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Markdown-ish syntax for generating flowcharts, mindmaps, sequence diagrams, class diagrams, gantt charts, git graphs and more.
{
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"sourcesContent": ["\"use strict\";\n/* --------------------------------------------------------------------------------------------\n * Copyright (c) Microsoft Corporation. All rights reserved.\n * Licensed under the MIT License. See License.txt in the project root for license information.\n * ------------------------------------------------------------------------------------------ */\nObject.defineProperty(exports, \"__esModule\", { value: true });\nlet _ral;\nfunction RAL() {\n if (_ral === undefined) {\n throw new Error(`No runtime abstraction layer installed`);\n }\n return _ral;\n}\n(function (RAL) {\n function install(ral) {\n if (ral === undefined) {\n throw new Error(`No runtime abstraction layer provided`);\n }\n _ral = ral;\n }\n RAL.install = install;\n})(RAL || (RAL = {}));\nexports.default = RAL;\n", "\"use strict\";\n/* --------------------------------------------------------------------------------------------\n * Copyright (c) Microsoft Corporation. All rights reserved.\n * Licensed under the MIT License. See License.txt in the project root for license information.\n * ------------------------------------------------------------------------------------------ */\nObject.defineProperty(exports, \"__esModule\", { value: true });\nexports.stringArray = exports.array = exports.func = exports.error = exports.number = exports.string = exports.boolean = void 0;\nfunction boolean(value) {\n return value === true || value === false;\n}\nexports.boolean = boolean;\nfunction string(value) {\n return typeof value === 'string' || value instanceof String;\n}\nexports.string = string;\nfunction number(value) {\n return typeof value === 'number' || value instanceof Number;\n}\nexports.number = number;\nfunction error(value) {\n return value instanceof Error;\n}\nexports.error = error;\nfunction func(value) {\n return typeof value === 'function';\n}\nexports.func = func;\nfunction array(value) {\n return Array.isArray(value);\n}\nexports.array = array;\nfunction stringArray(value) {\n return array(value) && value.every(elem => string(elem));\n}\nexports.stringArray = stringArray;\n", "\"use strict\";\n/* --------------------------------------------------------------------------------------------\n * Copyright (c) Microsoft Corporation. All rights reserved.\n * Licensed under the MIT License. See License.txt in the project root for license information.\n * ------------------------------------------------------------------------------------------ */\nObject.defineProperty(exports, \"__esModule\", { value: true });\nexports.Emitter = exports.Event = void 0;\nconst ral_1 = require(\"./ral\");\nvar Event;\n(function (Event) {\n const _disposable = { dispose() { } };\n Event.None = function () { return _disposable; };\n})(Event || (exports.Event = Event = {}));\nclass CallbackList {\n add(callback, context = null, bucket) {\n if (!this._callbacks) {\n this._callbacks = [];\n this._contexts = [];\n }\n this._callbacks.push(callback);\n this._contexts.push(context);\n if (Array.isArray(bucket)) {\n bucket.push({ dispose: () => this.remove(callback, context) });\n }\n }\n remove(callback, context = null) {\n if (!this._callbacks) {\n return;\n }\n let foundCallbackWithDifferentContext = false;\n for (let i = 0, len = this._callbacks.length; i < len; i++) {\n if (this._callbacks[i] === callback) {\n if (this._contexts[i] === context) {\n // callback & context match => remove it\n this._callbacks.splice(i, 1);\n this._contexts.splice(i, 1);\n return;\n }\n else {\n foundCallbackWithDifferentContext = true;\n }\n }\n }\n if (foundCallbackWithDifferentContext) {\n throw new Error('When adding a listener with a context, you should remove it with the same context');\n }\n }\n invoke(...args) {\n if (!this._callbacks) {\n return [];\n }\n const ret = [], callbacks = this._callbacks.slice(0), contexts = this._contexts.slice(0);\n for (let i = 0, len = callbacks.length; i < len; i++) {\n try {\n ret.push(callbacks[i].apply(contexts[i], args));\n }\n catch (e) {\n // eslint-disable-next-line no-console\n (0, ral_1.default)().console.error(e);\n }\n }\n return ret;\n }\n isEmpty() {\n return !this._callbacks || this._callbacks.length === 0;\n }\n dispose() {\n this._callbacks = undefined;\n this._contexts = undefined;\n }\n}\nclass Emitter {\n constructor(_options) {\n this._options = _options;\n }\n /**\n * For the public to allow to subscribe\n * to events from this Emitter\n */\n get event() {\n if (!this._event) {\n this._event = (listener, thisArgs, disposables) => {\n if (!this._callbacks) {\n this._callbacks = new CallbackList();\n }\n if (this._options && this._options.onFirstListenerAdd && this._callbacks.isEmpty()) {\n this._options.onFirstListenerAdd(this);\n }\n this._callbacks.add(listener, thisArgs);\n const result = {\n dispose: () => {\n if (!this._callbacks) {\n // disposable is disposed after emitter is disposed.\n return;\n }\n this._callbacks.remove(listener, thisArgs);\n result.dispose = Emitter._noop;\n if (this._options && this._options.onLastListenerRemove && this._callbacks.isEmpty()) {\n this._options.onLastListenerRemove(this);\n }\n }\n };\n if (Array.isArray(disposables)) {\n disposables.push(result);\n }\n return result;\n };\n }\n return this._event;\n }\n /**\n * To be kept private to fire an event to\n * subscribers\n */\n fire(event) {\n if (this._callbacks) {\n this._callbacks.invoke.call(this._callbacks, event);\n }\n }\n dispose() {\n if (this._callbacks) {\n this._callbacks.dispose();\n this._callbacks = undefined;\n }\n }\n}\nexports.Emitter = Emitter;\nEmitter._noop = function () { };\n", "\"use strict\";\n/*---------------------------------------------------------------------------------------------\n * Copyright (c) Microsoft Corporation. All rights reserved.\n * Licensed under the MIT License. See License.txt in the project root for license information.\n *--------------------------------------------------------------------------------------------*/\nObject.defineProperty(exports, \"__esModule\", { value: true });\nexports.CancellationTokenSource = exports.CancellationToken = void 0;\nconst ral_1 = require(\"./ral\");\nconst Is = require(\"./is\");\nconst events_1 = require(\"./events\");\nvar CancellationToken;\n(function (CancellationToken) {\n CancellationToken.None = Object.freeze({\n isCancellationRequested: false,\n onCancellationRequested: events_1.Event.None\n });\n CancellationToken.Cancelled = Object.freeze({\n isCancellationRequested: true,\n onCancellationRequested: events_1.Event.None\n });\n function is(value) {\n const candidate = value;\n return candidate && (candidate === CancellationToken.None\n || candidate === CancellationToken.Cancelled\n || (Is.boolean(candidate.isCancellationRequested) && !!candidate.onCancellationRequested));\n }\n CancellationToken.is = is;\n})(CancellationToken || (exports.CancellationToken = CancellationToken = {}));\nconst shortcutEvent = Object.freeze(function (callback, context) {\n const handle = (0, ral_1.default)().timer.setTimeout(callback.bind(context), 0);\n return { dispose() { handle.dispose(); } };\n});\nclass MutableToken {\n constructor() {\n this._isCancelled = false;\n }\n cancel() {\n if (!this._isCancelled) {\n this._isCancelled = true;\n if (this._emitter) {\n this._emitter.fire(undefined);\n this.dispose();\n }\n }\n }\n get isCancellationRequested() {\n return this._isCancelled;\n }\n get onCancellationRequested() {\n if (this._isCancelled) {\n return shortcutEvent;\n }\n if (!this._emitter) {\n this._emitter = new events_1.Emitter();\n }\n return this._emitter.event;\n }\n dispose() {\n if (this._emitter) {\n this._emitter.dispose();\n this._emitter = undefined;\n }\n }\n}\nclass CancellationTokenSource {\n get token() {\n if (!this._token) {\n // be lazy and create the token only when\n // actually needed\n this._token = new MutableToken();\n }\n return this._token;\n }\n cancel() {\n if (!this._token) {\n // save an object by returning the default\n // cancelled token when cancellation happens\n // before someone asks for the token\n this._token = CancellationToken.Cancelled;\n }\n else {\n this._token.cancel();\n }\n }\n dispose() {\n if (!this._token) {\n // ensure to initialize with an empty token if we had none\n this._token = CancellationToken.None;\n }\n else if (this._token instanceof MutableToken) {\n // actually dispose\n this._token.dispose();\n }\n }\n}\nexports.CancellationTokenSource = CancellationTokenSource;\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nexport * from './default-module.js';\nexport * from './dependency-injection.js';\nexport * from './service-registry.js';\nexport * from './services.js';\nexport * from './syntax-tree.js';\nexport * from './documentation/index.js';\nexport * from './languages/index.js';\nexport * from './parser/index.js';\nexport * from './references/index.js';\nexport * from './serializer/index.js';\nexport * from './utils/index.js';\nexport * from './validation/index.js';\nexport * from './workspace/index.js';\n\n// Export the Langium Grammar AST definitions in the `GrammarAST` namespace\nimport * as GrammarAST from './languages/generated/ast.js';\nimport type { Grammar } from './languages/generated/ast.js';\nexport { Grammar, GrammarAST };\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { IToken } from '@chevrotain/types';\nimport type { Range } from 'vscode-languageserver-types';\nimport type { CstNode, CompositeCstNode, LeafCstNode } from '../syntax-tree.js';\nimport type { DocumentSegment } from '../workspace/documents.js';\nimport type { Stream, TreeStream } from './stream.js';\nimport { isCompositeCstNode, isLeafCstNode, isRootCstNode } from '../syntax-tree.js';\nimport { TreeStreamImpl } from './stream.js';\n\n/**\n * Create a stream of all CST nodes that are directly and indirectly contained in the given root node,\n * including the root node itself.\n */\nexport function streamCst(node: CstNode): TreeStream {\n return new TreeStreamImpl(node, element => {\n if (isCompositeCstNode(element)) {\n return element.content;\n } else {\n return [];\n }\n }, { includeRoot: true });\n}\n\n/**\n * Create a stream of all leaf nodes that are directly and indirectly contained in the given root node.\n */\nexport function flattenCst(node: CstNode): Stream {\n return streamCst(node).filter(isLeafCstNode);\n}\n\n/**\n * Determines whether the specified cst node is a child of the specified parent node.\n */\nexport function isChildNode(child: CstNode, parent: CstNode): boolean {\n while (child.container) {\n child = child.container;\n if (child === parent) {\n return true;\n }\n }\n return false;\n}\n\nexport function tokenToRange(token: IToken): Range {\n // Chevrotain uses 1-based indices everywhere\n // So we subtract 1 from every value to align with the LSP\n return {\n start: {\n character: token.startColumn! - 1,\n line: token.startLine! - 1\n },\n end: {\n character: token.endColumn!, // endColumn uses the correct index\n line: token.endLine! - 1\n }\n };\n}\n\nexport function toDocumentSegment(node: CstNode): DocumentSegment;\nexport function toDocumentSegment(node?: CstNode): DocumentSegment | undefined;\nexport function toDocumentSegment(node?: CstNode): DocumentSegment | undefined {\n if (!node) {\n return undefined;\n }\n const { offset, end, range } = node;\n return {\n range,\n offset,\n end,\n length: end - offset\n };\n}\n\nexport enum RangeComparison {\n Before = 0,\n After = 1,\n OverlapFront = 2,\n OverlapBack = 3,\n Inside = 4\n}\n\nexport function compareRange(range: Range, to: Range): RangeComparison {\n if (range.end.line < to.start.line || (range.end.line === to.start.line && range.end.character < range.start.character)) {\n return RangeComparison.Before;\n } else if (range.start.line > to.end.line || (range.start.line === to.end.line && range.start.character > to.end.character)) {\n return RangeComparison.After;\n }\n const startInside = range.start.line > to.start.line || (range.start.line === to.start.line && range.start.character >= to.start.character);\n const endInside = range.end.line < to.end.line || (range.end.line === to.end.line && range.end.character <= to.end.character);\n if (startInside && endInside) {\n return RangeComparison.Inside;\n } else if (startInside) {\n return RangeComparison.OverlapBack;\n } else {\n return RangeComparison.OverlapFront;\n }\n}\n\nexport function inRange(range: Range, to: Range): boolean {\n const comparison = compareRange(range, to);\n return comparison > RangeComparison.After;\n}\n\n// The \\p{L} regex matches any unicode letter character, i.e. characters from non-english alphabets\n// Together with \\w it matches any kind of character which can commonly appear in IDs\nexport const DefaultNameRegexp = /^[\\w\\p{L}]$/u;\n\n/**\n * Performs `findLeafNodeAtOffset` with a minor difference: When encountering a character that matches the `nameRegexp` argument,\n * it will instead return the leaf node at the `offset - 1` position.\n *\n * For LSP services, users expect that the declaration of an element is available if the cursor is directly after the element.\n */\nexport function findDeclarationNodeAtOffset(cstNode: CstNode | undefined, offset: number, nameRegexp = DefaultNameRegexp): LeafCstNode | undefined {\n if (cstNode) {\n if (offset > 0) {\n const localOffset = offset - cstNode.offset;\n const textAtOffset = cstNode.text.charAt(localOffset);\n if (!nameRegexp.test(textAtOffset)) {\n offset--;\n }\n }\n return findLeafNodeAtOffset(cstNode, offset);\n }\n return undefined;\n}\n\nexport function findCommentNode(cstNode: CstNode | undefined, commentNames: string[]): CstNode | undefined {\n if (cstNode) {\n const previous = getPreviousNode(cstNode, true);\n if (previous && isCommentNode(previous, commentNames)) {\n return previous;\n }\n if (isRootCstNode(cstNode)) {\n // Go from the first non-hidden node through all nodes in reverse order\n // We do this to find the comment node which directly precedes the root node\n const endIndex = cstNode.content.findIndex(e => !e.hidden);\n for (let i = endIndex - 1; i >= 0; i--) {\n const child = cstNode.content[i];\n if (isCommentNode(child, commentNames)) {\n return child;\n }\n }\n }\n }\n return undefined;\n}\n\nexport function isCommentNode(cstNode: CstNode, commentNames: string[]): boolean {\n return isLeafCstNode(cstNode) && commentNames.includes(cstNode.tokenType.name);\n}\n\n/**\n * Finds the leaf CST node at the specified 0-based string offset.\n * Note that the given offset will be within the range of the returned leaf node.\n *\n * If the offset does not point to a CST node (but just white space), this method will return `undefined`.\n *\n * @param node The CST node to search through.\n * @param offset The specified offset.\n * @returns The CST node at the specified offset.\n */\nexport function findLeafNodeAtOffset(node: CstNode, offset: number): LeafCstNode | undefined {\n if (isLeafCstNode(node)) {\n return node;\n } else if (isCompositeCstNode(node)) {\n const searchResult = binarySearch(node, offset, false);\n if (searchResult) {\n return findLeafNodeAtOffset(searchResult, offset);\n }\n }\n return undefined;\n}\n\n/**\n * Finds the leaf CST node at the specified 0-based string offset.\n * If no CST node exists at the specified position, it will return the leaf node before it.\n *\n * If there is no leaf node before the specified offset, this method will return `undefined`.\n *\n * @param node The CST node to search through.\n * @param offset The specified offset.\n * @returns The CST node closest to the specified offset.\n */\nexport function findLeafNodeBeforeOffset(node: CstNode, offset: number): LeafCstNode | undefined {\n if (isLeafCstNode(node)) {\n return node;\n } else if (isCompositeCstNode(node)) {\n const searchResult = binarySearch(node, offset, true);\n if (searchResult) {\n return findLeafNodeBeforeOffset(searchResult, offset);\n }\n }\n return undefined;\n}\n\nfunction binarySearch(node: CompositeCstNode, offset: number, closest: boolean): CstNode | undefined {\n let left = 0;\n let right = node.content.length - 1;\n let closestNode: CstNode | undefined = undefined;\n\n while (left <= right) {\n const middle = Math.floor((left + right) / 2);\n const middleNode = node.content[middle];\n\n if (middleNode.offset <= offset && middleNode.end > offset) {\n // Found an exact match\n return middleNode;\n }\n\n if (middleNode.end <= offset) {\n // Update the closest node (less than offset) and move to the right half\n closestNode = closest ? middleNode : undefined;\n left = middle + 1;\n } else {\n // Move to the left half\n right = middle - 1;\n }\n }\n\n return closestNode;\n}\n\nexport function getPreviousNode(node: CstNode, hidden = true): CstNode | undefined {\n while (node.container) {\n const parent = node.container;\n let index = parent.content.indexOf(node);\n while (index > 0) {\n index--;\n const previous = parent.content[index];\n if (hidden || !previous.hidden) {\n return previous;\n }\n }\n node = parent;\n }\n return undefined;\n}\n\nexport function getNextNode(node: CstNode, hidden = true): CstNode | undefined {\n while (node.container) {\n const parent = node.container;\n let index = parent.content.indexOf(node);\n const last = parent.content.length - 1;\n while (index < last) {\n index++;\n const next = parent.content[index];\n if (hidden || !next.hidden) {\n return next;\n }\n }\n node = parent;\n }\n return undefined;\n}\n\nexport function getStartlineNode(node: CstNode): CstNode {\n if (node.range.start.character === 0) {\n return node;\n }\n const line = node.range.start.line;\n let last = node;\n let index: number | undefined;\n while (node.container) {\n const parent = node.container;\n const selfIndex = index ?? parent.content.indexOf(node);\n if (selfIndex === 0) {\n node = parent;\n index = undefined;\n } else {\n index = selfIndex - 1;\n node = parent.content[index];\n }\n if (node.range.start.line !== line) {\n break;\n }\n last = node;\n }\n return last;\n}\n\nexport function getInteriorNodes(start: CstNode, end: CstNode): CstNode[] {\n const commonParent = getCommonParent(start, end);\n if (!commonParent) {\n return [];\n }\n return commonParent.parent.content.slice(commonParent.a + 1, commonParent.b);\n}\n\nfunction getCommonParent(a: CstNode, b: CstNode): CommonParent | undefined {\n const aParents = getParentChain(a);\n const bParents = getParentChain(b);\n let current: CommonParent | undefined;\n for (let i = 0; i < aParents.length && i < bParents.length; i++) {\n const aParent = aParents[i];\n const bParent = bParents[i];\n if (aParent.parent === bParent.parent) {\n current = {\n parent: aParent.parent,\n a: aParent.index,\n b: bParent.index\n };\n } else {\n break;\n }\n }\n return current;\n}\n\ninterface CommonParent {\n parent: CompositeCstNode\n a: number\n b: number\n}\n\nfunction getParentChain(node: CstNode): ParentLink[] {\n const chain: ParentLink[] = [];\n while (node.container) {\n const parent = node.container;\n const index = parent.content.indexOf(node);\n chain.push({\n parent,\n index\n });\n node = parent;\n }\n return chain.reverse();\n}\n\ninterface ParentLink {\n parent: CompositeCstNode\n index: number\n}\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { TokenType } from 'chevrotain';\nimport type { URI } from './utils/uri-utils.js';\nimport type { AbstractElement } from './languages/generated/ast.js';\nimport type { DocumentSegment, LangiumDocument } from './workspace/documents.js';\n\n/**\n * A node in the Abstract Syntax Tree (AST).