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Current File : /var/www/html/node_modules/tsutils/util/util.d.ts |
import * as ts from 'typescript'; import { NodeWrap } from './convert-ast'; export declare function getChildOfKind<T extends ts.SyntaxKind>(node: ts.Node, kind: T, sourceFile?: ts.SourceFile): ts.Token<T> | undefined; export declare function isTokenKind(kind: ts.SyntaxKind): boolean; export declare function isNodeKind(kind: ts.SyntaxKind): boolean; export declare function isAssignmentKind(kind: ts.SyntaxKind): boolean; export declare function isTypeNodeKind(kind: ts.SyntaxKind): boolean; export declare function isJsDocKind(kind: ts.SyntaxKind): boolean; export declare function isKeywordKind(kind: ts.SyntaxKind): boolean; export declare function isThisParameter(parameter: ts.ParameterDeclaration): boolean; export declare function getModifier(node: ts.Node, kind: ts.Modifier['kind']): ts.Modifier | undefined; export declare function hasModifier(modifiers: ts.ModifiersArray | undefined, ...kinds: Array<ts.Modifier['kind']>): boolean; export declare function isParameterProperty(node: ts.ParameterDeclaration): boolean; export declare function hasAccessModifier(node: ts.ClassElement | ts.ParameterDeclaration): boolean; export declare const isNodeFlagSet: (node: ts.Node, flag: ts.NodeFlags) => boolean; export declare const isTypeFlagSet: (type: ts.Type, flag: ts.TypeFlags) => boolean; export declare const isSymbolFlagSet: (symbol: ts.Symbol, flag: ts.SymbolFlags) => boolean; export declare function isObjectFlagSet(objectType: ts.ObjectType, flag: ts.ObjectFlags): boolean; export declare function isModifierFlagSet(node: ts.Node, flag: ts.ModifierFlags): boolean; export declare function getPreviousStatement(statement: ts.Statement): ts.Statement | undefined; export declare function getNextStatement(statement: ts.Statement): ts.Statement | undefined; /** Returns the token before the start of `node` or `undefined` if there is none. */ export declare function getPreviousToken(node: ts.Node, sourceFile?: ts.SourceFile): ts.Node | undefined; /** Returns the next token that begins after the end of `node`. Returns `undefined` for SourceFile and EndOfFileToken */ export declare function getNextToken(node: ts.Node, sourceFile?: ts.SourceFile): ts.Node | undefined; /** Returns the token at or following the specified position or undefined if none is found inside `parent`. */ export declare function getTokenAtPosition(parent: ts.Node, pos: number, sourceFile?: ts.SourceFile, allowJsDoc?: boolean): ts.Node | undefined; /** * Return the comment at the specified position. * You can pass an optional `parent` to avoid some work finding the corresponding token starting at `sourceFile`. * If the `parent` parameter is passed, `pos` must be between `parent.pos` and `parent.end`. */ export declare function getCommentAtPosition(sourceFile: ts.SourceFile, pos: number, parent?: ts.Node): ts.CommentRange | undefined; /** * Returns whether the specified position is inside a comment. * You can pass an optional `parent` to avoid some work finding the corresponding token starting at `sourceFile`. * If the `parent` parameter is passed, `pos` must be between `parent.pos` and `parent.end`. */ export declare function isPositionInComment(sourceFile: ts.SourceFile, pos: number, parent?: ts.Node): boolean; export declare function commentText(sourceText: string, comment: ts.CommentRange): string; /** Returns the deepest AST Node at `pos`. Returns undefined if `pos` is outside of the range of `node` */ export declare function getAstNodeAtPosition(node: ts.Node, pos: number): ts.Node | undefined; /** * Returns the NodeWrap of deepest AST node that contains `pos` between its `pos` and `end`. * Only returns undefined if pos is outside of `wrap` */ export declare function getWrappedNodeAtPosition(wrap: NodeWrap, pos: number): NodeWrap | undefined; export declare function getPropertyName(propertyName: ts.PropertyName): string | undefined; export declare function