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Closure Compiler is a JavaScript optimizing compiler. It parses your JavaScript, analyzes it, removes dead code and rewrites and minimizes what's left. It also checks syntax, variable references, and types, and warns about common JavaScript pitfalls. It is used in many of Google's JavaScript apps, including Gmail, Google Web Search, Google Maps, and Google Docs. This binary checks for style issues such as incorrect or missing JSDoc usage, and missing goog.require() statements. It does not do more advanced checks such as typechecking.

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/*
 * Copyright 2009 The Closure Compiler Authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.google.javascript.jscomp;

import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import static com.google.javascript.jscomp.PassFactory.createEmptyPass;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.ES2019;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.ES2019_MODULES;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.ES5;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.ES6;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.ES_NEXT;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.TYPESCRIPT;
import static com.google.javascript.jscomp.parsing.parser.FeatureSet.TYPE_CHECK_SUPPORTED;

import com.google.common.annotations.VisibleForTesting;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
import com.google.javascript.jscomp.AbstractCompiler.LifeCycleStage;
import com.google.javascript.jscomp.CompilerOptions.ExtractPrototypeMemberDeclarationsMode;
import com.google.javascript.jscomp.CompilerOptions.PropertyCollapseLevel;
import com.google.javascript.jscomp.CompilerOptions.Reach;
import com.google.javascript.jscomp.CoverageInstrumentationPass.CoverageReach;
import com.google.javascript.jscomp.CoverageInstrumentationPass.InstrumentOption;
import com.google.javascript.jscomp.ExtractPrototypeMemberDeclarations.Pattern;
import com.google.javascript.jscomp.NodeTraversal.Callback;
import com.google.javascript.jscomp.PassFactory.HotSwapPassFactory;
import com.google.javascript.jscomp.ijs.ConvertToTypedInterface;
import com.google.javascript.jscomp.lint.CheckArrayWithGoogObject;
import com.google.javascript.jscomp.lint.CheckDuplicateCase;
import com.google.javascript.jscomp.lint.CheckEmptyStatements;
import com.google.javascript.jscomp.lint.CheckEnums;
import com.google.javascript.jscomp.lint.CheckEs6ModuleFileStructure;
import com.google.javascript.jscomp.lint.CheckEs6Modules;
import com.google.javascript.jscomp.lint.CheckInterfaces;
import com.google.javascript.jscomp.lint.CheckJSDocStyle;
import com.google.javascript.jscomp.lint.CheckMissingSemicolon;
import com.google.javascript.jscomp.lint.CheckNoMutatedEs6Exports;
import com.google.javascript.jscomp.lint.CheckNullabilityModifiers;
import com.google.javascript.jscomp.lint.CheckNullableReturn;
import com.google.javascript.jscomp.lint.CheckPrimitiveAsObject;
import com.google.javascript.jscomp.lint.CheckPrototypeProperties;
import com.google.javascript.jscomp.lint.CheckProvidesSorted;
import com.google.javascript.jscomp.lint.CheckRequiresSorted;
import com.google.javascript.jscomp.lint.CheckUnusedLabels;
import com.google.javascript.jscomp.lint.CheckUselessBlocks;
import com.google.javascript.jscomp.modules.ModuleMapCreator;
import com.google.javascript.jscomp.modules.ModuleMetadataMap.ModuleType;
import com.google.javascript.jscomp.parsing.ParserRunner;
import com.google.javascript.jscomp.parsing.parser.FeatureSet;
import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.Node;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import javax.annotation.Nullable;

/**
 * Pass factories and meta-data for native JSCompiler passes.
 *
 * @author [email protected] (Nick Santos)
 *
 * NOTE(dimvar): this needs some non-trivial refactoring. The pass config should
 * use as little state as possible. The recommended way for a pass to leave
 * behind some state for a subsequent pass is through the compiler object.
 * Any other state remaining here should only be used when the pass config is
 * creating the list of checks and optimizations, not after passes have started
 * executing. For example, the field namespaceForChecks should be in Compiler.
 */
public final class DefaultPassConfig extends PassConfig {

  /* For the --mark-as-compiled pass */
  private static final String COMPILED_CONSTANT_NAME = "COMPILED";

  /* Constant name for Closure's locale */
  private static final String CLOSURE_LOCALE_CONSTANT_NAME = "goog.LOCALE";

  static final DiagnosticType CANNOT_USE_PROTOTYPE_AND_VAR =
      DiagnosticType.error("JSC_CANNOT_USE_PROTOTYPE_AND_VAR",
          "Rename prototypes and inline variables cannot be used together.");

  // Miscellaneous errors.
  private static final java.util.regex.Pattern GLOBAL_SYMBOL_NAMESPACE_PATTERN =
    java.util.regex.Pattern.compile("^[a-zA-Z0-9$_]+$");

  /**
   * A global namespace to share across checking passes.
   */
  private transient GlobalNamespace namespaceForChecks = null;

  /** A symbol table for registering references that get removed during preprocessing. */
  private final transient PreprocessorSymbolTable.CachedInstanceFactory
      preprocessorSymbolTableFactory;

  /**
   * Global state necessary for doing hotswap recompilation of files with references to
   * processed goog.modules.
   */
  private transient ClosureRewriteModule.GlobalRewriteState moduleRewriteState = null;

  /**
   * Whether to protect "hidden" side-effects.
   * @see CheckSideEffects
   */
  private final boolean protectHiddenSideEffects;

  public DefaultPassConfig(CompilerOptions options) {
    super(options);

    // The current approach to protecting "hidden" side-effects is to
    // wrap them in a function call that is stripped later, this shouldn't
    // be done in IDE mode where AST changes may be unexpected.
    protectHiddenSideEffects = options != null && options.shouldProtectHiddenSideEffects();
    preprocessorSymbolTableFactory = new PreprocessorSymbolTable.CachedInstanceFactory();
  }

  GlobalNamespace getGlobalNamespace() {
    return namespaceForChecks;
  }

  @Nullable
  PreprocessorSymbolTable getPreprocessorSymbolTable() {
    return preprocessorSymbolTableFactory.getInstanceOrNull();
  }

  void maybeInitializeModuleRewriteState() {
    if (options.allowsHotswapReplaceScript() && this.moduleRewriteState == null) {
      this.moduleRewriteState = new ClosureRewriteModule.GlobalRewriteState();
    }
  }

  @Override
  protected List getTranspileOnlyPasses() {
    List passes = new ArrayList<>();

    if (options.needsTranspilationFrom(TYPESCRIPT)) {
      passes.add(convertEs6TypedToEs6);
    }
    passes.add(markUntranspilableFeaturesAsRemoved);

    passes.add(checkVariableReferencesForTranspileOnly);
    passes.add(gatherModuleMetadataPass);
    passes.add(createModuleMapPass);

    if (options.getLanguageIn().toFeatureSet().has(FeatureSet.Feature.MODULES)) {
      passes.add(rewriteGoogJsImports);
      switch (options.getEs6ModuleTranspilation()) {
        case COMPILE:
          TranspilationPasses.addEs6ModulePass(passes, preprocessorSymbolTableFactory);
          break;
        case TO_COMMON_JS_LIKE_MODULES:
          TranspilationPasses.addEs6ModuleToCjsPass(passes);
          break;
        case RELATIVIZE_IMPORT_PATHS:
          TranspilationPasses.addEs6RewriteImportPathPass(passes);
          break;
        case NONE:
          // nothing
          break;
      }
    }

    passes.add(checkSuper);

    // It's important that the Dart super accessors pass run *before* es6ConvertSuper,
    // which is a "late" ES6 pass. This is enforced in the assertValidOrder method.
    if (options.dartPass && options.needsTranspilationFrom(ES6)) {
      passes.add(dartSuperAccessorsPass);
    }

    TranspilationPasses.addPreTypecheckTranspilationPasses(passes, options);

    TranspilationPasses.addPostCheckTranspilationPasses(passes, options);

    if (options.needsTranspilationFrom(ES6)) {
      if (options.rewritePolyfills) {
        TranspilationPasses.addRewritePolyfillPass(passes);
      }
    }

    passes.add(injectRuntimeLibraries);

    assertAllOneTimePasses(passes);
    assertValidOrderForChecks(passes);
    return passes;
  }

  @Override
  protected List getWhitespaceOnlyPasses() {
    List passes = new ArrayList<>();

    if (options.processCommonJSModules) {
      passes.add(rewriteCommonJsModules);
    } else if (options.getLanguageIn().toFeatureSet().has(FeatureSet.Feature.MODULES)) {
      passes.add(rewriteScriptsToEs6Modules);
    }

    if (options.wrapGoogModulesForWhitespaceOnly) {
      passes.add(whitespaceWrapGoogModules);
    }
    return passes;
  }

  private void addTypeCheckerPasses(List checks, CompilerOptions options) {
    if (options.checkTypes || options.inferTypes) {
      checks.add(resolveTypes);
      checks.add(inferTypes);
      if (options.checkTypes) {
        checks.add(checkTypes);
      } else {
        checks.add(inferJsDocInfo);
      }

      // We assume that only clients who are going to re-compile, or do in-depth static analysis,
      // will need the typed scope creator after the compile job.
      if (!options.preservesDetailedSourceInfo() && !options.allowsHotswapReplaceScript()) {
        checks.add(clearTypedScopePass);
      }
    }
  }

  @Override
  protected List getChecks() {
    List checks = new ArrayList<>();

    if (options.shouldGenerateTypedExterns()) {
      checks.add(closureGoogScopeAliases);
      checks.add(closureRewriteClass);
      checks.add(generateIjs);
      checks.add(whitespaceWrapGoogModules);
      return checks;
    }

    if (options.needsTranspilationFrom(TYPESCRIPT)) {
      checks.add(convertEs6TypedToEs6);
    }

    if (!options.checksOnly) {
      checks.add(markUntranspilableFeaturesAsRemoved);
    }

    checks.add(gatherGettersAndSetters);

    checks.add(createEmptyPass("beforeStandardChecks"));

    if (!options.processCommonJSModules
        && options.getLanguageIn().toFeatureSet().has(FeatureSet.Feature.MODULES)) {
      checks.add(rewriteScriptsToEs6Modules);
    }

    // Run these passes after promoting scripts to modules, but before rewriting any other modules.
    checks.add(gatherModuleMetadataPass);
    checks.add(createModuleMapPass);

    if (options.processCommonJSModules) {
      checks.add(rewriteCommonJsModules);
    }

    // Note: ChromePass can rewrite invalid @type annotations into valid ones, so should run before
    // JsDoc checks.
    if (options.isChromePassEnabled()) {
      checks.add(chromePass);
    }