\n */\nexport interface AstNode {\n /** Every AST node has a type corresponding to what was specified in the grammar declaration. */\n readonly $type: string;\n /** The container node in the AST; every node except the root node has a container. */\n readonly $container?: AstNode;\n /** The property of the `$container` node that contains this node. This is either a direct reference or an array. */\n readonly $containerProperty?: string;\n /** In case `$containerProperty` is an array, the array index is stored here. */\n readonly $containerIndex?: number;\n /** The Concrete Syntax Tree (CST) node of the text range from which this node was parsed. */\n readonly $cstNode?: CstNode;\n /** The document containing the AST; only the root node has a direct reference to the document. */\n readonly $document?: LangiumDocument;\n}\n\nexport function isAstNode(obj: unknown): obj is AstNode {\n return typeof obj === 'object' && obj !== null && typeof (obj as AstNode).$type === 'string';\n}\n\nexport interface GenericAstNode extends AstNode {\n [key: string]: unknown\n}\n\ntype SpecificNodeProperties = keyof Omit;\n\n/**\n * The property names of a given AST node type.\n */\nexport type Properties = SpecificNodeProperties extends never ? string : SpecificNodeProperties\n\n/**\n * A cross-reference in the AST. Cross-references may or may not be successfully resolved.\n */\nexport interface Reference {\n /**\n * The target AST node of this reference. Accessing this property may trigger cross-reference\n * resolution by the `Linker` in case it has not been done yet. If the reference cannot be resolved,\n * the value is `undefined`.\n */\n readonly ref?: T;\n\n /** If any problem occurred while resolving the reference, it is described by this property. */\n readonly error?: LinkingError;\n /** The CST node from which the reference was parsed */\n readonly $refNode?: CstNode;\n /** The actual text used to look up in the surrounding scope */\n readonly $refText: string;\n /** The node description for the AstNode returned by `ref` */\n readonly $nodeDescription?: AstNodeDescription;\n}\n\nexport function isReference(obj: unknown): obj is Reference {\n return typeof obj === 'object' && obj !== null && typeof (obj as Reference).$refText === 'string';\n}\n\nexport type ResolvedReference = Reference & {\n readonly ref: T;\n}\n\n/**\n * A description of an AST node is used when constructing scopes and looking up cross-reference targets.\n */\nexport interface AstNodeDescription {\n /** The target node; should be present only for local references (linking to the same document). */\n node?: AstNode;\n /**\n * The document segment that represents the range of the name of the AST node.\n */\n nameSegment?: DocumentSegment;\n /**\n * The document segment that represents the full range of the AST node.\n */\n selectionSegment?: DocumentSegment;\n /** `$type` property value of the AST node */\n type: string;\n /** Name of the AST node; this is usually determined by the `NameProvider` service. */\n name: string;\n /** URI to the document containing the AST node */\n documentUri: URI;\n /** Navigation path inside the document */\n path: string;\n}\n\nexport function isAstNodeDescription(obj: unknown): obj is AstNodeDescription {\n return typeof obj === 'object' && obj !== null\n && typeof (obj as AstNodeDescription).name === 'string'\n && typeof (obj as AstNodeDescription).type === 'string'\n && typeof (obj as AstNodeDescription).path === 'string';\n}\n\n/**\n * Information about a cross-reference. This is used when traversing references in an AST or to describe\n * unresolved references.\n */\nexport interface ReferenceInfo {\n reference: Reference\n container: AstNode\n property: string\n index?: number\n}\n\n/**\n * Used to collect information when the `Linker` service fails to resolve a cross-reference.\n */\nexport interface LinkingError extends ReferenceInfo {\n message: string;\n targetDescription?: AstNodeDescription;\n}\n\nexport function isLinkingError(obj: unknown): obj is LinkingError {\n return typeof obj === 'object' && obj !== null\n && isAstNode((obj as LinkingError).container)\n && isReference((obj as LinkingError).reference)\n && typeof (obj as LinkingError).message === 'string';\n}\n\n/**\n * Service used for generic access to the structure of the AST. This service is shared between\n * all involved languages, so it operates on the superset of types of these languages.\n */\nexport interface AstReflection {\n getAllTypes(): string[]\n getAllSubTypes(type: string): string[]\n getReferenceType(refInfo: ReferenceInfo): string\n getTypeMetaData(type: string): TypeMetaData\n isInstance(node: unknown, type: string): boolean\n isSubtype(subtype: string, supertype: string): boolean\n}\n\n/**\n * An abstract implementation of the {@link AstReflection} interface.\n * Serves to cache subtype computation results to improve performance throughout different parts of Langium.\n */\nexport abstract class AbstractAstReflection implements AstReflection {\n\n protected subtypes: Record> = {};\n protected allSubtypes: Record = {};\n\n abstract getAllTypes(): string[];\n abstract getReferenceType(refInfo: ReferenceInfo): string;\n abstract getTypeMetaData(type: string): TypeMetaData;\n protected abstract computeIsSubtype(subtype: string, supertype: string): boolean;\n\n isInstance(node: unknown, type: string): boolean {\n return isAstNode(node) && this.isSubtype(node.$type, type);\n }\n\n isSubtype(subtype: string, supertype: string): boolean {\n if (subtype === supertype) {\n return true;\n }\n let nested = this.subtypes[subtype];\n if (!nested) {\n nested = this.subtypes[subtype] = {};\n }\n const existing = nested[supertype];\n if (existing !== undefined) {\n return existing;\n } else {\n const result = this.computeIsSubtype(subtype, supertype);\n nested[supertype] = result;\n return result;\n }\n }\n\n getAllSubTypes(type: string): string[] {\n const existing = this.allSubtypes[type];\n if (existing) {\n return existing;\n } else {\n const allTypes = this.getAllTypes();\n const types: string[] = [];\n for (const possibleSubType of allTypes) {\n if (this.isSubtype(possibleSubType, type)) {\n types.push(possibleSubType);\n }\n }\n this.allSubtypes[type] = types;\n return types;\n }\n }\n}\n\n/**\n * Represents runtime meta data about a meta model type.\n */\nexport interface TypeMetaData {\n /** The name of this meta model type. Corresponds to the `AstNode.$type` value. */\n name: string\n /** A list of properties. They can contain default values for their respective property in the AST. */\n properties: TypeProperty[]\n}\n\n/**\n * Describes the meta data of a property of an AST node.\n *\n * The optional `defaultValue` indicates that the property is mandatory in the AST node.\n * For example, if an AST node contains an array, but no elements of this array have been parsed, we still expect an empty array instead of `undefined`.\n */\nexport interface TypeProperty {\n name: string\n defaultValue?: PropertyType\n}\n\n/**\n * Represents a default value for an AST property.\n */\nexport type PropertyType = number | string | boolean | PropertyType[];\n\n/**\n * A node in the Concrete Syntax Tree (CST).\n */\nexport interface CstNode extends DocumentSegment {\n /** The container node in the CST */\n readonly container?: CompositeCstNode;\n /** @deprecated use `container` instead. */\n readonly parent?: CompositeCstNode;\n /** The actual text */\n readonly text: string;\n /** The root CST node */\n readonly root: RootCstNode;\n /** The grammar element from which this node was parsed */\n readonly grammarSource: AbstractElement;\n /** @deprecated use `grammarSource` instead. */\n readonly feature: AbstractElement;\n /** The AST node created from this CST node */\n readonly astNode: AstNode;\n /** @deprecated use `astNode` instead. */\n readonly element: AstNode;\n /** Whether the token is hidden, i.e. not explicitly part of the containing grammar rule */\n readonly hidden: boolean;\n}\n\n/**\n * A composite CST node contains other nodes, but no directly associated token.\n */\nexport interface CompositeCstNode extends CstNode {\n readonly content: CstNode[];\n /** @deprecated use `content` instead. */\n readonly children: CstNode[];\n}\n\nexport function isCompositeCstNode(node: unknown): node is CompositeCstNode {\n return typeof node === 'object' && node !== null && Array.isArray((node as CompositeCstNode).content);\n}\n\n/**\n * A leaf CST node corresponds to a token in the input token stream.\n */\nexport interface LeafCstNode extends CstNode {\n readonly tokenType: TokenType;\n}\n\nexport function isLeafCstNode(node: unknown): node is LeafCstNode {\n return typeof node === 'object' && node !== null && typeof (node as LeafCstNode).tokenType === 'object';\n}\n\nexport interface RootCstNode extends CompositeCstNode {\n readonly fullText: string\n}\n\nexport function isRootCstNode(node: unknown): node is RootCstNode {\n return isCompositeCstNode(node) && typeof (node as RootCstNode).fullText === 'string';\n}\n\n/**\n * Returns a type to have only properties names (!) of a type T whose property value is of a certain type K.\n */\ntype ExtractKeysOfValueType = { [I in keyof T]: T[I] extends K ? I : never }[keyof T];\n\n/**\n * Returns the property names (!) of an AstNode that are cross-references.\n * Meant to be used during cross-reference resolution in combination with `assertUnreachable(context.property)`.\n */\nexport type CrossReferencesOfAstNodeType = (\n ExtractKeysOfValueType\n | ExtractKeysOfValueType|undefined>\n// eslint-disable-next-line @typescript-eslint/ban-types\n) & {};\n\n/**\n * Represents the enumeration-like type, that lists all AstNode types of your grammar.\n */\nexport type AstTypeList = Record;\n\n/**\n * Returns all types that contain cross-references, A is meant to be the interface `XXXAstType` fromm your generated `ast.ts` file.\n * Meant to be used during cross-reference resolution in combination with `assertUnreachable(context.container)`.\n */\nexport type AstNodeTypesWithCrossReferences> = {\n [T in keyof A]: CrossReferencesOfAstNodeType extends never ? never : A[T]\n}[keyof A];\n\nexport type Mutable = {\n -readonly [P in keyof T]: T[P]\n};\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\n/**\n * A stream is a read-only sequence of values. While the contents of an array can be accessed\n * both sequentially and randomly (via index), a stream allows only sequential access.\n *\n * The advantage of this is that a stream can be evaluated lazily, so it does not require\n * to store intermediate values. This can boost performance when a large sequence is\n * processed via filtering, mapping etc. and accessed at most once. However, lazy\n * evaluation means that all processing is repeated when you access the sequence multiple\n * times; in such a case, it may be better to store the resulting sequence into an array.\n */\nexport interface Stream extends Iterable {\n\n /**\n * Returns an iterator for this stream. This is the same as calling the `Symbol.iterator` function property.\n */\n iterator(): IterableIterator;\n\n /**\n * Determines whether this stream contains no elements.\n */\n isEmpty(): boolean;\n\n /**\n * Determines the number of elements in this stream.\n */\n count(): number;\n\n /**\n * Collects all elements of this stream into an array.\n */\n toArray(): T[];\n\n /**\n * Collects all elements of this stream into a Set.\n */\n toSet(): Set;\n\n /**\n * Collects all elements of this stream into a Map, applying the provided functions to determine keys and values.\n *\n * @param keyFn The function to derive map keys. If omitted, the stream elements are used as keys.\n * @param valueFn The function to derive map values. If omitted, the stream elements are used as values.\n */\n toMap(keyFn?: (e: T) => K, valueFn?: (e: T) => V): Map;\n\n /**\n * Returns a string representation of a stream.\n */\n toString(): string;\n\n /**\n * Combines two streams by returning a new stream that yields all elements of this stream and the other stream.\n *\n * @param other Stream to be concatenated with this one.\n */\n concat(other: Iterable): Stream;\n\n /**\n * Adds all elements of the stream into a string, separated by the specified separator string.\n *\n * @param separator A string used to separate one element of the stream from the next in the resulting string.\n * If omitted, the steam elements are separated with a comma.\n */\n join(separator?: string): string\n\n /**\n * Returns the index of the first occurrence of a value in the stream, or -1 if it is not present.\n *\n * @param searchElement The value to locate in the array.\n * @param fromIndex The stream index at which to begin the search. If fromIndex is omitted, the search\n * starts at index 0.\n */\n indexOf(searchElement: T, fromIndex?: number): number;\n\n /**\n * Determines whether all members of the stream satisfy the specified test.\n *\n * @param predicate This method calls the predicate function for each element in the stream until the\n * predicate returns a value which is coercible to the Boolean value `false`, or until the end\n * of the stream.\n */\n every(predicate: (value: T) => value is S): this is Stream;\n every(predicate: (value: T) => unknown): boolean;\n\n /**\n * Determines whether any member of the stream satisfies the specified test.\n *\n * @param predicate This method calls the predicate function for each element in the stream until the\n * predicate returns a value which is coercible to the Boolean value `true`, or until the end\n * of the stream.\n */\n some(predicate: (value: T) => unknown): boolean;\n\n /**\n * Performs the specified action for each element in the stream.\n *\n * @param callbackfn Function called once for each element in the stream.\n */\n forEach(callbackfn: (value: T, index: number) => void): void;\n\n /**\n * Returns a stream that yields the results of calling the specified callback function on each element\n * of the stream. The function is called when the resulting stream elements are actually accessed, so\n * accessing the resulting stream multiple times means the function is also called multiple times for\n * each element of the stream.\n *\n * @param callbackfn Lazily evaluated function mapping stream elements.\n */\n map(callbackfn: (value: T) => U): Stream;\n\n /**\n * Returns the elements of the stream that meet the condition specified in a callback function.\n * The function is called when the resulting stream elements are actually accessed, so accessing the\n * resulting stream multiple times means the function is also called multiple times for each element\n * of the stream.\n *\n * @param predicate Lazily evaluated function checking a condition on stream elements.\n */\n filter(predicate: (value: T) => value is S): Stream;\n filter(predicate: (value: T) => unknown): Stream;\n\n /**\n * Returns the elements of the stream that are _non-nullable_, which means they are neither `undefined`\n * nor `null`.\n */\n nonNullable(): Stream>;\n\n /**\n * Calls the specified callback function for all elements in the stream. The return value of the\n * callback function is the accumulated result, and is provided as an argument in the next call to\n * the callback function.\n *\n * @param callbackfn This method calls the function once for each element in the stream, providing\n * the previous and current values of the reduction.\n * @param initialValue If specified, `initialValue` is used as the initial value to start the\n * accumulation. The first call to the function provides this value as an argument instead\n * of a stream value.\n */\n reduce(callbackfn: (previousValue: T, currentValue: T) => T): T | undefined;\n reduce(callbackfn: (previousValue: U, currentValue: T) => U, initialValue: U): U;\n\n /**\n * Calls the specified callback function for all elements in the stream, in descending order.\n * The return value of the callback function is the accumulated result, and is provided as an\n * argument in the next call to the callback function.\n *\n * @param callbackfn This method calls the function once for each element in the stream, providing\n * the previous and current values of the reduction.\n * @param initialValue If specified, `initialValue` is used as the initial value to start the\n * accumulation. The first call to the function provides this value as an argument instead\n * of an array value.\n */\n reduceRight(callbackfn: (previousValue: T, currentValue: T) => T): T | undefined;\n reduceRight(callbackfn: (previousValue: U, currentValue: T) => U, initialValue: U): U;\n\n /**\n * Returns the value of the first element in the stream that meets the condition, or `undefined`\n * if there is no such element.\n *\n * @param predicate This method calls `predicate` once for each element of the stream, in ascending\n * order, until it finds one where `predicate` returns a value which is coercible to the\n * Boolean value `true`.\n */\n find(predicate: (value: T) => value is S): S | undefined;\n find(predicate: (value: T) => unknown): T | undefined;\n\n /**\n * Returns the index of the first element in the stream that meets the condition, or `-1`\n * if there is no such element.\n *\n * @param predicate This method calls `predicate` once for each element of the stream, in ascending\n * order, until it finds one where `predicate` returns a value which is coercible to the\n * Boolean value `true`.\n */\n findIndex(predicate: (value: T) => unknown): number;\n\n /**\n * Determines whether the stream includes a certain element, returning `true` or `false` as appropriate.\n *\n * @param searchElement The element to search for.\n */\n includes(searchElement: T): boolean;\n\n /**\n * Calls a defined callback function on each element of the stream and then flattens the result into\n * a new stream. This is identical to a `map` followed by `flat` with depth 1.\n *\n * @param callbackfn Lazily evaluated function mapping stream elements.\n */\n flatMap(callbackfn: (value: T) => U | Iterable): Stream;\n\n /**\n * Returns a new stream with all sub-stream or sub-array elements concatenated into it recursively up\n * to the specified depth.\n *\n * @param depth The maximum recursion depth. Defaults to 1.\n */\n flat(depth?: D): FlatStream;\n\n /**\n * Returns the first element in the stream, or `undefined` if the stream is empty.\n */\n head(): T | undefined;\n\n /**\n * Returns a stream that skips the first `skipCount` elements from this stream.\n *\n * @param skipCount The number of elements to skip. If this is larger than the number of elements in\n * the stream, an empty stream is returned. Defaults to 1.\n */\n tail(skipCount?: number): Stream;\n\n /**\n * Returns a stream consisting of the elements of this stream, truncated to be no longer than `maxSize`\n * in length.\n *\n * @param maxSize The number of elements the stream should be limited to\n */\n limit(maxSize: number): Stream;\n\n /**\n * Returns a stream containing only the distinct elements from this stream.\n * Equality is determined with the same rules as a standard `Set`.\n *\n * @param by A function returning the key used to check equality with a previous stream element.\n * If omitted, the stream elements themselves are used for comparison.\n */\n distinct(by?: (element: T) => Key): Stream;\n\n /**\n * Returns a stream that contains all elements that don't exist in the {@link other} iterable.