, ast.nameSpan);
      if (!this.tcb.env.config.checkTypeOfPipes) {
        methodAccess = import_typescript83.default.factory.createAsExpression(methodAccess, import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
      }
      const result = import_typescript83.default.factory.createCallExpression(
        methodAccess,
        void 0,
        [expr, ...args]
      );
      addParseSpanInfo(result, ast.sourceSpan);
      return result;
    } else if ((ast instanceof Call || ast instanceof SafeCall) && (ast.receiver instanceof PropertyRead || ast.receiver instanceof SafePropertyRead)) {
      if (ast.receiver.receiver instanceof ImplicitReceiver && !(ast.receiver.receiver instanceof ThisReceiver) && ast.receiver.name === "$any" && ast.args.length === 1) {
        const expr = this.translate(ast.args[0]);
        const exprAsAny = import_typescript83.default.factory.createAsExpression(expr, import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword));
        const result = import_typescript83.default.factory.createParenthesizedExpression(exprAsAny);
        addParseSpanInfo(result, ast.sourceSpan);
        return result;
      }
      const target = this.tcb.boundTarget.getExpressionTarget(ast);
      if (target === null) {
        return null;
      }
      const receiver = this.getTargetNodeExpression(target, ast);
      const method = wrapForDiagnostics(receiver);
      addParseSpanInfo(method, ast.receiver.nameSpan);
      const args = ast.args.map((arg) => this.translate(arg));
      const node = import_typescript83.default.factory.createCallExpression(method, void 0, args);
      addParseSpanInfo(node, ast.sourceSpan);
      return node;
    } else {
      return null;
    }
  }
  getTargetNodeExpression(targetNode, expressionNode) {
    const expr = this.scope.resolve(targetNode);
    addParseSpanInfo(expr, expressionNode.sourceSpan);
    return expr;
  }
  isValidLetDeclarationAccess(target, ast) {
    const targetStart = target.sourceSpan.start.offset;
    const targetEnd = target.sourceSpan.end.offset;
    const astStart = ast.sourceSpan.start;
    return targetStart < astStart && astStart > targetEnd || !this.scope.isLocal(target);
  }
};
function tcbCallTypeCtor(dir, tcb, inputs) {
  const typeCtor = tcb.env.typeCtorFor(dir);
  const members = inputs.map((input) => {
    const propertyName = import_typescript83.default.factory.createStringLiteral(input.field);
    if (input.type === "binding") {
      let expr = widenBinding(input.expression, tcb);
      if (input.isTwoWayBinding && tcb.env.config.allowSignalsInTwoWayBindings) {
        expr = unwrapWritableSignal(expr, tcb);
      }
      const assignment = import_typescript83.default.factory.createPropertyAssignment(propertyName, wrapForDiagnostics(expr));
      addParseSpanInfo(assignment, input.sourceSpan);
      return assignment;
    } else {
      return import_typescript83.default.factory.createPropertyAssignment(propertyName, ANY_EXPRESSION);
    }
  });
  return import_typescript83.default.factory.createCallExpression(
    typeCtor,
    void 0,
    [import_typescript83.default.factory.createObjectLiteralExpression(members)]
  );
}
function getBoundAttributes(directive, node) {
  const boundInputs = [];
  const processAttribute = (attr) => {
    if (attr instanceof BoundAttribute && attr.type !== BindingType.Property && attr.type !== BindingType.TwoWay) {
      return;
    }
    const inputs = directive.inputs.getByBindingPropertyName(attr.name);
    if (inputs !== null) {
      boundInputs.push({
        attribute: attr,
        inputs: inputs.map((input) => {
          var _a2;
          return {
            fieldName: input.classPropertyName,
            required: input.required,
            transformType: ((_a2 = input.transform) == null ? void 0 : _a2.type) || null,
            isSignal: input.isSignal,
            isTwoWayBinding: attr instanceof BoundAttribute && attr.type === BindingType.TwoWay
          };
        })
      });
    }
  };
  node.inputs.forEach(processAttribute);
  node.attributes.forEach(processAttribute);
  if (node instanceof Template) {
    node.templateAttrs.forEach(processAttribute);
  }
  return boundInputs;
}
function translateInput(attr, tcb, scope) {
  if (attr instanceof BoundAttribute) {
    return tcbExpression(attr.value, tcb, scope);
  } else {