    // Verify JsDoc annotations and check ES6 modules
    checks.add(checkJsDocAndEs6Modules);

    checks.add(checkTypeImportCodeReferences);

    if (options.enables(DiagnosticGroups.LINT_CHECKS)) {
      checks.add(lintChecks);
    }

    if (options.closurePass && options.enables(DiagnosticGroups.LINT_CHECKS)) {
      checks.add(checkRequiresAndProvidesSorted);
    }

    if (options.enables(DiagnosticGroups.MISSING_REQUIRE)
        || options.enables(DiagnosticGroups.STRICT_MISSING_REQUIRE)
        || options.enables(DiagnosticGroups.EXTRA_REQUIRE)) {
      checks.add(checkRequires);
    }

    checks.add(checkVariableReferences);

    if (options.closurePass) {
      checks.add(checkClosureImports);
      checks.add(rewriteClosureImports);
    }

    if (options.getLanguageIn().toFeatureSet().has(FeatureSet.Feature.MODULES)) {
      checks.add(rewriteGoogJsImports);
      TranspilationPasses.addEs6ModulePass(checks, preprocessorSymbolTableFactory);
    }

    checks.add(checkStrictMode);

    if (options.closurePass) {
      checks.add(closureCheckModule);
      checks.add(closureRewriteModule);
    }

    if (options.declaredGlobalExternsOnWindow) {
      checks.add(declaredGlobalExternsOnWindow);
    }

    checks.add(checkSuper);

    if (options.closurePass) {
      checks.add(closureGoogScopeAliases);
      checks.add(closureRewriteClass);
    }

    checks.add(checkSideEffects);

    if (options.enables(DiagnosticGroups.MISSING_PROVIDE)) {
      checks.add(checkProvides);
    }

    if (options.angularPass) {
      checks.add(angularPass);
    }

    if (!options.generateExportsAfterTypeChecking && options.generateExports) {
      checks.add(generateExports);
    }

    if (options.exportTestFunctions) {
      checks.add(exportTestFunctions);
    }

    if (options.closurePass) {
      checks.add(closurePrimitives);
      checks.add(closureProvidesRequires);
    }

    // It's important that the PolymerPass run *after* the ClosurePrimitives and ChromePass rewrites
    // and *before* the suspicious code checks. This is enforced in the assertValidOrder method.
    if (options.polymerVersion != null) {
      checks.add(polymerPass);
    }

    if (options.closurePass && options.checkMissingGetCssNameLevel.isOn()) {
      checks.add(closureCheckGetCssName);
    }

    if (options.syntheticBlockStartMarker != null) {
      // This pass must run before the first fold constants pass.
      checks.add(createSyntheticBlocks);
    }

    checks.add(checkVars);

    if (options.inferConsts) {
      checks.add(inferConsts);
    }

    if (options.computeFunctionSideEffects) {
      checks.add(checkRegExp);
    }

    // It's important that the Dart super accessors pass run *before* es6ConvertSuper,
    // which is a "late" ES6 pass. This is enforced in the assertValidOrder method.
    if (options.dartPass && !options.getOutputFeatureSet().contains(ES6)) {
      checks.add(dartSuperAccessorsPass);
    }

    // Passes running before this point should expect to see language features up to ES_2017.
    checks.add(createEmptyPass(PassNames.BEFORE_PRE_TYPECHECK_TRANSPILATION));

    TranspilationPasses.addPreTypecheckTranspilationPasses(checks, options);

    if (options.rewritePolyfills && !options.checksOnly) {
      TranspilationPasses.addRewritePolyfillPass(checks);
    }

    checks.add(injectRuntimeLibraries);
    checks.add(createEmptyPass(PassNames.BEFORE_TYPE_CHECKING));

    addTypeCheckerPasses(checks, options);

    // TODO(b/124915436): Remove this pass completely after cleaning up the codebase.
    if (!options.allowsHotswapReplaceScript()) {
      checks.add(inlineTypeAliases);
    }

    // CheckSuspiciousCode requires type information, so must run after the type checker.
    if (options.checkSuspiciousCode
        || options.enables(DiagnosticGroups.GLOBAL_THIS)
        || options.enables(DiagnosticGroups.DEBUGGER_STATEMENT_PRESENT)) {
      checks.add(suspiciousCode);
    }

    if (options.j2clPassMode.shouldAddJ2clPasses()) {
      checks.add(j2clSourceFileChecker);
    }

    if (!options.disables(DiagnosticGroups.CHECK_USELESS_CODE)
        || !options.disables(DiagnosticGroups.MISSING_RETURN)) {
      checks.add(checkControlFlow);
    }

    // CheckAccessControls only works if check types is on.
    if (options.isTypecheckingEnabled()
        && (!options.disables(DiagnosticGroups.ACCESS_CONTROLS)
            || options.enables(DiagnosticGroups.CONSTANT_PROPERTY))) {
      checks.add(checkAccessControls);
    }

    checks.add(checkConsts);

    // Analyzer checks must be run after typechecking.
    if (options.enables(DiagnosticGroups.ANALYZER_CHECKS) && options.isTypecheckingEnabled()) {
      checks.add(analyzerChecks);
    }

    if (options.checkGlobalNamesLevel.isOn()) {
      checks.add(checkGlobalNames);
    }

    if (!options.getConformanceConfigs().isEmpty()) {
      checks.add(checkConformance);
    }

    // Replace 'goog.getCssName' before processing defines but after the
    // other checks have been done.
    if (options.closurePass && !options.shouldPreserveGoogLibraryPrimitives()) {
      checks.add(closureReplaceGetCssName);
    }

    if (options.getTweakProcessing().isOn()) {
      checks.add(processTweaks);
    }

    if (options.checksOnly) {
      // Run process defines here so that warnings/errors from that pass are emitted as part of
      // checks.
      // TODO(rluble): Split process defines into two stages, one that performs only checks to be
      // run here, and the one that actually changes the AST that would run in the optimization
      // phase.
      checks.add(processDefines);
    }

    if (options.j2clPassMode.shouldAddJ2clPasses()) {
      checks.add(j2clChecksPass);
    }

    if (options.shouldRunTypeSummaryChecksLate()) {
      checks.add(generateIjs);
    }

    // When options.generateExportsAfterTypeChecking is true, run GenerateExports after
    // both type checkers, not just after NTI.
    if (options.generateExportsAfterTypeChecking && options.generateExports) {
      checks.add(generateExports);
    }

    checks.add(createEmptyPass(PassNames.AFTER_STANDARD_CHECKS));

    if (!options.checksOnly && options.j2clPassMode.shouldAddJ2clPasses()) {
      checks.add(j2clPass);
    }

    if (!options.checksOnly) {
      // At this point all checks have been done.
      // There's no need to complete transpilation if we're only running checks.
      TranspilationPasses.addPostCheckTranspilationPasses(checks, options);

      if (options.needsTranspilationFrom(ES6)) {
        // This pass used to be necessary to make the typechecker happy with class-side inheritance.
        // It's not necessary for typechecking now that class transpilation is post-typechecking,
        // but it turned out to be necessary to avoid CollapseProperties breaking static inheritance
        // TODO(b/116054203): try to only run this pass when property collapsing is enabled during
        // the optimizations. Even better, find a way to get rid of this pass completely.
        checks.add(convertStaticInheritance);
      }
    }

    assertAllOneTimePasses(checks);
    assertValidOrderForChecks(checks);

    checks.add(createEmptyPass(PassNames.BEFORE_SERIALIZATION));

    return checks;
  }

  @Override
  protected List getOptimizations() {
    List passes = new ArrayList<>();

    if (options.skipNonTranspilationPasses) {
      return passes;
    }

    passes.add(removeWeakSources);

    passes.add(garbageCollectChecks);

    // i18n
    // If you want to customize the compiler to use a different i18n pass,
    // you can create a PassConfig that calls replacePassFactory
    // to replace this.
    if (options.replaceMessagesWithChromeI18n) {
      passes.add(replaceMessagesForChrome);
    } else if (options.messageBundle != null) {
      passes.add(replaceMessages);
    }

    // Defines in code always need to be processed.
    passes.add(processDefines);

    if (options.getTweakProcessing().shouldStrip()
        || !options.stripTypes.isEmpty()
        || !options.stripNameSuffixes.isEmpty()
        || !options.stripTypePrefixes.isEmpty()
        || !options.stripNamePrefixes.isEmpty()) {
      passes.add(stripCode);
    }

    passes.add(normalize);

    // Create extern exports after the normalize because externExports depends on unique names.
    if (options.isExternExportsEnabled() || options.externExportsPath != null) {
      passes.add(externExports);
    }

    // Gather property names in externs so they can be queried by the
    // optimizing passes.
    passes.add(gatherExternProperties);

    if (options.j2clPassMode.shouldAddJ2clPasses()) {
      passes.add(j2clUtilGetDefineRewriterPass);
    }

    if (options.instrumentForCoverage) {
      passes.add(instrumentForCodeCoverage);
    }

    if (options.runtimeTypeCheck) {
      passes.add(runtimeTypeCheck);
    }

    passes.add(createEmptyPass(PassNames.BEFORE_STANDARD_OPTIMIZATIONS));

    if (options.replaceIdGenerators) {
      passes.add(replaceIdGenerators);
    }

    // Optimizes references to the arguments variable.
    if (options.optimizeArgumentsArray) {
      passes.add(optimizeArgumentsArray);
    }

    // Abstract method removal works best on minimally modified code, and also
    // only needs to run once.
    if (options.closurePass && (options.removeAbstractMethods || options.removeClosureAsserts)) {
      passes.add(closureCodeRemoval);
    }

    if (options.removeJ2clAsserts) {
      passes.add(j2clAssertRemovalPass);
    }

    // Property disambiguation should only run once and needs to be done
    // soon after type checking, both so that it can make use of type
    // information and so that other passes can take advantage of the renamed
    // properties.
    if (options.disambiguatePrivateProperties) {
      passes.add(disambiguatePrivateProperties);
    }

    assertAllOneTimePasses(passes);

    // Inline aliases so that following optimizations don't have to understand alias chains.
    if (options.getPropertyCollapseLevel() == PropertyCollapseLevel.ALL) {
      passes.add(aggressiveInlineAliases);
    }

    // Inline getters/setters in J2CL classes so that Object.defineProperties() calls (resulting
    // from desugaring) don't block class stripping.
    if (options.j2clPassMode.shouldAddJ2clPasses()
        && options.getPropertyCollapseLevel() == PropertyCollapseLevel.ALL) {
      // Relies on collapseProperties-triggered aggressive alias inlining.
      passes.add(j2clPropertyInlinerPass);
    }

    // Collapsing properties can undo constant inlining, so we do this before
    // the main optimization loop.
    if (options.getPropertyCollapseLevel() != PropertyCollapseLevel.NONE) {
      passes.add(collapseProperties);
    }

    if (options.inferConsts) {
      passes.add(inferConsts);
    }

    // TODO(mlourenco): Ideally this would be in getChecks() instead of getOptimizations(). But
    // for that it needs to understand constant properties as well. See b/31301233#10.
    // Needs to happen after inferConsts and collapseProperties. Detects whether invocations of
    // the method goog.string.Const.from are done with an argument which is a string literal.
    passes.add(checkConstParams);