\n * Equality is determined with the same rules as a standard `Set`.\n * @param other The elements that should be exluded from this stream.\n * @param key A function returning the key used to check quality.\n * If omitted, the stream elements themselves are used for comparison.\n */\n exclude(other: Iterable, key?: (element: T) => Key): Stream;\n\n}\n\nexport type FlatStream = {\n 'done': Stream,\n 'recur': T extends Iterable\n ? FlatStream>\n : Stream\n}[Depth extends 0 ? 'done' : 'recur'];\n\nexport type MinusOne = [-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20][N];\n\n/**\n * The default implementation of `Stream` works with two input functions:\n * - The first function creates the initial state of an iteration.\n * - The second function gets the current state as argument and returns an `IteratorResult`.\n */\nexport class StreamImpl implements Stream {\n protected readonly startFn: () => S;\n protected readonly nextFn: (state: S) => IteratorResult;\n\n constructor(startFn: () => S, nextFn: (state: S) => IteratorResult) {\n this.startFn = startFn;\n this.nextFn = nextFn;\n }\n\n iterator(): IterableIterator {\n const iterator = {\n state: this.startFn(),\n next: () => this.nextFn(iterator.state),\n [Symbol.iterator]: () => iterator\n };\n return iterator;\n }\n\n [Symbol.iterator](): Iterator {\n return this.iterator();\n }\n\n isEmpty(): boolean {\n const iterator = this.iterator();\n return Boolean(iterator.next().done);\n }\n\n count(): number {\n const iterator = this.iterator();\n let count = 0;\n let next = iterator.next();\n while (!next.done) {\n count++;\n next = iterator.next();\n }\n return count;\n }\n\n toArray(): T[] {\n const result: T[] = [];\n const iterator = this.iterator();\n let next: IteratorResult;\n do {\n next = iterator.next();\n if (next.value !== undefined) {\n result.push(next.value);\n }\n } while (!next.done);\n return result;\n }\n\n toSet(): Set {\n return new Set(this);\n }\n\n toMap(keyFn?: (e: T) => K, valueFn?: (e: T) => V): Map {\n const entryStream = this.map(element => <[K, V]>[\n keyFn ? keyFn(element) : element,\n valueFn ? valueFn(element) : element\n ]);\n return new Map(entryStream);\n }\n\n toString(): string {\n return this.join();\n }\n\n concat(other: Iterable): Stream {\n const iterator = other[Symbol.iterator]();\n return new StreamImpl<{ first: S, firstDone: boolean }, T | T2>(\n () => ({ first: this.startFn(), firstDone: false }),\n state => {\n let result: IteratorResult;\n if (!state.firstDone) {\n do {\n result = this.nextFn(state.first);\n if (!result.done) {\n return result;\n }\n } while (!result.done);\n state.firstDone = true;\n }\n do {\n result = iterator.next();\n if (!result.done) {\n return result;\n }\n } while (!result.done);\n return DONE_RESULT;\n }\n );\n }\n\n join(separator = ','): string {\n const iterator = this.iterator();\n let value = '';\n let result: IteratorResult;\n let addSeparator = false;\n do {\n result = iterator.next();\n if (!result.done) {\n if (addSeparator) {\n value += separator;\n }\n value += toString(result.value);\n }\n addSeparator = true;\n } while (!result.done);\n return value;\n }\n\n indexOf(searchElement: T, fromIndex = 0): number {\n const iterator = this.iterator();\n let index = 0;\n let next = iterator.next();\n while (!next.done) {\n if (index >= fromIndex && next.value === searchElement) {\n return index;\n }\n next = iterator.next();\n index++;\n }\n return -1;\n }\n\n // In the following definition the '& this' part in the return type is important\n // _and_ the order within 'Stream & this' is crucial!\n // Otherwise Typescript would infer the type of 'this' as 'StreamImpl & Stream'\n // (or ' & Stream') and usages like\n // ```\n // const stream = new StreamImpl(...);\n // ... stream.every() & stream....\n // ```\n // cannot benefit from '', as Typescript would priorize the signatures\n // of 'StreamImpl' (i.e. those of 'Stream') over those of 'Stream'.\n // With the order of 'Stream & this' the signatures of 'Stream' get precedence.\n every(predicate: (value: T) => value is U): this is Stream & this;\n every(predicate: (value: T) => unknown): boolean;\n every(predicate: (value: T) => unknown): boolean {\n const iterator = this.iterator();\n let next = iterator.next();\n while (!next.done) {\n if (!predicate(next.value)) {\n return false;\n }\n next = iterator.next();\n }\n return true;\n }\n\n some(predicate: (value: T) => unknown): boolean {\n const iterator = this.iterator();\n let next = iterator.next();\n while (!next.done) {\n if (predicate(next.value)) {\n return true;\n }\n next = iterator.next();\n }\n return false;\n }\n\n forEach(callbackfn: (value: T, index: number) => void): void {\n const iterator = this.iterator();\n let index = 0;\n let next = iterator.next();\n while (!next.done) {\n callbackfn(next.value, index);\n next = iterator.next();\n index++;\n }\n }\n\n map(callbackfn: (value: T) => U): Stream {\n return new StreamImpl(\n this.startFn,\n (state) => {\n const { done, value } = this.nextFn(state);\n if (done) {\n return DONE_RESULT;\n } else {\n return { done: false, value: callbackfn(value) };\n }\n }\n );\n }\n\n // for remarks on the return type definition refer to 'every(...)'\n filter(predicate: (value: T) => value is U): Stream & this;\n filter(predicate: (value: T) => unknown): Stream & this;\n filter(predicate: (value: T) => unknown): Stream {\n return new StreamImpl(\n this.startFn,\n state => {\n let result: IteratorResult;\n do {\n result = this.nextFn(state);\n if (!result.done && predicate(result.value)) {\n return result;\n }\n } while (!result.done);\n return DONE_RESULT;\n }\n );\n }\n\n nonNullable(): Stream> {\n return this.filter(e => e !== undefined && e !== null) as Stream>;\n }\n\n reduce(callbackfn: (previousValue: T, currentValue: T) => T): T | undefined;\n reduce(callbackfn: (previousValue: U, currentValue: T) => U, initialValue: U): U;\n reduce(callbackfn: (previousValue: U | T, currentValue: T) => U, initialValue?: U): U | T | undefined {\n const iterator = this.iterator();\n let previousValue: U | T | undefined = initialValue;\n let next = iterator.next();\n while (!next.done) {\n if (previousValue === undefined) {\n previousValue = next.value;\n } else {\n previousValue = callbackfn(previousValue, next.value);\n }\n next = iterator.next();\n }\n return previousValue;\n }\n\n reduceRight(callbackfn: (previousValue: T, currentValue: T) => T): T | undefined;\n reduceRight(callbackfn: (previousValue: U, currentValue: T) => U, initialValue: U): U;\n reduceRight(callbackfn: (previousValue: U | T, currentValue: T) => U, initialValue?: U): U | T | undefined {\n return this.recursiveReduce(this.iterator(), callbackfn, initialValue);\n }\n\n protected recursiveReduce(iterator: Iterator, callbackfn: (previousValue: U | T, currentValue: T) => U, initialValue?: U): U | T | undefined {\n const next = iterator.next();\n if (next.done) {\n return initialValue;\n }\n const previousValue = this.recursiveReduce(iterator, callbackfn, initialValue);\n if (previousValue === undefined) {\n return next.value;\n }\n return callbackfn(previousValue, next.value);\n }\n\n find(predicate: (value: T) => value is S): S | undefined;\n find(predicate: (value: T) => unknown): T | undefined;\n find(predicate: (value: T) => unknown): T | undefined {\n const iterator = this.iterator();\n let next = iterator.next();\n while (!next.done) {\n if (predicate(next.value)) {\n return next.value;\n }\n next = iterator.next();\n }\n return undefined;\n }\n\n findIndex(predicate: (value: T) => unknown): number {\n const iterator = this.iterator();\n let index = 0;\n let next = iterator.next();\n while (!next.done) {\n if (predicate(next.value)) {\n return index;\n }\n next = iterator.next();\n index++;\n }\n return -1;\n }\n\n includes(searchElement: T): boolean {\n const iterator = this.iterator();\n let next = iterator.next();\n while (!next.done) {\n if (next.value === searchElement) {\n return true;\n }\n next = iterator.next();\n }\n return false;\n }\n\n flatMap(callbackfn: (value: T) => U | Iterable): Stream {\n type FlatMapState = { this: S, iterator?: Iterator }\n return new StreamImpl(\n () => ({ this: this.startFn() }),\n (state) => {\n do {\n if (state.iterator) {\n const next = state.iterator.next();\n if (next.done) {\n state.iterator = undefined;\n } else {\n return next;\n }\n }\n const { done, value } = this.nextFn(state.this);\n if (!done) {\n const mapped = callbackfn(value);\n if (isIterable(mapped)) {\n state.iterator = mapped[Symbol.iterator]();\n } else {\n return { done: false, value: mapped };\n }\n }\n } while (state.iterator);\n return DONE_RESULT;\n }\n );\n }\n\n flat(depth?: D): FlatStream {\n if (depth === undefined) {\n depth = 1 as D;\n }\n if (depth <= 0) {\n return this as unknown as FlatStream;\n }\n const stream = depth > 1 ? this.flat(depth - 1) as unknown as StreamImpl : this;\n type FlatMapState = { this: S, iterator?: Iterator }\n return new StreamImpl(\n () => ({ this: stream.startFn() }),\n (state) => {\n do {\n if (state.iterator) {\n const next = state.iterator.next();\n if (next.done) {\n state.iterator = undefined;\n } else {\n return next;\n }\n }\n const { done, value } = stream.nextFn(state.this);\n if (!done) {\n if (isIterable(value)) {\n state.iterator = value[Symbol.iterator]() as Iterator;\n } else {\n return { done: false, value: value };\n }\n }\n } while (state.iterator);\n return DONE_RESULT;\n }\n ) as unknown as FlatStream;\n }\n\n head(): T | undefined {\n const iterator = this.iterator();\n const result = iterator.next();\n if (result.done) {\n return undefined;\n }\n return result.value;\n }\n\n tail(skipCount = 1): Stream {\n return new StreamImpl(\n () => {\n const state = this.startFn();\n for (let i = 0; i < skipCount; i++) {\n const next = this.nextFn(state);\n if (next.done) {\n return state;\n }\n }\n return state;\n },\n this.nextFn\n );\n }\n\n limit(maxSize: number): Stream {\n return new StreamImpl<{ size: number, state: S }, T>(\n () => ({ size: 0, state: this.startFn() }),\n state => {\n state.size++;\n if (state.size > maxSize) {\n return DONE_RESULT;\n }\n return this.nextFn(state.state);\n }\n );\n }\n\n distinct(by?: (element: T) => Key): Stream {\n const set = new Set();\n return this.filter(e => {\n const value = by ? by(e) : e;\n if (set.has(value)) {\n return false;\n } else {\n set.add(value);\n return true;\n }\n });\n }\n\n exclude(other: Iterable, key?: (element: T) => Key): Stream {\n const otherKeySet = new Set();\n for (const item of other) {\n const value = key ? key(item) : item;\n otherKeySet.add(value);\n }\n return this.filter(e => {\n const ownKey = key ? key(e) : e;\n return !otherKeySet.has(ownKey);\n });\n }\n}\n\nfunction toString(item: unknown): string {\n if (typeof item === 'string') {\n return item as string;\n }\n if (typeof item === 'undefined') {\n return 'undefined';\n }\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n if (typeof (item as any).toString === 'function') {\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n return (item as any).toString();\n }\n return Object.prototype.toString.call(item);\n}\n\nfunction isIterable(obj: unknown): obj is Iterable {\n return !!obj && typeof (obj as Iterable)[Symbol.iterator] === 'function';\n}\n\n/**\n * An empty stream of any type.\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nexport const EMPTY_STREAM: Stream = new StreamImpl(() => undefined, () => DONE_RESULT);\n\n/**\n * Use this `IteratorResult` when implementing a `StreamImpl` to indicate that there are no more elements in the stream.\n */\nexport const DONE_RESULT: IteratorReturnResult = Object.freeze({ done: true, value: undefined });\n\n/**\n * Create a stream from one or more iterables or array-likes.\n */\nexport function stream(...collections: Array | ArrayLike>): Stream {\n if (collections.length === 1) {\n const collection = collections[0];\n if (collection instanceof StreamImpl) {\n return collection as Stream;\n }\n if (isIterable(collection)) {\n return new StreamImpl, T>(\n () => collection[Symbol.iterator](),\n (iterator) => iterator.next()\n );\n }\n if (typeof collection.length === 'number') {\n return new StreamImpl<{ index: number }, T>(\n () => ({ index: 0 }),\n (state) => {\n if (state.index < collection.length) {\n return { done: false, value: collection[state.index++] };\n } else {\n return DONE_RESULT;\n }\n }\n );\n }\n }\n if (collections.length > 1) {\n type State = { collIndex: number, iterator?: Iterator, array?: ArrayLike, arrIndex: number };\n return new StreamImpl(\n () => ({ collIndex: 0, arrIndex: 0 }),\n (state) => {\n do {\n if (state.iterator) {\n const next = state.iterator.next();\n if (!next.done) {\n return next;\n }\n state.iterator = undefined;\n }\n if (state.array) {\n if (state.arrIndex < state.array.length) {\n return { done: false, value: state.array[state.arrIndex++] };\n }\n state.array = undefined;\n state.arrIndex = 0;\n }\n if (state.collIndex < collections.length) {\n const collection = collections[state.collIndex++];\n if (isIterable(collection)) {\n state.iterator = collection[Symbol.iterator]();\n } else if (collection && typeof collection.length === 'number') {\n state.array = collection;\n }\n }\n } while (state.iterator || state.array || state.collIndex < collections.length);\n return DONE_RESULT;\n }\n );\n }\n return EMPTY_STREAM;\n}\n\n/**\n * A tree iterator adds the ability to prune the current iteration.\n */\nexport interface TreeIterator extends IterableIterator {\n /**\n * Skip the whole subtree below the last returned element. The iteration continues as if that\n * element had no children.\n */\n prune(): void\n}\n\n/**\n * A tree stream is used to stream the elements of a tree, for example an AST or CST.\n */\nexport interface TreeStream extends Stream {\n iterator(): TreeIterator\n}\n\n/**\n * The default implementation of `TreeStream` takes a root element and a function that computes the\n * children of its argument. Whether the root node included in the stream is controlled with the\n * `includeRoot` option, which defaults to `false`.\n */\nexport class TreeStreamImpl\n extends StreamImpl<{ iterators: Array>, pruned: boolean }, T>\n implements TreeStream {\n\n constructor(root: T, children: (node: T) => Iterable, options?: { includeRoot?: boolean }) {\n super(\n () => ({\n iterators: options?.includeRoot ? [[root][Symbol.iterator]()] : [children(root)[Symbol.iterator]()],\n pruned: false\n }),\n state => {\n if (state.pruned) {\n state.iterators.pop();\n state.pruned = false;\n }\n while (state.iterators.length > 0) {\n const iterator = state.iterators[state.iterators.length - 1];\n const next = iterator.next();\n if (next.done) {\n state.iterators.pop();\n } else {\n state.iterators.push(children(next.value)[Symbol.iterator]());\n return next;\n }\n }\n return DONE_RESULT;\n }\n );\n }\n\n override iterator(): TreeIterator {\n const iterator = {\n state: this.startFn(),\n next: () => this.nextFn(iterator.state),\n prune: () => {\n iterator.state.pruned = true;\n },\n [Symbol.iterator]: () => iterator\n };\n return iterator;\n }\n}\n\n/**\n * A set of utility functions that reduce a stream to a single value.\n */\nexport namespace Reduction {\n\n /**\n * Compute the sum of a number stream.\n */\n export function sum(stream: Stream): number {\n return stream.reduce((a, b) => a + b, 0);\n }\n\n /**\n * Compute the product of a number stream.\n */\n export function product(stream: Stream): number {\n return stream.reduce((a, b) => a * b, 0);\n }\n\n /**\n * Compute the minimum of a number stream. Returns `undefined` if the stream is empty.\n */\n export function min(stream: Stream): number | undefined {\n return stream.reduce((a, b) => Math.min(a, b));\n }\n\n /**\n * Compute the maximum of a number stream. Returns `undefined` if the stream is empty.\n */\n export function max(stream: Stream): number | undefined {\n return stream.reduce((a, b) => Math.max(a, b));\n }\n\n}\n", "/******************************************************************************\n * Copyright 2021-2022 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport { assertUnreachable } from '../utils/errors.js';\nimport * as ast from '../languages/generated/ast.js';\nimport type { AstNode, CstNode } from '../syntax-tree.js';\nimport { isCompositeCstNode } from '../syntax-tree.js';\nimport { getContainerOfType, streamAllContents } from './ast-utils.js';\nimport { streamCst } from './cst-utils.js';\nimport { escapeRegExp } from './regexp-utils.js';\n\n/**\n * Returns the entry rule of the given grammar, if any. If the grammar file does not contain an entry rule,\n * the result is `undefined`.\n */\nexport function getEntryRule(grammar: ast.Grammar): ast.ParserRule | undefined {\n return grammar.rules.find(e => ast.isParserRule(e) && e.entry) as ast.ParserRule;\n}\n\n/**\n * Returns all hidden terminal rules of the given grammar, if any.\n */\nexport function getHiddenRules(grammar: ast.Grammar) {\n return grammar.rules.filter((e): e is ast.TerminalRule => ast.isTerminalRule(e) && e.hidden);\n}\n\n/**\n * Returns all rules that can be reached from the topmost rules of the specified grammar (entry and hidden terminal rules).\n *\n * @param grammar The grammar that contains all rules\n * @param allTerminals Whether or not to include terminals that are referenced only by other terminals\n * @returns A list of referenced parser and terminal rules. If the grammar contains no entry rule,\n * this function returns all rules of the specified grammar.\n */\nexport function getAllReachableRules(grammar: ast.Grammar, allTerminals: boolean): Set {\n const ruleNames = new Set();\n const entryRule = getEntryRule(grammar);\n if (!entryRule) {\n return new Set(grammar.rules);\n }\n\n const topMostRules = [entryRule as ast.AbstractRule].concat(getHiddenRules(grammar));\n for (const rule of topMostRules) {\n ruleDfs(rule, ruleNames, allTerminals);\n }\n\n const rules = new Set();\n for (const rule of grammar.rules) {\n if (ruleNames.has(rule.name) || (ast.isTerminalRule(rule) && rule.hidden)) {\n rules.add(rule);\n }\n }\n return rules;\n}\n\nfunction ruleDfs(rule: ast.AbstractRule, visitedSet: Set, allTerminals: boolean): void {\n visitedSet.add(rule.name);\n streamAllContents(rule).forEach(node => {\n if (ast.isRuleCall(node) || (allTerminals && ast.isTerminalRuleCall(node))) {\n const refRule = node.rule.ref;\n if (refRule && !visitedSet.has(refRule.name)) {\n ruleDfs(refRule, visitedSet, allTerminals);\n }\n }\n });\n}\n\n/**\n * Determines the grammar expression used to parse a cross-reference (usually a reference to a terminal rule).\n * A cross-reference can declare this expression explicitly in the form `[Type : Terminal]`, but if `Terminal`\n * is omitted, this function attempts to infer it from the name of the referenced `Type` (using `findNameAssignment`).\n *\n * Returns the grammar expression used to parse the given cross-reference, or `undefined` if it is not declared\n * and cannot be inferred.\n */\nexport function getCrossReferenceTerminal(crossRef: ast.CrossReference): ast.AbstractElement | undefined {\n if (crossRef.terminal) {\n return crossRef.terminal;\n } else if (crossRef.type.ref) {\n const nameAssigment = findNameAssignment(crossRef.type.ref);\n return nameAssigment?.terminal;\n }\n return undefined;\n}\n\n/**\n * Determines whether the given terminal rule represents a comment. This is true if the rule is marked\n * as `hidden` and it does not match white space. This means every hidden token (i.e. excluded from the AST)\n * that contains visible characters is considered a comment.