    return import_typescript83.default.factory.createStringLiteral(attr.value);
  }
}
function widenBinding(expr, tcb) {
  if (!tcb.env.config.checkTypeOfInputBindings) {
    return tsCastToAny(expr);
  } else if (!tcb.env.config.strictNullInputBindings) {
    if (import_typescript83.default.isObjectLiteralExpression(expr) || import_typescript83.default.isArrayLiteralExpression(expr)) {
      return expr;
    } else {
      return import_typescript83.default.factory.createNonNullExpression(expr);
    }
  } else {
    return expr;
  }
}
function unwrapWritableSignal(expression, tcb) {
  const unwrapRef = tcb.env.referenceExternalSymbol(Identifiers.unwrapWritableSignal.moduleName, Identifiers.unwrapWritableSignal.name);
  return import_typescript83.default.factory.createCallExpression(unwrapRef, void 0, [expression]);
}
var EVENT_PARAMETER = "$event";
function tcbCreateEventHandler(event, tcb, scope, eventType) {
  const handler = tcbEventHandlerExpression(event.handler, tcb, scope);
  let eventParamType;
  if (eventType === 0) {
    eventParamType = void 0;
  } else if (eventType === 1) {
    eventParamType = import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword);
  } else {
    eventParamType = eventType;
  }
  const guards = scope.guards();
  let body = import_typescript83.default.factory.createExpressionStatement(handler);
  if (guards !== null) {
    body = import_typescript83.default.factory.createIfStatement(guards, body);
  }
  const eventParam = import_typescript83.default.factory.createParameterDeclaration(
    void 0,
    void 0,
    EVENT_PARAMETER,
    void 0,
    eventParamType
  );
  addExpressionIdentifier(eventParam, ExpressionIdentifier.EVENT_PARAMETER);
  return import_typescript83.default.factory.createArrowFunction(
    void 0,
    void 0,
    [eventParam],
    import_typescript83.default.factory.createKeywordTypeNode(import_typescript83.default.SyntaxKind.AnyKeyword),
    void 0,
    import_typescript83.default.factory.createBlock([body])
  );
}
function tcbEventHandlerExpression(ast, tcb, scope) {
  const translator = new TcbEventHandlerTranslator(tcb, scope);
  return translator.translate(ast);
}
function isSplitTwoWayBinding(inputName, output, inputs, tcb) {
  const input = inputs.find((input2) => input2.name === inputName);
  if (input === void 0 || input.sourceSpan !== output.sourceSpan) {
    return false;
  }
  const inputConsumer = tcb.boundTarget.getConsumerOfBinding(input);
  const outputConsumer = tcb.boundTarget.getConsumerOfBinding(output);
  if (outputConsumer === null || inputConsumer.ref === void 0 || outputConsumer instanceof Template) {
    return false;
  }
  if (outputConsumer instanceof Element) {
    tcb.oobRecorder.splitTwoWayBinding(tcb.id, input, output, inputConsumer.ref.node, outputConsumer);
    return true;
  } else if (outputConsumer.ref !== inputConsumer.ref) {
    tcb.oobRecorder.splitTwoWayBinding(tcb.id, input, output, inputConsumer.ref.node, outputConsumer.ref.node);
    return true;
  }
  return false;
}
var TcbEventHandlerTranslator = class extends TcbExpressionTranslator {
  resolve(ast) {
    if (ast instanceof PropertyRead && ast.receiver instanceof ImplicitReceiver && !(ast.receiver instanceof ThisReceiver) && ast.name === EVENT_PARAMETER) {
      const event = import_typescript83.default.factory.createIdentifier(EVENT_PARAMETER);
      addParseSpanInfo(event, ast.nameSpan);
      return event;
    }
    return super.resolve(ast);
  }
  isValidLetDeclarationAccess() {
    return true;
  }
};
var TcbForLoopTrackTranslator = class extends TcbExpressionTranslator {
  constructor(tcb, scope, block) {
    super(tcb, scope);
    this.block = block;
    this.allowedVariables = /* @__PURE__ */ new Set([block.item]);
    for (const variable2 of block.contextVariables) {
      if (variable2.value === "$index") {
        this.allowedVariables.add(variable2);
      }
    }
  }
  resolve(ast) {
    if (ast instanceof PropertyRead && ast.receiver instanceof ImplicitReceiver) {
      const target = this.tcb.boundTarget.getExpressionTarget(ast);
      if (target !== null && (!(target instanceof Variable) || !this.allowedVariables.has(target))) {
        this.tcb.oobRecorder.illegalForLoopTrackAccess(this.tcb.id, this.block, ast);
      }
    }
    return super.resolve(ast);
  }
};

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/type_check_file.mjs