    // Running RemoveUnusedCode before disambiguate properties allows disambiguate properties to be
    // more effective if code that would prevent disambiguation can be removed.
    // TODO(b/66971163): Rename options since we're not actually using smartNameRemoval here now.
    if (options.extraSmartNameRemoval && options.smartNameRemoval) {

      // These passes remove code that is dead because of define flags.
      // If the dead code is weakly typed, running these passes before property
      // disambiguation results in more code removal.
      // The passes are one-time on purpose. (The later runs are loopable.)
      if (options.foldConstants && (options.inlineVariables || options.inlineLocalVariables)) {
        passes.add(earlyInlineVariables);
        passes.add(earlyPeepholeOptimizations);
      }

      passes.add(removeUnusedCodeOnce);
    }

    // Property disambiguation should only run once and needs to be done
    // soon after type checking, both so that it can make use of type
    // information and so that other passes can take advantage of the renamed
    // properties.
    if (options.shouldDisambiguateProperties() && options.isTypecheckingEnabled()) {
      passes.add(disambiguateProperties);
    }

    if (options.computeFunctionSideEffects) {
      passes.add(markPureFunctions);
    }

    if (options.smartNameRemoval) {
      passes.addAll(getCodeRemovingPasses());
      // TODO(b/66971163): Remove this early loop or rename the option that enables it
      // to something more appropriate.
    }

    // This needs to come after the inline constants pass, which is run within
    // the code removing passes.
    if (options.closurePass) {
      passes.add(closureOptimizePrimitives);
    }

    // ReplaceStrings runs after CollapseProperties in order to simplify
    // pulling in values of constants defined in enums structures. It also runs
    // after disambiguate properties and smart name removal so that it can
    // correctly identify logging types and can replace references to string
    // expressions.
    if (!options.replaceStringsFunctionDescriptions.isEmpty()) {
      passes.add(replaceStrings);
    }

    // TODO(user): This forces a first crack at crossChunkCodeMotion
    // before devirtualization. Once certain functions are devirtualized,
    // it confuses crossChunkCodeMotion ability to recognized that
    // it is recursive.

    // TODO(user): This is meant for a temporary quick win.
    // In the future, we might want to improve our analysis in
    // CrossChunkCodeMotion so we don't need to do this.
    if (options.shouldRunCrossChunkCodeMotion()) {
      passes.add(crossModuleCodeMotion);
    }

    // Method devirtualization benefits from property disambiguation so
    // it should run after that pass but before passes that do
    // optimizations based on global names (like cross module code motion
    // and inline functions).  Smart Name Removal does better if run before
    // this pass.
    if (options.devirtualizeMethods) {
      passes.add(devirtualizeMethods);
    }

    if (options.customPasses != null) {
      passes.add(getCustomPasses(
          CustomPassExecutionTime.BEFORE_OPTIMIZATION_LOOP));
    }

    passes.add(createEmptyPass(PassNames.BEFORE_MAIN_OPTIMIZATIONS));

    // Because FlowSensitiveInlineVariables does not operate on the global scope due to compilation
    // time, we need to run it once before InlineFunctions so that we don't miss inlining
    // opportunities when a function will be inlined into the global scope.
    if (options.inlineVariables || options.inlineLocalVariables) {
      passes.add(flowSensitiveInlineVariables);
    }

    passes.addAll(getMainOptimizationLoop());
    passes.add(createEmptyPass(PassNames.AFTER_MAIN_OPTIMIZATIONS));

    passes.add(createEmptyPass("beforeModuleMotion"));

    if (options.shouldRunCrossChunkCodeMotion()) {
      passes.add(crossModuleCodeMotion);
    }

    if (options.shouldRunCrossChunkMethodMotion()) {
      passes.add(crossModuleMethodMotion);
    }

    passes.add(createEmptyPass("afterModuleMotion"));

    // Some optimizations belong outside the loop because running them more
    // than once would either have no benefit or be incorrect.
    if (options.customPasses != null) {
      passes.add(getCustomPasses(
          CustomPassExecutionTime.AFTER_OPTIMIZATION_LOOP));
    }

    if (options.inlineVariables || options.inlineLocalVariables) {
      passes.add(flowSensitiveInlineVariables);

      // After inlining some of the variable uses, some variables are unused.
      // Re-run remove unused vars to clean it up.
      if (shouldRunRemoveUnusedCode()) {
        passes.add(removeUnusedCodeOnce);
      }
    }

    if (options.collapseAnonymousFunctions) {
      passes.add(collapseAnonymousFunctions);
    }

    // Move functions before extracting prototype member declarations.
    if (options.moveFunctionDeclarations
        // renamePrefixNamescape relies on moveFunctionDeclarations
        // to preserve semantics.
        || options.renamePrefixNamespace != null) {
      passes.add(moveFunctionDeclarations);
    }

    if (options.anonymousFunctionNaming == AnonymousFunctionNamingPolicy.MAPPED) {
      passes.add(nameMappedAnonymousFunctions);
    }

    // The mapped name anonymous function pass makes use of information that
    // the extract prototype member declarations pass removes so the former
    // happens before the latter.
    if (options.extractPrototypeMemberDeclarations != ExtractPrototypeMemberDeclarationsMode.OFF) {
      passes.add(extractPrototypeMemberDeclarations);
    }

    if (options.shouldAmbiguateProperties()
        && options.propertyRenaming == PropertyRenamingPolicy.ALL_UNQUOTED
        && options.isTypecheckingEnabled()) {
      passes.add(ambiguateProperties);
    }

    if (options.propertyRenaming == PropertyRenamingPolicy.ALL_UNQUOTED) {
      passes.add(renameProperties);
    }

    // Reserve global names added to the "windows" object.
    if (options.reserveRawExports) {
      passes.add(gatherRawExports);
    }

    // This comes after property renaming because quoted property names must
    // not be renamed.
    if (options.convertToDottedProperties) {
      passes.add(convertToDottedProperties);
    }

    // Property renaming must happen before this pass runs since this
    // pass may convert dotted properties into quoted properties.  It
    // is beneficial to run before alias strings, alias keywords and
    // variable renaming.
    if (options.rewriteFunctionExpressions) {
      passes.add(rewriteFunctionExpressions);
    }

    // This comes after converting quoted property accesses to dotted property
    // accesses in order to avoid aliasing property names.
    if (!options.aliasableStrings.isEmpty() || options.aliasAllStrings) {
      passes.add(aliasStrings);
    }

    if (options.coalesceVariableNames) {
      // Passes after this point can no longer depend on normalized AST
      // assumptions because the code is marked as un-normalized
      passes.add(coalesceVariableNames);

      // coalesceVariables creates identity assignments and more redundant code
      // that can be removed, rerun the peephole optimizations to clean them
      // up.
      if (options.foldConstants) {
        passes.add(peepholeOptimizationsOnce);
      }
    }

    // Passes after this point can no longer depend on normalized AST assumptions.
    passes.add(markUnnormalized);

    if (options.collapseVariableDeclarations) {
      passes.add(exploitAssign);
      passes.add(collapseVariableDeclarations);
    }

    // This pass works best after collapseVariableDeclarations.
    passes.add(denormalize);

    if (options.variableRenaming != VariableRenamingPolicy.ALL) {
      // If we're leaving some (or all) variables with their old names,
      // then we need to undo any of the markers we added for distinguishing
      // local variables ("x" -> "x$jscomp$1").
      passes.add(invertContextualRenaming);
    }

    if (options.variableRenaming != VariableRenamingPolicy.OFF) {
      passes.add(renameVars);
    }

    if (options.labelRenaming) {
      passes.add(renameLabels);
    }

    if (options.foldConstants) {
      passes.add(latePeepholeOptimizations);
    }

    if (options.anonymousFunctionNaming == AnonymousFunctionNamingPolicy.UNMAPPED) {
      passes.add(nameUnmappedAnonymousFunctions);
    }

    if (protectHiddenSideEffects) {
      passes.add(stripSideEffectProtection);
    }

    if (options.renamePrefixNamespace != null) {
      if (!GLOBAL_SYMBOL_NAMESPACE_PATTERN.matcher(
          options.renamePrefixNamespace).matches()) {
        throw new IllegalArgumentException(
            "Illegal character in renamePrefixNamespace name: "
            + options.renamePrefixNamespace);
      }
      passes.add(rescopeGlobalSymbols);
    }

    // Safety checks
    passes.add(checkAstValidity);
    passes.add(varCheckValidity);

    // Raise to ES6, if allowed
    if (options.getOutputFeatureSet().contains(ES6)) {
      passes.add(optimizeToEs6);
    }

    assertValidOrderForOptimizations(passes);
    return passes;
  }

  /** Creates the passes for the main optimization loop. */
  private List getMainOptimizationLoop() {
    List passes = new ArrayList<>();
    if (options.inlineGetters) {
      passes.add(inlineSimpleMethods);
    }

    passes.addAll(getCodeRemovingPasses());

    if (options.getInlineFunctionsLevel() != Reach.NONE) {
      passes.add(inlineFunctions);
    }

    if (options.shouldInlineProperties() && options.isTypecheckingEnabled()) {
      passes.add(inlineProperties);
    }

    if (options.removeUnusedVars || options.removeUnusedLocalVars) {
      if (options.deadAssignmentElimination) {
        passes.add(deadAssignmentsElimination);

        // The Polymer source is usually not included in the compilation, but it creates
        // getters/setters for many properties in compiled code. Dead property assignment
        // elimination is only safe when it knows about getters/setters. Therefore, we skip
        // it if the polymer pass is enabled.
        if (options.polymerVersion == null) {
          passes.add(deadPropertyAssignmentElimination);
        }
      }
    }

    if (options.optimizeCalls) {
      passes.add(optimizeCalls);
    }

    if (options.j2clPassMode.shouldAddJ2clPasses()) {
      passes.add(j2clConstantHoisterPass);
      passes.add(j2clClinitPass);
    }

    assertAllLoopablePasses(passes);
    return passes;
  }

  /** Creates several passes aimed at removing code. */
  private List getCodeRemovingPasses() {
    List passes = new ArrayList<>();
    if (options.collapseObjectLiterals) {
      passes.add(collapseObjectLiterals);
    }

    if (options.inlineVariables || options.inlineLocalVariables) {
      passes.add(inlineVariables);
    } else if (options.inlineConstantVars) {
      passes.add(inlineConstants);
    }

    if (options.foldConstants) {
      passes.add(peepholeOptimizations);
    }

    if (options.removeDeadCode) {
      passes.add(removeUnreachableCode);
    }

    if (shouldRunRemoveUnusedCode()) {
      passes.add(removeUnusedCode);
    }

    assertAllLoopablePasses(passes);
    return passes;
  }

  private boolean shouldRunRemoveUnusedCode() {
    return options.removeUnusedVars
        || options.removeUnusedLocalVars
        || options.removeUnusedPrototypeProperties
        || options.isRemoveUnusedClassProperties()
        || options.isRemoveUnusedConstructorProperties()
        || options.rewritePolyfills;
  }

  private final HotSwapPassFactory checkSideEffects =
      new HotSwapPassFactory("checkSideEffects") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          return new CheckSideEffects(
              compiler, options.checkSuspiciousCode, protectHiddenSideEffects);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Removes the "protector" functions that were added by CheckSideEffects. */
  private final PassFactory stripSideEffectProtection =
      new PassFactory(PassNames.STRIP_SIDE_EFFECT_PROTECTION, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CheckSideEffects.StripProtection(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  /** Checks for code that is probably wrong (such as stray expressions). */
  private final HotSwapPassFactory suspiciousCode =
      new HotSwapPassFactory("suspiciousCode") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          List sharedCallbacks = new ArrayList<>();
          if (options.checkSuspiciousCode) {
            sharedCallbacks.add(new CheckSuspiciousCode());
            sharedCallbacks.add(new CheckDuplicateCase(compiler));
          }

          if (options.enables(DiagnosticGroups.GLOBAL_THIS)) {
            sharedCallbacks.add(new CheckGlobalThis(compiler));
          }

          if (options.enables(DiagnosticGroups.DEBUGGER_STATEMENT_PRESENT)) {
            sharedCallbacks.add(new CheckDebuggerStatement(compiler));
          }

          return combineChecks(compiler, sharedCallbacks);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Verify that all the passes are one-time passes. */
  private static void assertAllOneTimePasses(List passes) {
    for (PassFactory pass : passes) {
      checkState(pass.isOneTimePass());
    }
  }