\n */\nexport function isCommentTerminal(terminalRule: ast.TerminalRule): boolean {\n return terminalRule.hidden && !terminalRegex(terminalRule).test(' ');\n}\n\n/**\n * Find all CST nodes within the given node that contribute to the specified property.\n *\n * @param node A CST node in which to look for property assignments. If this is undefined, the result is an empty array.\n * @param property A property name of the constructed AST node. If this is undefined, the result is an empty array.\n */\nexport function findNodesForProperty(node: CstNode | undefined, property: string | undefined): CstNode[] {\n if (!node || !property) {\n return [];\n }\n return findNodesForPropertyInternal(node, property, node.astNode, true);\n}\n\n/**\n * Find a single CST node within the given node that contributes to the specified property.\n *\n * @param node A CST node in which to look for property assignments. If this is undefined, the result is `undefined`.\n * @param property A property name of the constructed AST node. If this is undefined, the result is `undefined`.\n * @param index If no index is specified or the index is less than zero, the first found node is returned. If the\n * specified index exceeds the number of assignments to the property, the last found node is returned. Otherwise,\n * the node with the specified index is returned.\n */\nexport function findNodeForProperty(node: CstNode | undefined, property: string | undefined, index?: number): CstNode | undefined {\n if (!node || !property) {\n return undefined;\n }\n const nodes = findNodesForPropertyInternal(node, property, node.astNode, true);\n if (nodes.length === 0) {\n return undefined;\n }\n if (index !== undefined) {\n index = Math.max(0, Math.min(index, nodes.length - 1));\n } else {\n index = 0;\n }\n return nodes[index];\n}\n\nfunction findNodesForPropertyInternal(node: CstNode, property: string, element: AstNode | undefined, first: boolean): CstNode[] {\n if (!first) {\n const nodeFeature = getContainerOfType(node.grammarSource, ast.isAssignment);\n if (nodeFeature && nodeFeature.feature === property) {\n return [node];\n }\n }\n if (isCompositeCstNode(node) && node.astNode === element) {\n return node.content.flatMap(e => findNodesForPropertyInternal(e, property, element, false));\n }\n return [];\n}\n\n/**\n * Find all CST nodes within the given node that correspond to the specified keyword.\n *\n * @param node A CST node in which to look for keywords. If this is undefined, the result is an empty array.\n * @param keyword A keyword as specified in the grammar.\n */\nexport function findNodesForKeyword(node: CstNode | undefined, keyword: string): CstNode[] {\n if (!node) {\n return [];\n }\n return findNodesForKeywordInternal(node, keyword, node?.astNode);\n}\n\n/**\n * Find a single CST node within the given node that corresponds to the specified keyword.\n *\n * @param node A CST node in which to look for keywords. If this is undefined, the result is `undefined`.\n * @param keyword A keyword as specified in the grammar.\n * @param index If no index is specified or the index is less than zero, the first found node is returned. If the\n * specified index exceeds the number of keyword occurrences, the last found node is returned. Otherwise,\n * the node with the specified index is returned.\n */\nexport function findNodeForKeyword(node: CstNode | undefined, keyword: string, index?: number): CstNode | undefined {\n if (!node) {\n return undefined;\n }\n const nodes = findNodesForKeywordInternal(node, keyword, node?.astNode);\n if (nodes.length === 0) {\n return undefined;\n }\n if (index !== undefined) {\n index = Math.max(0, Math.min(index, nodes.length - 1));\n } else {\n index = 0;\n }\n return nodes[index];\n}\n\nexport function findNodesForKeywordInternal(node: CstNode, keyword: string, element: AstNode | undefined): CstNode[] {\n if (node.astNode !== element) {\n return [];\n }\n if (ast.isKeyword(node.grammarSource) && node.grammarSource.value === keyword) {\n return [node];\n }\n const treeIterator = streamCst(node).iterator();\n let result: IteratorResult;\n const keywordNodes: CstNode[] = [];\n do {\n result = treeIterator.next();\n if (!result.done) {\n const childNode = result.value;\n if (childNode.astNode === element) {\n if (ast.isKeyword(childNode.grammarSource) && childNode.grammarSource.value === keyword) {\n keywordNodes.push(childNode);\n }\n } else {\n treeIterator.prune();\n }\n }\n } while (!result.done);\n return keywordNodes;\n}\n\n/**\n * If the given CST node was parsed in the context of a property assignment, the respective `Assignment` grammar\n * node is returned. If no assignment is found, the result is `undefined`.\n *\n * @param cstNode A CST node for which to find a property assignment.\n */\nexport function findAssignment(cstNode: CstNode): ast.Assignment | undefined {\n const astNode = cstNode.astNode;\n // Only search until the ast node of the parent cst node is no longer the original ast node\n // This would make us jump to a preceding rule call, which contains only unrelated assignments\n while (astNode === cstNode.container?.astNode) {\n const assignment = getContainerOfType(cstNode.grammarSource, ast.isAssignment);\n if (assignment) {\n return assignment;\n }\n cstNode = cstNode.container;\n }\n return undefined;\n}\n\n/**\n * Find an assignment to the `name` property for the given grammar type. This requires the `type` to be inferred\n * from a parser rule, and that rule must contain an assignment to the `name` property. In all other cases,\n * this function returns `undefined`.\n */\nexport function findNameAssignment(type: ast.AbstractType): ast.Assignment | undefined {\n let startNode: AstNode = type;\n if (ast.isInferredType(startNode)) {\n // for inferred types, the location to start searching for the name-assignment is different\n if (ast.isAction(startNode.$container)) {\n // a type which is explicitly inferred by an action: investigate the sibbling of the Action node, i.e. start searching at the Action's parent\n startNode = startNode.$container.$container!;\n } else if (ast.isParserRule(startNode.$container)) {\n // investigate the parser rule with the explicitly inferred type\n startNode = startNode.$container;\n } else {\n assertUnreachable(startNode.$container);\n }\n }\n return findNameAssignmentInternal(type, startNode, new Map());\n}\n\nfunction findNameAssignmentInternal(type: ast.AbstractType, startNode: AstNode, cache: Map): ast.Assignment | undefined {\n // the cache is only required to prevent infinite loops\n function go(node: AstNode, refType: ast.AbstractType): ast.Assignment | undefined {\n let childAssignment: ast.Assignment | undefined = undefined;\n const parentAssignment = getContainerOfType(node, ast.isAssignment);\n // No parent assignment implies unassigned rule call\n if (!parentAssignment) {\n childAssignment = findNameAssignmentInternal(refType, refType, cache);\n }\n cache.set(type, childAssignment);\n return childAssignment;\n }\n\n if (cache.has(type)) {\n return cache.get(type);\n }\n cache.set(type, undefined);\n for (const node of streamAllContents(startNode)) {\n if (ast.isAssignment(node) && node.feature.toLowerCase() === 'name') {\n cache.set(type, node);\n return node;\n } else if (ast.isRuleCall(node) && ast.isParserRule(node.rule.ref)) {\n return go(node, node.rule.ref);\n } else if (ast.isSimpleType(node) && node.typeRef?.ref) {\n return go(node, node.typeRef.ref);\n }\n }\n return undefined;\n}\n\nexport function getActionAtElement(element: ast.AbstractElement): ast.Action | undefined {\n const parent = element.$container;\n if (ast.isGroup(parent)) {\n const elements = parent.elements;\n const index = elements.indexOf(element);\n for (let i = index - 1; i >= 0; i--) {\n const item = elements[i];\n if (ast.isAction(item)) {\n return item;\n } else {\n const action = streamAllContents(elements[i]).find(ast.isAction);\n if (action) {\n return action;\n }\n }\n }\n }\n if (ast.isAbstractElement(parent)) {\n return getActionAtElement(parent);\n } else {\n return undefined;\n }\n}\n\nexport type Cardinality = '?' | '*' | '+' | undefined;\nexport type Operator = '=' | '+=' | '?=' | undefined;\n\nexport function isOptionalCardinality(cardinality?: Cardinality, element?: ast.AbstractElement): boolean {\n return cardinality === '?' || cardinality === '*' || (ast.isGroup(element) && Boolean(element.guardCondition));\n}\n\nexport function isArrayCardinality(cardinality?: Cardinality): boolean {\n return cardinality === '*' || cardinality === '+';\n}\n\nexport function isArrayOperator(operator?: Operator): boolean {\n return operator === '+=';\n}\n\n/**\n * Determines whether the given parser rule is a _data type rule_, meaning that it has a\n * primitive return type like `number`, `boolean`, etc.\n */\nexport function isDataTypeRule(rule: ast.ParserRule): boolean {\n return isDataTypeRuleInternal(rule, new Set());\n}\n\nfunction isDataTypeRuleInternal(rule: ast.ParserRule, visited: Set): boolean {\n if (visited.has(rule)) {\n return true;\n } else {\n visited.add(rule);\n }\n for (const node of streamAllContents(rule)) {\n if (ast.isRuleCall(node)) {\n if (!node.rule.ref) {\n // RuleCall to unresolved rule. Don't assume `rule` is a DataType rule.\n return false;\n }\n if (ast.isParserRule(node.rule.ref) && !isDataTypeRuleInternal(node.rule.ref, visited)) {\n return false;\n }\n } else if (ast.isAssignment(node)) {\n return false;\n } else if (ast.isAction(node)) {\n return false;\n }\n }\n return Boolean(rule.definition);\n}\n\nexport function isDataType(type: ast.Type): boolean {\n return isDataTypeInternal(type.type, new Set());\n}\n\nfunction isDataTypeInternal(type: ast.TypeDefinition, visited: Set): boolean {\n if (visited.has(type)) {\n return true;\n } else {\n visited.add(type);\n }\n if (ast.isArrayType(type)) {\n return false;\n } else if (ast.isReferenceType(type)) {\n return false;\n } else if (ast.isUnionType(type)) {\n return type.types.every(e => isDataTypeInternal(e, visited));\n } else if (ast.isSimpleType(type)) {\n if (type.primitiveType !== undefined) {\n return true;\n } else if (type.stringType !== undefined) {\n return true;\n } else if (type.typeRef !== undefined) {\n const ref = type.typeRef.ref;\n if (ast.isType(ref)) {\n return isDataTypeInternal(ref.type, visited);\n } else {\n return false;\n }\n } else {\n return false;\n }\n } else {\n return false;\n }\n}\n\nexport function getExplicitRuleType(rule: ast.ParserRule): string | undefined {\n if (rule.inferredType) {\n return rule.inferredType.name;\n } else if (rule.dataType) {\n return rule.dataType;\n } else if (rule.returnType) {\n const refType = rule.returnType.ref;\n if(refType) {\n // check if we need to check Action as return type\n if (ast.isParserRule(refType)) {\n return refType.name;\n } else if(ast.isInterface(refType) || ast.isType(refType)) {\n return refType.name;\n }\n }\n }\n return undefined;\n}\n\nexport function getTypeName(type: ast.AbstractType | ast.Action): string {\n if (ast.isParserRule(type)) {\n return isDataTypeRule(type) ? type.name : getExplicitRuleType(type) ?? type.name;\n } else if (ast.isInterface(type) || ast.isType(type) || ast.isReturnType(type)) {\n return type.name;\n } else if (ast.isAction(type)) {\n const actionType = getActionType(type);\n if (actionType) {\n return actionType;\n }\n } else if (ast.isInferredType(type)) {\n return type.name;\n }\n throw new Error('Cannot get name of Unknown Type');\n}\n\nexport function getActionType(action: ast.Action): string | undefined {\n if (action.inferredType) {\n return action.inferredType.name;\n } else if (action.type?.ref) {\n return getTypeName(action.type.ref);\n }\n return undefined; // not inferring and not referencing a valid type\n}\n\nexport function getRuleType(rule: ast.AbstractRule): string {\n if (ast.isTerminalRule(rule)) {\n return rule.type?.name ?? 'string';\n } else {\n return isDataTypeRule(rule) ? rule.name : getExplicitRuleType(rule) ?? rule.name;\n }\n}\n\nexport function terminalRegex(terminalRule: ast.TerminalRule): RegExp {\n const flags: Flags = {\n s: false,\n i: false,\n u: false\n };\n const source = abstractElementToRegex(terminalRule.definition, flags);\n const flagText = Object.entries(flags).filter(([, value]) => value).map(([name]) => name).join('');\n return new RegExp(source, flagText);\n}\n\n// Using [\\s\\S]* allows to match everything, compared to . which doesn't match line terminators\nconst WILDCARD = /[\\s\\S]/.source;\n\ntype Flags = {\n s: boolean;\n i: boolean;\n u: boolean;\n}\n\nfunction abstractElementToRegex(element: ast.AbstractElement, flags?: Flags): string {\n if (ast.isTerminalAlternatives(element)) {\n return terminalAlternativesToRegex(element);\n } else if (ast.isTerminalGroup(element)) {\n return terminalGroupToRegex(element);\n } else if (ast.isCharacterRange(element)) {\n return characterRangeToRegex(element);\n } else if (ast.isTerminalRuleCall(element)) {\n const rule = element.rule.ref;\n if (!rule) {\n throw new Error('Missing rule reference.');\n }\n return withCardinality(abstractElementToRegex(rule.definition), {\n cardinality: element.cardinality,\n lookahead: element.lookahead\n });\n } else if (ast.isNegatedToken(element)) {\n return negateTokenToRegex(element);\n } else if (ast.isUntilToken(element)) {\n return untilTokenToRegex(element);\n } else if (ast.isRegexToken(element)) {\n const lastSlash = element.regex.lastIndexOf('/');\n const source = element.regex.substring(1, lastSlash);\n const regexFlags = element.regex.substring(lastSlash + 1);\n if (flags) {\n flags.i = regexFlags.includes('i');\n flags.s = regexFlags.includes('s');\n flags.u = regexFlags.includes('u');\n }\n return withCardinality(source, {\n cardinality: element.cardinality,\n lookahead: element.lookahead,\n wrap: false\n });\n } else if (ast.isWildcard(element)) {\n return withCardinality(WILDCARD, {\n cardinality: element.cardinality,\n lookahead: element.lookahead\n });\n } else {\n throw new Error(`Invalid terminal element: ${element?.$type}`);\n }\n}\n\nfunction terminalAlternativesToRegex(alternatives: ast.TerminalAlternatives): string {\n return withCardinality(alternatives.elements.map(e => abstractElementToRegex(e)).join('|'), {\n cardinality: alternatives.cardinality,\n lookahead: alternatives.lookahead\n });\n}\n\nfunction terminalGroupToRegex(group: ast.TerminalGroup): string {\n return withCardinality(group.elements.map(e => abstractElementToRegex(e)).join(''), {\n cardinality: group.cardinality,\n lookahead: group.lookahead\n });\n}\n\nfunction untilTokenToRegex(until: ast.UntilToken): string {\n return withCardinality(`${WILDCARD}*?${abstractElementToRegex(until.terminal)}`, {\n cardinality: until.cardinality,\n lookahead: until.lookahead\n });\n}\n\nfunction negateTokenToRegex(negate: ast.NegatedToken): string {\n return withCardinality(`(?!${abstractElementToRegex(negate.terminal)})${WILDCARD}*?`, {\n cardinality: negate.cardinality,\n lookahead: negate.lookahead\n });\n}\n\nfunction characterRangeToRegex(range: ast.CharacterRange): string {\n if (range.right) {\n return withCardinality(`[${keywordToRegex(range.left)}-${keywordToRegex(range.right)}]`, {\n cardinality: range.cardinality,\n lookahead: range.lookahead,\n wrap: false\n });\n }\n return withCardinality(keywordToRegex(range.left), {\n cardinality: range.cardinality,\n lookahead: range.lookahead,\n wrap: false\n });\n}\n\nfunction keywordToRegex(keyword: ast.Keyword): string {\n return escapeRegExp(keyword.value);\n}\n\nfunction withCardinality(regex: string, options: {\n cardinality?: string\n wrap?: boolean\n lookahead?: string\n}): string {\n if (options.wrap !== false || options.lookahead) {\n regex = `(${options.lookahead ?? ''}${regex})`;\n }\n if (options.cardinality) {\n return `${regex}${options.cardinality}`;\n }\n return regex;\n}\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { CstNode } from '../syntax-tree.js';\n\nexport class ErrorWithLocation extends Error {\n constructor(node: CstNode | undefined, message: string) {\n super(node ? `${message} at ${node.range.start.line}:${node.range.start.character}` : message);\n }\n}\n\nexport function assertUnreachable(_: never): never {\n throw new Error('Error! The input value was not handled.');\n}\n", "/******************************************************************************\n * This file was generated by langium-cli 3.0.0.\n * DO NOT EDIT MANUALLY!\n ******************************************************************************/\n\n/* eslint-disable */\nimport type { AstNode, Reference, ReferenceInfo, TypeMetaData } from '../../syntax-tree.js';\nimport { AbstractAstReflection } from '../../syntax-tree.js';\n\nexport const LangiumGrammarTerminals = {\n ID: /\\^?[_a-zA-Z][\\w_]*/,\n STRING: /\"(\\\\.|[^\"\\\\])*\"|'(\\\\.|[^'\\\\])*'/,\n NUMBER: /NaN|-?((\\d*\\.\\d+|\\d+)([Ee][+-]?\\d+)?|Infinity)/,\n RegexLiteral: /\\/(?![*+?])(?:[^\\r\\n\\[/\\\\]|\\\\.|\\[(?:[^\\r\\n\\]\\\\]|\\\\.)*\\])+\\/[a-z]*/,\n WS: /\\s+/,\n ML_COMMENT: /\\/\\*[\\s\\S]*?\\*\\//,\n SL_COMMENT: /\\/\\/[^\\n\\r]*/,\n};\n\nexport type AbstractRule = ParserRule | TerminalRule;\n\nexport const AbstractRule = 'AbstractRule';\n\nexport function isAbstractRule(item: unknown): item is AbstractRule {\n return reflection.isInstance(item, AbstractRule);\n}\n\nexport type AbstractType = InferredType | Interface | ParserRule | Type;\n\nexport const AbstractType = 'AbstractType';\n\nexport function isAbstractType(item: unknown): item is AbstractType {\n return reflection.isInstance(item, AbstractType);\n}\n\nexport type Condition = BooleanLiteral | Conjunction | Disjunction | Negation | ParameterReference;\n\nexport const Condition = 'Condition';\n\nexport function isCondition(item: unknown): item is Condition {\n return reflection.isInstance(item, Condition);\n}\n\nexport type FeatureName = 'current' | 'entry' | 'extends' | 'false' | 'fragment' | 'grammar' | 'hidden' | 'import' | 'infer' | 'infers' | 'interface' | 'returns' | 'terminal' | 'true' | 'type' | 'with' | PrimitiveType | string;\n\nexport function isFeatureName(item: unknown): item is FeatureName {\n return isPrimitiveType(item) || item === 'current' || item === 'entry' || item === 'extends' || item === 'false' || item === 'fragment' || item === 'grammar' || item === 'hidden' || item === 'import' || item === 'interface' || item === 'returns' || item === 'terminal' || item === 'true' || item === 'type' || item === 'infer' || item === 'infers' || item === 'with' || (typeof item === 'string' && (/\\^?