var import_typescript84 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/context.mjs
var InliningMode;
(function(InliningMode2) {
  InliningMode2[InliningMode2["InlineOps"] = 0] = "InlineOps";
  InliningMode2[InliningMode2["Error"] = 1] = "Error";
})(InliningMode || (InliningMode = {}));

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/template_symbol_builder.mjs
var import_typescript86 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/typecheck/src/checker.mjs
var REGISTRY2 = new DomElementSchemaRegistry();

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/src/injectable.mjs
var import_typescript91 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/annotations/src/pipe.mjs
var import_typescript92 = __toESM(require("typescript"), 1);

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/change_tracker.mjs
var ChangeTracker = class {
  constructor(_printer, _importRemapper) {
    __publicField(this, "_printer");
    __publicField(this, "_importRemapper");
    __publicField(this, "_changes", /* @__PURE__ */ new Map());
    __publicField(this, "_importManager");
    __publicField(this, "_quotesCache", /* @__PURE__ */ new WeakMap());
    this._printer = _printer;
    this._importRemapper = _importRemapper;
    this._importManager = new ImportManager({
      shouldUseSingleQuotes: (file) => this._getQuoteKind(file) === 0
    });
  }
  insertText(sourceFile, index, text2) {
    this._trackChange(sourceFile, { start: index, text: text2 });
  }
  replaceText(sourceFile, start, removeLength, text2) {
    this._trackChange(sourceFile, { start, removeLength, text: text2 });
  }
  replaceNode(oldNode, newNode, emitHint = import_typescript93.default.EmitHint.Unspecified, sourceFileWhenPrinting) {
    const sourceFile = oldNode.getSourceFile();
    this.replaceText(sourceFile, oldNode.getStart(), oldNode.getWidth(), this._printer.printNode(emitHint, newNode, sourceFileWhenPrinting || sourceFile));
  }
  removeNode(node) {
    this._trackChange(node.getSourceFile(), {
      start: node.getStart(),
      removeLength: node.getWidth(),
      text: ""
    });
  }
  addImport(sourceFile, symbolName, moduleName, alias) {
    if (this._importRemapper) {
      moduleName = this._importRemapper(moduleName, sourceFile.fileName);
    }
    moduleName = normalizePath(moduleName);
    if (!this._changes.has(sourceFile)) {
      this._changes.set(sourceFile, []);
    }
    return this._importManager.addImport({
      requestedFile: sourceFile,
      exportSymbolName: symbolName,
      exportModuleSpecifier: moduleName,
      unsafeAliasOverride: alias
    });
  }
  removeImport(sourceFile, symbolName, moduleName) {
    moduleName = normalizePath(moduleName);
    if (!this._changes.has(sourceFile)) {
      this._changes.set(sourceFile, []);
    }
    this._importManager.removeImport(sourceFile, symbolName, moduleName);
  }
  recordChanges() {
    this._recordImports();
    return this._changes;
  }
  clearChanges() {
    this._changes.clear();
  }
  _trackChange(file, change) {
    const changes = this._changes.get(file);
    if (changes) {
      const insertIndex = changes.findIndex((current) => current.start <= change.start);
      if (insertIndex === -1) {
        changes.push(change);
      } else {
        changes.splice(insertIndex, 0, change);
      }
    } else {
      this._changes.set(file, [change]);
    }
  }
  _getQuoteKind(sourceFile) {
    if (this._quotesCache.has(sourceFile)) {
      return this._quotesCache.get(sourceFile);
    }
    let kind = 0;
    for (const statement of sourceFile.statements) {
      if (import_typescript93.default.isImportDeclaration(statement) && import_typescript93.default.isStringLiteral(statement.moduleSpecifier)) {
        kind = statement.moduleSpecifier.getText()[0] === '"' ? 1 : 0;
        this._quotesCache.set(sourceFile, kind);
        break;
      }
    }
    return kind;
  }
  _recordImports() {
    const { newImports, updatedImports, deletedImports } = this._importManager.finalize();
    for (const [original, replacement] of updatedImports) {
      this.replaceNode(original, replacement);
    }
    for (const node of deletedImports) {
      this.removeNode(node);
    }
    for (const [sourceFile] of this._changes) {
      const importsToAdd = newImports.get(sourceFile.fileName);
      if (!importsToAdd) {