  /** Verify that all the passes are multi-run passes. */
  private static void assertAllLoopablePasses(List passes) {
    for (PassFactory pass : passes) {
      checkState(!pass.isOneTimePass());
    }
  }

  /**
   * Checks that {@code pass1} comes before {@code pass2} in {@code passList}, if both are present.
   */
  private void assertPassOrder(
      List passList, PassFactory pass1, PassFactory pass2, String msg) {
    int pass1Index = passList.indexOf(pass1);
    int pass2Index = passList.indexOf(pass2);
    if (pass1Index != -1 && pass2Index != -1) {
      checkState(pass1Index < pass2Index, msg);
    }
  }

  /**
   * Certain checks need to run in a particular order. For example, the PolymerPass
   * will not work correctly unless it runs after the goog.provide() processing.
   * This enforces those constraints.
   * @param checks The list of check passes
   */
  private void assertValidOrderForChecks(List checks) {
    assertPassOrder(
        checks,
        chromePass,
        checkJsDocAndEs6Modules,
        "The ChromePass must run before after JsDoc and Es6 module checking.");
    assertPassOrder(
        checks,
        closureRewriteModule,
        processDefines,
        "Must rewrite goog.module before processing @define's, so that @defines in modules work.");
    assertPassOrder(
        checks,
        closurePrimitives,
        polymerPass,
        "The Polymer pass must run after goog.provide processing.");
    assertPassOrder(
        checks,
        chromePass,
        polymerPass,
        "The Polymer pass must run after ChromePass processing.");
    assertPassOrder(
        checks,
        polymerPass,
        suspiciousCode,
        "The Polymer pass must run before suspiciousCode processing.");
    assertPassOrder(
        checks,
        dartSuperAccessorsPass,
        TranspilationPasses.es6ConvertSuper,
        "The Dart super accessors pass must run before ES6->ES3 super lowering.");

    if (checks.contains(closureGoogScopeAliases)) {
      checkState(
          checks.contains(checkVariableReferences),
          "goog.scope processing requires variable checking");
    }
    assertPassOrder(
        checks,
        checkVariableReferences,
        closureGoogScopeAliases,
        "Variable checking must happen before goog.scope processing.");

    assertPassOrder(
        checks,
        gatherModuleMetadataPass,
        closureCheckModule,
        "Need to gather module metadata before checking closure modules.");

    assertPassOrder(
        checks,
        gatherModuleMetadataPass,
        createModuleMapPass,
        "Need to gather module metadata before scanning modules.");

    assertPassOrder(
        checks,
        createModuleMapPass,
        rewriteCommonJsModules,
        "Need to gather module information before rewriting CommonJS modules.");

    assertPassOrder(
        checks,
        rewriteScriptsToEs6Modules,
        gatherModuleMetadataPass,
        "Need to gather module information after rewriting scripts to modules.");

    assertPassOrder(
        checks,
        checkClosureImports,
        rewriteClosureImports,
        "Closure imports must be checked before they are rewritten.");

    assertPassOrder(
        checks,
        j2clPass,
        TranspilationPasses.rewriteGenerators,
        "J2CL normalization should be done before generator re-writing.");
  }

  /**
   * Certain optimizations need to run in a particular order. For example, OptimizeCalls must run
   * before RemoveSuperMethodsPass, because the former can invalidate assumptions in the latter.
   * This enforces those constraints.
   * @param optimizations The list of optimization passes
   */
  private void assertValidOrderForOptimizations(List optimizations) {
    assertPassOrder(
        optimizations,
        processDefines,
        j2clUtilGetDefineRewriterPass,
        "J2CL define re-writing should be done after processDefines since it relies on "
            + "collectDefines which has side effects.");
  }

  /** Checks that all constructed classes are goog.require()d. */
  private final HotSwapPassFactory checkRequires =
      new HotSwapPassFactory("checkMissingAndExtraRequires") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new CheckMissingAndExtraRequires(
              compiler, CheckMissingAndExtraRequires.Mode.FULL_COMPILE);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Makes sure @constructor is paired with goog.provides(). */
  private final HotSwapPassFactory checkProvides =
      new HotSwapPassFactory("checkProvides") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new CheckProvides(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private static final DiagnosticType GENERATE_EXPORTS_ERROR =
      DiagnosticType.error(
          "JSC_GENERATE_EXPORTS_ERROR",
          "Exports can only be generated if export symbol/property functions are set.");

  /** Verifies JSDoc annotations are used properly and checks for ES6 modules. */
  private final HotSwapPassFactory checkJsDocAndEs6Modules =
      new HotSwapPassFactory("checkJsDocAndEs6Modules") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          ImmutableList.Builder callbacks =
              ImmutableList.builder()
                  .add(new CheckJSDoc(compiler))
                  .add(new Es6CheckModule(compiler));
          return combineChecks(compiler, callbacks.build());
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  /** Generates exports for @export annotations. */
  private final PassFactory generateExports =
      new PassFactory(PassNames.GENERATE_EXPORTS, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          CodingConvention convention = compiler.getCodingConvention();
          if (convention.getExportSymbolFunction() != null
              && convention.getExportPropertyFunction() != null) {
            final GenerateExports pass =
                new GenerateExports(
                    compiler,
                    options.exportLocalPropertyDefinitions,
                    convention.getExportSymbolFunction(),
                    convention.getExportPropertyFunction());
            return new CompilerPass() {
              @Override
              public void process(Node externs, Node root) {
                pass.process(externs, root);
                compiler.addExportedNames(pass.getExportedVariableNames());
              }
            };
          } else {
            return new ErrorPass(compiler, GENERATE_EXPORTS_ERROR);
          }
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final PassFactory generateIjs =
      new PassFactory("generateIjs", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new ConvertToTypedInterface(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Generates exports for functions associated with JsUnit. */
  private final PassFactory exportTestFunctions =
      new PassFactory(PassNames.EXPORT_TEST_FUNCTIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          CodingConvention convention = compiler.getCodingConvention();
          if (convention.getExportSymbolFunction() != null) {
            return new ExportTestFunctions(
                compiler,
                convention.getExportSymbolFunction(),
                convention.getExportPropertyFunction());
          } else {
            return new ErrorPass(compiler, GENERATE_EXPORTS_ERROR);
          }
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Raw exports processing pass. */
  private final PassFactory gatherRawExports =
      new PassFactory(PassNames.GATHER_RAW_EXPORTS, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          final GatherRawExports pass = new GatherRawExports(compiler);

          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              pass.process(externs, root);
              compiler.addExportedNames(pass.getExportedVariableNames());
            }
          };
        }

        @Override
        public FeatureSet featureSet() {
          // Should be FeatureSet.latest() since it's a trivial pass, but must match "normalize"
          // TODO(johnlenz): Update this and normalize to latest()
          return ES2019_MODULES;
        }
      };

  /** Closure pre-processing pass. */
  private final HotSwapPassFactory closurePrimitives =
      new HotSwapPassFactory("closurePrimitives") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          preprocessorSymbolTableFactory.maybeInitialize(compiler);
          final ProcessClosurePrimitives pass =
              new ProcessClosurePrimitives(
                  compiler, preprocessorSymbolTableFactory.getInstanceOrNull());

          return new HotSwapCompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              pass.process(externs, root);
              compiler.addExportedNames(pass.getExportedVariableNames());
            }

            @Override
            public void hotSwapScript(Node scriptRoot, Node originalRoot) {
              pass.hotSwapScript(scriptRoot, originalRoot);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Closure provide/require rewriting pass. */
  private final HotSwapPassFactory closureProvidesRequires =
      new HotSwapPassFactory("closureProvidesRequires") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          preprocessorSymbolTableFactory.maybeInitialize(compiler);
          return new ProcessClosureProvidesAndRequires(
              compiler,
              preprocessorSymbolTableFactory.getInstanceOrNull(),
              options.brokenClosureRequiresLevel,
              options.shouldPreservesGoogProvidesAndRequires());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Process AngularJS-specific annotations. */
  private final HotSwapPassFactory angularPass =
      new HotSwapPassFactory(PassNames.ANGULAR_PASS) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new AngularPass(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /**
   * The default i18n pass. A lot of the options are not configurable, because ReplaceMessages has a
   * lot of legacy logic.
   */
  private final PassFactory replaceMessages =
      new PassFactory(PassNames.REPLACE_MESSAGES, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new ReplaceMessages(
              compiler,
              options.messageBundle,
              /* warn about message dupes */
              true,
              /* allow messages with goog.getMsg */
              JsMessage.Style.CLOSURE,
              /* if we can't find a translation, don't worry about it. */
              false);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory replaceMessagesForChrome =
      new PassFactory(PassNames.REPLACE_MESSAGES, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new ReplaceMessagesForChrome(
              compiler,
              new GoogleJsMessageIdGenerator(options.tcProjectId),
              /* warn about message dupes */
              true,
              /* allow messages with goog.getMsg */
              JsMessage.Style.CLOSURE);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Applies aliases and inlines goog.scope. */
  private final HotSwapPassFactory closureGoogScopeAliases =
      new HotSwapPassFactory("closureGoogScopeAliases") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          preprocessorSymbolTableFactory.maybeInitialize(compiler);
          return new ScopedAliases(
              compiler,
              preprocessorSymbolTableFactory.getInstanceOrNull(),
              options.getAliasTransformationHandler());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final PassFactory injectRuntimeLibraries =
      new PassFactory("InjectRuntimeLibraries", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new InjectRuntimeLibraries(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Desugars ES6_TYPED features into ES6 code. */
  final HotSwapPassFactory convertEs6TypedToEs6 =
      new HotSwapPassFactory("convertEs6Typed") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          return new Es6TypedToEs6Converter(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPESCRIPT;
        }
      };