[_a-zA-Z][\\w_]*/.test(item)));\n}\n\nexport type PrimitiveType = 'Date' | 'bigint' | 'boolean' | 'number' | 'string';\n\nexport function isPrimitiveType(item: unknown): item is PrimitiveType {\n return item === 'string' || item === 'number' || item === 'boolean' || item === 'Date' || item === 'bigint';\n}\n\nexport type TypeDefinition = ArrayType | ReferenceType | SimpleType | UnionType;\n\nexport const TypeDefinition = 'TypeDefinition';\n\nexport function isTypeDefinition(item: unknown): item is TypeDefinition {\n return reflection.isInstance(item, TypeDefinition);\n}\n\nexport type ValueLiteral = ArrayLiteral | BooleanLiteral | NumberLiteral | StringLiteral;\n\nexport const ValueLiteral = 'ValueLiteral';\n\nexport function isValueLiteral(item: unknown): item is ValueLiteral {\n return reflection.isInstance(item, ValueLiteral);\n}\n\nexport interface AbstractElement extends AstNode {\n readonly $type: 'AbstractElement' | 'Action' | 'Alternatives' | 'Assignment' | 'CharacterRange' | 'CrossReference' | 'EndOfFile' | 'Group' | 'Keyword' | 'NegatedToken' | 'RegexToken' | 'RuleCall' | 'TerminalAlternatives' | 'TerminalGroup' | 'TerminalRuleCall' | 'UnorderedGroup' | 'UntilToken' | 'Wildcard';\n cardinality?: '*' | '+' | '?';\n lookahead?: '?!' | '?;\n}\n\nexport const ArrayLiteral = 'ArrayLiteral';\n\nexport function isArrayLiteral(item: unknown): item is ArrayLiteral {\n return reflection.isInstance(item, ArrayLiteral);\n}\n\nexport interface ArrayType extends AstNode {\n readonly $container: ArrayType | ReferenceType | Type | TypeAttribute | UnionType;\n readonly $type: 'ArrayType';\n elementType: TypeDefinition;\n}\n\nexport const ArrayType = 'ArrayType';\n\nexport function isArrayType(item: unknown): item is ArrayType {\n return reflection.isInstance(item, ArrayType);\n}\n\nexport interface BooleanLiteral extends AstNode {\n readonly $container: ArrayLiteral | Conjunction | Disjunction | Group | NamedArgument | Negation | TypeAttribute;\n readonly $type: 'BooleanLiteral';\n true: boolean;\n}\n\nexport const BooleanLiteral = 'BooleanLiteral';\n\nexport function isBooleanLiteral(item: unknown): item is BooleanLiteral {\n return reflection.isInstance(item, BooleanLiteral);\n}\n\nexport interface Conjunction extends AstNode {\n readonly $container: Conjunction | Disjunction | Group | NamedArgument | Negation;\n readonly $type: 'Conjunction';\n left: Condition;\n right: Condition;\n}\n\nexport const Conjunction = 'Conjunction';\n\nexport function isConjunction(item: unknown): item is Conjunction {\n return reflection.isInstance(item, Conjunction);\n}\n\nexport interface Disjunction extends AstNode {\n readonly $container: Conjunction | Disjunction | Group | NamedArgument | Negation;\n readonly $type: 'Disjunction';\n left: Condition;\n right: Condition;\n}\n\nexport const Disjunction = 'Disjunction';\n\nexport function isDisjunction(item: unknown): item is Disjunction {\n return reflection.isInstance(item, Disjunction);\n}\n\nexport interface Grammar extends AstNode {\n readonly $type: 'Grammar';\n definesHiddenTokens: boolean;\n hiddenTokens: Array>;\n imports: Array;\n interfaces: Array;\n isDeclared: boolean;\n name?: string;\n rules: Array;\n types: Array;\n usedGrammars: Array>;\n}\n\nexport const Grammar = 'Grammar';\n\nexport function isGrammar(item: unknown): item is Grammar {\n return reflection.isInstance(item, Grammar);\n}\n\nexport interface GrammarImport extends AstNode {\n readonly $container: Grammar;\n readonly $type: 'GrammarImport';\n path: string;\n}\n\nexport const GrammarImport = 'GrammarImport';\n\nexport function isGrammarImport(item: unknown): item is GrammarImport {\n return reflection.isInstance(item, GrammarImport);\n}\n\nexport interface InferredType extends AstNode {\n readonly $container: Action | ParserRule;\n readonly $type: 'InferredType';\n name: string;\n}\n\nexport const InferredType = 'InferredType';\n\nexport function isInferredType(item: unknown): item is InferredType {\n return reflection.isInstance(item, InferredType);\n}\n\nexport interface Interface extends AstNode {\n readonly $container: Grammar;\n readonly $type: 'Interface';\n attributes: Array;\n name: string;\n superTypes: Array>;\n}\n\nexport const Interface = 'Interface';\n\nexport function isInterface(item: unknown): item is Interface {\n return reflection.isInstance(item, Interface);\n}\n\nexport interface NamedArgument extends AstNode {\n readonly $container: RuleCall;\n readonly $type: 'NamedArgument';\n calledByName: boolean;\n parameter?: Reference;\n value: Condition;\n}\n\nexport const NamedArgument = 'NamedArgument';\n\nexport function isNamedArgument(item: unknown): item is NamedArgument {\n return reflection.isInstance(item, NamedArgument);\n}\n\nexport interface Negation extends AstNode {\n readonly $container: Conjunction | Disjunction | Group | NamedArgument | Negation;\n readonly $type: 'Negation';\n value: Condition;\n}\n\nexport const Negation = 'Negation';\n\nexport function isNegation(item: unknown): item is Negation {\n return reflection.isInstance(item, Negation);\n}\n\nexport interface NumberLiteral extends AstNode {\n readonly $container: ArrayLiteral | TypeAttribute;\n readonly $type: 'NumberLiteral';\n value: number;\n}\n\nexport const NumberLiteral = 'NumberLiteral';\n\nexport function isNumberLiteral(item: unknown): item is NumberLiteral {\n return reflection.isInstance(item, NumberLiteral);\n}\n\nexport interface Parameter extends AstNode {\n readonly $container: ParserRule;\n readonly $type: 'Parameter';\n name: string;\n}\n\nexport const Parameter = 'Parameter';\n\nexport function isParameter(item: unknown): item is Parameter {\n return reflection.isInstance(item, Parameter);\n}\n\nexport interface ParameterReference extends AstNode {\n readonly $container: Conjunction | Disjunction | Group | NamedArgument | Negation;\n readonly $type: 'ParameterReference';\n parameter: Reference;\n}\n\nexport const ParameterReference = 'ParameterReference';\n\nexport function isParameterReference(item: unknown): item is ParameterReference {\n return reflection.isInstance(item, ParameterReference);\n}\n\nexport interface ParserRule extends AstNode {\n readonly $container: Grammar;\n readonly $type: 'ParserRule';\n dataType?: PrimitiveType;\n definesHiddenTokens: boolean;\n definition: AbstractElement;\n entry: boolean;\n fragment: boolean;\n hiddenTokens: Array>;\n inferredType?: InferredType;\n name: string;\n parameters: Array;\n returnType?: Reference;\n wildcard: boolean;\n}\n\nexport const ParserRule = 'ParserRule';\n\nexport function isParserRule(item: unknown): item is ParserRule {\n return reflection.isInstance(item, ParserRule);\n}\n\nexport interface ReferenceType extends AstNode {\n readonly $container: ArrayType | ReferenceType | Type | TypeAttribute | UnionType;\n readonly $type: 'ReferenceType';\n referenceType: TypeDefinition;\n}\n\nexport const ReferenceType = 'ReferenceType';\n\nexport function isReferenceType(item: unknown): item is ReferenceType {\n return reflection.isInstance(item, ReferenceType);\n}\n\nexport interface ReturnType extends AstNode {\n readonly $container: TerminalRule;\n readonly $type: 'ReturnType';\n name: PrimitiveType | string;\n}\n\nexport const ReturnType = 'ReturnType';\n\nexport function isReturnType(item: unknown): item is ReturnType {\n return reflection.isInstance(item, ReturnType);\n}\n\nexport interface SimpleType extends AstNode {\n readonly $container: ArrayType | ReferenceType | Type | TypeAttribute | UnionType;\n readonly $type: 'SimpleType';\n primitiveType?: PrimitiveType;\n stringType?: string;\n typeRef?: Reference;\n}\n\nexport const SimpleType = 'SimpleType';\n\nexport function isSimpleType(item: unknown): item is SimpleType {\n return reflection.isInstance(item, SimpleType);\n}\n\nexport interface StringLiteral extends AstNode {\n readonly $container: ArrayLiteral | TypeAttribute;\n readonly $type: 'StringLiteral';\n value: string;\n}\n\nexport const StringLiteral = 'StringLiteral';\n\nexport function isStringLiteral(item: unknown): item is StringLiteral {\n return reflection.isInstance(item, StringLiteral);\n}\n\nexport interface TerminalRule extends AstNode {\n readonly $container: Grammar;\n readonly $type: 'TerminalRule';\n definition: AbstractElement;\n fragment: boolean;\n hidden: boolean;\n name: string;\n type?: ReturnType;\n}\n\nexport const TerminalRule = 'TerminalRule';\n\nexport function isTerminalRule(item: unknown): item is TerminalRule {\n return reflection.isInstance(item, TerminalRule);\n}\n\nexport interface Type extends AstNode {\n readonly $container: Grammar;\n readonly $type: 'Type';\n name: string;\n type: TypeDefinition;\n}\n\nexport const Type = 'Type';\n\nexport function isType(item: unknown): item is Type {\n return reflection.isInstance(item, Type);\n}\n\nexport interface TypeAttribute extends AstNode {\n readonly $container: Interface;\n readonly $type: 'TypeAttribute';\n defaultValue?: ValueLiteral;\n isOptional: boolean;\n name: FeatureName;\n type: TypeDefinition;\n}\n\nexport const TypeAttribute = 'TypeAttribute';\n\nexport function isTypeAttribute(item: unknown): item is TypeAttribute {\n return reflection.isInstance(item, TypeAttribute);\n}\n\nexport interface UnionType extends AstNode {\n readonly $container: ArrayType | ReferenceType | Type | TypeAttribute | UnionType;\n readonly $type: 'UnionType';\n types: Array;\n}\n\nexport const UnionType = 'UnionType';\n\nexport function isUnionType(item: unknown): item is UnionType {\n return reflection.isInstance(item, UnionType);\n}\n\nexport interface Action extends AbstractElement {\n readonly $type: 'Action';\n feature?: FeatureName;\n inferredType?: InferredType;\n operator?: '+=' | '=';\n type?: Reference;\n}\n\nexport const Action = 'Action';\n\nexport function isAction(item: unknown): item is Action {\n return reflection.isInstance(item, Action);\n}\n\nexport interface Alternatives extends AbstractElement {\n readonly $type: 'Alternatives';\n elements: Array;\n}\n\nexport const Alternatives = 'Alternatives';\n\nexport function isAlternatives(item: unknown): item is Alternatives {\n return reflection.isInstance(item, Alternatives);\n}\n\nexport interface Assignment extends AbstractElement {\n readonly $type: 'Assignment';\n feature: FeatureName;\n operator: '+=' | '=' | '?=';\n terminal: AbstractElement;\n}\n\nexport const Assignment = 'Assignment';\n\nexport function isAssignment(item: unknown): item is Assignment {\n return reflection.isInstance(item, Assignment);\n}\n\nexport interface CharacterRange extends AbstractElement {\n readonly $type: 'CharacterRange';\n left: Keyword;\n right?: Keyword;\n}\n\nexport const CharacterRange = 'CharacterRange';\n\nexport function isCharacterRange(item: unknown): item is CharacterRange {\n return reflection.isInstance(item, CharacterRange);\n}\n\nexport interface CrossReference extends AbstractElement {\n readonly $type: 'CrossReference';\n deprecatedSyntax: boolean;\n terminal?: AbstractElement;\n type: Reference;\n}\n\nexport const CrossReference = 'CrossReference';\n\nexport function isCrossReference(item: unknown): item is CrossReference {\n return reflection.isInstance(item, CrossReference);\n}\n\nexport interface EndOfFile extends AbstractElement {\n readonly $type: 'EndOfFile';\n}\n\nexport const EndOfFile = 'EndOfFile';\n\nexport function isEndOfFile(item: unknown): item is EndOfFile {\n return reflection.isInstance(item, EndOfFile);\n}\n\nexport interface Group extends AbstractElement {\n readonly $type: 'Group';\n elements: Array;\n guardCondition?: Condition;\n}\n\nexport const Group = 'Group';\n\nexport function isGroup(item: unknown): item is Group {\n return reflection.isInstance(item, Group);\n}\n\nexport interface Keyword extends AbstractElement {\n readonly $container: CharacterRange;\n readonly $type: 'Keyword';\n value: string;\n}\n\nexport const Keyword = 'Keyword';\n\nexport function isKeyword(item: unknown): item is Keyword {\n return reflection.isInstance(item, Keyword);\n}\n\nexport interface NegatedToken extends AbstractElement {\n readonly $type: 'NegatedToken';\n terminal: AbstractElement;\n}\n\nexport const NegatedToken = 'NegatedToken';\n\nexport function isNegatedToken(item: unknown): item is NegatedToken {\n return reflection.isInstance(item, NegatedToken);\n}\n\nexport interface RegexToken extends AbstractElement {\n readonly $type: 'RegexToken';\n regex: string;\n}\n\nexport const RegexToken = 'RegexToken';\n\nexport function isRegexToken(item: unknown): item is RegexToken {\n return reflection.isInstance(item, RegexToken);\n}\n\nexport interface RuleCall extends AbstractElement {\n readonly $type: 'RuleCall';\n arguments: Array;\n rule: Reference;\n}\n\nexport const RuleCall = 'RuleCall';\n\nexport function isRuleCall(item: unknown): item is RuleCall {\n return reflection.isInstance(item, RuleCall);\n}\n\nexport interface TerminalAlternatives extends AbstractElement {\n readonly $type: 'TerminalAlternatives';\n elements: Array;\n}\n\nexport const TerminalAlternatives = 'TerminalAlternatives';\n\nexport function isTerminalAlternatives(item: unknown): item is TerminalAlternatives {\n return reflection.isInstance(item, TerminalAlternatives);\n}\n\nexport interface TerminalGroup extends AbstractElement {\n readonly $type: 'TerminalGroup';\n elements: Array;\n}\n\nexport const TerminalGroup = 'TerminalGroup';\n\nexport function isTerminalGroup(item: unknown): item is TerminalGroup {\n return reflection.isInstance(item, TerminalGroup);\n}\n\nexport interface TerminalRuleCall extends AbstractElement {\n readonly $type: 'TerminalRuleCall';\n rule: Reference;\n}\n\nexport const TerminalRuleCall = 'TerminalRuleCall';\n\nexport function isTerminalRuleCall(item: unknown): item is TerminalRuleCall {\n return reflection.isInstance(item, TerminalRuleCall);\n}\n\nexport interface UnorderedGroup extends AbstractElement {\n readonly $type: 'UnorderedGroup';\n elements: Array;\n}\n\nexport const UnorderedGroup = 'UnorderedGroup';\n\nexport function isUnorderedGroup(item: unknown): item is UnorderedGroup {\n return reflection.isInstance(item, UnorderedGroup);\n}\n\nexport interface UntilToken extends AbstractElement {\n readonly $type: 'UntilToken';\n terminal: AbstractElement;\n}\n\nexport const UntilToken = 'UntilToken';\n\nexport function isUntilToken(item: unknown): item is UntilToken {\n return reflection.isInstance(item, UntilToken);\n}\n\nexport interface Wildcard extends AbstractElement {\n readonly $type: 'Wildcard';\n}\n\nexport const Wildcard = 'Wildcard';\n\nexport function isWildcard(item: unknown): item is Wildcard {\n return reflection.isInstance(item, Wildcard);\n}\n\nexport type LangiumGrammarAstType = {\n AbstractElement: AbstractElement\n AbstractRule: AbstractRule\n AbstractType: AbstractType\n Action: Action\n Alternatives: Alternatives\n ArrayLiteral: ArrayLiteral\n ArrayType: ArrayType\n Assignment: Assignment\n BooleanLiteral: BooleanLiteral\n CharacterRange: CharacterRange\n Condition: Condition\n Conjunction: Conjunction\n CrossReference: CrossReference\n Disjunction: Disjunction\n EndOfFile: EndOfFile\n Grammar: Grammar\n GrammarImport: GrammarImport\n Group: Group\n InferredType: InferredType\n Interface: Interface\n Keyword: Keyword\n NamedArgument: NamedArgument\n NegatedToken: NegatedToken\n Negation: Negation\n NumberLiteral: NumberLiteral\n Parameter: Parameter\n ParameterReference: ParameterReference\n ParserRule: ParserRule\n ReferenceType: ReferenceType\n RegexToken: RegexToken\n ReturnType: ReturnType\n RuleCall: RuleCall\n SimpleType: SimpleType\n StringLiteral: StringLiteral\n TerminalAlternatives: TerminalAlternatives\n TerminalGroup: TerminalGroup\n TerminalRule: TerminalRule\n TerminalRuleCall: TerminalRuleCall\n Type: Type\n TypeAttribute: TypeAttribute\n TypeDefinition: TypeDefinition\n UnionType: UnionType\n UnorderedGroup: UnorderedGroup\n UntilToken: UntilToken\n ValueLiteral: ValueLiteral\n Wildcard: Wildcard\n}\n\nexport class LangiumGrammarAstReflection extends AbstractAstReflection {\n\n getAllTypes(): string[] {\n return ['AbstractElement', 'AbstractRule', 'AbstractType', 'Action', 'Alternatives', 'ArrayLiteral', 'ArrayType', 'Assignment', 'BooleanLiteral', 'CharacterRange', 'Condition', 'Conjunction', 'CrossReference', 'Disjunction', 'EndOfFile', 'Grammar', 'GrammarImport', 'Group', 'InferredType', 'Interface', 'Keyword', 'NamedArgument', 'NegatedToken', 'Negation', 'NumberLiteral', 'Parameter', 'ParameterReference', 'ParserRule', 'ReferenceType', 'RegexToken', 'ReturnType', 'RuleCall', 'SimpleType', 'StringLiteral', 'TerminalAlternatives', 'TerminalGroup', 'TerminalRule', 'TerminalRuleCall', 'Type', 'TypeAttribute', 'TypeDefinition', 'UnionType', 'UnorderedGroup', 'UntilToken', 'ValueLiteral', 'Wildcard'];\n }\n\n protected override computeIsSubtype(subtype: string, supertype: string): boolean {\n switch (subtype) {\n case Action:\n case Alternatives:\n case Assignment:\n case CharacterRange:\n case CrossReference:\n case EndOfFile:\n case Group:\n case Keyword:\n case NegatedToken:\n case RegexToken:\n case RuleCall:\n case TerminalAlternatives:\n case TerminalGroup:\n case TerminalRuleCall:\n case UnorderedGroup:\n case UntilToken:\n case Wildcard: {\n return this.isSubtype(AbstractElement, supertype);\n }\n case ArrayLiteral:\n case NumberLiteral:\n case StringLiteral: {\n return this.isSubtype(ValueLiteral, supertype);\n }\n case ArrayType:\n case ReferenceType:\n case SimpleType:\n case UnionType: {\n return this.isSubtype(TypeDefinition, supertype);\n }\n case BooleanLiteral: {\n return this.isSubtype(Condition, supertype) || this.isSubtype(ValueLiteral, supertype);\n }\n case Conjunction:\n case Disjunction:\n case Negation:\n case ParameterReference: {\n return this.isSubtype(Condition, supertype);\n }\n case InferredType:\n case Interface:\n case Type: {\n return this.isSubtype(AbstractType, supertype);\n }\n case ParserRule: {\n return this.isSubtype(AbstractRule, supertype) || this.isSubtype(AbstractType, supertype);\n }\n case TerminalRule: {\n return this.isSubtype(AbstractRule, supertype);\n }\n default: {\n return false;\n }\n }\n }\n\n getReferenceType(refInfo: ReferenceInfo): string {\n const referenceId = `${refInfo.container.$type}:${refInfo.property}`;\n switch (referenceId) {\n case 'Action:type':\n case 'CrossReference:type':\n case 'Interface:superTypes':\n case 'ParserRule:returnType':\n case 'SimpleType:typeRef': {\n return AbstractType;\n }\n case 'Grammar:hiddenTokens':\n case 'ParserRule:hiddenTokens':\n case 'RuleCall:rule': {\n return AbstractRule;\n }\n case 'Grammar:usedGrammars': {\n return Grammar;\n }\n case 'NamedArgument:parameter':\n case 'ParameterReference:parameter': {\n return Parameter;\n }\n case 'TerminalRuleCall:rule': {\n return TerminalRule;\n }\n default: {\n throw new Error(`${referenceId} is not a valid reference id.