/*! ***************************************************************************** Copyright (c) Microsoft Corporation. All rights reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABLITY OR NON-INFRINGEMENT. See the Apache Version 2.0 License for specific language governing permissions and limitations under the License. ***************************************************************************** */ declare module ts { interface Map { [index: string]: T; } interface TextRange { pos: number; end: number; } const enum SyntaxKind { Unknown = 0, EndOfFileToken = 1, SingleLineCommentTrivia = 2, MultiLineCommentTrivia = 3, NewLineTrivia = 4, WhitespaceTrivia = 5, ConflictMarkerTrivia = 6, NumericLiteral = 7, StringLiteral = 8, RegularExpressionLiteral = 9, NoSubstitutionTemplateLiteral = 10, TemplateHead = 11, TemplateMiddle = 12, TemplateTail = 13, OpenBraceToken = 14, CloseBraceToken = 15, OpenParenToken = 16, CloseParenToken = 17, OpenBracketToken = 18, CloseBracketToken = 19, DotToken = 20, DotDotDotToken = 21, SemicolonToken = 22, CommaToken = 23, LessThanToken = 24, GreaterThanToken = 25, LessThanEqualsToken = 26, GreaterThanEqualsToken = 27, EqualsEqualsToken = 28, ExclamationEqualsToken = 29, EqualsEqualsEqualsToken = 30, ExclamationEqualsEqualsToken = 31, EqualsGreaterThanToken = 32, PlusToken = 33, MinusToken = 34, AsteriskToken = 35, SlashToken = 36, PercentToken = 37, PlusPlusToken = 38, MinusMinusToken = 39, LessThanLessThanToken = 40, GreaterThanGreaterThanToken = 41, GreaterThanGreaterThanGreaterThanToken = 42, AmpersandToken = 43, BarToken = 44, CaretToken = 45, ExclamationToken = 46, TildeToken = 47, AmpersandAmpersandToken = 48, BarBarToken = 49, QuestionToken = 50, ColonToken = 51, AtToken = 52, EqualsToken = 53, PlusEqualsToken = 54, MinusEqualsToken = 55, AsteriskEqualsToken = 56, SlashEqualsToken = 57, PercentEqualsToken = 58, LessThanLessThanEqualsToken = 59, GreaterThanGreaterThanEqualsToken = 60, GreaterThanGreaterThanGreaterThanEqualsToken = 61, AmpersandEqualsToken = 62, BarEqualsToken = 63, CaretEqualsToken = 64, Identifier = 65, BreakKeyword = 66, CaseKeyword = 67, CatchKeyword = 68, ClassKeyword = 69, ConstKeyword = 70, ContinueKeyword = 71, DebuggerKeyword = 72, DefaultKeyword = 73, DeleteKeyword = 74, DoKeyword = 75, ElseKeyword = 76, EnumKeyword = 77, ExportKeyword = 78, ExtendsKeyword = 79, FalseKeyword = 80, FinallyKeyword = 81, ForKeyword = 82, FunctionKeyword = 83, IfKeyword = 84, ImportKeyword = 85, InKeyword = 86, InstanceOfKeyword = 87, NewKeyword = 88, NullKeyword = 89, ReturnKeyword = 90, SuperKeyword = 91, SwitchKeyword = 92, ThisKeyword = 93, ThrowKeyword = 94, TrueKeyword = 95, TryKeyword = 96, TypeOfKeyword = 97, VarKeyword = 98, VoidKeyword = 99, WhileKeyword = 100, WithKeyword = 101, ImplementsKeyword = 102, InterfaceKeyword = 103, LetKeyword = 104, PackageKeyword = 105, PrivateKeyword = 106, ProtectedKeyword = 107, PublicKeyword = 108, StaticKeyword = 109, YieldKeyword = 110, AsKeyword = 111, AnyKeyword = 112, BooleanKeyword = 113, ConstructorKeyword = 114, DeclareKeyword = 115, GetKeyword = 116, ModuleKeyword = 117, RequireKeyword = 118, NumberKeyword = 119, SetKeyword = 120, StringKeyword = 121, SymbolKeyword = 122, TypeKeyword = 123, FromKeyword = 124, OfKeyword = 125, QualifiedName = 126, ComputedPropertyName = 127, TypeParameter = 128, Parameter = 129, Decorator = 130, PropertySignature = 131, PropertyDeclaration = 132, MethodSignature = 133, MethodDeclaration = 134, Constructor = 135, GetAccessor = 136, SetAccessor = 137, CallSignature = 138, ConstructSignature = 139, IndexSignature = 140, TypeReference = 141, FunctionType = 142, ConstructorType = 143, TypeQuery = 144, TypeLiteral = 145, ArrayType = 146, TupleType = 147, UnionType = 148, ParenthesizedType = 149, ObjectBindingPattern = 150, ArrayBindingPattern = 151, BindingElement = 152, ArrayLiteralExpression = 153, ObjectLiteralExpression = 154, PropertyAccessExpression = 155, ElementAccessExpression = 156, CallExpression = 157, NewExpression = 158, TaggedTemplateExpression = 159, TypeAssertionExpression = 160, ParenthesizedExpression = 161, FunctionExpression = 162, ArrowFunction = 163, DeleteExpression = 164, TypeOfExpression = 165, VoidExpression = 166, PrefixUnaryExpression = 167, PostfixUnaryExpression = 168, BinaryExpression = 169, ConditionalExpression = 170, TemplateExpression = 171, YieldExpression = 172, SpreadElementExpression = 173, ClassExpression = 174, OmittedExpression = 175, TemplateSpan = 176, HeritageClauseElement = 177, SemicolonClassElement = 178, Block = 179, VariableStatement = 180, EmptyStatement = 181, ExpressionStatement = 182, IfStatement = 183, DoStatement = 184, WhileStatement = 185, ForStatement = 186, ForInStatement = 187, ForOfStatement = 188, ContinueStatement = 189, BreakStatement = 190, ReturnStatement = 191, WithStatement = 192, SwitchStatement = 193, LabeledStatement = 194, ThrowStatement = 195, TryStatement = 196, DebuggerStatement = 197, VariableDeclaration = 198, VariableDeclarationList = 199, FunctionDeclaration = 200, ClassDeclaration = 201, InterfaceDeclaration = 202, TypeAliasDeclaration = 203, EnumDeclaration = 204, ModuleDeclaration = 205, ModuleBlock = 206, CaseBlock = 207, ImportEqualsDeclaration = 208, ImportDeclaration = 209, ImportClause = 210, NamespaceImport = 211, NamedImports = 212, ImportSpecifier = 213, ExportAssignment = 214, ExportDeclaration = 215, NamedExports = 216, ExportSpecifier = 217, MissingDeclaration = 218, ExternalModuleReference = 219, CaseClause = 220, DefaultClause = 221, HeritageClause = 222, CatchClause = 223, PropertyAssignment = 224, ShorthandPropertyAssignment = 225, EnumMember = 226, SourceFile = 227, SyntaxList = 228, Count = 229, FirstAssignment = 53, LastAssignment = 64, FirstReservedWord = 66, LastReservedWord = 101, FirstKeyword = 66, LastKeyword = 125, FirstFutureReservedWord = 102, LastFutureReservedWord = 110, FirstTypeNode = 141, LastTypeNode = 149, FirstPunctuation = 14, LastPunctuation = 64, FirstToken = 0, LastToken = 125, FirstTriviaToken = 2, LastTriviaToken = 6, FirstLiteralToken = 7, LastLiteralToken = 10, FirstTemplateToken = 10, LastTemplateToken = 13, FirstBinaryOperator = 24, LastBinaryOperator = 64, FirstNode = 126, } const enum NodeFlags { Export = 1, Ambient = 2, Public = 16, Private = 32, Protected = 64, Static = 128, Default = 256, MultiLine = 512, Synthetic = 1024, DeclarationFile = 2048, Let = 4096, Const = 8192, OctalLiteral = 16384, ExportContext = 32768, Modifier = 499, AccessibilityModifier = 112, BlockScoped = 12288, } interface Node extends TextRange { kind: SyntaxKind; flags: NodeFlags; decorators?: NodeArray; modifiers?: ModifiersArray; parent?: Node; } interface NodeArray extends Array, TextRange { hasTrailingComma?: boolean; } interface ModifiersArray extends NodeArray { flags: number; } interface Identifier extends PrimaryExpression { text: string; originalKeywordKind?: SyntaxKind; } interface QualifiedName extends Node { left: EntityName; right: Identifier; } type EntityName = Identifier | QualifiedName; type DeclarationName = Identifier | LiteralExpression | ComputedPropertyName | BindingPattern; interface Declaration extends Node { _declarationBrand: any; name?: DeclarationName; } interface ComputedPropertyName extends Node { expression: Expression; } interface Decorator extends Node { expression: LeftHandSideExpression; } interface TypeParameterDeclaration extends Declaration { name: Identifier; constraint?: TypeNode; expression?: Expression; } interface SignatureDeclaration extends Declaration { typeParameters?: NodeArray; parameters: NodeArray; type?: TypeNode; } interface VariableDeclaration extends Declaration { parent?: VariableDeclarationList; name: Identifier | BindingPattern; type?: TypeNode; initializer?: Expression; } interface VariableDeclarationList extends Node { declarations: NodeArray; } interface ParameterDeclaration extends Declaration { dotDotDotToken?: Node; name: Identifier | BindingPattern; questionToken?: Node; type?: TypeNode; initializer?: Expression; } interface BindingElement extends Declaration { propertyName?: Identifier; dotDotDotToken?: Node; name: Identifier | BindingPattern; initializer?: Expression; } interface PropertyDeclaration extends Declaration, ClassElement { name: DeclarationName; questionToken?: Node; type?: TypeNode; initializer?: Expression; } interface ObjectLiteralElement extends Declaration { _objectLiteralBrandBrand: any; } interface PropertyAssignment extends ObjectLiteralElement { _propertyAssignmentBrand: any; name: DeclarationName; questionToken?: Node; initializer: Expression; } interface ShorthandPropertyAssignment extends ObjectLiteralElement { name: Identifier; questionToken?: Node; } interface VariableLikeDeclaration extends Declaration { propertyName?: Identifier; dotDotDotToken?: Node; name: DeclarationName; questionToken?: Node; type?: TypeNode; initializer?: Expression; } interface BindingPattern extends Node { elements: NodeArray; } /** * Several node kinds share function-like features such as a signature, * a name, and a body. These nodes should extend FunctionLikeDeclaration. * Examples: * FunctionDeclaration * MethodDeclaration * AccessorDeclaration */ interface FunctionLikeDeclaration extends SignatureDeclaration { _functionLikeDeclarationBrand: any; asteriskToken?: Node; questionToken?: Node; body?: Block | Expression; } interface FunctionDeclaration extends FunctionLikeDeclaration, Statement { name?: Identifier; body?: Block; } interface MethodDeclaration extends FunctionLikeDeclaration, ClassElement, ObjectLiteralElement { body?: Block; } interface ConstructorDeclaration extends FunctionLikeDeclaration, ClassElement { body?: Block; } interface SemicolonClassElement extends ClassElement { _semicolonClassElementBrand: any; } interface AccessorDeclaration extends FunctionLikeDeclaration, ClassElement, ObjectLiteralElement { _accessorDeclarationBrand: any; body: Block; } interface IndexSignatureDeclaration extends SignatureDeclaration, ClassElement { _indexSignatureDeclarationBrand: any; } interface TypeNode extends Node { _typeNodeBrand: any; } interface FunctionOrConstructorTypeNode extends TypeNode, SignatureDeclaration { _functionOrConstructorTypeNodeBrand: any; } interface TypeReferenceNode extends TypeNode { typeName: EntityName; typeArguments?: NodeArray; } interface TypeQueryNode extends TypeNode { exprName: EntityName; } interface TypeLiteralNode extends TypeNode, Declaration { members: NodeArray; } interface ArrayTypeNode extends TypeNode { elementType: TypeNode; } interface TupleTypeNode extends TypeNode { elementTypes: NodeArray; } interface UnionTypeNode extends TypeNode { types: NodeArray; } interface ParenthesizedTypeNode extends TypeNode { type: TypeNode; } interface StringLiteral extends LiteralExpression, TypeNode { _stringLiteralBrand: any; } interface Expression extends Node { _expressionBrand: any; contextualType?: Type; } interface UnaryExpression extends Expression { _unaryExpressionBrand: any; } interface PrefixUnaryExpression extends UnaryExpression { operator: SyntaxKind; operand: UnaryExpression; } interface PostfixUnaryExpression extends PostfixExpression { operand: LeftHandSideExpression; operator: SyntaxKind; } interface PostfixExpression extends UnaryExpression { _postfixExpressionBrand: any; } interface LeftHandSideExpression extends PostfixExpression { _leftHandSideExpressionBrand: any; } interface MemberExpression extends LeftHandSideExpression { _memberExpressionBrand: any; } interface PrimaryExpression extends MemberExpression { _primaryExpressionBrand: any; } interface DeleteExpression extends UnaryExpression { expression: UnaryExpression; } interface TypeOfExpression extends UnaryExpression { expression: UnaryExpression; } interface VoidExpression extends UnaryExpression { expression: UnaryExpression; } interface YieldExpression extends Expression { asteriskToken?: Node; expression: Expression; } interface BinaryExpression extends Expression { left: Expression; operatorToken: Node; right: Expression; } interface ConditionalExpression extends Expression { condition: Expression; questionToken: Node; whenTrue: Expression; colonToken: Node; whenFalse: Expression; } interface FunctionExpression extends PrimaryExpression, FunctionLikeDeclaration { name?: Identifier; body: Block | Expression; } interface ArrowFunction extends Expression, FunctionLikeDeclaration { equalsGreaterThanToken: Node; } interface LiteralExpression extends PrimaryExpression { text: string; isUnterminated?: boolean; hasExtendedUnicodeEscape?: boolean; } interface TemplateExpression extends PrimaryExpression { head: LiteralExpression; templateSpans: NodeArray; } interface TemplateSpan extends Node { expression: Expression; literal: LiteralExpression; } interface ParenthesizedExpression extends PrimaryExpression { expression: Expression; } interface ArrayLiteralExpression extends PrimaryExpression { elements: NodeArray; } interface SpreadElementExpression extends Expression { expression: Expression; } interface ObjectLiteralExpression extends PrimaryExpression, Declaration { properties: NodeArray; } interface PropertyAccessExpression extends MemberExpression { expression: LeftHandSideExpression; dotToken: Node; name: Identifier; } interface ElementAccessExpression extends MemberExpression { expression: LeftHandSideExpression; argumentExpression?: Expression; } interface CallExpression extends LeftHandSideExpression { expression: LeftHandSideExpression; typeArguments?: NodeArray; arguments: NodeArray; } interface HeritageClauseElement extends TypeNode { expression: LeftHandSideExpression; typeArguments?: NodeArray; } interface NewExpression extends CallExpression, PrimaryExpression { } interface TaggedTemplateExpression extends MemberExpression { tag: LeftHandSideExpression; template: LiteralExpression | TemplateExpression; } type CallLikeExpression = CallExpression | NewExpression | TaggedTemplateExpression; interface TypeAssertion extends UnaryExpression { type: TypeNode; expression: UnaryExpression; } interface Statement extends Node, ModuleElement { _statementBrand: any; } interface Block extends Statement { statements: NodeArray; } interface VariableStatement extends Statement { declarationList: VariableDeclarationList; } interface ExpressionStatement extends Statement { expression: Expression; } interface IfStatement extends Statement { expression: Expression; thenStatement: Statement; elseStatement?: Statement; } interface IterationStatement extends Statement { statement: Statement; } interface DoStatement extends IterationStatement { expression: Expression; } interface WhileStatement extends IterationStatement { expression: Expression; } interface ForStatement extends IterationStatement { initializer?: VariableDeclarationList | Expression; condition?: Expression; iterator?: Expression; } interface ForInStatement extends IterationStatement { initializer: VariableDeclarationList | Expression; expression: Expression; } interface ForOfStatement extends IterationStatement { initializer: VariableDeclarationList | Expression; expression: Expression; } interface BreakOrContinueStatement extends Statement { label?: Identifier; } interface ReturnStatement extends Statement { expression?: Expression; } interface WithStatement extends Statement { expression: Expression; statement: Statement; } interface SwitchStatement extends Statement { expression: Expression; caseBlock: CaseBlock; } interface CaseBlock extends Node { clauses: NodeArray; } interface CaseClause extends Node { expression?: Expression; statements: NodeArray; } interface DefaultClause extends Node { statements: NodeArray; } type CaseOrDefaultClause = CaseClause | DefaultClause; interface LabeledStatement extends Statement { label: Identifier; statement: Statement; } interface ThrowStatement extends Statement { expression: Expression; } interface TryStatement extends Statement { tryBlock: Block; catchClause?: CatchClause; finallyBlock?: Block; } interface CatchClause extends Node { variableDeclaration: VariableDeclaration; block: Block; } interface ModuleElement extends Node { _moduleElementBrand: any; } interface ClassLikeDeclaration extends Declaration { name?: Identifier; typeParameters?: NodeArray; heritageClauses?: NodeArray; members: NodeArray; } interface ClassDeclaration extends ClassLikeDeclaration, Statement { } interface ClassExpression extends ClassLikeDeclaration, PrimaryExpression { } interface ClassElement extends Declaration { _classElementBrand: any; } interface InterfaceDeclaration extends Declaration, ModuleElement { name: Identifier; typeParameters?: NodeArray; heritageClauses?: NodeArray; members: NodeArray; } interface HeritageClause extends Node { token: SyntaxKind; types?: NodeArray; } interface TypeAliasDeclaration extends Declaration, ModuleElement { name: Identifier; type: TypeNode; } interface EnumMember extends Declaration { name: DeclarationName; initializer?: Expression; } interface EnumDeclaration extends Declaration, ModuleElement { name: Identifier; members: NodeArray; } interface ModuleDeclaration extends Declaration, ModuleElement { name: Identifier | LiteralExpression; body: ModuleBlock | ModuleDeclaration; } interface ModuleBlock extends Node, ModuleElement { statements: NodeArray; } interface ImportEqualsDeclaration extends Declaration, ModuleElement { name: Identifier; moduleReference: EntityName | ExternalModuleReference; } interface ExternalModuleReference extends Node { expression?: Expression; } interface ImportDeclaration extends ModuleElement { importClause?: ImportClause; moduleSpecifier: Expression; } interface ImportClause extends Declaration { name?: Identifier; namedBindings?: NamespaceImport | NamedImports; } interface NamespaceImport extends Declaration { name: Identifier; } interface ExportDeclaration extends Declaration, ModuleElement { exportClause?: NamedExports; moduleSpecifier?: Expression; } interface NamedImportsOrExports extends Node { elements: NodeArray; } type NamedImports = NamedImportsOrExports; type NamedExports = NamedImportsOrExports; interface ImportOrExportSpecifier extends Declaration { propertyName?: Identifier; name: Identifier; } type ImportSpecifier = ImportOrExportSpecifier; type ExportSpecifier = ImportOrExportSpecifier; interface ExportAssignment extends Declaration, ModuleElement { isExportEquals?: boolean; expression: Expression; } interface FileReference extends TextRange { fileName: string; } interface CommentRange extends TextRange { hasTrailingNewLine?: boolean; kind: SyntaxKind; } interface SourceFile extends Declaration { statements: NodeArray; endOfFileToken: Node; fileName: string; text: string; amdDependencies: { path: string; name: string; }[]; amdModuleName: string; referencedFiles: FileReference[]; hasNoDefaultLib: boolean; languageVersion: ScriptTarget; } interface ScriptReferenceHost { getCompilerOptions(): CompilerOptions; getSourceFile(fileName: string): SourceFile; getCurrentDirectory(): string; } interface WriteFileCallback { (fileName: string, data: string, writeByteOrderMark: boolean, onError?: (message: string) => void): void; } interface Program extends ScriptReferenceHost { /** * Get a list of files in the program */ getSourceFiles(): SourceFile[]; /** * Emits the JavaScript and declaration files. If targetSourceFile is not specified, then * the JavaScript and declaration files will be produced for all the files in this program. * If targetSourceFile is specified, then only the JavaScript and declaration for that * specific file will be generated. * * If writeFile is not specified then the writeFile callback from the compiler host will be * used for writing the JavaScript and declaration files. Otherwise, the writeFile parameter * will be invoked when writing the JavaScript and declaration files. */ emit(targetSourceFile?: SourceFile, writeFile?: WriteFileCallback): EmitResult; getSyntacticDiagnostics(sourceFile?: SourceFile): Diagnostic[]; getGlobalDiagnostics(): Diagnostic[]; getSemanticDiagnostics(sourceFile?: SourceFile): Diagnostic[]; getDeclarationDiagnostics(sourceFile?: SourceFile): Diagnostic[]; /** * Gets a type checker that can be used to semantically analyze source fils in the program. */ getTypeChecker(): TypeChecker; } interface SourceMapSpan { /** Line number in the .js file. */ emittedLine: number; /** Column number in the .js file. */ emittedColumn: number; /** Line number in the .ts file. */ sourceLine: number; /** Column number in the .ts file. */ sourceColumn: number; /** Optional name (index into names array) associated with this span. */ nameIndex?: number; /** .ts file (index into sources array) associated with this span */ sourceIndex: number; } interface SourceMapData { sourceMapFilePath: string; jsSourceMappingURL: string; sourceMapFile: string; sourceMapSourceRoot: string; sourceMapSources: string[]; inputSourceFileNames: string[]; sourceMapNames?: string[]; sourceMapMappings: string; sourceMapDecodedMappings: SourceMapSpan[]; } /** Return code used by getEmitOutput function to indicate status of the function */ enum ExitStatus { Success = 0, DiagnosticsPresent_OutputsSkipped = 1, DiagnosticsPresent_OutputsGenerated = 2, } interface EmitResult { emitSkipped: boolean; diagnostics: Diagnostic[]; } interface TypeCheckerHost { getCompilerOptions(): CompilerOptions; getSourceFiles(): SourceFile[]; getSourceFile(fileName: string): SourceFile; } interface TypeChecker { getTypeOfSymbolAtLocation(symbol: Symbol, node: Node): Type; getDeclaredTypeOfSymbol(symbol: Symbol): Type; getPropertiesOfType(type: Type): Symbol[]; getPropertyOfType(type: Type, propertyName: string): Symbol; getSignaturesOfType(type: Type, kind: SignatureKind): Signature[]; getIndexTypeOfType(type: Type, kind: IndexKind): Type; getReturnTypeOfSignature(signature: Signature): Type; getSymbolsInScope(location: Node, meaning: SymbolFlags): Symbol[]; getSymbolAtLocation(node: Node): Symbol; getShorthandAssignmentValueSymbol(location: Node): Symbol; getTypeAtLocation(node: Node): Type; typeToString(type: Type, enclosingDeclaration?: Node, flags?: TypeFormatFlags): string; symbolToString(symbol: Symbol, enclosingDeclaration?: Node, meaning?: SymbolFlags): string; getSymbolDisplayBuilder(): SymbolDisplayBuilder; getFullyQualifiedName(symbol: Symbol): string; getAugmentedPropertiesOfType(type: Type): Symbol[]; getRootSymbols(symbol: Symbol): Symbol[]; getContextualType(node: Expression): Type; getResolvedSignature(node: CallLikeExpression, candidatesOutArray?: Signature[]): Signature; getSignatureFromDeclaration(declaration: SignatureDeclaration): Signature; isImplementationOfOverload(node: FunctionLikeDeclaration): boolean; isUndefinedSymbol(symbol: Symbol): boolean; isArgumentsSymbol(symbol: Symbol): boolean; getConstantValue(node: EnumMember | PropertyAccessExpression | ElementAccessExpression): number; isValidPropertyAccess(node: PropertyAccessExpression | QualifiedName, propertyName: string): boolean; getAliasedSymbol(symbol: Symbol): Symbol; getExportsOfModule(moduleSymbol: Symbol): Symbol[]; } interface SymbolDisplayBuilder { buildTypeDisplay(type: Type, writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildSymbolDisplay(symbol: Symbol, writer: SymbolWriter, enclosingDeclaration?: Node, meaning?: SymbolFlags, flags?: SymbolFormatFlags): void; buildSignatureDisplay(signatures: Signature, writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildParameterDisplay(parameter: Symbol, writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildTypeParameterDisplay(tp: TypeParameter, writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildTypeParameterDisplayFromSymbol(symbol: Symbol, writer: SymbolWriter, enclosingDeclaraiton?: Node, flags?: TypeFormatFlags): void; buildDisplayForParametersAndDelimiters(parameters: Symbol[], writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildDisplayForTypeParametersAndDelimiters(typeParameters: TypeParameter[], writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; buildReturnTypeDisplay(signature: Signature, writer: SymbolWriter, enclosingDeclaration?: Node, flags?: TypeFormatFlags): void; } interface SymbolWriter { writeKeyword(text: string): void; writeOperator(text: string): void; writePunctuation(text: string): void; writeSpace(text: string): void; writeStringLiteral(text: string): void; writeParameter(text: string): void; writeSymbol(text: string, symbol: Symbol): void; writeLine(): void; increaseIndent(): void; decreaseIndent(): void; clear(): void; trackSymbol(symbol: Symbol, enclosingDeclaration?: Node, meaning?: SymbolFlags): void; } const enum TypeFormatFlags { None = 0, WriteArrayAsGenericType = 1, UseTypeOfFunction = 2, NoTruncation = 4, WriteArrowStyleSignature = 8, WriteOwnNameForAnyLike = 16, WriteTypeArgumentsOfSignature = 32, InElementType = 64, UseFullyQualifiedType = 128, } const enum SymbolFormatFlags { None = 0, WriteTypeParametersOrArguments = 1, UseOnlyExternalAliasing = 2, } const enum SymbolFlags { FunctionScopedVariable = 1, BlockScopedVariable = 2, Property = 4, EnumMember = 8, Function = 16, Class = 32, Interface = 64, ConstEnum = 128, RegularEnum = 256, ValueModule = 512, NamespaceModule = 1024, TypeLiteral = 2048, ObjectLiteral = 4096, Method = 8192, Constructor = 16384, GetAccessor = 32768, SetAccessor = 65536, Signature = 131072, TypeParameter = 262144, TypeAlias = 524288, ExportValue = 1048576, ExportType = 2097152, ExportNamespace = 4194304, Alias = 8388608, Instantiated = 16777216, Merged = 33554432, Transient = 67108864, Prototype = 134217728, UnionProperty = 268435456, Optional = 536870912, ExportStar = 1073741824, Enum = 384, Variable = 3, Value = 107455, Type = 793056, Namespace = 1536, Module = 1536, Accessor = 98304, FunctionScopedVariableExcludes = 107454, BlockScopedVariableExcludes = 107455, ParameterExcludes = 107455, PropertyExcludes = 107455, EnumMemberExcludes = 107455, FunctionExcludes = 106927, ClassExcludes = 899583, InterfaceExcludes = 792992, RegularEnumExcludes = 899327, ConstEnumExcludes = 899967, ValueModuleExcludes = 106639, NamespaceModuleExcludes = 0, MethodExcludes = 99263, GetAccessorExcludes = 41919, SetAccessorExcludes = 74687, TypeParameterExcludes = 530912, TypeAliasExcludes = 793056, AliasExcludes = 8388608, ModuleMember = 8914931, ExportHasLocal = 944, HasLocals = 255504, HasExports = 1952, HasMembers = 6240, IsContainer = 262128, PropertyOrAccessor = 98308, Export = 7340032, } interface Symbol { flags: SymbolFlags; name: string; declarations?: Declaration[]; members?: SymbolTable; exports?: SymbolTable; valueDeclaration?: Declaration; } interface SymbolTable { [index: string]: Symbol; } const enum TypeFlags { Any = 1, String = 2, Number = 4, Boolean = 8, Void = 16, Undefined = 32, Null = 64, Enum = 128, StringLiteral = 256, TypeParameter = 512, Class = 1024, Interface = 2048, Reference = 4096, Tuple = 8192, Union = 16384, Anonymous = 32768, ObjectLiteral = 131072, ESSymbol = 1048576, StringLike = 258, NumberLike = 132, ObjectType = 48128, } interface Type { flags: TypeFlags; symbol?: Symbol; } interface StringLiteralType extends Type { text: string; } interface ObjectType extends Type { } interface InterfaceType extends ObjectType { typeParameters: TypeParameter[]; declaredProperties: Symbol[]; declaredCallSignatures: Signature[]; declaredConstructSignatures: Signature[]; declaredStringIndexType: Type; declaredNumberIndexType: Type; } interface InterfaceTypeWithBaseTypes extends InterfaceType { baseTypes: ObjectType[]; } interface TypeReference extends ObjectType { target: GenericType; typeArguments: Type[]; } interface GenericType extends InterfaceType, TypeReference { } interface TupleType extends ObjectType { elementTypes: Type[]; baseArrayType: TypeReference; } interface UnionType extends Type { types: Type[]; } interface TypeParameter extends Type { constraint: Type; } const enum SignatureKind { Call = 0, Construct = 1, } interface Signature { declaration: SignatureDeclaration; typeParameters: TypeParameter[]; parameters: Symbol[]; } const enum IndexKind { String = 0, Number = 1, } interface DiagnosticMessage { key: string; category: DiagnosticCategory; code: number; } /** * A linked list of formatted diagnostic messages to be used as part of a multiline message. * It is built from the bottom up, leaving the head to be the "main" diagnostic. * While it seems that DiagnosticMessageChain is structurally similar to DiagnosticMessage, * the difference is that messages are all preformatted in DMC. */ interface DiagnosticMessageChain { messageText: string; category: DiagnosticCategory; code: number; next?: DiagnosticMessageChain; } interface Diagnostic { file: SourceFile; start: number; length: number; messageText: string | DiagnosticMessageChain; category: DiagnosticCategory; code: number; } enum DiagnosticCategory { Warning = 0, Error = 1, Message = 2, } interface CompilerOptions { allowNonTsExtensions?: boolean; charset?: string; declaration?: boolean; diagnostics?: boolean; emitBOM?: boolean; help?: boolean; listFiles?: boolean; locale?: string; mapRoot?: string; module?: ModuleKind; noEmit?: boolean; noEmitOnError?: boolean; noErrorTruncation?: boolean; noImplicitAny?: boolean; noLib?: boolean; noResolve?: boolean; out?: string; outDir?: string; preserveConstEnums?: boolean; project?: string; removeComments?: boolean; rootDir?: string; sourceMap?: boolean; sourceRoot?: string; suppressImplicitAnyIndexErrors?: boolean; target?: ScriptTarget; version?: boolean; watch?: boolean; separateCompilation?: boolean; emitDecoratorMetadata?: boolean; [option: string]: string | number | boolean; } const enum ModuleKind { None = 0, CommonJS = 1, AMD = 2, } interface LineAndCharacter { line: number; character: number; } const enum ScriptTarget { ES3 = 0, ES5 = 1, ES6 = 2, Latest = 2, } interface ParsedCommandLine { options: CompilerOptions; fileNames: string[]; errors: Diagnostic[]; } interface CancellationToken { isCancellationRequested(): boolean; } interface CompilerHost { getSourceFile(fileName: string, languageVersion: ScriptTarget, onError?: (message: string) => void): SourceFile; getDefaultLibFileName(options: CompilerOptions): string; getCancellationToken?(): CancellationToken; writeFile: WriteFileCallback; getCurrentDirectory(): string; getCanonicalFileName(fileName: string): string; useCaseSensitiveFileNames(): boolean; getNewLine(): string; } interface TextSpan { start: number; length: number; } interface TextChangeRange { span: TextSpan; newLength: number; } } declare module ts { interface System { args: string[]; newLine: string; useCaseSensitiveFileNames: boolean; write(s: string): void; readFile(path: string, encoding?: string): string; writeFile(path: string, data: string, writeByteOrderMark?: boolean): void; watchFile?(path: string, callback: (path: string) => void): FileWatcher; resolvePath(path: string): string; fileExists(path: string): boolean; directoryExists(path: string): boolean; createDirectory(path: string): void; getExecutingFilePath(): string; getCurrentDirectory(): string; readDirectory(path: string, extension?: string): string[]; getMemoryUsage?(): number; exit(exitCode?: number): void; } interface FileWatcher { close(): void; } var sys: System; } declare module ts { function tokenToString(t: SyntaxKind): string; function getPositionOfLineAndCharacter(sourceFile: SourceFile, line: number, character: number): number; function getLineAndCharacterOfPosition(sourceFile: SourceFile, position: number): LineAndCharacter; function isWhiteSpace(ch: number): boolean; function isLineBreak(ch: number): boolean; function getLeadingCommentRanges(text: string, pos: number): CommentRange[]; function getTrailingCommentRanges(text: string, pos: number): CommentRange[]; function isIdentifierStart(ch: number, languageVersion: ScriptTarget): boolean; function isIdentifierPart(ch: number, languageVersion: ScriptTarget): boolean; } declare module ts { function getDefaultLibFileName(options: CompilerOptions): string; function textSpanEnd(span: TextSpan): number; function textSpanIsEmpty(span: TextSpan): boolean; function textSpanContainsPosition(span: TextSpan, position: number): boolean; function textSpanContainsTextSpan(span: TextSpan, other: TextSpan): boolean; function textSpanOverlapsWith(span: TextSpan, other: TextSpan): boolean; function textSpanOverlap(span1: TextSpan, span2: TextSpan): TextSpan; function textSpanIntersectsWithTextSpan(span: TextSpan, other: TextSpan): boolean; function textSpanIntersectsWith(span: TextSpan, start: number, length: number): boolean; function textSpanIntersectsWithPosition(span: TextSpan, position: number): boolean; function textSpanIntersection(span1: TextSpan, span2: TextSpan): TextSpan; function createTextSpan(start: number, length: number): TextSpan; function createTextSpanFromBounds(start: number, end: number): TextSpan; function textChangeRangeNewSpan(range: TextChangeRange): TextSpan; function textChangeRangeIsUnchanged(range: TextChangeRange): boolean; function createTextChangeRange(span: TextSpan, newLength: number): TextChangeRange; let unchangedTextChangeRange: TextChangeRange; /** * Called to merge all the changes that occurred across several versions of a script snapshot * into a single change. i.e. if a user keeps making successive edits to a script we will * have a text change from V1 to V2, V2 to V3, ..., Vn. * * This function will then merge those changes into a single change range valid between V1 and * Vn. */ function