        continue;
      }
      const importLines = [];
      let lastImport = null;
      for (const statement of sourceFile.statements) {
        if (import_typescript93.default.isImportDeclaration(statement)) {
          lastImport = statement;
        }
      }
      for (const decl of importsToAdd) {
        importLines.push(this._printer.printNode(import_typescript93.default.EmitHint.Unspecified, decl, sourceFile));
      }
      this.insertText(sourceFile, lastImport ? lastImport.getEnd() : 0, (lastImport ? "\n" : "") + importLines.join("\n"));
    }
  }
};
function normalizePath(path2) {
  return path2.replace(/\\/g, "/");
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/utils/typescript/imports.mjs
var import_typescript94 = __toESM(require("typescript"), 1);
function getImportOfIdentifier(typeChecker, node) {
  const symbol = typeChecker.getSymbolAtLocation(node);
  if (!symbol || symbol.declarations === void 0 || !symbol.declarations.length) {
    return null;
  }
  const decl = symbol.declarations[0];
  if (!import_typescript94.default.isImportSpecifier(decl)) {
    return null;
  }
  const importDecl = decl.parent.parent.parent;
  if (!import_typescript94.default.isImportDeclaration(importDecl) || !import_typescript94.default.isStringLiteral(importDecl.moduleSpecifier)) {
    return null;
  }
  return {
    name: decl.propertyName ? decl.propertyName.text : decl.name.text,
    importModule: importDecl.moduleSpecifier.text,
    node: importDecl
  };
}
function getImportSpecifier(sourceFile, moduleName, specifierName) {
  var _a2;
  return (_a2 = getImportSpecifiers(sourceFile, moduleName, specifierName)[0]) != null ? _a2 : null;
}
function getImportSpecifiers(sourceFile, moduleName, specifierOrSpecifiers) {
  var _a2;
  const matches = [];
  for (const node of sourceFile.statements) {
    if (!import_typescript94.default.isImportDeclaration(node) || !import_typescript94.default.isStringLiteral(node.moduleSpecifier)) {
      continue;
    }
    const namedBindings = (_a2 = node.importClause) == null ? void 0 : _a2.namedBindings;
    const isMatch = typeof moduleName === "string" ? node.moduleSpecifier.text === moduleName : moduleName.test(node.moduleSpecifier.text);
    if (!isMatch || !namedBindings || !import_typescript94.default.isNamedImports(namedBindings)) {
      continue;
    }
    if (typeof specifierOrSpecifiers === "string") {
      const match = findImportSpecifier(namedBindings.elements, specifierOrSpecifiers);
      if (match) {
        matches.push(match);
      }
    } else {
      for (const specifierName of specifierOrSpecifiers) {
        const match = findImportSpecifier(namedBindings.elements, specifierName);
        if (match) {
          matches.push(match);
        }
      }
    }
  }
  return matches;
}
function getNamedImports(sourceFile, moduleName) {
  var _a2;
  for (const node of sourceFile.statements) {
    if (import_typescript94.default.isImportDeclaration(node) && import_typescript94.default.isStringLiteral(node.moduleSpecifier)) {
      const isMatch = typeof moduleName === "string" ? node.moduleSpecifier.text === moduleName : moduleName.test(node.moduleSpecifier.text);
      const namedBindings = (_a2 = node.importClause) == null ? void 0 : _a2.namedBindings;
      if (isMatch && namedBindings && import_typescript94.default.isNamedImports(namedBindings)) {
        return namedBindings;
      }
    }
  }
  return null;
}
function findImportSpecifier(nodes, specifierName) {
  return nodes.find((element2) => {
    const { name, propertyName } = element2;
    return propertyName ? propertyName.text === specifierName : name.text === specifierName;
  });
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/migrations/after-render-phase/migration.mjs
var CORE2 = "@angular/core";
var AFTER_RENDER_PHASE_ENUM = "AfterRenderPhase";
var AFTER_RENDER_FNS = /* @__PURE__ */ new Set(["afterRender", "afterNextRender"]);
function migrateFile(sourceFile, typeChecker, rewriteFn) {
  var _a2;
  const changeTracker = new ChangeTracker(import_typescript95.default.createPrinter());
  const coreImports = getNamedImports(sourceFile, CORE2);
  if (!coreImports) {
    return;
  }
  const phaseEnum = getImportSpecifier(sourceFile, CORE2, AFTER_RENDER_PHASE_ENUM);
  if (!phaseEnum) {
    return;
  }
  const newCoreImports = import_typescript95.default.factory.updateNamedImports(coreImports, [