`);\n }\n }\n }\n\n getTypeMetaData(type: string): TypeMetaData {\n switch (type) {\n case 'AbstractElement': {\n return {\n name: 'AbstractElement',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' }\n ]\n };\n }\n case 'ArrayLiteral': {\n return {\n name: 'ArrayLiteral',\n properties: [\n { name: 'elements', defaultValue: [] }\n ]\n };\n }\n case 'ArrayType': {\n return {\n name: 'ArrayType',\n properties: [\n { name: 'elementType' }\n ]\n };\n }\n case 'BooleanLiteral': {\n return {\n name: 'BooleanLiteral',\n properties: [\n { name: 'true', defaultValue: false }\n ]\n };\n }\n case 'Conjunction': {\n return {\n name: 'Conjunction',\n properties: [\n { name: 'left' },\n { name: 'right' }\n ]\n };\n }\n case 'Disjunction': {\n return {\n name: 'Disjunction',\n properties: [\n { name: 'left' },\n { name: 'right' }\n ]\n };\n }\n case 'Grammar': {\n return {\n name: 'Grammar',\n properties: [\n { name: 'definesHiddenTokens', defaultValue: false },\n { name: 'hiddenTokens', defaultValue: [] },\n { name: 'imports', defaultValue: [] },\n { name: 'interfaces', defaultValue: [] },\n { name: 'isDeclared', defaultValue: false },\n { name: 'name' },\n { name: 'rules', defaultValue: [] },\n { name: 'types', defaultValue: [] },\n { name: 'usedGrammars', defaultValue: [] }\n ]\n };\n }\n case 'GrammarImport': {\n return {\n name: 'GrammarImport',\n properties: [\n { name: 'path' }\n ]\n };\n }\n case 'InferredType': {\n return {\n name: 'InferredType',\n properties: [\n { name: 'name' }\n ]\n };\n }\n case 'Interface': {\n return {\n name: 'Interface',\n properties: [\n { name: 'attributes', defaultValue: [] },\n { name: 'name' },\n { name: 'superTypes', defaultValue: [] }\n ]\n };\n }\n case 'NamedArgument': {\n return {\n name: 'NamedArgument',\n properties: [\n { name: 'calledByName', defaultValue: false },\n { name: 'parameter' },\n { name: 'value' }\n ]\n };\n }\n case 'Negation': {\n return {\n name: 'Negation',\n properties: [\n { name: 'value' }\n ]\n };\n }\n case 'NumberLiteral': {\n return {\n name: 'NumberLiteral',\n properties: [\n { name: 'value' }\n ]\n };\n }\n case 'Parameter': {\n return {\n name: 'Parameter',\n properties: [\n { name: 'name' }\n ]\n };\n }\n case 'ParameterReference': {\n return {\n name: 'ParameterReference',\n properties: [\n { name: 'parameter' }\n ]\n };\n }\n case 'ParserRule': {\n return {\n name: 'ParserRule',\n properties: [\n { name: 'dataType' },\n { name: 'definesHiddenTokens', defaultValue: false },\n { name: 'definition' },\n { name: 'entry', defaultValue: false },\n { name: 'fragment', defaultValue: false },\n { name: 'hiddenTokens', defaultValue: [] },\n { name: 'inferredType' },\n { name: 'name' },\n { name: 'parameters', defaultValue: [] },\n { name: 'returnType' },\n { name: 'wildcard', defaultValue: false }\n ]\n };\n }\n case 'ReferenceType': {\n return {\n name: 'ReferenceType',\n properties: [\n { name: 'referenceType' }\n ]\n };\n }\n case 'ReturnType': {\n return {\n name: 'ReturnType',\n properties: [\n { name: 'name' }\n ]\n };\n }\n case 'SimpleType': {\n return {\n name: 'SimpleType',\n properties: [\n { name: 'primitiveType' },\n { name: 'stringType' },\n { name: 'typeRef' }\n ]\n };\n }\n case 'StringLiteral': {\n return {\n name: 'StringLiteral',\n properties: [\n { name: 'value' }\n ]\n };\n }\n case 'TerminalRule': {\n return {\n name: 'TerminalRule',\n properties: [\n { name: 'definition' },\n { name: 'fragment', defaultValue: false },\n { name: 'hidden', defaultValue: false },\n { name: 'name' },\n { name: 'type' }\n ]\n };\n }\n case 'Type': {\n return {\n name: 'Type',\n properties: [\n { name: 'name' },\n { name: 'type' }\n ]\n };\n }\n case 'TypeAttribute': {\n return {\n name: 'TypeAttribute',\n properties: [\n { name: 'defaultValue' },\n { name: 'isOptional', defaultValue: false },\n { name: 'name' },\n { name: 'type' }\n ]\n };\n }\n case 'UnionType': {\n return {\n name: 'UnionType',\n properties: [\n { name: 'types', defaultValue: [] }\n ]\n };\n }\n case 'Action': {\n return {\n name: 'Action',\n properties: [\n { name: 'cardinality' },\n { name: 'feature' },\n { name: 'inferredType' },\n { name: 'lookahead' },\n { name: 'operator' },\n { name: 'type' }\n ]\n };\n }\n case 'Alternatives': {\n return {\n name: 'Alternatives',\n properties: [\n { name: 'cardinality' },\n { name: 'elements', defaultValue: [] },\n { name: 'lookahead' }\n ]\n };\n }\n case 'Assignment': {\n return {\n name: 'Assignment',\n properties: [\n { name: 'cardinality' },\n { name: 'feature' },\n { name: 'lookahead' },\n { name: 'operator' },\n { name: 'terminal' }\n ]\n };\n }\n case 'CharacterRange': {\n return {\n name: 'CharacterRange',\n properties: [\n { name: 'cardinality' },\n { name: 'left' },\n { name: 'lookahead' },\n { name: 'right' }\n ]\n };\n }\n case 'CrossReference': {\n return {\n name: 'CrossReference',\n properties: [\n { name: 'cardinality' },\n { name: 'deprecatedSyntax', defaultValue: false },\n { name: 'lookahead' },\n { name: 'terminal' },\n { name: 'type' }\n ]\n };\n }\n case 'EndOfFile': {\n return {\n name: 'EndOfFile',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' }\n ]\n };\n }\n case 'Group': {\n return {\n name: 'Group',\n properties: [\n { name: 'cardinality' },\n { name: 'elements', defaultValue: [] },\n { name: 'guardCondition' },\n { name: 'lookahead' }\n ]\n };\n }\n case 'Keyword': {\n return {\n name: 'Keyword',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'value' }\n ]\n };\n }\n case 'NegatedToken': {\n return {\n name: 'NegatedToken',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'terminal' }\n ]\n };\n }\n case 'RegexToken': {\n return {\n name: 'RegexToken',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'regex' }\n ]\n };\n }\n case 'RuleCall': {\n return {\n name: 'RuleCall',\n properties: [\n { name: 'arguments', defaultValue: [] },\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'rule' }\n ]\n };\n }\n case 'TerminalAlternatives': {\n return {\n name: 'TerminalAlternatives',\n properties: [\n { name: 'cardinality' },\n { name: 'elements', defaultValue: [] },\n { name: 'lookahead' }\n ]\n };\n }\n case 'TerminalGroup': {\n return {\n name: 'TerminalGroup',\n properties: [\n { name: 'cardinality' },\n { name: 'elements', defaultValue: [] },\n { name: 'lookahead' }\n ]\n };\n }\n case 'TerminalRuleCall': {\n return {\n name: 'TerminalRuleCall',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'rule' }\n ]\n };\n }\n case 'UnorderedGroup': {\n return {\n name: 'UnorderedGroup',\n properties: [\n { name: 'cardinality' },\n { name: 'elements', defaultValue: [] },\n { name: 'lookahead' }\n ]\n };\n }\n case 'UntilToken': {\n return {\n name: 'UntilToken',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' },\n { name: 'terminal' }\n ]\n };\n }\n case 'Wildcard': {\n return {\n name: 'Wildcard',\n properties: [\n { name: 'cardinality' },\n { name: 'lookahead' }\n ]\n };\n }\n default: {\n return {\n name: type,\n properties: []\n };\n }\n }\n }\n}\n\nexport const reflection = new LangiumGrammarAstReflection();\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { Range } from 'vscode-languageserver-types';\nimport type { AstNode, AstReflection, CstNode, GenericAstNode, Mutable, PropertyType, Reference, ReferenceInfo } from '../syntax-tree.js';\nimport type { Stream, TreeStream } from './stream.js';\nimport type { LangiumDocument } from '../workspace/documents.js';\nimport { isAstNode, isReference } from '../syntax-tree.js';\nimport { DONE_RESULT, stream, StreamImpl, TreeStreamImpl } from './stream.js';\nimport { inRange } from './cst-utils.js';\n\n/**\n * Link the `$container` and other related properties of every AST node that is directly contained\n * in the given `node`.\n */\nexport function linkContentToContainer(node: AstNode): void {\n for (const [name, value] of Object.entries(node)) {\n if (!name.startsWith('$')) {\n if (Array.isArray(value)) {\n value.forEach((item, index) => {\n if (isAstNode(item)) {\n (item as Mutable).$container = node;\n (item as Mutable).$containerProperty = name;\n (item as Mutable).$containerIndex = index;\n }\n });\n } else if (isAstNode(value)) {\n (value as Mutable).$container = node;\n (value as Mutable).$containerProperty = name;\n }\n }\n }\n}\n\n/**\n * Walk along the hierarchy of containers from the given AST node to the root and return the first\n * node that matches the type predicate. If the start node itself matches, it is returned.\n * If no container matches, `undefined` is returned.\n */\nexport function getContainerOfType(node: AstNode | undefined, typePredicate: (n: AstNode) => n is T): T | undefined {\n let item = node;\n while (item) {\n if (typePredicate(item)) {\n return item;\n }\n item = item.$container;\n }\n return undefined;\n}\n\n/**\n * Walk along the hierarchy of containers from the given AST node to the root and check for existence\n * of a container that matches the given predicate. The start node is included in the checks.\n */\nexport function hasContainerOfType(node: AstNode | undefined, predicate: (n: AstNode) => boolean): boolean {\n let item = node;\n while (item) {\n if (predicate(item)) {\n return true;\n }\n item = item.$container;\n }\n return false;\n}\n\n/**\n * Retrieve the document in which the given AST node is contained. A reference to the document is\n * usually held by the root node of the AST.\n *\n * @throws an error if the node is not contained in a document.\n */\nexport function getDocument(node: AstNode): LangiumDocument {\n const rootNode = findRootNode(node);\n const result = rootNode.$document;\n if (!result) {\n throw new Error('AST node has no document.');\n }\n return result as LangiumDocument;\n}\n\n/**\n * Returns the root node of the given AST node by following the `$container` references.\n */\nexport function findRootNode(node: AstNode): AstNode {\n while (node.$container) {\n node = node.$container;\n }\n return node;\n}\n\nexport interface AstStreamOptions {\n /**\n * Optional target range that the nodes in the stream need to intersect\n */\n range?: Range\n}\n\n/**\n * Create a stream of all AST nodes that are directly contained in the given node. This includes\n * single-valued as well as multi-valued (array) properties.\n */\nexport function streamContents(node: AstNode, options?: AstStreamOptions): Stream {\n if (!node) {\n throw new Error('Node must be an AstNode.');\n }\n const range = options?.range;\n type State = { keys: string[], keyIndex: number, arrayIndex: number };\n return new StreamImpl(() => ({\n keys: Object.keys(node),\n keyIndex: 0,\n arrayIndex: 0\n }), state => {\n while (state.keyIndex < state.keys.length) {\n const property = state.keys[state.keyIndex];\n if (!property.startsWith('$')) {\n const value = (node as GenericAstNode)[property];\n if (isAstNode(value)) {\n state.keyIndex++;\n if (isAstNodeInRange(value, range)) {\n return { done: false, value };\n }\n } else if (Array.isArray(value)) {\n while (state.arrayIndex < value.length) {\n const index = state.arrayIndex++;\n const element = value[index];\n if (isAstNode(element) && isAstNodeInRange(element, range)) {\n return { done: false, value: element };\n }\n }\n state.arrayIndex = 0;\n }\n }\n state.keyIndex++;\n }\n return DONE_RESULT;\n });\n}\n\n/**\n * Create a stream of all AST nodes that are directly and indirectly contained in the given root node.\n * This does not include the root node itself.\n */\nexport function streamAllContents(root: AstNode, options?: AstStreamOptions): TreeStream {\n if (!root) {\n throw new Error('Root node must be an AstNode.');\n }\n return new TreeStreamImpl(root, node => streamContents(node, options));\n}\n\n/**\n * Create a stream of all AST nodes that are directly and indirectly contained in the given root node,\n * including the root node itself.\n */\nexport function streamAst(root: AstNode, options?: AstStreamOptions): TreeStream {\n if (!root) {\n throw new Error('Root node must be an AstNode.');\n } else if (options?.range && !isAstNodeInRange(root, options.range)) {\n // Return an empty stream if the root node isn't in range\n return new TreeStreamImpl(root, () => []);\n }\n return new TreeStreamImpl(root, node => streamContents(node, options), { includeRoot: true });\n}\n\nfunction isAstNodeInRange(astNode: AstNode, range?: Range): boolean {\n if (!range) {\n return true;\n }\n const nodeRange = astNode.$cstNode?.range;\n if (!nodeRange) {\n return false;\n }\n return inRange(nodeRange, range);\n}\n\n/**\n * Create a stream of all cross-references that are held by the given AST node. This includes\n * single-valued as well as multi-valued (array) properties.\n */\nexport function streamReferences(node: AstNode): Stream {\n type State = { keys: string[], keyIndex: number, arrayIndex: number };\n return new StreamImpl(() => ({\n keys: Object.keys(node),\n keyIndex: 0,\n arrayIndex: 0\n }), state => {\n while (state.keyIndex < state.keys.length) {\n const property = state.keys[state.keyIndex];\n if (!property.startsWith('$')) {\n const value = (node as GenericAstNode)[property];\n if (isReference(value)) {\n state.keyIndex++;\n return { done: false, value: { reference: value, container: node, property } };\n } else if (Array.isArray(value)) {\n while (state.arrayIndex < value.length) {\n const index = state.arrayIndex++;\n const element = value[index];\n if (isReference(element)) {\n return { done: false, value: { reference: element, container: node, property, index } };\n }\n }\n state.arrayIndex = 0;\n }\n }\n state.keyIndex++;\n }\n return DONE_RESULT;\n });\n}\n\n/**\n * Returns a Stream of references to the target node from the AstNode tree\n *\n * @param targetNode AstNode we are looking for\n * @param lookup AstNode where we search for references. If not provided, the root node of the document is used as the default value\n */\nexport function findLocalReferences(targetNode: AstNode, lookup = getDocument(targetNode).parseResult.value): Stream {\n const refs: Reference[] = [];\n streamAst(lookup).forEach(node => {\n streamReferences(node).forEach(refInfo => {\n if (refInfo.reference.ref === targetNode) {\n refs.push(refInfo.reference);\n }\n });\n });\n return stream(refs);\n}\n\n/**\n * Assigns all mandatory AST properties to the specified node.\n *\n * @param reflection Reflection object used to gather mandatory properties for the node.\n * @param node Specified node is modified in place and properties are directly assigned.\n */\nexport function assignMandatoryProperties(reflection: AstReflection, node: AstNode): void {\n const typeMetaData = reflection.getTypeMetaData(node.$type);\n const genericNode = node as GenericAstNode;\n for (const property of typeMetaData.properties) {\n // Only set the value if the property is not already set and if it has a default value\n if (property.defaultValue !== undefined && genericNode[property.name] === undefined) {\n genericNode[property.name] = copyDefaultValue(property.defaultValue);\n }\n }\n}\n\nfunction copyDefaultValue(propertyType: PropertyType): PropertyType {\n if (Array.isArray(propertyType)) {\n return [...propertyType.map(copyDefaultValue)];\n } else {\n return propertyType;\n }\n}\n\n/**\n * Creates a deep copy of the specified AST node.\n * The resulting copy will only contain semantically relevant information, such as the `$type` property and AST properties.\n *\n * References are copied without resolved cross reference. The specified function is used to rebuild them.\n */\nexport function copyAstNode(node: T, buildReference: (node: AstNode, property: string, refNode: CstNode | undefined, refText: string) => Reference): T {\n const copy: GenericAstNode = { $type: node.$type };\n\n for (const [name, value] of Object.entries(node)) {\n if (!name.startsWith('$')) {\n if (isAstNode(value)) {\n copy[name] = copyAstNode(value, buildReference);\n } else if (isReference(value)) {\n copy[name] = buildReference(\n copy,\n name,\n value.$refNode,\n value.$refText\n );\n } else if (Array.isArray(value)) {\n const copiedArray: unknown[] = [];\n for (const element of value) {\n if (isAstNode(element)) {\n copiedArray.push(copyAstNode(element, buildReference));\n } else if (isReference(element)) {\n copiedArray.push(\n buildReference(\n copy,\n name,\n element.$refNode,\n element.$refText\n )\n );\n } else {\n copiedArray.push(element);\n }\n }\n copy[name] = copiedArray;\n } else {\n copy[name] = value;\n }\n }\n }\n\n linkContentToContainer(copy);\n return copy as unknown as T;\n}\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { Set, Group, Character, IRegExpAST } from '@chevrotain/regexp-to-ast';\nimport { RegExpParser, BaseRegExpVisitor } from '@chevrotain/regexp-to-ast';\n\nexport const NEWLINE_REGEXP = /\\r?\\n/gm;\n\nconst regexpParser = new RegExpParser();\n\n/**\n * This class is in charge of heuristically identifying start/end tokens of terminals.\n *\n * The way this works is by doing the following:\n * 1. Traverse the regular expression in the \"start state\"\n * 2. Add any encountered sets/single characters to the \"start regexp\"\n * 3. Once we encounter any variable-length content (i.e. with quantifiers such as +/?/*), we enter the \"end state\"\n * 4. In the end state, any sets/single characters are added to an \"end stack\".\n * 5. If we re-encounter any variable-length content we reset the end stack\n * 6. We continue visiting the regex until the end, reseting the end stack and rebuilding it as necessary\n *\n * After traversing a regular expression the `startRegexp/endRegexp` properties allow access to the stored start/end of the terminal\n */\nclass TerminalRegExpVisitor extends BaseRegExpVisitor {\n\n private isStarting = true;\n startRegexp: string;\n private endRegexpStack: string[] = [];\n multiline = false;\n regex: string;\n\n get endRegex(): string {\n return this.endRegexpStack.join('');\n }\n\n reset(regex: string): void {\n this.multiline = false;\n this.regex = regex;\n this.startRegexp = '';\n this.isStarting = true;\n this.endRegexpStack = [];\n }\n\n override visitGroup(node: Group) {\n if (node.quantifier) {\n this.isStarting = false;\n this.endRegexpStack = [];\n }\n }\n\n override visitCharacter(node: Character): void {\n const char = String.fromCharCode(node.value);\n if (!this.multiline && char === '\\n') {\n this.multiline = true;\n }\n if (node.quantifier) {\n this.isStarting = false;\n this.endRegexpStack = [];\n } else {\n const escapedChar = escapeRegExp(char);\n this.endRegexpStack.push(escapedChar);\n if (this.isStarting) {\n this.startRegexp += escapedChar;\n }\n }\n }\n\n override visitSet(node: Set): void {\n if (!this.multiline) {\n const set = this.regex.substring(node.loc.begin, node.loc.end);\n const regex = new RegExp(set);\n this.multiline = Boolean('\\n'.match(regex));\n }\n if (node.quantifier) {\n this.isStarting = false;\n this.endRegexpStack = [];\n } else {\n const set = this.regex.substring(node.loc.begin, node.loc.end);\n this.endRegexpStack.push(set);\n if (this.isStarting) {\n this.startRegexp += set;\n }\n }\n }\n\n override visitChildren(node: IRegExpAST): void {\n if (node.type === 'Group') {\n // Ignore children of groups with quantifier (+/*/?)\n // These groups are unrelated to start/end tokens of terminals\n const group = node as Group;\n if (group.quantifier) {\n return;\n }\n }\n super.visitChildren(node);\n }\n}\n\nconst visitor = new TerminalRegExpVisitor();\n\nexport function getTerminalParts(regexp: RegExp | string): Array<{ start: string, end: string }> {\n try {\n if (typeof regexp !== 'string') {\n regexp = regexp.source;\n }\n regexp = `/${regexp}/`;\n const pattern = regexpParser.pattern(regexp);\n const parts: Array<{ start: string, end: string }> = [];\n for (const alternative of pattern.value.value) {\n visitor.reset(regexp);\n visitor.visit(alternative);\n parts.push({\n start: visitor.startRegexp,\n end: visitor.endRegex\n });\n }\n return parts;\n } catch {\n return [];\n }\n}\n\nexport function isMultilineComment(regexp: RegExp | string): boolean {\n try {\n if (typeof regexp === 'string') {\n regexp = new RegExp(regexp);\n }\n regexp = regexp.toString();\n visitor.reset(regexp);\n // Parsing the pattern might fail (since it's user code)\n visitor.visit(regexpParser.pattern(regexp));\n return visitor.multiline;\n } catch {\n return false;\n }\n}\n\nexport function isWhitespace(value: RegExp | string): boolean {\n const regexp = typeof value === 'string' ? new RegExp(value) : value;\n return regexp.test(' ');\n}\n\nexport function escapeRegExp(value: string): string {\n return value.replace(/[.*+?^${}()|[\\]\\\\]/g, '\\\\$&');\n}\n\nexport function getCaseInsensitivePattern(keyword: string): string {\n return Array.prototype.map.call(keyword, letter =>\n /\\w/.test(letter) ? `[${letter.toLowerCase()}${letter.toUpperCase()}]` : escapeRegExp(letter)\n ).join('');\n}\n\n/**\n * Determines whether the given input has a partial match with the specified regex.\n * @param regex The regex to partially match against\n * @param input The input string\n * @returns Whether any match exists.\n */\nexport function partialMatches(regex: RegExp | string, input: string): boolean {\n const partial = partialRegExp(regex);\n const match = input.match(partial);\n return !!match && match[0].length > 0;\n}\n\n/**\n * Builds a partial regex from the input regex. A partial regex is able to match incomplete input strings. E.g.