collapseTextChangeRangesAcrossMultipleVersions(changes: TextChangeRange[]): TextChangeRange; } declare module ts { function getNodeConstructor(kind: SyntaxKind): new () => Node; function createNode(kind: SyntaxKind): Node; function forEachChild(node: Node, cbNode: (node: Node) => T, cbNodeArray?: (nodes: Node[]) => T): T; function createSourceFile(fileName: string, sourceText: string, languageVersion: ScriptTarget, setParentNodes?: boolean): SourceFile; function updateSourceFile(sourceFile: SourceFile, newText: string, textChangeRange: TextChangeRange, aggressiveChecks?: boolean): SourceFile; } declare module ts { /** The version of the TypeScript compiler release */ const version: string; function findConfigFile(searchPath: string): string; function createCompilerHost(options: CompilerOptions, setParentNodes?: boolean): CompilerHost; function getPreEmitDiagnostics(program: Program): Diagnostic[]; function flattenDiagnosticMessageText(messageText: string | DiagnosticMessageChain, newLine: string): string; function createProgram(rootNames: string[], options: CompilerOptions, host?: CompilerHost): Program; } declare module ts { function parseCommandLine(commandLine: string[]): ParsedCommandLine; /** * Read tsconfig.json file * @param fileName The path to the config file */ function readConfigFile(fileName: string): any; /** * Parse the contents of a config file (tsconfig.json). * @param json The contents of the config file to parse * @param basePath A root directory to resolve relative path entries in the config * file to. e.g. outDir */ function parseConfigFile(json: any, basePath?: string): ParsedCommandLine; } declare module ts { /** The version of the language service API */ let servicesVersion: string; interface Node { getSourceFile(): SourceFile; getChildCount(sourceFile?: SourceFile): number; getChildAt(index: number, sourceFile?: SourceFile): Node; getChildren(sourceFile?: SourceFile): Node[]; getStart(sourceFile?: SourceFile): number; getFullStart(): number; getEnd(): number; getWidth(sourceFile?: SourceFile): number; getFullWidth(): number; getLeadingTriviaWidth(sourceFile?: SourceFile): number; getFullText(sourceFile?: SourceFile): string; getText(sourceFile?: SourceFile): string; getFirstToken(sourceFile?: SourceFile): Node; getLastToken(sourceFile?: SourceFile): Node; } interface Symbol { getFlags(): SymbolFlags; getName(): string; getDeclarations(): Declaration[]; getDocumentationComment(): SymbolDisplayPart[]; } interface Type { getFlags(): TypeFlags; getSymbol(): Symbol; getProperties(): Symbol[]; getProperty(propertyName: string): Symbol; getApparentProperties(): Symbol[]; getCallSignatures(): Signature[]; getConstructSignatures(): Signature[]; getStringIndexType(): Type; getNumberIndexType(): Type; } interface Signature { getDeclaration(): SignatureDeclaration; getTypeParameters(): Type[]; getParameters(): Symbol[]; getReturnType(): Type; getDocumentationComment(): SymbolDisplayPart[]; } interface SourceFile { getLineAndCharacterOfPosition(pos: number): LineAndCharacter; getLineStarts(): number[]; getPositionOfLineAndCharacter(line: number, character: number): number; update(newText: string, textChangeRange: TextChangeRange): SourceFile; } /** * Represents an immutable snapshot of a script at a specified time.Once acquired, the * snapshot is observably immutable. i.e. the same calls with the same parameters will return * the same values. */ interface IScriptSnapshot { /** Gets a portion of the script snapshot specified by [start, end). */ getText(start: number, end: number): string; /** Gets the length of this script snapshot. */ getLength(): number; /** * Gets the TextChangeRange that describe how the text changed between this text and * an older version. This information is used by the incremental parser to determine * what sections of the script need to be re-parsed. 'undefined' can be returned if the * change range cannot be determined. However, in that case, incremental parsing will * not happen and the entire document will be re - parsed. */ getChangeRange(oldSnapshot: IScriptSnapshot): TextChangeRange; } module ScriptSnapshot { function fromString(text: string): IScriptSnapshot; } interface PreProcessedFileInfo { referencedFiles: FileReference[]; importedFiles: FileReference[]; isLibFile: boolean; } interface LanguageServiceHost { getCompilationSettings(): CompilerOptions; getNewLine?(): string; getScriptFileNames(): string[]; getScriptVersion(fileName: string): string; getScriptSnapshot(fileName: string): IScriptSnapshot; getLocalizedDiagnosticMessages?(): any; getCancellationToken?(): CancellationToken; getCurrentDirectory(): string; getDefaultLibFileName(options: CompilerOptions): string; log?(s: string): void; trace?(s: string): void; error?(s: string): void; } interface LanguageService { cleanupSemanticCache(): void; getSyntacticDiagnostics(fileName: string): Diagnostic[]; getSemanticDiagnostics(fileName: string): Diagnostic[]; getCompilerOptionsDiagnostics(): Diagnostic[]; getSyntacticClassifications(fileName: string, span: TextSpan): ClassifiedSpan[]; getSemanticClassifications(fileName: string, span: TextSpan): ClassifiedSpan[]; getCompletionsAtPosition(fileName: string, position: number): CompletionInfo; getCompletionEntryDetails(fileName: string, position: number, entryName: string): CompletionEntryDetails; getQuickInfoAtPosition(fileName: string, position: number): QuickInfo; getNameOrDottedNameSpan(fileName: string, startPos: number, endPos: number): TextSpan; getBreakpointStatementAtPosition(fileName: string, position: number): TextSpan; getSignatureHelpItems(fileName: string, position: number): SignatureHelpItems; getRenameInfo(fileName: string, position: number): RenameInfo; findRenameLocations(fileName: string, position: number, findInStrings: boolean, findInComments: boolean): RenameLocation[]; getDefinitionAtPosition(fileName: string, position: number): DefinitionInfo[]; getReferencesAtPosition(fileName: string, position: number): ReferenceEntry[]; findReferences(fileName: string, position: number): ReferencedSymbol[]; getDocumentHighlights(fileName: string, position: number, filesToSearch: string[]): DocumentHighlights[]; /** @deprecated */ getOccurrencesAtPosition(fileName: string, position: number): ReferenceEntry[]; getNavigateToItems(searchValue: string, maxResultCount?: number): NavigateToItem[]; getNavigationBarItems(fileName: string): NavigationBarItem[]; getOutliningSpans(fileName: string): OutliningSpan[]; getTodoComments(fileName: string, descriptors: TodoCommentDescriptor[]): TodoComment[]; getBraceMatchingAtPosition(fileName: string, position: number): TextSpan[]; getIndentationAtPosition(fileName: string, position: number, options: EditorOptions): number; getFormattingEditsForRange(fileName: string, start: number, end: number, options: FormatCodeOptions): TextChange[]; getFormattingEditsForDocument(fileName: string, options: FormatCodeOptions): TextChange[]; getFormattingEditsAfterKeystroke(fileName: string, position: number, key: string, options: FormatCodeOptions): TextChange[]; getEmitOutput(fileName: string): EmitOutput; getProgram(): Program; getSourceFile(fileName: string): SourceFile; dispose(): void; } interface ClassifiedSpan { textSpan: TextSpan; classificationType: string; } interface NavigationBarItem { text: string; kind: string; kindModifiers: string; spans: TextSpan[]; childItems: NavigationBarItem[]; indent: number; bolded: boolean; grayed: boolean; } interface TodoCommentDescriptor { text: string; priority: number; } interface TodoComment { descriptor: TodoCommentDescriptor; message: string; position: number; } class TextChange { span: TextSpan; newText: string; } interface RenameLocation { textSpan: TextSpan; fileName: string; } interface ReferenceEntry { textSpan: TextSpan; fileName: string; isWriteAccess: boolean; } interface DocumentHighlights { fileName: string; highlightSpans: HighlightSpan[]; } module HighlightSpanKind { const none: string; const definition: string; const reference: string; const writtenReference: string; } interface HighlightSpan { textSpan: TextSpan; kind: string; } interface NavigateToItem { name: string; kind: string; kindModifiers: string; matchKind: string; isCaseSensitive: boolean; fileName: string; textSpan: TextSpan; containerName: string; containerKind: string; } interface EditorOptions { IndentSize: number; TabSize: number; NewLineCharacter: string; ConvertTabsToSpaces: boolean; } interface FormatCodeOptions extends EditorOptions { InsertSpaceAfterCommaDelimiter: boolean; InsertSpaceAfterSemicolonInForStatements: boolean; InsertSpaceBeforeAndAfterBinaryOperators: boolean; InsertSpaceAfterKeywordsInControlFlowStatements: boolean; InsertSpaceAfterFunctionKeywordForAnonymousFunctions: boolean; InsertSpaceAfterOpeningAndBeforeClosingNonemptyParenthesis: boolean; PlaceOpenBraceOnNewLineForFunctions: boolean; PlaceOpenBraceOnNewLineForControlBlocks: boolean; [s: string]: boolean | number | string; } interface DefinitionInfo { fileName: string; textSpan: TextSpan; kind: string; name: string; containerKind: string; containerName: string; } interface ReferencedSymbol { definition: DefinitionInfo; references: ReferenceEntry[]; } enum SymbolDisplayPartKind { aliasName = 0, className = 1, enumName = 2, fieldName = 3, interfaceName = 4, keyword = 5, lineBreak = 6, numericLiteral = 7, stringLiteral = 8, localName = 9, methodName = 10, moduleName = 11, operator = 12, parameterName = 13, propertyName = 14, punctuation = 15, space = 16, text = 17, typeParameterName = 18, enumMemberName = 19, functionName = 20, regularExpressionLiteral = 21, } interface SymbolDisplayPart { text: string; kind: string; } interface QuickInfo { kind: string; kindModifiers: string; textSpan: TextSpan; displayParts: SymbolDisplayPart[]; documentation: SymbolDisplayPart[]; } interface RenameInfo { canRename: boolean; localizedErrorMessage: string; displayName: string; fullDisplayName: string; kind: string; kindModifiers: string; triggerSpan: TextSpan; } interface SignatureHelpParameter { name: string; documentation: SymbolDisplayPart[]; displayParts: SymbolDisplayPart[]; isOptional: boolean; } /** * Represents a single signature to show in signature help. * The id is used for subsequent calls into the language service to ask questions about the * signature help item in the context of any documents that have been updated. i.e. after * an edit has happened, while signature help is still active, the host can ask important * questions like 'what parameter is the user currently contained within?'. */ interface SignatureHelpItem { isVariadic: boolean; prefixDisplayParts: SymbolDisplayPart[]; suffixDisplayParts: SymbolDisplayPart[]; separatorDisplayParts: SymbolDisplayPart[]; parameters: SignatureHelpParameter[]; documentation: SymbolDisplayPart[]; } /** * Represents a set of signature help items, and the preferred item that should be selected. */ interface SignatureHelpItems { items: SignatureHelpItem[]; applicableSpan: TextSpan; selectedItemIndex: number; argumentIndex: number; argumentCount: number; } interface CompletionInfo { isMemberCompletion: boolean; isNewIdentifierLocation: boolean; entries: CompletionEntry[]; } interface CompletionEntry { name: string; kind: string; kindModifiers: string; sortText: string; } interface CompletionEntryDetails { name: string; kind: string; kindModifiers: string; displayParts: SymbolDisplayPart[]; documentation: SymbolDisplayPart[]; } interface OutliningSpan { /** The span of the document to actually collapse. */ textSpan: TextSpan; /** The span of the document to display when the user hovers over the collapsed span. */ hintSpan: TextSpan; /** The text to display in the editor for the collapsed region. */ bannerText: string; /** * Whether or not this region should be automatically collapsed when * the 'Collapse to Definitions' command is invoked. */ autoCollapse: boolean; } interface EmitOutput { outputFiles: OutputFile[]; emitSkipped: boolean; } const enum OutputFileType { JavaScript = 0, SourceMap = 1, Declaration = 2, } interface OutputFile { name: string; writeByteOrderMark: boolean; text: string; } const enum EndOfLineState { Start = 0, InMultiLineCommentTrivia = 1, InSingleQuoteStringLiteral = 2, InDoubleQuoteStringLiteral = 3, InTemplateHeadOrNoSubstitutionTemplate = 4, InTemplateMiddleOrTail = 5, InTemplateSubstitutionPosition = 6, } enum TokenClass { Punctuation = 0, Keyword = 1, Operator = 2, Comment = 3, Whitespace = 4, Identifier = 5, NumberLiteral = 6, StringLiteral = 7, RegExpLiteral = 8, } interface ClassificationResult { finalLexState: EndOfLineState; entries: ClassificationInfo[]; } interface ClassificationInfo { length: number; classification: TokenClass; } interface Classifier { /** * Gives lexical classifications of tokens on a line without any syntactic context. * For instance, a token consisting of the text 'string' can be either an identifier * named 'string' or the keyword 'string', however, because this classifier is not aware, * it relies on certain heuristics to give acceptable results. For classifications where * speed trumps accuracy, this function is preferable; however, for true accuracy, the * syntactic classifier is ideal. In fact, in certain editing scenarios, combining the * lexical, syntactic, and semantic classifiers may issue the best user experience. * * @param text The text of a line to classify. * @param