  private static final PassFactory markUntranspilableFeaturesAsRemoved =
      new PassFactory("markUntranspilableFeaturesAsRemoved", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          CompilerOptions options = compiler.getOptions();

          return new MarkUntranspilableFeaturesAsRemoved(compiler, options.getOutputFeatureSet());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final PassFactory convertStaticInheritance =
      new PassFactory("Es6StaticInheritance", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new Es6ToEs3ClassSideInheritance(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  private final PassFactory inlineTypeAliases =
      new PassFactory(PassNames.INLINE_TYPE_ALIASES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineAliases(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Inlines type aliases if they are explicitly or effectively const. */
  private final PassFactory aggressiveInlineAliases =
      new PassFactory("aggressiveInlineAliases", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new AggressiveInlineAliases(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory removeWeakSources =
      new PassFactory("removeWeakSources", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new RemoveWeakSources(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  private final PassFactory declaredGlobalExternsOnWindow =
      new PassFactory(PassNames.DECLARED_GLOBAL_EXTERNS_ON_WINDOW, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new DeclaredGlobalExternsOnWindow(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final PassFactory checkTypeImportCodeReferences =
      new PassFactory("checkTypeImportCodeReferences", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CheckTypeImportCodeReferences(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  /** Rewrites goog.defineClass */
  private final HotSwapPassFactory closureRewriteClass =
      new HotSwapPassFactory(PassNames.CLOSURE_REWRITE_CLASS) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new ClosureRewriteClass(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks of correct usage of goog.module */
  private final HotSwapPassFactory closureCheckModule =
      new HotSwapPassFactory("closureCheckModule") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new ClosureCheckModule(compiler, compiler.getModuleMetadataMap());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Rewrites goog.module */
  private final HotSwapPassFactory closureRewriteModule =
      new HotSwapPassFactory("closureRewriteModule") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          preprocessorSymbolTableFactory.maybeInitialize(compiler);
          maybeInitializeModuleRewriteState();
          return new ClosureRewriteModule(
              compiler, preprocessorSymbolTableFactory.getInstanceOrNull(), moduleRewriteState);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks goog.require, goog.forwardDeclare, goog.requireType, and goog.module.get calls */
  private final HotSwapPassFactory checkClosureImports =
      new HotSwapPassFactory("checkGoogRequires") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          // TODO(johnplaisted): Expand the Set of modules to check.
          return new CheckClosureImports(
              compiler, compiler.getModuleMetadataMap(), ImmutableSet.of(ModuleType.GOOG_PROVIDE));
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Rewrites goog.require, goog.forwardDeclare, goog.requireType, and goog.module.get calls */
  private final HotSwapPassFactory rewriteClosureImports =
      new HotSwapPassFactory("rewriteClosureImports") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          preprocessorSymbolTableFactory.maybeInitialize(compiler);
          return new RewriteClosureImports(
              compiler,
              compiler.getModuleMetadataMap(),
              preprocessorSymbolTableFactory.getInstanceOrNull(),
              // TODO(johnplaisted): Expand the Set of modules to rewrite in.
              ImmutableSet.of());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Rewrite imports for Closure Library's goog.js file to global goog references. */
  private final HotSwapPassFactory rewriteGoogJsImports =
      new HotSwapPassFactory("rewriteGoogJsImports") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new RewriteGoogJsImports(
              compiler, RewriteGoogJsImports.Mode.LINT_AND_REWRITE, compiler.getModuleMap());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks that CSS class names are wrapped in goog.getCssName */
  private final PassFactory closureCheckGetCssName =
      new PassFactory("closureCheckGetCssName", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CheckMissingGetCssName(
              compiler,
              options.checkMissingGetCssNameLevel,
              options.checkMissingGetCssNameBlacklist);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /**
   * Processes goog.getCssName. The cssRenamingMap is used to lookup replacement values for the
   * classnames. If null, the raw class names are inlined.
   */
  private final PassFactory closureReplaceGetCssName =
      new PassFactory("closureReplaceGetCssName", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node jsRoot) {
              Map newCssNames = null;
              if (options.gatherCssNames) {
                newCssNames = new HashMap<>();
              }
              ReplaceCssNames pass =
                  new ReplaceCssNames(compiler, newCssNames, options.cssRenamingWhitelist);
              pass.process(externs, jsRoot);
              compiler.setCssNames(newCssNames);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /**
   * Creates synthetic blocks to prevent FoldConstants from moving code past markers in the source.
   */
  private final PassFactory createSyntheticBlocks =
      new PassFactory("createSyntheticBlocks", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CreateSyntheticBlocks(
              compiler, options.syntheticBlockStartMarker, options.syntheticBlockEndMarker);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final PassFactory earlyPeepholeOptimizations =
      new PassFactory("earlyPeepholeOptimizations", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          boolean useTypesForOptimization = compiler.getOptions().useTypesForLocalOptimization;
          List peepholeOptimizations = new ArrayList<>();
          peepholeOptimizations.add(new PeepholeRemoveDeadCode());
          if (compiler.getOptions().j2clPassMode.shouldAddJ2clPasses()) {
            peepholeOptimizations.add(new J2clEqualitySameRewriterPass(useTypesForOptimization));
          }
          return new PeepholeOptimizationsPass(compiler, getName(), peepholeOptimizations);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory earlyInlineVariables =
      new PassFactory("earlyInlineVariables", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          InlineVariables.Mode mode;
          if (options.inlineVariables) {
            mode = InlineVariables.Mode.ALL;
          } else if (options.inlineLocalVariables) {
            mode = InlineVariables.Mode.LOCALS_ONLY;
          } else {
            throw new IllegalStateException("No variable inlining option set.");
          }
          return new InlineVariables(compiler, mode, true);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Various peephole optimizations. */
  private static CompilerPass createPeepholeOptimizationsPass(
      AbstractCompiler compiler, String passName) {
    final boolean late = false;
    final boolean useTypesForOptimization = compiler.getOptions().useTypesForLocalOptimization;
    List optimizations = new ArrayList<>();
    optimizations.add(new MinimizeExitPoints());
    optimizations.add(new PeepholeMinimizeConditions(late));
    optimizations.add(new PeepholeSubstituteAlternateSyntax(late));
    optimizations.add(new PeepholeReplaceKnownMethods(late, useTypesForOptimization));
    optimizations.add(new PeepholeRemoveDeadCode());
    if (compiler.getOptions().j2clPassMode.shouldAddJ2clPasses()) {
      optimizations.add(new J2clEqualitySameRewriterPass(useTypesForOptimization));
      optimizations.add(new J2clStringValueOfRewriterPass());
    }
    optimizations.add(new PeepholeFoldConstants(late, useTypesForOptimization));
    optimizations.add(new PeepholeCollectPropertyAssignments());
    return new PeepholeOptimizationsPass(compiler, passName, optimizations);
  }

  /** Various peephole optimizations. */
  private final PassFactory peepholeOptimizations =
      new PassFactory(PassNames.PEEPHOLE_OPTIMIZATIONS, false /* oneTimePass */) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return createPeepholeOptimizationsPass(compiler, getName());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Various peephole optimizations. */
  private final PassFactory peepholeOptimizationsOnce =
      new PassFactory(PassNames.PEEPHOLE_OPTIMIZATIONS, true /* oneTimePass */) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return createPeepholeOptimizationsPass(compiler, getName());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Same as peepholeOptimizations but aggressively merges code together */
  private final PassFactory latePeepholeOptimizations =
      new PassFactory("latePeepholeOptimizations", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          final boolean late = true;
          final boolean useTypesForOptimization = options.useTypesForLocalOptimization;
          return new PeepholeOptimizationsPass(
              compiler,
              getName(),
              new StatementFusion(options.aggressiveFusion),
              new PeepholeRemoveDeadCode(),
              new PeepholeMinimizeConditions(late),
              new PeepholeSubstituteAlternateSyntax(late),
              new PeepholeReplaceKnownMethods(late, useTypesForOptimization),
              new PeepholeFoldConstants(late, useTypesForOptimization),
              new PeepholeReorderConstantExpression());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Checks that all variables are defined. */
  private final HotSwapPassFactory checkVars =
      new HotSwapPassFactory(PassNames.CHECK_VARS) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new VarCheck(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Infers constants. */
  private final PassFactory inferConsts =
      new PassFactory(PassNames.INFER_CONSTS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InferConsts(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks for RegExp references. */
  private final PassFactory checkRegExp =
      new PassFactory(PassNames.CHECK_REG_EXP, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          final CheckRegExp pass = new CheckRegExp(compiler);

          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              pass.process(externs, root);
              compiler.setHasRegExpGlobalReferences(pass.isGlobalRegExpPropertiesUsed());
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks that references to variables look reasonable. */
  private final HotSwapPassFactory checkVariableReferencesForTranspileOnly =
      new HotSwapPassFactory(PassNames.CHECK_VARIABLE_REFERENCES) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new VariableReferenceCheck(compiler, true);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Checks that references to variables look reasonable. */
  private final HotSwapPassFactory checkVariableReferences =
      new HotSwapPassFactory(PassNames.CHECK_VARIABLE_REFERENCES) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new VariableReferenceCheck(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks that references to variables look reasonable. */
  private final HotSwapPassFactory checkSuper =
      new HotSwapPassFactory("checkSuper") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new CheckSuper(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Creates a typed scope and adds types to the type registry. */
  final HotSwapPassFactory resolveTypes =
      new HotSwapPassFactory(PassNames.RESOLVE_TYPES) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return new GlobalTypeResolver(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  /** Clears the typed scope when we're done. */
  private final PassFactory clearTypedScopePass =
      new PassFactory("clearTypedScopePass", true) {
    @Override
    protected CompilerPass create(AbstractCompiler compiler) {
      return new ClearTypedScope();
    }

    @Override
    protected FeatureSet featureSet() {
      return FeatureSet.latest();
    }
  };

  /** Runs type inference. */
  final HotSwapPassFactory inferTypes =
      new HotSwapPassFactory(PassNames.INFER_TYPES) {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          return new HotSwapCompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              checkNotNull(topScope);
              checkNotNull(getTypedScopeCreator());

              makeTypeInference(compiler).process(externs, root);
            }

            @Override
            public void hotSwapScript(Node scriptRoot, Node originalRoot) {
              makeTypeInference(compiler).inferAllScopes(scriptRoot);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  private final HotSwapPassFactory inferJsDocInfo =
      new HotSwapPassFactory("inferJsDocInfo") {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          return new HotSwapCompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              checkNotNull(topScope);
              checkNotNull(getTypedScopeCreator());

              makeInferJsDocInfo(compiler).process(externs, root);
            }

            @Override
            public void hotSwapScript(Node scriptRoot, Node originalRoot) {
              makeInferJsDocInfo(compiler).hotSwapScript(scriptRoot, originalRoot);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  /** Checks type usage */
  private final HotSwapPassFactory checkTypes =
      new HotSwapPassFactory(PassNames.CHECK_TYPES) {
        @Override
        protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
          return new HotSwapCompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              checkNotNull(topScope);
              checkNotNull(getTypedScopeCreator());