\n * a partial regex constructed from `/ab/` is able to match the string `a` without needing a following `b` character. However it won't match `b` alone.\n * @param regex The input regex to be converted.\n * @returns A partial regex constructed from the input regex.\n */\nexport function partialRegExp(regex: RegExp | string): RegExp {\n if (typeof regex === 'string') {\n regex = new RegExp(regex);\n }\n const re = regex, source = regex.source;\n let i = 0;\n\n function process() {\n let result = '',\n tmp;\n\n function appendRaw(nbChars: number) {\n result += source.substr(i, nbChars);\n i += nbChars;\n }\n\n function appendOptional(nbChars: number) {\n result += '(?:' + source.substr(i, nbChars) + '|$)';\n i += nbChars;\n }\n\n while (i < source.length) {\n switch (source[i]) {\n case '\\\\':\n switch (source[i + 1]) {\n case 'c':\n appendOptional(3);\n break;\n case 'x':\n appendOptional(4);\n break;\n case 'u':\n if (re.unicode) {\n if (source[i + 2] === '{') {\n appendOptional(source.indexOf('}', i) - i + 1);\n } else {\n appendOptional(6);\n }\n } else {\n appendOptional(2);\n }\n break;\n case 'p':\n case 'P':\n if (re.unicode) {\n appendOptional(source.indexOf('}', i) - i + 1);\n } else {\n appendOptional(2);\n }\n break;\n case 'k':\n appendOptional(source.indexOf('>', i) - i + 1);\n break;\n default:\n appendOptional(2);\n break;\n }\n break;\n\n case '[':\n tmp = /\\[(?:\\\\.|.)*?\\]/g;\n tmp.lastIndex = i;\n tmp = tmp.exec(source) || [];\n appendOptional(tmp[0].length);\n break;\n\n case '|':\n case '^':\n case '$':\n case '*':\n case '+':\n case '?':\n appendRaw(1);\n break;\n case '{':\n tmp = /\\{\\d+,?\\d*\\}/g;\n tmp.lastIndex = i;\n tmp = tmp.exec(source);\n if (tmp) {\n appendRaw(tmp[0].length);\n } else {\n appendOptional(1);\n }\n break;\n case '(':\n if (source[i + 1] === '?') {\n switch (source[i + 2]) {\n case ':':\n result += '(?:';\n i += 3;\n result += process() + '|$)';\n break;\n case '=':\n result += '(?=';\n i += 3;\n result += process() + ')';\n break;\n case '!':\n tmp = i;\n i += 3;\n process();\n result += source.substr(tmp, i - tmp);\n break;\n case '<':\n switch (source[i + 3]) {\n case '=':\n case '!':\n tmp = i;\n i += 4;\n process();\n result += source.substr(tmp, i - tmp);\n break;\n default:\n appendRaw(source.indexOf('>', i) - i + 1);\n result += process() + '|$)';\n break;\n }\n break;\n }\n } else {\n appendRaw(1);\n result += process() + '|$)';\n }\n break;\n case ')':\n ++i;\n return result;\n default:\n appendOptional(1);\n break;\n }\n }\n\n return result;\n }\n\n return new RegExp(process(), regex.flags);\n}\n", "import type { Character, IRegExpAST, RegExpFlags } from \"../types\";\n\nexport function cc(char: string): number {\n return char.charCodeAt(0);\n}\n\nexport function insertToSet(item: T | T[], set: T[]) {\n if (Array.isArray(item)) {\n item.forEach(function (subItem) {\n set.push(subItem);\n });\n } else {\n set.push(item);\n }\n}\n\nexport function addFlag(\n flagObj: RegExpFlags,\n flagKey: keyof Omit,\n) {\n if (flagObj[flagKey] === true) {\n throw \"duplicate flag \" + flagKey;\n }\n\n const x: boolean = flagObj[flagKey];\n flagObj[flagKey] = true;\n}\n\nexport function ASSERT_EXISTS(obj: any): obj is T {\n // istanbul ignore next\n if (obj === undefined) {\n throw Error(\"Internal Error - Should never get here!\");\n }\n return true;\n}\n\n// istanbul ignore next\nexport function ASSERT_NEVER_REACH_HERE(): any {\n throw Error(\"Internal Error - Should never get here!\");\n}\n\nexport function isCharacter(obj: { type: string }): obj is Character {\n return obj[\"type\"] === \"Character\";\n}\n", "import { cc } from \"./utils.js\";\n\nexport const digitsCharCodes: number[] = [];\nfor (let i = cc(\"0\"); i <= cc(\"9\"); i++) {\n digitsCharCodes.push(i);\n}\n\nexport const wordCharCodes: number[] = [cc(\"_\")].concat(digitsCharCodes);\nfor (let i = cc(\"a\"); i <= cc(\"z\"); i++) {\n wordCharCodes.push(i);\n}\n\nfor (let i = cc(\"A\"); i <= cc(\"Z\"); i++) {\n wordCharCodes.push(i);\n}\n\n// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/RegExp#character-classes\nexport const whitespaceCodes: number[] = [\n cc(\" \"),\n cc(\"\\f\"),\n cc(\"\\n\"),\n cc(\"\\r\"),\n cc(\"\\t\"),\n cc(\"\\v\"),\n cc(\"\\t\"),\n cc(\"\\u00a0\"),\n cc(\"\\u1680\"),\n cc(\"\\u2000\"),\n cc(\"\\u2001\"),\n cc(\"\\u2002\"),\n cc(\"\\u2003\"),\n cc(\"\\u2004\"),\n cc(\"\\u2005\"),\n cc(\"\\u2006\"),\n cc(\"\\u2007\"),\n cc(\"\\u2008\"),\n cc(\"\\u2009\"),\n cc(\"\\u200a\"),\n cc(\"\\u2028\"),\n cc(\"\\u2029\"),\n cc(\"\\u202f\"),\n cc(\"\\u205f\"),\n cc(\"\\u3000\"),\n cc(\"\\ufeff\"),\n];\n", "import type {\n Alternative,\n Assertion,\n Atom,\n Character,\n Disjunction,\n Group,\n GroupBackReference,\n Location,\n Quantifier,\n Range,\n RegExpFlags,\n RegExpPattern,\n Set,\n Term,\n} from \"../types\";\nimport {\n addFlag,\n ASSERT_EXISTS,\n ASSERT_NEVER_REACH_HERE,\n cc,\n insertToSet,\n isCharacter,\n} from \"./utils.js\";\nimport {\n digitsCharCodes,\n whitespaceCodes,\n wordCharCodes,\n} from \"./character-classes.js\";\n\n// consts and utilities\nconst hexDigitPattern = /[0-9a-fA-F]/;\nconst decimalPattern = /[0-9]/;\nconst decimalPatternNoZero = /[1-9]/;\n\n// https://hackernoon.com/the-madness-of-parsing-real-world-javascript-regexps-d9ee336df983\n// https://www.ecma-international.org/ecma-262/8.0/index.html#prod-Pattern\nexport class RegExpParser {\n protected idx: number = 0;\n protected input: string = \"\";\n protected groupIdx: number = 0;\n\n protected saveState() {\n return {\n idx: this.idx,\n input: this.input,\n groupIdx: this.groupIdx,\n };\n }\n\n protected restoreState(newState: {\n idx: number;\n input: string;\n groupIdx: number;\n }) {\n this.idx = newState.idx;\n this.input = newState.input;\n this.groupIdx = newState.groupIdx;\n }\n\n public pattern(input: string): RegExpPattern {\n // parser state\n this.idx = 0;\n this.input = input;\n this.groupIdx = 0;\n\n this.consumeChar(\"/\");\n const value = this.disjunction();\n this.consumeChar(\"/\");\n\n const flags: RegExpFlags = {\n type: \"Flags\",\n loc: { begin: this.idx, end: input.length },\n global: false,\n ignoreCase: false,\n multiLine: false,\n unicode: false,\n sticky: false,\n };\n\n while (this.isRegExpFlag()) {\n switch (this.popChar()) {\n case \"g\":\n addFlag(flags, \"global\");\n break;\n case \"i\":\n addFlag(flags, \"ignoreCase\");\n break;\n case \"m\":\n addFlag(flags, \"multiLine\");\n break;\n case \"u\":\n addFlag(flags, \"unicode\");\n break;\n case \"y\":\n addFlag(flags, \"sticky\");\n break;\n }\n }\n\n if (this.idx !== this.input.length) {\n throw Error(\"Redundant input: \" + this.input.substring(this.idx));\n }\n return {\n type: \"Pattern\",\n flags: flags,\n value: value,\n loc: this.loc(0),\n };\n }\n\n protected disjunction(): Disjunction {\n const alts = [];\n const begin = this.idx;\n\n alts.push(this.alternative());\n\n while (this.peekChar() === \"|\") {\n this.consumeChar(\"|\");\n alts.push(this.alternative());\n }\n\n return { type: \"Disjunction\", value: alts, loc: this.loc(begin) };\n }\n\n protected alternative(): Alternative {\n const terms = [];\n const begin = this.idx;\n\n while (this.isTerm()) {\n terms.push(this.term());\n }\n\n return { type: \"Alternative\", value: terms, loc: this.loc(begin) };\n }\n\n protected term(): Term {\n if (this.isAssertion()) {\n return this.assertion();\n } else {\n return this.atom();\n }\n }\n\n protected assertion(): Assertion {\n const begin = this.idx;\n switch (this.popChar()) {\n case \"^\":\n return {\n type: \"StartAnchor\",\n loc: this.loc(begin),\n };\n case \"$\":\n return { type: \"EndAnchor\", loc: this.loc(begin) };\n // '\\b' or '\\B'\n case \"\\\\\":\n switch (this.popChar()) {\n case \"b\":\n return {\n type: \"WordBoundary\",\n loc: this.loc(begin),\n };\n case \"B\":\n return {\n type: \"NonWordBoundary\",\n loc: this.loc(begin),\n };\n }\n // istanbul ignore next\n throw Error(\"Invalid Assertion Escape\");\n // '(?=' or '(?!'\n case \"(\":\n this.consumeChar(\"?\");\n\n let type: \"Lookahead\" | \"NegativeLookahead\" | undefined;\n switch (this.popChar()) {\n case \"=\":\n type = \"Lookahead\";\n break;\n case \"!\":\n type = \"NegativeLookahead\";\n break;\n }\n ASSERT_EXISTS(type);\n\n const disjunction = this.disjunction();\n\n this.consumeChar(\")\");\n\n return {\n type: type!,\n value: disjunction,\n loc: this.loc(begin),\n };\n }\n // istanbul ignore next\n return ASSERT_NEVER_REACH_HERE();\n }\n\n protected quantifier(\n isBacktracking: boolean = false,\n ): Quantifier | undefined {\n let range: Partial | undefined = undefined;\n const begin = this.idx;\n switch (this.popChar()) {\n case \"*\":\n range = {\n atLeast: 0,\n atMost: Infinity,\n };\n break;\n case \"+\":\n range = {\n atLeast: 1,\n atMost: Infinity,\n };\n break;\n case \"?\":\n range = {\n atLeast: 0,\n atMost: 1,\n };\n break;\n case \"{\":\n const atLeast = this.integerIncludingZero();\n switch (this.popChar()) {\n case \"}\":\n range = {\n atLeast: atLeast,\n atMost: atLeast,\n };\n break;\n case \",\":\n let atMost;\n if (this.isDigit()) {\n atMost = this.integerIncludingZero();\n range = {\n atLeast: atLeast,\n atMost: atMost,\n };\n } else {\n range = {\n atLeast: atLeast,\n atMost: Infinity,\n };\n }\n this.consumeChar(\"}\");\n break;\n }\n // throwing exceptions from \"ASSERT_EXISTS\" during backtracking\n // causes severe performance degradations\n if (isBacktracking === true && range === undefined) {\n return undefined;\n }\n ASSERT_EXISTS(range);\n break;\n }\n\n // throwing exceptions from \"ASSERT_EXISTS\" during backtracking\n // causes severe performance degradations\n if (isBacktracking === true && range === undefined) {\n return undefined;\n }\n\n // istanbul ignore else\n if (ASSERT_EXISTS(range)) {\n if (this.peekChar(0) === \"?\") {\n this.consumeChar(\"?\");\n range.greedy = false;\n } else {\n range.greedy = true;\n }\n\n range.type = \"Quantifier\";\n range.loc = this.loc(begin);\n return range as Quantifier;\n }\n }\n\n protected atom(): Atom {\n let atom: Omit | undefined;\n const begin = this.idx;\n switch (this.peekChar()) {\n case \".\":\n atom = this.dotAll();\n break;\n case \"\\\\\":\n atom = this.atomEscape();\n break;\n case \"[\":\n atom = this.characterClass();\n break;\n case \"(\":\n atom = this.group();\n break;\n }\n\n if (atom === undefined && this.isPatternCharacter()) {\n atom = this.patternCharacter();\n }\n\n // istanbul ignore else\n if (ASSERT_EXISTS(atom)) {\n atom.loc = this.loc(begin);\n\n if (this.isQuantifier()) {\n atom.quantifier = this.quantifier();\n }\n\n return atom;\n }\n\n // istanbul ignore next\n return ASSERT_NEVER_REACH_HERE();\n }\n\n protected dotAll(): Omit {\n this.consumeChar(\".\");\n return {\n type: \"Set\",\n complement: true,\n value: [cc(\"\\n\"), cc(\"\\r\"), cc(\"\\u2028\"), cc(\"\\u2029\")],\n };\n }\n\n protected atomEscape(): Omit {\n this.consumeChar(\"\\\\\");\n\n switch (this.peekChar()) {\n case \"1\":\n case \"2\":\n case \"3\":\n case \"4\":\n case \"5\":\n case \"6\":\n case \"7\":\n case \"8\":\n case \"9\":\n return this.decimalEscapeAtom();\n case \"d\":\n case \"D\":\n case \"s\":\n case \"S\":\n case \"w\":\n case \"W\":\n return this.characterClassEscape();\n case \"f\":\n case \"n\":\n case \"r\":\n case \"t\":\n case \"v\":\n return this.controlEscapeAtom();\n case \"c\":\n return this.controlLetterEscapeAtom();\n case \"0\":\n return this.nulCharacterAtom();\n case \"x\":\n return this.hexEscapeSequenceAtom();\n case \"u\":\n return this.regExpUnicodeEscapeSequenceAtom();\n default:\n return this.identityEscapeAtom();\n }\n }\n\n protected decimalEscapeAtom(): Omit {\n const value = this.positiveInteger();\n\n return { type: \"GroupBackReference\", value: value };\n }\n\n protected characterClassEscape(): Omit {\n let set: (number | Range)[] | undefined;\n let complement = false;\n switch (this.popChar()) {\n case \"d\":\n set = digitsCharCodes;\n break;\n case \"D\":\n set = digitsCharCodes;\n complement = true;\n break;\n case \"s\":\n set = whitespaceCodes;\n break;\n case \"S\":\n set = whitespaceCodes;\n complement = true;\n break;\n case \"w\":\n set = wordCharCodes;\n break;\n case \"W\":\n set = wordCharCodes;\n complement = true;\n break;\n }\n\n // istanbul ignore else\n if (ASSERT_EXISTS(set)) {\n return { type: \"Set\", value: set, complement: complement };\n }\n // istanbul ignore next\n return ASSERT_NEVER_REACH_HERE();\n }\n\n protected controlEscapeAtom(): Omit {\n let escapeCode;\n switch (this.popChar()) {\n case \"f\":\n escapeCode = cc(\"\\f\");\n break;\n case \"n\":\n escapeCode = cc(\"\\n\");\n break;\n case \"r\":\n escapeCode = cc(\"\\r\");\n break;\n case \"t\":\n escapeCode = cc(\"\\t\");\n break;\n case \"v\":\n escapeCode = cc(\"\\v\");\n break;\n }\n\n // istanbul ignore else\n if (ASSERT_EXISTS(escapeCode)) {\n return { type: \"Character\", value: escapeCode };\n }\n // istanbul ignore next\n return ASSERT_NEVER_REACH_HERE();\n }\n\n protected controlLetterEscapeAtom(): Omit {\n this.consumeChar(\"c\");\n const letter = this.popChar();\n if (/[a-zA-Z]/.test(letter) === false) {\n throw Error(\"Invalid \");\n }\n\n const letterCode = letter.toUpperCase().charCodeAt(0) - 64;\n return { type: \"Character\", value: letterCode };\n }\n\n protected nulCharacterAtom(): Omit {\n // TODO implement '[lookahead \u2209 DecimalDigit]'\n // TODO: for the deprecated octal escape sequence\n this.consumeChar(\"0\");\n return { type: \"Character\", value: cc(\"\\0\") };\n }\n\n protected hexEscapeSequenceAtom(): Omit {\n this.consumeChar(\"x\");\n return this.parseHexDigits(2);\n }\n\n protected regExpUnicodeEscapeSequenceAtom(): Omit {\n this.consumeChar(\"u\");\n return this.parseHexDigits(4);\n }\n\n protected identityEscapeAtom(): Omit {\n // TODO: implement \"SourceCharacter but not UnicodeIDContinue\"\n // // http://unicode.org/reports/tr31/#Specific_Character_Adjustments\n const escapedChar = this.popChar();\n return { type: \"Character\", value: cc(escapedChar) };\n }\n\n protected classPatternCharacterAtom(): Omit {\n switch (this.peekChar()) {\n // istanbul ignore next\n case \"\\n\":\n // istanbul ignore next\n case \"\\r\":\n // istanbul ignore next\n case \"\\u2028\":\n // istanbul ignore next\n case \"\\u2029\":\n // istanbul ignore next\n case \"\\\\\":\n // istanbul ignore next\n case \"]\":\n throw Error(\"TBD\");\n default:\n const nextChar = this.popChar();\n return { type: \"Character\", value: cc(nextChar) };\n }\n }\n\n protected characterClass(): Omit {\n const set: (number | Range)[] = [];\n let complement = false;\n this.consumeChar(\"[\");\n if (this.peekChar(0) === \"^\") {\n this.consumeChar(\"^\");\n complement = true;\n }\n\n while (this.isClassAtom()) {\n const from = this.classAtom();\n const isFromSingleChar = from.type === \"Character\";\n if (isCharacter(from) && this.isRangeDash()) {\n this.consumeChar(\"-\");\n const to = this.classAtom();\n const isToSingleChar = to.type === \"Character\";\n\n // a range can only be used when both sides are single characters\n if (isCharacter(to)) {\n if (to.value < from.value) {\n throw Error(\"Range out of order in character class\");\n }\n set.push({ from: from.value, to: to.value });\n } else {\n // literal dash\n insertToSet(from.value, set);\n set.push(cc(\"-\"));\n insertToSet(to.value, set);\n }\n } else {\n insertToSet(from.value, set);\n }\n }\n\n this.consumeChar(\"]\");\n\n return { type: \"Set\", complement: complement, value: set };\n }\n\n protected classAtom(): Omit {\n switch (this.peekChar()) {\n // istanbul ignore next\n case \"]\":\n // istanbul ignore next\n case \"\\n\":\n // istanbul ignore next\n case \"\\r\":\n // istanbul ignore next\n case \"\\u2028\":\n // istanbul ignore next\n case \"\\u2029\":\n throw Error(\"TBD\");\n case \"\\\\\":\n return this.classEscape();\n default:\n return this.classPatternCharacterAtom();\n }\n }\n\n protected classEscape(): Omit {\n this.consumeChar(\"\\\\\");\n switch (this.peekChar()) {\n // Matches a backspace.\n // (Not to be confused with \\b word boundary outside characterClass)\n case \"b\":\n this.consumeChar(\"b\");\n return { type: \"Character\", value: cc(\"\\u0008\") };\n case \"d\":\n case \"D\":\n case \"s\":\n case \"S\":\n case \"w\":\n case \"W\":\n return this.characterClassEscape();\n case \"f\":\n case \"n\":\n case \"r\":\n case \"t\":\n case \"v\":\n return this.controlEscapeAtom();\n case \"c\":\n return this.controlLetterEscapeAtom();\n case \"0\":\n return this.nulCharacterAtom();\n case \"x\":\n return this.hexEscapeSequenceAtom();\n case \"u\":\n return this.regExpUnicodeEscapeSequenceAtom();\n default:\n return this.identityEscapeAtom();\n }\n }\n\n protected group(): Omit {\n let capturing = true;\n this.consumeChar(\"(\");\n switch (this.peekChar(0)) {\n case \"?\":\n this.consumeChar(\"?\");\n this.consumeChar(\":\");\n capturing = false;\n break;\n default:\n this.groupIdx++;\n break;\n }\n const value = this.disjunction();\n this.consumeChar(\")\");\n\n const groupAst: Omit = {\n type: \"Group\",\n capturing: capturing,\n value: value,\n };\n\n if (capturing) {\n groupAst[\"idx\"] = this.groupIdx;\n }\n\n return groupAst;\n }\n\n protected positiveInteger(): number {\n let number = this.popChar();\n\n // istanbul ignore next - can't ever get here due to previous lookahead checks\n // still implementing this error checking in case this ever changes.\n if (decimalPatternNoZero.test(number) === false) {\n throw Error(\"Expecting a positive integer\");\n }\n\n while (decimalPattern.test(this.peekChar(0))) {\n number += this.popChar();\n }\n\n return parseInt(number, 10);\n }\n\n protected integerIncludingZero(): number {\n let number = this.popChar();\n if (decimalPattern.test(number) === false) {\n throw Error(\"Expecting an integer\");\n }\n\n while (decimalPattern.test(this.peekChar(0))) {\n number += this.popChar();\n }\n\n return parseInt(number, 10);\n }\n\n protected patternCharacter(): Omit {\n const nextChar = this.popChar();\n switch (nextChar) {\n // istanbul ignore next\n case \"\\n\":\n // istanbul ignore next\n case \"\\r\":\n // istanbul ignore next\n case \"\\u2028\":\n // istanbul ignore next\n case \"\\u2029\":\n // istanbul ignore next\n case \"^\":\n // istanbul ignore next\n case \"$\":\n // istanbul ignore next\n case \"\\\\\":\n // istanbul ignore next\n case \".\":\n // istanbul ignore next\n case \"*\":\n // istanbul ignore next\n case \"+\":\n // istanbul ignore next\n case \"?\":\n // istanbul ignore next\n case \"(\":\n // istanbul ignore next\n case \")\":\n // istanbul ignore next\n case \"[\":\n // istanbul ignore next\n case \"|\":\n // istanbul ignore next\n throw Error(\"TBD\");\n default:\n return { type: \"Character\", value: cc(nextChar) };\n }\n }\n protected isRegExpFlag(): boolean {\n switch (this.peekChar(0)) {\n case \"g\":\n case \"i\":\n case \"m\":\n case \"u\":\n case \"y\":\n return true;\n default:\n return false;\n }\n }\n\n protected isRangeDash(): boolean {\n return this.peekChar() === \"-\" && this.isClassAtom(1);\n }\n\n protected isDigit(): boolean {\n return decimalPattern.test(this.peekChar(0));\n }\n\n protected isClassAtom(howMuch = 0): boolean {\n switch (this.peekChar(howMuch)) {\n case \"]\":\n case \"\\n\":\n case \"\\r\":\n case \"\\u2028\":\n case \"\\u2029\":\n return false;\n default:\n return true;\n }\n }\n\n protected isTerm() {\n return this.isAtom() || this.isAssertion();\n }\n\n protected isAtom(): boolean {\n if (this.isPatternCharacter()) {\n return true;\n }\n\n switch (this.peekChar(0)) {\n case \".