lexState The state of the lexical classifier at the end of the previous line. * @param syntacticClassifierAbsent Whether the client is *not* using a syntactic classifier. * If there is no syntactic classifier (syntacticClassifierAbsent=true), * certain heuristics may be used in its place; however, if there is a * syntactic classifier (syntacticClassifierAbsent=false), certain * classifications which may be incorrectly categorized will be given * back as Identifiers in order to allow the syntactic classifier to * subsume the classification. */ getClassificationsForLine(text: string, lexState: EndOfLineState, syntacticClassifierAbsent: boolean): ClassificationResult; } /** * The document registry represents a store of SourceFile objects that can be shared between * multiple LanguageService instances. A LanguageService instance holds on the SourceFile (AST) * of files in the context. * SourceFile objects account for most of the memory usage by the language service. Sharing * the same DocumentRegistry instance between different instances of LanguageService allow * for more efficient memory utilization since all projects will share at least the library * file (lib.d.ts). * * A more advanced use of the document registry is to serialize sourceFile objects to disk * and re-hydrate them when needed. * * To create a default DocumentRegistry, use createDocumentRegistry to create one, and pass it * to all subsequent createLanguageService calls. */ interface DocumentRegistry { /** * Request a stored SourceFile with a given fileName and compilationSettings. * The first call to acquire will call createLanguageServiceSourceFile to generate * the SourceFile if was not found in the registry. * * @param fileName The name of the file requested * @param compilationSettings Some compilation settings like target affects the * shape of a the resulting SourceFile. This allows the DocumentRegistry to store * multiple copies of the same file for different compilation settings. * @parm scriptSnapshot Text of the file. Only used if the file was not found * in the registry and a new one was created. * @parm version Current version of the file. Only used if the file was not found * in the registry and a new one was created. */ acquireDocument(fileName: string, compilationSettings: CompilerOptions, scriptSnapshot: IScriptSnapshot, version: string): SourceFile; /** * Request an updated version of an already existing SourceFile with a given fileName * and compilationSettings. The update will in-turn call updateLanguageServiceSourceFile * to get an updated SourceFile. * * @param fileName The name of the file requested * @param compilationSettings Some compilation settings like target affects the * shape of a the resulting SourceFile. This allows the DocumentRegistry to store * multiple copies of the same file for different compilation settings. * @param scriptSnapshot Text of the file. * @param version Current version of the file. */ updateDocument(fileName: string, compilationSettings: CompilerOptions, scriptSnapshot: IScriptSnapshot, version: string): SourceFile; /** * Informs the DocumentRegistry that a file is not needed any longer. * * Note: It is not allowed to call release on a SourceFile that was not acquired from * this registry originally. * * @param fileName The name of the file to be released * @param compilationSettings The compilation settings used to acquire the file */ releaseDocument(fileName: string, compilationSettings: CompilerOptions): void; } module ScriptElementKind { const unknown: string; const warning: string; const keyword: string; const scriptElement: string; const moduleElement: string; const classElement: string; const interfaceElement: string; const typeElement: string; const enumElement: string; const variableElement: string; const localVariableElement: string; const functionElement: string; const localFunctionElement: string; const memberFunctionElement: string; const memberGetAccessorElement: string; const memberSetAccessorElement: string; const memberVariableElement: string; const constructorImplementationElement: string; const callSignatureElement: string; const indexSignatureElement: string; const constructSignatureElement: string; const parameterElement: string; const typeParameterElement: string; const primitiveType: string; const label: string; const alias: string; const constElement: string; const letElement: string; } module ScriptElementKindModifier { const none: string; const publicMemberModifier: string; const privateMemberModifier: string; const protectedMemberModifier: string; const exportedModifier: string; const ambientModifier: string; const staticModifier: string; } class ClassificationTypeNames { static comment: string; static identifier: string; static keyword: string; static numericLiteral: string; static operator: string; static stringLiteral: string; static whiteSpace: string; static text: string; static punctuation: string; static className: string; static enumName: string; static interfaceName: string; static moduleName: string; static typeParameterName: string; static typeAlias: string; } interface DisplayPartsSymbolWriter extends SymbolWriter { displayParts(): SymbolDisplayPart[]; } function displayPartsToString(displayParts: SymbolDisplayPart[]): string; function getDefaultCompilerOptions(): CompilerOptions; class OperationCanceledException { } class CancellationTokenObject { private cancellationToken; static None: CancellationTokenObject; constructor(cancellationToken: CancellationToken); isCancellationRequested(): boolean; throwIfCancellationRequested(): void; } function transpile(input: string, compilerOptions?: CompilerOptions, fileName?: string, diagnostics?: Diagnostic[]): string; function createLanguageServiceSourceFile(fileName: string, scriptSnapshot: IScriptSnapshot, scriptTarget: ScriptTarget, version: string, setNodeParents: boolean): SourceFile; let disableIncrementalParsing: boolean; function updateLanguageServiceSourceFile(sourceFile: SourceFile, scriptSnapshot: IScriptSnapshot, version: string, textChangeRange: TextChangeRange, aggressiveChecks?: boolean): SourceFile; function createDocumentRegistry(): DocumentRegistry; function preProcessFile(sourceText: string, readImportFiles?: boolean): PreProcessedFileInfo; function createLanguageService(host: LanguageServiceHost, documentRegistry?: DocumentRegistry): LanguageService; function createClassifier(): Classifier; /** * Get the path of the default library file (lib.d.ts) as distributed with the typescript * node package. * The functionality is not supported if the ts module is consumed outside of a node module. */ function getDefaultLibFilePath(options: CompilerOptions): string; }