forEachDestructuringIdentifier<T>(pattern: ts.BindingPattern, fn: (element: ts.BindingElement & { name: ts.Identifier; }) => T): T | undefined; export declare function forEachDeclaredVariable<T>(declarationList: ts.VariableDeclarationList, cb: (element: (ts.VariableDeclaration | ts.BindingElement) & { name: ts.Identifier; }) => T): T | undefined; export declare enum VariableDeclarationKind { Var = 0, Let = 1, Const = 2 } export declare function getVariableDeclarationKind(declarationList: ts.VariableDeclarationList): VariableDeclarationKind; export declare function isBlockScopedVariableDeclarationList(declarationList: ts.VariableDeclarationList): boolean; export declare function isBlockScopedVariableDeclaration(declaration: ts.VariableDeclaration): boolean; export declare function isBlockScopedDeclarationStatement(statement: ts.Statement): statement is ts.DeclarationStatement; export declare function isInSingleStatementContext(statement: ts.Statement): boolean; export declare enum ScopeBoundary { None = 0, Function = 1, Block = 2, Type = 4, ConditionalType = 8 } export declare enum ScopeBoundarySelector { Function = 1, Block = 3, Type = 7, InferType = 8 } export declare function isScopeBoundary(node: ts.Node): ScopeBoundary; export declare function isTypeScopeBoundary(node: ts.Node): ScopeBoundary; export declare function isFunctionScopeBoundary(node: ts.Node): ScopeBoundary; export declare function isBlockScopeBoundary(node: ts.Node): ScopeBoundary; /** Returns true for scope boundaries that have their own `this` reference instead of inheriting it from the containing scope */ export declare function hasOwnThisReference(node: ts.Node): boolean; export declare function isFunctionWithBody(node: ts.Node): node is ts.FunctionLikeDeclaration & { body: {}; }; /** * Iterate over all tokens of `node` * * @param node The node whose tokens should be visited * @param cb Is called for every token contained in `node` */ export declare function forEachToken(node: ts.Node, cb: (node: ts.Node) => void, sourceFile?: ts.SourceFile): void; export declare type ForEachTokenCallback = (fullText: string, kind: ts.SyntaxKind, range: ts.TextRange, parent: ts.Node) => void; /** * Iterate over all tokens and trivia of `node` * * @description JsDoc comments are treated like regular comments * * @param node The node whose tokens should be visited * @param cb Is called for every token contained in `node` and trivia before the token */ export declare function forEachTokenWithTrivia(node: ts.Node, cb: ForEachTokenCallback, sourceFile?: ts.SourceFile): void; export declare type ForEachCommentCallback = (fullText: string, comment: ts.CommentRange) => void; /** Iterate over all comments owned by `node` or its children */ export declare function forEachComment(node: ts.Node, cb: ForEachCommentCallback, sourceFile?: ts.SourceFile): void; export interface LineRange extends ts.TextRange { contentLength: number; } export declare function getLineRanges(sourceFile: ts.SourceFile): LineRange[]; /** Get the line break style used in sourceFile. This function only looks at the first line break. If there is none, \n is assumed. */ export declare function getLineBreakStyle(sourceFile: ts.SourceFile): "\n" | "\r\n"; /** * Determines whether the given text parses as a standalone identifier. * This is not a guarantee that it works in every context. The property name in PropertyAccessExpressions for example allows reserved words. * Depending on the context it could be parsed as contextual keyword or TypeScript keyword. */ export declare function isValidIdentifier(text: string, languageVersion?: ts.ScriptTarget): boolean; /** * Determines whether the given text can be used to access a property with a PropertyAccessExpression while preserving the property's name. */ export declare function isValidPropertyAccess(text: string, languageVersion?: ts.ScriptTarget): boolean; /** * Determines whether the given text can be used as unquoted name of a property declaration while preserving the property's name. */ export declare function isValidPropertyName(text: string, languageVersion?: ts.ScriptTarget): boolean; /** * Determines whether the given text can be parsed as a numeric literal. */ export declare function isValidNumericLiteral(text: string, languageVersion?: ts.ScriptTarget): boolean; /** * Determines whether the given text can be used as JSX tag or attribute name while preserving the exact name. */ export declare function isValidJsxIdentifier(text: string, languageVersion?: ts.ScriptTarget): boolean; export declare function isNumericPropertyName(name: string | ts.