              TypeCheck check = makeTypeCheck(compiler);
              check.process(externs, root);
              compiler.getErrorManager().setTypedPercent(check.getTypedPercent());
            }

            @Override
            public void hotSwapScript(Node scriptRoot, Node originalRoot) {
              makeTypeCheck(compiler).check(scriptRoot, false);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  /**
   * Checks possible execution paths of the program for problems: missing return statements and dead
   * code.
   */
  private final HotSwapPassFactory checkControlFlow =
      new HotSwapPassFactory("checkControlFlow") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          List callbacks = new ArrayList<>();
          if (!options.disables(DiagnosticGroups.CHECK_USELESS_CODE)) {
            callbacks.add(new CheckUnreachableCode(compiler));
          }
          if (!options.disables(DiagnosticGroups.MISSING_RETURN)) {
            callbacks.add(new CheckMissingReturn(compiler));
          }
          return combineChecks(compiler, callbacks);
        }

        @Override
        public FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks access controls. Depends on type-inference. */
  private final HotSwapPassFactory checkAccessControls =
      new HotSwapPassFactory("checkAccessControls") {
    @Override
    protected HotSwapCompilerPass create(AbstractCompiler compiler) {
      return new CheckAccessControls(
          compiler, options.enforceAccessControlCodingConventions);
    }

    @Override
    protected FeatureSet featureSet() {
      return TYPE_CHECK_SUPPORTED;
    }
  };

  private final HotSwapPassFactory lintChecks =
      new HotSwapPassFactory(PassNames.LINT_CHECKS) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          ImmutableList.Builder callbacks =
              ImmutableList.builder()
                  .add(new CheckEmptyStatements(compiler))
                  .add(new CheckEnums(compiler))
                  .add(new CheckEs6ModuleFileStructure(compiler))
                  .add(new CheckEs6Modules(compiler))
                  .add(new CheckNoMutatedEs6Exports(compiler))
                  .add(new CheckInterfaces(compiler))
                  .add(new CheckJSDocStyle(compiler))
                  .add(new CheckMissingSemicolon(compiler))
                  .add(new CheckNullabilityModifiers(compiler))
                  .add(new CheckPrimitiveAsObject(compiler))
                  .add(new CheckPrototypeProperties(compiler))
                  .add(new CheckUnusedLabels(compiler))
                  .add(new CheckUselessBlocks(compiler));
          return combineChecks(compiler, callbacks.build());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  private final HotSwapPassFactory analyzerChecks =
      new HotSwapPassFactory(PassNames.ANALYZER_CHECKS) {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          ImmutableList.Builder callbacks = ImmutableList.builder();
          if (options.enables(DiagnosticGroups.ANALYZER_CHECKS_INTERNAL)) {
            callbacks
                .add(new CheckNullableReturn(compiler))
                .add(new CheckArrayWithGoogObject(compiler))
                .add(new ImplicitNullabilityCheck(compiler));
          }
          // These are grouped together for better execution efficiency.
          if (options.enables(DiagnosticGroups.UNUSED_PRIVATE_PROPERTY)) {
            callbacks.add(new CheckUnusedPrivateProperties(compiler));
          }
          if (options.enables(DiagnosticGroups.MISSING_CONST_PROPERTY)) {
            callbacks.add(new CheckConstPrivateProperties(compiler));
          }
          return combineChecks(compiler, callbacks.build());
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  private final HotSwapPassFactory checkRequiresAndProvidesSorted =
      new HotSwapPassFactory("checkRequiresAndProvidesSorted") {
        @Override
        protected HotSwapCompilerPass create(AbstractCompiler compiler) {
          return combineChecks(
              compiler,
              ImmutableList.of(
                  new CheckProvidesSorted(CheckProvidesSorted.Mode.COLLECT_AND_REPORT),
                  new CheckRequiresSorted(CheckRequiresSorted.Mode.COLLECT_AND_REPORT)));
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Executes the given callbacks with a {@link CombinedCompilerPass}. */
  private static HotSwapCompilerPass combineChecks(AbstractCompiler compiler,
      List callbacks) {
    checkArgument(!callbacks.isEmpty());
    return new CombinedCompilerPass(compiler, callbacks);
  }

  /** A compiler pass that resolves types in the global scope. */
  class GlobalTypeResolver implements HotSwapCompilerPass {
    private final AbstractCompiler compiler;

    GlobalTypeResolver(AbstractCompiler compiler) {
      this.compiler = compiler;
    }

    @Override
    public void process(Node externs, Node root) {
      this.compiler.setTypeCheckingHasRun(true);
      if (topScope == null) {
        regenerateGlobalTypedScope(compiler, root.getParent());
      } else {
        compiler.getTypeRegistry().resolveTypes();
      }
    }
    @Override
    public void hotSwapScript(Node scriptRoot, Node originalRoot) {
      patchGlobalTypedScope(compiler, scriptRoot);
    }
  }

  /** A compiler pass that clears the global scope. */
  class ClearTypedScope implements CompilerPass {
    @Override
    public void process(Node externs, Node root) {
      clearTypedScope();
    }
  }

  /** Checks global name usage. */
  private final PassFactory checkGlobalNames =
      new PassFactory("checkGlobalNames", true) {
    @Override
    protected CompilerPass create(final AbstractCompiler compiler) {
      return new CompilerPass() {
        @Override
        public void process(Node externs, Node jsRoot) {
          // Create a global namespace for analysis by check passes.
          // Note that this class does all heavy computation lazily,
          // so it's OK to create it here.
          namespaceForChecks = new GlobalNamespace(compiler, externs, jsRoot);
          new CheckGlobalNames(compiler, options.checkGlobalNamesLevel)
              .injectNamespace(namespaceForChecks).process(externs, jsRoot);
        }
      };
    }

    @Override
    protected FeatureSet featureSet() {
      return TYPE_CHECK_SUPPORTED;
    }
  };

  /** Checks that the code is ES5 strict compliant. */
  private final PassFactory checkStrictMode =
      new PassFactory("checkStrictMode", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new StrictModeCheck(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Process goog.tweak.getTweak() calls. */
  private final PassFactory processTweaks = new PassFactory("processTweaks", true) {
    @Override
    protected CompilerPass create(final AbstractCompiler compiler) {
      return new CompilerPass() {
        @Override
        public void process(Node externs, Node jsRoot) {
          new ProcessTweaks(compiler,
              options.getTweakProcessing().shouldStrip(),
              options.getTweakReplacements()).process(externs, jsRoot);
        }
      };
    }

    @Override
    protected FeatureSet featureSet() {
      return TYPE_CHECK_SUPPORTED;
    }
  };

  /** Override @define-annotated constants. */
  private final PassFactory processDefines =
      new PassFactory("processDefines", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new ProcessDefines.Builder(compiler)
              .putReplacements(compiler.getDefaultDefineValues())
              .putReplacements(getAdditionalReplacements(options))
              .putReplacements(options.getDefineReplacements())
              .checksOnly(options.checksOnly)
              .injectNamespace(() -> namespaceForChecks)
              .build();
        }

        @Override
        public FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  /**
   * Strips code for smaller compiled code. This is useful for removing debug statements to prevent
   * leaking them publicly.
   */
  private final PassFactory stripCode =
      new PassFactory("stripCode", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node jsRoot) {
              CompilerOptions options = compiler.getOptions();
              StripCode pass =
                  new StripCode(
                      compiler,
                      options.stripTypes,
                      options.stripNameSuffixes,
                      options.stripTypePrefixes,
                      options.stripNamePrefixes);
              if (options.getTweakProcessing().shouldStrip()) {
                pass.enableTweakStripping();
              }
              pass.process(externs, jsRoot);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          // TODO(johnlenz): StripCode may be fooled by some newer features, like destructuring, and
          // fail to strip code we'd like stripped, but use of those features won't make it any more
          // likely to crash or cause runtime errors than pure ES5 code.
          return ES2019_MODULES;
        }
      };

  /** Release references to data that is only needed during checks. */
  final PassFactory garbageCollectChecks =
      new HotSwapPassFactory("garbageCollectChecks") {
    @Override
    protected HotSwapCompilerPass create(final AbstractCompiler compiler) {
      return new HotSwapCompilerPass() {
        @Override
        public void process(Node externs, Node jsRoot) {
          // Kill the global namespace so that it can be garbage collected
          // after all passes are through with it.
          namespaceForChecks = null;
        }

        @Override
        public void hotSwapScript(Node scriptRoot, Node originalRoot) {
          process(null, null);
        }
      };
    }

    @Override
    public FeatureSet featureSet() {
      return FeatureSet.latest();
    }
  };

  /** Checks that all constants are not modified */
  private final PassFactory checkConsts =
      new PassFactory("checkConsts", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new ConstCheck(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return ES_NEXT;
        }
      };

  /** Checks that the arguments are constants */
  private final PassFactory checkConstParams =
      new PassFactory(PassNames.CHECK_CONST_PARAMS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new ConstParamCheck(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inserts run-time type assertions for debugging. */
  private final PassFactory runtimeTypeCheck =
      new PassFactory(PassNames.RUNTIME_TYPE_CHECK, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new RuntimeTypeCheck(compiler, options.runtimeTypeCheckLogFunction);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES5;
        }
      };