\":\n case \"\\\\\": // atomEscape\n case \"[\": // characterClass\n // TODO: isAtom must be called before isAssertion - disambiguate\n case \"(\": // group\n return true;\n default:\n return false;\n }\n }\n\n protected isAssertion(): boolean {\n switch (this.peekChar(0)) {\n case \"^\":\n case \"$\":\n return true;\n // '\\b' or '\\B'\n case \"\\\\\":\n switch (this.peekChar(1)) {\n case \"b\":\n case \"B\":\n return true;\n default:\n return false;\n }\n // '(?=' or '(?!'\n case \"(\":\n return (\n this.peekChar(1) === \"?\" &&\n (this.peekChar(2) === \"=\" || this.peekChar(2) === \"!\")\n );\n default:\n return false;\n }\n }\n\n protected isQuantifier(): boolean {\n const prevState = this.saveState();\n try {\n return this.quantifier(true) !== undefined;\n } catch (e) {\n return false;\n } finally {\n this.restoreState(prevState);\n }\n }\n\n protected isPatternCharacter(): boolean {\n switch (this.peekChar()) {\n case \"^\":\n case \"$\":\n case \"\\\\\":\n case \".\":\n case \"*\":\n case \"+\":\n case \"?\":\n case \"(\":\n case \")\":\n case \"[\":\n case \"|\":\n case \"/\":\n case \"\\n\":\n case \"\\r\":\n case \"\\u2028\":\n case \"\\u2029\":\n return false;\n default:\n return true;\n }\n }\n\n protected parseHexDigits(howMany: number): Omit {\n let hexString = \"\";\n for (let i = 0; i < howMany; i++) {\n const hexChar = this.popChar();\n if (hexDigitPattern.test(hexChar) === false) {\n throw Error(\"Expecting a HexDecimal digits\");\n }\n hexString += hexChar;\n }\n const charCode = parseInt(hexString, 16);\n return { type: \"Character\", value: charCode };\n }\n\n protected peekChar(howMuch = 0): string {\n return this.input[this.idx + howMuch];\n }\n\n protected popChar(): string {\n const nextChar = this.peekChar(0);\n this.consumeChar(undefined);\n return nextChar;\n }\n\n protected consumeChar(char: string | undefined): void {\n if (char !== undefined && this.input[this.idx] !== char) {\n throw Error(\n \"Expected: '\" +\n char +\n \"' but found: '\" +\n this.input[this.idx] +\n \"' at offset: \" +\n this.idx,\n );\n }\n\n if (this.idx >= this.input.length) {\n throw Error(\"Unexpected end of input\");\n }\n this.idx++;\n }\n\n protected loc(begin: number): Location {\n return { begin: begin, end: this.idx };\n }\n}\n", "import type {\n Alternative,\n Assertion,\n Character,\n Disjunction,\n Group,\n GroupBackReference,\n IRegExpAST,\n Quantifier,\n RegExpAstPart,\n RegExpFlags,\n RegExpPattern,\n Set,\n} from \"../types\";\n\nexport class BaseRegExpVisitor {\n public visitChildren(node: IRegExpAST) {\n for (const key in node) {\n const child = (node as any)[key];\n /* istanbul ignore else */\n if (node.hasOwnProperty(key)) {\n if (child.type !== undefined) {\n this.visit(child);\n } else if (Array.isArray(child)) {\n child.forEach((subChild) => {\n this.visit(subChild);\n }, this);\n }\n }\n }\n }\n\n public visit(node: RegExpAstPart): void {\n switch (node.type) {\n case \"Pattern\":\n this.visitPattern(node);\n break;\n case \"Flags\":\n this.visitFlags(node);\n break;\n case \"Disjunction\":\n this.visitDisjunction(node);\n break;\n case \"Alternative\":\n this.visitAlternative(node);\n break;\n case \"StartAnchor\":\n this.visitStartAnchor(node);\n break;\n case \"EndAnchor\":\n this.visitEndAnchor(node);\n break;\n case \"WordBoundary\":\n this.visitWordBoundary(node);\n break;\n case \"NonWordBoundary\":\n this.visitNonWordBoundary(node);\n break;\n case \"Lookahead\":\n this.visitLookahead(node);\n break;\n case \"NegativeLookahead\":\n this.visitNegativeLookahead(node);\n break;\n case \"Character\":\n this.visitCharacter(node);\n break;\n case \"Set\":\n this.visitSet(node);\n break;\n case \"Group\":\n this.visitGroup(node);\n break;\n case \"GroupBackReference\":\n this.visitGroupBackReference(node);\n break;\n case \"Quantifier\":\n this.visitQuantifier(node);\n break;\n }\n\n this.visitChildren(node);\n }\n\n public visitPattern(node: RegExpPattern): void {}\n\n public visitFlags(node: RegExpFlags): void {}\n\n public visitDisjunction(node: Disjunction): void {}\n\n public visitAlternative(node: Alternative): void {}\n\n // Assertion\n public visitStartAnchor(node: Assertion): void {}\n\n public visitEndAnchor(node: Assertion): void {}\n\n public visitWordBoundary(node: Assertion): void {}\n\n public visitNonWordBoundary(node: Assertion): void {}\n\n public visitLookahead(node: Assertion): void {}\n\n public visitNegativeLookahead(node: Assertion): void {}\n\n // atoms\n public visitCharacter(node: Character): void {}\n\n public visitSet(node: Set): void {}\n\n public visitGroup(node: Group): void {}\n\n public visitGroupBackReference(node: GroupBackReference): void {}\n\n public visitQuantifier(node: Quantifier): void {}\n}\n", "/******************************************************************************\n * Copyright 2021 TypeFox GmbH\n * This program and the accompanying materials are made available under the\n * terms of the MIT License, which is available in the project root.\n ******************************************************************************/\n\nimport type { LangiumCoreServices } from '../services.js';\nimport { DefaultNameRegexp } from '../utils/cst-utils.js';\nimport { isCommentTerminal, terminalRegex } from '../utils/grammar-utils.js';\nimport { isMultilineComment } from '../utils/regexp-utils.js';\nimport { isTerminalRule } from './generated/ast.js';\n\nexport interface GrammarConfig {\n /**\n * Lists all rule names which are classified as multiline comment rules\n */\n multilineCommentRules: string[]\n /**\n * A regular expression which matches characters of names\n */\n nameRegexp: RegExp\n}\n\n/**\n * Create the default grammar configuration (used by `createDefaultModule`). This can be overridden in a\n * language-specific module.\n */\nexport function createGrammarConfig(services: LangiumCoreServices): GrammarConfig {\n const rules: string[] = [];\n const grammar = services.Grammar;\n for (const rule of grammar.rules) {\n if (isTerminalRule(rule) && isCommentTerminal(rule) && isMultilineComment(terminalRegex(rule))) {\n rules.push(rule.name);\n }\n }\n return {\n multilineCommentRules: rules,\n nameRegexp: DefaultNameRegexp\n };\n}\n", "export function PRINT_ERROR(msg: string) {\n /* istanbul ignore else - can't override global.console in node.js */\n if (console && console.error) {\n console.error(`Error: ${msg}`);\n }\n}\n\nexport function PRINT_WARNING(msg: string) {\n /* istanbul ignore else - can't override global.console in node.js*/\n if (console && console.warn) {\n // TODO: modify docs accordingly\n console.warn(`Warning: ${msg}`);\n }\n}\n", "export function timer(func: () => T): { time: number; value: T } {\n const start = new Date().getTime();\n const val = func();\n const end = new Date().getTime();\n const total = end - start;\n return { time: total, value: val };\n}\n", "// based on: https://github.com/petkaantonov/bluebird/blob/b97c0d2d487e8c5076e8bd897e0dcd4622d31846/src/util.js#L201-L216\nexport function toFastProperties(toBecomeFast: any) {\n function FakeConstructor() {}\n\n // If our object is used as a constructor, it would receive\n FakeConstructor.prototype = toBecomeFast;\n const fakeInstance = new (FakeConstructor as any)();\n\n function fakeAccess() {\n return typeof fakeInstance.bar;\n }\n\n // help V8 understand this is a \"real\" prototype by actually using\n // the fake instance.\n fakeAccess();\n fakeAccess();\n\n // Always true condition to suppress the Firefox warning of unreachable\n // code after a return statement.\n if (1) return toBecomeFast;\n\n // Eval prevents optimization of this method (even though this is dead code)\n // - https://esbuild.github.io/content-types/#direct-eval\n /* istanbul ignore next */\n // tslint:disable-next-line\n (0, eval)(toBecomeFast);\n}\n", "import { assign, forEach, isRegExp, isString, map, pickBy } from \"lodash-es\";\nimport type {\n IGASTVisitor,\n IProduction,\n IProductionWithOccurrence,\n ISerializedGast,\n TokenType,\n} from \"@chevrotain/types\";\n\n// TODO: duplicated code to avoid extracting another sub-package -- how to avoid?\nfunction tokenLabel(tokType: TokenType): string {\n if (hasTokenLabel(tokType)) {\n return tokType.LABEL;\n } else {\n return tokType.name;\n }\n}\n\n// TODO: duplicated code to avoid extracting another sub-package -- how to avoid?\nfunction hasTokenLabel(\n obj: TokenType,\n): obj is TokenType & Pick, \"LABEL\"> {\n return isString(obj.LABEL) && obj.LABEL !== \"\";\n}\n\nexport abstract class AbstractProduction\n implements IProduction\n{\n public get definition(): T[] {\n return this._definition;\n }\n public set definition(value: T[]) {\n this._definition = value;\n }\n\n constructor(protected _definition: T[]) {}\n\n accept(visitor: IGASTVisitor): void {\n visitor.visit(this);\n forEach(this.definition, (prod) => {\n prod.accept(visitor);\n });\n }\n}\n\nexport class NonTerminal\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public nonTerminalName!: string;\n public label?: string;\n public referencedRule!: Rule;\n public idx: number = 1;\n\n constructor(options: {\n nonTerminalName: string;\n label?: string;\n referencedRule?: Rule;\n idx?: number;\n }) {\n super([]);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n\n set definition(definition: IProduction[]) {\n // immutable\n }\n\n get definition(): IProduction[] {\n if (this.referencedRule !== undefined) {\n return this.referencedRule.definition;\n }\n return [];\n }\n\n accept(visitor: IGASTVisitor): void {\n visitor.visit(this);\n // don't visit children of a reference, we will get cyclic infinite loops if we do so\n }\n}\n\nexport class Rule extends AbstractProduction {\n public name!: string;\n public orgText: string = \"\";\n\n constructor(options: {\n name: string;\n definition: IProduction[];\n orgText?: string;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class Alternative extends AbstractProduction {\n public ignoreAmbiguities: boolean = false;\n\n constructor(options: {\n definition: IProduction[];\n ignoreAmbiguities?: boolean;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class Option\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public idx: number = 1;\n public maxLookahead?: number;\n\n constructor(options: {\n definition: IProduction[];\n idx?: number;\n maxLookahead?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class RepetitionMandatory\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public idx: number = 1;\n public maxLookahead?: number;\n\n constructor(options: {\n definition: IProduction[];\n idx?: number;\n maxLookahead?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class RepetitionMandatoryWithSeparator\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public separator!: TokenType;\n public idx: number = 1;\n public maxLookahead?: number;\n\n constructor(options: {\n definition: IProduction[];\n separator: TokenType;\n idx?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class Repetition\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public separator!: TokenType;\n public idx: number = 1;\n public maxLookahead?: number;\n\n constructor(options: {\n definition: IProduction[];\n idx?: number;\n maxLookahead?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class RepetitionWithSeparator\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public separator!: TokenType;\n public idx: number = 1;\n public maxLookahead?: number;\n\n constructor(options: {\n definition: IProduction[];\n separator: TokenType;\n idx?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class Alternation\n extends AbstractProduction\n implements IProductionWithOccurrence\n{\n public idx: number = 1;\n public ignoreAmbiguities: boolean = false;\n public hasPredicates: boolean = false;\n public maxLookahead?: number;\n\n public get definition(): Alternative[] {\n return this._definition;\n }\n public set definition(value: Alternative[]) {\n this._definition = value;\n }\n\n constructor(options: {\n definition: Alternative[];\n idx?: number;\n ignoreAmbiguities?: boolean;\n hasPredicates?: boolean;\n maxLookahead?: number;\n }) {\n super(options.definition);\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n}\n\nexport class Terminal implements IProductionWithOccurrence {\n public terminalType!: TokenType;\n public label?: string;\n public idx: number = 1;\n\n constructor(options: {\n terminalType: TokenType;\n label?: string;\n idx?: number;\n }) {\n assign(\n this,\n pickBy(options, (v) => v !== undefined),\n );\n }\n\n accept(visitor: IGASTVisitor): void {\n visitor.visit(this);\n }\n}\n\nexport interface ISerializedBasic extends ISerializedGast {\n type:\n | \"Alternative\"\n | \"Option\"\n | \"RepetitionMandatory\"\n | \"Repetition\"\n | \"Alternation\";\n idx?: number;\n}\n\nexport interface ISerializedGastRule extends ISerializedGast {\n type: \"Rule\";\n name: string;\n orgText: string;\n}\n\nexport interface ISerializedNonTerminal extends ISerializedGast {\n type: \"NonTerminal\";\n name: string;\n label?: string;\n idx: number;\n}\n\nexport interface ISerializedTerminal extends ISerializedGast {\n type: \"Terminal\";\n name: string;\n terminalLabel?: string;\n label?: string;\n pattern?: string;\n idx: number;\n}\n\nexport interface ISerializedTerminalWithSeparator extends ISerializedGast {\n type: \"RepetitionMandatoryWithSeparator\" | \"RepetitionWithSeparator\";\n idx: number;\n separator: ISerializedTerminal;\n}\n\nexport type ISerializedGastAny =\n | ISerializedBasic\n | ISerializedGastRule\n | ISerializedNonTerminal\n | ISerializedTerminal\n | ISerializedTerminalWithSeparator;\n\nexport function serializeGrammar(topRules: Rule[]): ISerializedGast[] {\n return map(topRules, serializeProduction);\n}\n\nexport function serializeProduction(node: IProduction): ISerializedGast {\n function convertDefinition(definition: IProduction[]): ISerializedGast[] {\n return map(definition, serializeProduction);\n }\n /* istanbul ignore else */\n if (node instanceof NonTerminal) {\n const serializedNonTerminal: ISerializedNonTerminal = {\n type: \"NonTerminal\",\n name: node.nonTerminalName,\n idx: node.idx,\n };\n\n if (isString(node.label)) {\n serializedNonTerminal.label = node.label;\n }\n\n return serializedNonTerminal;\n } else if (node instanceof Alternative) {\n return {\n type: \"Alternative\",\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof Option) {\n return {\n type: \"Option\",\n idx: node.idx,\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof RepetitionMandatory) {\n return {\n type: \"RepetitionMandatory\",\n idx: node.idx,\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof RepetitionMandatoryWithSeparator) {\n return {\n type: \"RepetitionMandatoryWithSeparator\",\n idx: node.idx,\n separator: (\n serializeProduction(new Terminal({ terminalType: node.separator }))\n ),\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof RepetitionWithSeparator) {\n return {\n type: \"RepetitionWithSeparator\",\n idx: node.idx,\n separator: (\n serializeProduction(new Terminal({ terminalType: node.separator }))\n ),\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof Repetition) {\n return {\n type: \"Repetition\",\n idx: node.idx,\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof Alternation) {\n return {\n type: \"Alternation\",\n idx: node.idx,\n definition: convertDefinition(node.definition),\n };\n } else if (node instanceof Terminal) {\n const serializedTerminal = {\n type: \"Terminal\",\n name: node.terminalType.name,\n label: tokenLabel(node.terminalType),\n idx: node.idx,\n };\n\n if (isString(node.label)) {\n serializedTerminal.terminalLabel = node.label;\n }\n\n const pattern = node.terminalType.PATTERN;\n if (node.terminalType.PATTERN) {\n serializedTerminal.pattern = isRegExp(pattern)\n ? (pattern).source\n : pattern;\n }\n\n return serializedTerminal;\n } else if (node instanceof Rule) {\n return {\n type: \"Rule\",\n name: node.name,\n orgText: node.orgText,\n definition: convertDefinition(node.definition),\n };\n /* c8 ignore next 3 */\n } else {\n throw Error(\"non exhaustive match\");\n }\n}\n", "import {\n Alternation,\n Alternative,\n NonTerminal,\n Option,\n Repetition,\n RepetitionMandatory,\n RepetitionMandatoryWithSeparator,\n RepetitionWithSeparator,\n Rule,\n Terminal,\n} from \"./model.js\";\nimport type { IProduction } from \"@chevrotain/types\";\n\nexport abstract class GAstVisitor {\n public visit(node: IProduction): any {\n const nodeAny: any = node;\n switch (nodeAny.constructor) {\n case NonTerminal:\n return this.visitNonTerminal(nodeAny);\n case Alternative:\n return this.visitAlternative(nodeAny);\n case Option:\n return this.visitOption(nodeAny);\n case RepetitionMandatory:\n return this.visitRepetitionMandatory(nodeAny);\n case RepetitionMandatoryWithSeparator:\n return this.visitRepetitionMandatoryWithSeparator(nodeAny);\n case RepetitionWithSeparator:\n return this.visitRepetitionWithSeparator(nodeAny);\n case Repetition:\n return this.visitRepetition(nodeAny);\n case Alternation:\n return this.visitAlternation(nodeAny);\n case Terminal:\n return this.visitTerminal(nodeAny);\n case Rule:\n return this.visitRule(nodeAny);\n /* c8 ignore next 2 */\n default:\n throw Error(\"non exhaustive match\");\n }\n }\n\n /* c8 ignore next */\n public visitNonTerminal(node: NonTerminal): any {}\n\n /* c8 ignore next */\n public visitAlternative(node: Alternative): any {}\n\n /* c8 ignore next */\n public visitOption(node: Option): any {}\n\n /* c8 ignore next */\n public visitRepetition(node: Repetition): any {}\n\n /* c8 ignore next */\n public visitRepetitionMandatory(node: RepetitionMandatory): any {}\n\n /* c8 ignore next 3 */\n public visitRepetitionMandatoryWithSeparator(\n node: RepetitionMandatoryWithSeparator,\n ): any {}\n\n /* c8 ignore next */\n public visitRepetitionWithSeparator(node: RepetitionWithSeparator): any {}\n\n /* c8 ignore next */\n public visitAlternation(node: Alternation): any {}\n\n /* c8 ignore next */\n public visitTerminal(node: Terminal): any {}\n\n /* c8 ignore next */\n public visitRule(node: Rule): any {}\n}\n", "import { every, includes, some } from \"lodash-es\";\nimport {\n AbstractProduction,\n Alternation,\n Alternative,\n NonTerminal,\n Option,\n Repetition,\n RepetitionMandatory,\n RepetitionMandatoryWithSeparator,\n RepetitionWithSeparator,\n Rule,\n Terminal,\n} from \"./model.js\";\nimport type { IProduction, IProductionWithOccurrence } from \"@chevrotain/types\";\n\nexport function isSequenceProd(\n prod: IProduction,\n): prod is { definition: IProduction[] } & IProduction {\n return (\n prod instanceof Alternative ||\n prod instanceof Option ||\n prod instanceof Repetition ||\n prod instanceof RepetitionMandatory ||\n prod instanceof RepetitionMandatoryWithSeparator ||\n prod instanceof RepetitionWithSeparator ||\n prod instanceof Terminal ||\n prod instanceof Rule\n );\n}\n\nexport function isOptionalProd(\n prod: IProduction,\n alreadyVisited: NonTerminal[] = [],\n): boolean {\n const isDirectlyOptional =\n prod instanceof Option ||\n prod instanceof Repetition ||\n prod instanceof RepetitionWithSeparator;\n if (isDirectlyOptional) {\n return true;\n }\n\n // note that this can cause infinite loop if one optional empty TOP production has a cyclic dependency with another\n // empty optional top rule\n // may be indirectly optional ((A?B?C?) | (D?E?F?))\n if (prod instanceof Alternation) {\n // for OR its enough for just one of the alternatives to be optional\n return some((