__String): boolean; export declare function isSameLine(sourceFile: ts.SourceFile, pos1: number, pos2: number): boolean; export declare enum SideEffectOptions { None = 0, TaggedTemplate = 1, Constructor = 2, JsxElement = 4 } export declare function hasSideEffects(node: ts.Expression, options?: SideEffectOptions): boolean; /** Returns the VariableDeclaration or ParameterDeclaration that contains the BindingElement */ export declare function getDeclarationOfBindingElement(node: ts.BindingElement): ts.VariableDeclaration | ts.ParameterDeclaration; export declare function isExpressionValueUsed(node: ts.Expression): boolean; export declare enum AccessKind { None = 0, Read = 1, Write = 2, Delete = 4, ReadWrite = 3, Modification = 6 } export declare function getAccessKind(node: ts.Node): AccessKind; export declare function isReassignmentTarget(node: ts.Expression): boolean; export declare function canHaveJsDoc(node: ts.Node): node is ts.HasJSDoc; /** Gets the JSDoc of a node. For performance reasons this function should only be called when `canHaveJsDoc` returns true. */ export declare function getJsDoc(node: ts.Node, sourceFile?: ts.SourceFile): ts.JSDoc[]; /** * Parses the JsDoc of any node. This function is made for nodes that don't get their JsDoc parsed by the TypeScript parser. * * @param considerTrailingComments When set to `true` this function uses the trailing comments if the node starts on the same line * as the previous node ends. */ export declare function parseJsDocOfNode(node: ts.Node, considerTrailingComments?: boolean, sourceFile?: ts.SourceFile): ts.JSDoc[]; export declare enum ImportKind { ImportDeclaration = 1, ImportEquals = 2, ExportFrom = 4, DynamicImport = 8, Require = 16, ImportType = 32, All = 63, AllImports = 59, AllStaticImports = 3, AllImportExpressions = 24, AllRequireLike = 18 } export declare function findImports(sourceFile: ts.SourceFile, kinds: ImportKind, ignoreFileName?: boolean): (ts.StringLiteral | ts.NoSubstitutionTemplateLiteral)[]; export declare type ImportLike = ts.ImportDeclaration | ts.ImportEqualsDeclaration & { moduleReference: ts.ExternalModuleReference; } | ts.ExportDeclaration & { moduleSpecifier: {}; } | ts.CallExpression & { expression: ts.Token<ts.SyntaxKind.ImportKeyword> | ts.Identifier & { text: 'require'; }; arguments: [ts.Expression, ...ts.Expression[]]; } | ts.ImportTypeNode; export declare function findImportLikeNodes(sourceFile: ts.SourceFile, kinds: ImportKind, ignoreFileName?: boolean): ImportLike[]; /** * Ambient context means the statement itself has the `declare` keyword * or is inside a `declare namespace`, `delcare module` or `declare global`. */ export declare function isStatementInAmbientContext(node: ts.Statement): boolean; /** Includes `declare namespace`, `declare module` and `declare global` and namespace nested in one of the aforementioned. */ export declare function isAmbientModuleBlock(node: ts.Node): node is ts.ModuleBlock; export declare function getIIFE(func: ts.FunctionExpression | ts.ArrowFunction): ts.CallExpression | undefined; export declare type StrictCompilerOption = 'noImplicitAny' | 'noImplicitThis' | 'strictNullChecks' | 'strictFunctionTypes' | 'strictPropertyInitialization' | 'alwaysStrict' | 'strictBindCallApply'; export declare function isStrictCompilerOptionEnabled(options: ts.CompilerOptions, option: StrictCompilerOption): boolean; export declare type BooleanCompilerOptions = { [K in keyof ts.CompilerOptions]: NonNullable<ts.CompilerOptions[K]> extends boolean ? K : never; } extends { [_ in keyof ts.CompilerOptions]: infer U; } ? U : never; /** * Checks if a given compiler option is enabled. * It handles dependencies of options, e.g. `declaration` is implicitly enabled by `composite` or `strictNullChecks` is enabled by `strict`. * However, it does not check dependencies that are already checked and reported as errors, e.g. `checkJs` without `allowJs`. * This function only handles boolean flags. */ export declare function isCompilerOptionEnabled(options: ts.CompilerOptions, option: BooleanCompilerOptions | 'stripInternal'): boolean; /** * Has nothing to do with `isAmbientModuleBlock`. * * @returns `true` if it's a global augmentation or has a string name. */ export declare function isAmbientModule(node: ts.ModuleDeclaration): boolean; /** * @deprecated use `getTsCheckDirective` instead since `// @ts-nocheck` is no longer restricted to JS files. * @returns the last `// @ts-check` or `// @ts-nocheck` directive in the given file. */ export declare function getCheckJsDirective(source: string): ts.CheckJsDirective | undefined; /** @returns the last `// @ts-check` or `// @ts-nocheck` directive in the given file. */ export declare function getTsCheckDirective(source: string): ts.CheckJsDirective | undefined; export declare function isConstAssertion(node: ts.AssertionExpression): boolean; /** Detects whether an expression is affected by an enclosing 'as const' assertion and therefore treated literally. */ export declare function isInConstContext(node: ts.Expression): boolean; /** Returns true for `Object.defineProperty(o, 'prop', {value, writable: false})` and `Object.defineProperty(o, 'prop', {get: () => 1})`*/ export declare function isReadonlyAssignmentDeclaration(node: ts.CallExpression, checker: ts.TypeChecker): boolean; /** Determines whether a call to `Object.defineProperty` is statically analyzable. */ export declare function isBindableObjectDefinePropertyCall(node: ts.CallExpression): boolean; export interface WellKnownSymbolLiteral extends ts.PropertyAccessExpression { expression: ts.Identifier & { text: 'Symbol'; escapedText: 'symbol'; }; } export declare function isWellKnownSymbolLiterally(node: ts.Expression): node is WellKnownSymbolLiteral; export interface PropertyName { displayName: string; symbolName: ts.__String; } /** @deprecated typescript 4.3 removed the concept of literal well known symbols. Use `getPropertyNameFromType` instead. */ export declare function getPropertyNameOfWellKnownSymbol(node: WellKnownSymbolLiteral): PropertyName; export interface LateBoundPropertyNames { /** Whether all constituents are literal names. */ known: boolean; names: PropertyName[]; } export declare function getLateBoundPropertyNames(node: ts.Expression, checker: ts.TypeChecker): LateBoundPropertyNames; export declare function getLateBoundPropertyNamesOfPropertyName(node: ts.PropertyName, checker: ts.TypeChecker): LateBoundPropertyNames; /** Most declarations demand there to be only one statically known name, e.g. class members with computed name. */ export declare function getSingleLateBoundPropertyNameOfPropertyName(node: ts.PropertyName, checker: ts.TypeChecker): PropertyName | undefined; export declare function unwrapParentheses(node: ts.Expression): ts.Expression; export declare function formatPseudoBigInt(v: ts.PseudoBigInt): `${string}n` | `-${string}n`; /** * Determines whether the given `SwitchStatement`'s `case` clauses cover every possible value of the switched expression. * The logic is the same as TypeScript's control flow analysis. * This does **not** check whether all `case` clauses do a certain action like assign a variable or return a value. * This function ignores the `default` clause if present. */ export declare function hasExhaustiveCaseClauses(node: ts.SwitchStatement, checker: ts.TypeChecker): boolean; export declare function getBaseOfClassLikeExpression(node: ts.ClassLikeDeclaration): ts.ExpressionWithTypeArguments | undefined;