  /** Generates unique ids. */
  private final PassFactory replaceIdGenerators =
      new PassFactory(PassNames.REPLACE_ID_GENERATORS, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              ReplaceIdGenerators pass =
                  new ReplaceIdGenerators(
                      compiler,
                      options.idGenerators,
                      options.generatePseudoNames,
                      options.idGeneratorsMapSerialized,
                      options.xidHashFunction);
              pass.process(externs, root);
              compiler.setIdGeneratorMap(pass.getSerializedIdMappings());
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Replace strings. */
  private final PassFactory replaceStrings =
      new PassFactory("replaceStrings", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              ReplaceStrings pass =
                  new ReplaceStrings(
                      compiler,
                      options.replaceStringsPlaceholderToken,
                      options.replaceStringsFunctionDescriptions,
                      options.replaceStringsReservedStrings,
                      options.replaceStringsInputMap);
              pass.process(externs, root);
              compiler.setStringMap(pass.getStringMap());
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Optimizes the "arguments" array. */
  private final PassFactory optimizeArgumentsArray =
      new PassFactory(PassNames.OPTIMIZE_ARGUMENTS_ARRAY, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new OptimizeArgumentsArray(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Remove variables set to goog.abstractMethod. */
  private final PassFactory closureCodeRemoval =
      new PassFactory("closureCodeRemoval", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new ClosureCodeRemoval(
              compiler, options.removeAbstractMethods, options.removeClosureAsserts);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Special case optimizations for closure functions. */
  private final PassFactory closureOptimizePrimitives =
      new PassFactory("closureOptimizePrimitives", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new ClosureOptimizePrimitives(
              compiler,
              compiler.getOptions().propertyRenaming == PropertyRenamingPolicy.ALL_UNQUOTED,
              compiler.getOptions().getOutputFeatureSet().contains(ES6));
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Puts global symbols into a single object. */
  private final PassFactory rescopeGlobalSymbols =
      new PassFactory("rescopeGlobalSymbols", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new RescopeGlobalSymbols(
              compiler,
              options.renamePrefixNamespace,
              options.renamePrefixNamespaceAssumeCrossChunkNames);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Collapses names in the global scope. */
  private final PassFactory collapseProperties =
      new PassFactory(PassNames.COLLAPSE_PROPERTIES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CollapseProperties(compiler, options.getPropertyCollapseLevel());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Rewrite properties as variables. */
  private final PassFactory collapseObjectLiterals =
      new PassFactory(PassNames.COLLAPSE_OBJECT_LITERALS, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineObjectLiterals(compiler, compiler.getUniqueNameIdSupplier());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Disambiguate property names based on the coding convention. */
  private final PassFactory disambiguatePrivateProperties =
      new PassFactory(PassNames.DISAMBIGUATE_PRIVATE_PROPERTIES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new DisambiguatePrivateProperties(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Disambiguate property names based on type information. */
  private final PassFactory disambiguateProperties =
      new PassFactory(PassNames.DISAMBIGUATE_PROPERTIES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new DisambiguateProperties(compiler, options.propertyInvalidationErrors);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Rewrite instance methods as static methods, to make them easier to inline. */
  private final PassFactory devirtualizeMethods =
      new PassFactory(PassNames.DEVIRTUALIZE_METHODS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return OptimizeCalls.builder()
              .setCompiler(compiler)
              .setConsiderExterns(false)
              .addPass(new DevirtualizeMethods(compiler))
              .build();
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /**
   * Optimizes unused function arguments, unused return values, and inlines constant parameters.
   * Also runs RemoveUnusedCode.
   */
  private final PassFactory optimizeCalls =
      new PassFactory(PassNames.OPTIMIZE_CALLS, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return OptimizeCalls.builder()
              .setCompiler(compiler)
              .setConsiderExterns(false)
              // Remove unused return values.
              .addPass(new OptimizeReturns(compiler))
              // Remove all parameters that are constants or unused.
              .addPass(new OptimizeParameters(compiler))
              .build();
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Look for function calls that are pure, and annotate them that way. */
  private final PassFactory markPureFunctions =
      new PassFactory("markPureFunctions", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new PureFunctionIdentifier.Driver(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inlines variables heuristically. */
  private final PassFactory inlineVariables =
      new PassFactory(PassNames.INLINE_VARIABLES, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          InlineVariables.Mode mode;
          if (options.inlineVariables) {
            mode = InlineVariables.Mode.ALL;
          } else if (options.inlineLocalVariables) {
            mode = InlineVariables.Mode.LOCALS_ONLY;
          } else {
            throw new IllegalStateException("No variable inlining option set.");
          }
          return new InlineVariables(compiler, mode, true);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inlines variables that are marked as constants. */
  private final PassFactory inlineConstants =
      new PassFactory("inlineConstants", false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineVariables(compiler, InlineVariables.Mode.CONSTANTS_ONLY, true);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Use data flow analysis to remove dead branches. */
  private final PassFactory removeUnreachableCode =
      new PassFactory(PassNames.REMOVE_UNREACHABLE_CODE, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new UnreachableCodeElimination(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inlines simple methods, like getters */
  private final PassFactory inlineSimpleMethods =
      new PassFactory("inlineSimpleMethods", false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineSimpleMethods(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Kills dead assignments. */
  private final PassFactory deadAssignmentsElimination =
      new PassFactory(PassNames.DEAD_ASSIGNMENT_ELIMINATION, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new DeadAssignmentsElimination(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Kills dead property assignments. */
  private final PassFactory deadPropertyAssignmentElimination =
      new PassFactory("deadPropertyAssignmentElimination", false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new DeadPropertyAssignmentElimination(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inlines function calls. */
  private final PassFactory inlineFunctions =
      new PassFactory(PassNames.INLINE_FUNCTIONS, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineFunctions(
              compiler,
              compiler.getUniqueNameIdSupplier(),
              options.getInlineFunctionsLevel(),
              options.assumeStrictThis() || options.expectStrictModeInput(),
              options.assumeClosuresOnlyCaptureReferences,
              options.maxFunctionSizeAfterInlining);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inlines constant properties. */
  private final PassFactory inlineProperties =
      new PassFactory(PassNames.INLINE_PROPERTIES, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new InlineProperties(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory removeUnusedCodeOnce = getRemoveUnusedCode(true /* isOneTimePass */);
  private final PassFactory removeUnusedCode = getRemoveUnusedCode(false /* isOneTimePass */);

  private PassFactory getRemoveUnusedCode(boolean isOneTimePass) {
    /** Removes variables that are never used. */
    return new PassFactory(PassNames.REMOVE_UNUSED_CODE, isOneTimePass) {
      @Override
      protected CompilerPass create(AbstractCompiler compiler) {
        boolean preserveAnonymousFunctionNames =
            options.anonymousFunctionNaming != AnonymousFunctionNamingPolicy.OFF;
        return new RemoveUnusedCode.Builder(compiler)
            .removeLocalVars(options.removeUnusedLocalVars)
            .removeGlobals(options.removeUnusedVars)
            .preserveFunctionExpressionNames(preserveAnonymousFunctionNames)
            .removeUnusedPrototypeProperties(options.removeUnusedPrototypeProperties)
            .allowRemovalOfExternProperties(options.removeUnusedPrototypePropertiesInExterns)
            .removeUnusedThisProperties(options.isRemoveUnusedClassProperties())
            .removeUnusedObjectDefinePropertiesDefinitions(options.isRemoveUnusedClassProperties())
            .removeUnusedConstructorProperties(options.isRemoveUnusedConstructorProperties())
            .removeUnusedPolyfills(options.rewritePolyfills)
            .build();
      }

      @Override
      public FeatureSet featureSet() {
        return ES2019_MODULES;
      }
    };
  }

  /** Move global symbols to a deeper common module */
  private final PassFactory crossModuleCodeMotion =
      new PassFactory(PassNames.CROSS_CHUNK_CODE_MOTION, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CrossChunkCodeMotion(
              compiler,
              compiler.getModuleGraph(),
              options.parentChunkCanSeeSymbolsDeclaredInChildren);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Move methods to a deeper common module */
  private final PassFactory crossModuleMethodMotion =
      new PassFactory(PassNames.CROSS_CHUNK_METHOD_MOTION, false) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CrossChunkMethodMotion(
              compiler,
              compiler.getCrossModuleIdGenerator(),
              // Only move properties in externs if we're not treating
              // them as exports.
              options.removeUnusedPrototypePropertiesInExterns,
              options.crossChunkCodeMotionNoStubMethods);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** A data-flow based variable inliner. */
  private final PassFactory flowSensitiveInlineVariables =
      new PassFactory(PassNames.FLOW_SENSITIVE_INLINE_VARIABLES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new FlowSensitiveInlineVariables(compiler);
        }

        @Override
        public FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Uses register-allocation algorithms to use fewer variables. */
  private final PassFactory coalesceVariableNames =
      new PassFactory(PassNames.COALESCE_VARIABLE_NAMES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CoalesceVariableNames(compiler, options.generatePseudoNames);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Some simple, local collapses (e.g., {@code var x; var y;} becomes {@code var x,y;}. */
  private final PassFactory exploitAssign =
      new PassFactory(PassNames.EXPLOIT_ASSIGN, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new PeepholeOptimizationsPass(compiler, getName(), new ExploitAssigns());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Some simple, local collapses (e.g., {@code var x; var y;} becomes {@code var x,y;}. */
  private final PassFactory collapseVariableDeclarations =
      new PassFactory(PassNames.COLLAPSE_VARIABLE_DECLARATIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CollapseVariableDeclarations(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Extracts common sub-expressions. */
  private final PassFactory extractPrototypeMemberDeclarations =
      new PassFactory(PassNames.EXTRACT_PROTOTYPE_MEMBER_DECLARATIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          Pattern pattern;
          switch (options.extractPrototypeMemberDeclarations) {
            case USE_GLOBAL_TEMP:
              pattern = Pattern.USE_GLOBAL_TEMP;
              break;
            case USE_IIFE:
              pattern = Pattern.USE_IIFE;
              break;
            default:
              throw new IllegalStateException("unexpected");
          }

          return new ExtractPrototypeMemberDeclarations(compiler, pattern);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019;
        }
      };

  /** Rewrites common function definitions to be more compact. */
  private final PassFactory rewriteFunctionExpressions =
      new PassFactory(PassNames.REWRITE_FUNCTION_EXPRESSIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new FunctionRewriter(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  /** Collapses functions to not use the VAR keyword. */
  private final PassFactory collapseAnonymousFunctions =
      new PassFactory(PassNames.COLLAPSE_ANONYMOUS_FUNCTIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new CollapseAnonymousFunctions(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Moves function declarations to the top, to simulate actual hoisting. */
  private final PassFactory moveFunctionDeclarations =
      new PassFactory(PassNames.MOVE_FUNCTION_DECLARATIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new MoveFunctionDeclarations(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019;
        }
      };

  private final PassFactory nameUnmappedAnonymousFunctions =
      new PassFactory(PassNames.NAME_ANONYMOUS_FUNCTIONS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new NameAnonymousFunctions(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory nameMappedAnonymousFunctions =
      new PassFactory(PassNames.NAME_ANONYMOUS_FUNCTIONS, true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              NameAnonymousFunctionsMapped naf =
                  new NameAnonymousFunctionsMapped(
                      compiler, options.inputAnonymousFunctionNamingMap);
              naf.process(externs, root);
              compiler.setAnonymousFunctionNameMap(naf.getFunctionMap());
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Alias string literals with global variables, to avoid creating lots of transient objects. */
  private final PassFactory aliasStrings =
      new PassFactory("aliasStrings", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new AliasStrings(
              compiler,
              compiler.getModuleGraph(),
              options.aliasAllStrings ? null : options.aliasableStrings,
              options.aliasStringsBlacklist,
              options.outputJsStringUsage);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /**
   * Renames properties so that the two properties that never appear on the same object get the same
   * name.
   */
  private final PassFactory ambiguateProperties =
      new PassFactory(PassNames.AMBIGUATE_PROPERTIES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new AmbiguateProperties(
              compiler,
              options.getPropertyReservedNamingFirstChars(),
              options.getPropertyReservedNamingNonFirstChars());
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Mark the point at which the normalized AST assumptions no longer hold. */
  private final PassFactory markUnnormalized =
      new PassFactory("markUnnormalized", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              compiler.setLifeCycleStage(LifeCycleStage.RAW);
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  private final PassFactory normalize =
      new PassFactory(PassNames.NORMALIZE, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new Normalize(compiler, false);
        }