    ...coreImports.elements.filter((current) => phaseEnum !== current)
  ]);
  changeTracker.replaceNode(coreImports, newCoreImports);
  import_typescript95.default.forEachChild(sourceFile, function visit2(node) {
    var _a3;
    import_typescript95.default.forEachChild(node, visit2);
    if (import_typescript95.default.isCallExpression(node) && import_typescript95.default.isIdentifier(node.expression) && AFTER_RENDER_FNS.has(((_a3 = getImportOfIdentifier(typeChecker, node.expression)) == null ? void 0 : _a3.name) || "")) {
      let phase;
      const [callback, options] = node.arguments;
      if (import_typescript95.default.isObjectLiteralExpression(options)) {
        const phaseProp = options.properties.find((p) => {
          var _a4;
          return ((_a4 = p.name) == null ? void 0 : _a4.getText()) === "phase";
        });
        if (phaseProp && import_typescript95.default.isPropertyAssignment(phaseProp) && import_typescript95.default.isPropertyAccessExpression(phaseProp.initializer) && phaseProp.initializer.expression.getText() === AFTER_RENDER_PHASE_ENUM) {
          phaseProp.initializer.expression;
          phase = phaseProp.initializer.name.getText();
          if (options.properties.length === 1) {
            changeTracker.removeNode(options);
          } else {
            const newOptions = import_typescript95.default.factory.createObjectLiteralExpression(options.properties.filter((p) => p !== phaseProp));
            changeTracker.replaceNode(options, newOptions);
          }
        }
      }
      if (phase) {
        phase = phase.substring(0, 1).toLocaleLowerCase() + phase.substring(1);
        const spec = import_typescript95.default.factory.createObjectLiteralExpression([
          import_typescript95.default.factory.createPropertyAssignment(import_typescript95.default.factory.createIdentifier(phase), callback)
        ]);
        changeTracker.replaceNode(callback, spec);
      }
    }
  });
  for (const changesInFile of changeTracker.recordChanges().values()) {
    for (const change of changesInFile) {
      rewriteFn(change.start, (_a2 = change.removeLength) != null ? _a2 : 0, change.text);
    }
  }
}

// bazel-out/darwin_arm64-fastbuild/bin/packages/core/schematics/migrations/after-render-phase/index.mjs
function after_render_phase_default() {
  return (tree) => __async(this, null, function* () {
    const { buildPaths, testPaths } = yield getProjectTsConfigPaths(tree);
    const basePath = process.cwd();
    const allPaths = [...buildPaths, ...testPaths];
    if (!allPaths.length) {
      throw new import_schematics.SchematicsException("Could not find any tsconfig file. Cannot run the afterRender phase migration.");
    }
    for (const tsconfigPath of allPaths) {
      runMigration(tree, tsconfigPath, basePath);
    }
  });
}
function runMigration(tree, tsconfigPath, basePath) {
  const program = createMigrationProgram(tree, tsconfigPath, basePath);
  const sourceFiles = program.getSourceFiles().filter((sourceFile) => canMigrateFile(basePath, sourceFile, program));
  for (const sourceFile of sourceFiles) {
    let update = null;
    const rewriter = (startPos, width, text2) => {
      if (update === null) {
        update = tree.beginUpdate((0, import_path3.relative)(basePath, sourceFile.fileName));
      }
      update.remove(startPos, width);
      if (text2 !== null) {
        update.insertLeft(startPos, text2);
      }
    };
    migrateFile(sourceFile, program.getTypeChecker(), rewriter);
    if (update !== null) {
      tree.commitUpdate(update);
    }
  }
}
// Annotate the CommonJS export names for ESM import in node:
0 && (module.exports = {});
/*!
 * @license
 * Copyright Google LLC All Rights Reserved.
 *
 * Use of this source code is governed by an MIT-style license that can be
 * found in the LICENSE file at https://angular.dev/license
 */
/**
 *
 * @license
 * Copyright Google LLC All Rights Reserved.
 *
 * Use of this source code is governed by an MIT-style license that can be
 * found in the LICENSE file at https://angular.dev/license
 */
/**
 * @license
 * Copyright Google LLC All Rights Reserved.
 *
 * Use of this source code is governed by an MIT-style license that can be
 * found in the LICENSE file at https://angular.dev/license
 */




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