        @Override
        protected FeatureSet featureSet() {
          // TODO(johnlenz): Update this and gatherRawExports to latest()
          return ES2019_MODULES;
        }
      };

  private final PassFactory externExports =
      new PassFactory(PassNames.EXTERN_EXPORTS, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new ExternExportsPass(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Denormalize the AST for code generation. */
  private final PassFactory denormalize =
      new PassFactory("denormalize", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new Denormalize(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Inverting name normalization. */
  private final PassFactory invertContextualRenaming =
      new PassFactory("invertContextualRenaming", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return MakeDeclaredNamesUnique.getContextualRenameInverter(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Renames properties. */
  private final PassFactory renameProperties =
      new PassFactory("renameProperties", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          checkState(options.propertyRenaming == PropertyRenamingPolicy.ALL_UNQUOTED);
          final VariableMap prevPropertyMap = options.inputPropertyMap;
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              RenameProperties rprop =
                  new RenameProperties(
                      compiler,
                      options.generatePseudoNames,
                      prevPropertyMap,
                      options.getPropertyReservedNamingFirstChars(),
                      options.getPropertyReservedNamingNonFirstChars(),
                      options.nameGenerator);
              rprop.process(externs, root);
              compiler.setPropertyMap(rprop.getPropertyMap());
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Renames variables. */
  private final PassFactory renameVars =
      new PassFactory("renameVars", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          final VariableMap prevVariableMap = options.inputVariableMap;
          return new CompilerPass() {
            @Override
            public void process(Node externs, Node root) {
              compiler.setVariableMap(
                  runVariableRenaming(compiler, prevVariableMap, externs, root));
            }
          };
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private VariableMap runVariableRenaming(
      AbstractCompiler compiler, VariableMap prevVariableMap,
      Node externs, Node root) {
    char[] reservedChars =
        options.anonymousFunctionNaming.getReservedCharacters();
    boolean preserveAnonymousFunctionNames =
        options.anonymousFunctionNaming != AnonymousFunctionNamingPolicy.OFF;
    Set reservedNames = new HashSet<>();
    if (options.renamePrefixNamespace != null) {
      // don't use the prefix name as a global symbol.
      reservedNames.add(options.renamePrefixNamespace);
    }
    reservedNames.addAll(compiler.getExportedNames());
    reservedNames.addAll(ParserRunner.getReservedVars());
    RenameVars rn = new RenameVars(
        compiler,
        options.renamePrefix,
        options.variableRenaming == VariableRenamingPolicy.LOCAL,
        preserveAnonymousFunctionNames,
        options.generatePseudoNames,
        options.shadowVariables,
        options.preferStableNames,
        prevVariableMap,
        reservedChars,
        reservedNames,
        options.nameGenerator);
    rn.process(externs, root);
    return rn.getVariableMap();
  }

  /** Renames labels */
  private final PassFactory renameLabels =
      new PassFactory("renameLabels", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new RenameLabels(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /** Convert bracket access to dot access */
  private final PassFactory convertToDottedProperties =
      new PassFactory(PassNames.CONVERT_TO_DOTTED_PROPERTIES, true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new ConvertToDottedProperties(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory checkAstValidity =
      new PassFactory("checkAstValidity", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new AstValidator(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return FeatureSet.latest();
        }
      };

  /** Checks that all variables are defined. */
  private final PassFactory varCheckValidity =
      new PassFactory("varCheckValidity", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new VarCheck(compiler, true);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  private final PassFactory instrumentForCodeCoverage =
      new PassFactory("instrumentForCodeCoverage", true) {
        @Override
        protected CompilerPass create(final AbstractCompiler compiler) {
          // TODO(johnlenz): make global instrumentation an option
          if (options.instrumentBranchCoverage) {
            return new CoverageInstrumentationPass(
                compiler, CoverageReach.CONDITIONAL, InstrumentOption.BRANCH_ONLY);
          } else {
            return new CoverageInstrumentationPass(compiler, CoverageReach.CONDITIONAL);
          }
        }

        @Override
        protected FeatureSet featureSet() {
          return TYPE_CHECK_SUPPORTED;
        }
      };

  /** Extern property names gathering pass. */
  private final PassFactory gatherExternProperties =
      new PassFactory("gatherExternProperties", true) {
        @Override
        protected CompilerPass create(AbstractCompiler compiler) {
          return new GatherExternProperties(compiler);
        }

        @Override
        protected FeatureSet featureSet() {
          return ES2019_MODULES;
        }
      };

  /**
   * Runs custom passes that are designated to run at a particular time.
   *
   * 

TODO(nickreid): Deprecate this API */ private PassFactory getCustomPasses(final CustomPassExecutionTime executionTime) { return new PassFactory("runCustomPasses", true) { @Override protected CompilerPass create(final AbstractCompiler compiler) { return runInSerial(options.customPasses.get(executionTime)); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; } /** Create a compiler pass that runs the given passes in serial. */ private static CompilerPass runInSerial( final Collection passes) { return new CompilerPass() { @Override public void process(Node externs, Node root) { for (CompilerPass pass : passes) { pass.process(externs, root); } } }; } @VisibleForTesting static Map getAdditionalReplacements(CompilerOptions options) { Map additionalReplacements = new HashMap<>(); if (options.markAsCompiled || options.closurePass) { additionalReplacements.put(COMPILED_CONSTANT_NAME, IR.trueNode()); } if (options.closurePass && options.locale != null) { additionalReplacements.put(CLOSURE_LOCALE_CONSTANT_NAME, IR.string(options.locale)); } return additionalReplacements; } /** Rewrites Polymer({}) */ private final HotSwapPassFactory polymerPass = new HotSwapPassFactory("polymerPass") { @Override protected HotSwapCompilerPass create(AbstractCompiler compiler) { return new PolymerPass( compiler, compiler.getOptions().polymerVersion, compiler.getOptions().polymerExportPolicy, compiler.getOptions().propertyRenaming == PropertyRenamingPolicy.ALL_UNQUOTED); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; private final PassFactory chromePass = new PassFactory("chromePass", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new ChromePass(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; /** Rewrites the super accessors calls to support Dart Dev Compiler output. */ private final HotSwapPassFactory dartSuperAccessorsPass = new HotSwapPassFactory("dartSuperAccessorsPass") { @Override protected HotSwapCompilerPass create(AbstractCompiler compiler) { return new DartSuperAccessorsPass(compiler); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; /** Rewrites J2CL constructs to be more optimizable. */ private final PassFactory j2clConstantHoisterPass = new PassFactory("j2clConstantHoisterPass", false) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new J2clConstantHoisterPass(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; /** Optimizes J2CL clinit methods. */ private final PassFactory j2clClinitPass = new PassFactory("j2clClinitPass", false) { @Override protected CompilerPass create(AbstractCompiler compiler) { List changedScopeNodes = compiler.getChangedScopeNodesForPass(getName()); return new J2clClinitPrunerPass(compiler, changedScopeNodes); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; /** Rewrites J2CL constructs to be more optimizable. */ private final PassFactory j2clPropertyInlinerPass = new PassFactory("j2clES6Pass", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new J2clPropertyInlinerPass(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; /** Rewrites J2CL constructs to be more optimizable. */ private final PassFactory j2clPass = new PassFactory("j2clPass", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new J2clPass(compiler); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; /** Rewrites J2CL constructs to be more optimizable. */ private final PassFactory j2clUtilGetDefineRewriterPass = new PassFactory("j2clUtilGetDefineRewriterPass", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new J2clUtilGetDefineRewriterPass(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; private final PassFactory j2clAssertRemovalPass = new PassFactory("j2clAssertRemovalPass", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new J2clAssertRemovalPass(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; private final PassFactory j2clSourceFileChecker = new PassFactory("j2clSourceFileChecker", true) { @Override protected CompilerPass create(final AbstractCompiler compiler) { return new J2clSourceFileChecker(compiler); } @Override protected FeatureSet featureSet() { return FeatureSet.latest(); } }; private final PassFactory j2clChecksPass = new PassFactory("j2clChecksPass", true) { @Override protected CompilerPass create(final AbstractCompiler compiler) { return new J2clChecksPass(compiler); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; private final PassFactory checkConformance = new PassFactory(PassNames.CHECK_CONFORMANCE, true) { @Override protected CompilerPass create(final AbstractCompiler compiler) { return new CheckConformance( compiler, ImmutableList.copyOf(options.getConformanceConfigs())); } @Override protected FeatureSet featureSet() { return TYPE_CHECK_SUPPORTED; } }; /** Optimizations that output ES6 features. */ private final PassFactory optimizeToEs6 = new PassFactory("optimizeToEs6", true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new SubstituteEs6Syntax(compiler); } @Override protected FeatureSet featureSet() { return ES2019_MODULES; } }; /** Rewrites goog.module in whitespace only mode */ private final HotSwapPassFactory whitespaceWrapGoogModules = new HotSwapPassFactory("whitespaceWrapGoogModules") { @Override protected HotSwapCompilerPass create(AbstractCompiler compiler) { return new WhitespaceWrapGoogModules(compiler); } @Override protected FeatureSet featureSet() { return FeatureSet.latest(); } }; private final PassFactory rewriteCommonJsModules = new PassFactory(PassNames.REWRITE_COMMON_JS_MODULES, true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new ProcessCommonJSModules(compiler); } @Override public FeatureSet featureSet() { return ES_NEXT; } }; private final PassFactory rewriteScriptsToEs6Modules = new PassFactory(PassNames.REWRITE_SCRIPTS_TO_ES6_MODULES, true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new Es6RewriteScriptsToModules(compiler); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; private final HotSwapPassFactory gatherModuleMetadataPass = new HotSwapPassFactory(PassNames.GATHER_MODULE_METADATA) { @Override protected HotSwapCompilerPass create(AbstractCompiler compiler) { return new GatherModuleMetadata( compiler, options.processCommonJSModules, options.moduleResolutionMode); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; private final HotSwapPassFactory createModuleMapPass = new HotSwapPassFactory(PassNames.CREATE_MODULE_MAP) { @Override protected HotSwapCompilerPass create(AbstractCompiler compiler) { return new ModuleMapCreator(compiler, compiler.getModuleMetadataMap()); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; private final PassFactory gatherGettersAndSetters = new PassFactory(PassNames.GATHER_GETTERS_AND_SETTERS, /* isOneTimePass= */ true) { @Override protected CompilerPass create(AbstractCompiler compiler) { return new GatherGetterAndSetterProperties(compiler); } @Override protected FeatureSet featureSet() { return ES_NEXT; } }; }





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