import {createRequire as __cjsCompatRequire} from 'module'; const require = __cjsCompatRequire(import.meta.url); import { ImportFlags, NoopImportRewriter, Reference, assertSuccessfulReferenceEmit } from "./chunk-7RPZKH3B.js"; // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/context.mjs var Context = class { constructor(isStatement) { this.isStatement = isStatement; } get withExpressionMode() { return this.isStatement ? new Context(false) : this; } get withStatementMode() { return !this.isStatement ? new Context(true) : this; } }; // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/translator.mjs import * as o from "@angular/compiler"; var UNARY_OPERATORS = /* @__PURE__ */ new Map([ [o.UnaryOperator.Minus, "-"], [o.UnaryOperator.Plus, "+"] ]); var BINARY_OPERATORS = /* @__PURE__ */ new Map([ [o.BinaryOperator.And, "&&"], [o.BinaryOperator.Bigger, ">"], [o.BinaryOperator.BiggerEquals, ">="], [o.BinaryOperator.BitwiseAnd, "&"], [o.BinaryOperator.Divide, "/"], [o.BinaryOperator.Equals, "=="], [o.BinaryOperator.Identical, "==="], [o.BinaryOperator.Lower, "<"], [o.BinaryOperator.LowerEquals, "<="], [o.BinaryOperator.Minus, "-"], [o.BinaryOperator.Modulo, "%"], [o.BinaryOperator.Multiply, "*"], [o.BinaryOperator.NotEquals, "!="], [o.BinaryOperator.NotIdentical, "!=="], [o.BinaryOperator.Or, "||"], [o.BinaryOperator.Plus, "+"], [o.BinaryOperator.NullishCoalesce, "??"] ]); var ExpressionTranslatorVisitor = class { constructor(factory, imports, options) { this.factory = factory; this.imports = imports; this.downlevelTaggedTemplates = options.downlevelTaggedTemplates === true; this.downlevelVariableDeclarations = options.downlevelVariableDeclarations === true; this.recordWrappedNode = options.recordWrappedNode || (() => { }); } visitDeclareVarStmt(stmt, context) { var _a; const varType = this.downlevelVariableDeclarations ? "var" : stmt.hasModifier(o.StmtModifier.Final) ? "const" : "let"; return this.attachComments(this.factory.createVariableDeclaration(stmt.name, (_a = stmt.value) == null ? void 0 : _a.visitExpression(this, context.withExpressionMode), varType), stmt.leadingComments); } visitDeclareFunctionStmt(stmt, context) { return this.attachComments(this.factory.createFunctionDeclaration(stmt.name, stmt.params.map((param) => param.name), this.factory.createBlock(this.visitStatements(stmt.statements, context.withStatementMode))), stmt.leadingComments); } visitExpressionStmt(stmt, context) { return this.attachComments(this.factory.createExpressionStatement(stmt.expr.visitExpression(this, context.withStatementMode)), stmt.leadingComments); } visitReturnStmt(stmt, context) { return this.attachComments(this.factory.createReturnStatement(stmt.value.visitExpression(this, context.withExpressionMode)), stmt.leadingComments); } visitIfStmt(stmt, context) { return this.attachComments(this.factory.createIfStatement(stmt.condition.visitExpression(this, context), this.factory.createBlock(this.visitStatements(stmt.trueCase, context.withStatementMode)), stmt.falseCase.length > 0 ? this.factory.createBlock(this.visitStatements(stmt.falseCase, context.withStatementMode)) : null), stmt.leadingComments); } visitReadVarExpr(ast, _context) { const identifier = this.factory.createIdentifier(ast.name); this.setSourceMapRange(identifier, ast.sourceSpan); return identifier; } visitWriteVarExpr(expr, context) { const assignment = this.factory.createAssignment(this.setSourceMapRange(this.factory.createIdentifier(expr.name), expr.sourceSpan), expr.value.visitExpression(this, context)); return context.isStatement ? assignment : this.factory.createParenthesizedExpression(assignment); } visitWriteKeyExpr(expr, context) { const exprContext = context.withExpressionMode; const target = this.factory.createElementAccess(expr.receiver.visitExpression(this, exprContext), expr.index.visitExpression(this, exprContext)); const assignment = this.factory.createAssignment(target, expr.value.visitExpression(this, exprContext)); return context.isStatement ? assignment : this.factory.createParenthesizedExpression(assignment); } visitWritePropExpr(expr, context) { const target = this.factory.createPropertyAccess(expr.receiver.visitExpression(this, context), expr.name); return this.factory.createAssignment(target, expr.value.visitExpression(this, context)); } visitInvokeFunctionExpr(ast, context) { return this.setSourceMapRange(this.factory.createCallExpression(ast.fn.visitExpression(this, context), ast.args.map((arg) => arg.visitExpression(this, context)), ast.pure), ast.sourceSpan); } visitTaggedTemplateExpr(ast, context) { return this.setSourceMapRange(this.createTaggedTemplateExpression(ast.tag.visitExpression(this, context), { elements: ast.template.elements.map((e) => { var _a; return createTemplateElement({ cooked: e.text, raw: e.rawText, range: (_a = e.sourceSpan) != null ? _a : ast.sourceSpan }); }), expressions: ast.template.expressions.map((e) => e.visitExpression(this, context)) }), ast.sourceSpan); } visitInstantiateExpr(ast, context) { return this.factory.createNewExpression(ast.classExpr.visitExpression(this, context), ast.args.map((arg) => arg.visitExpression(this, context))); } visitLiteralExpr(ast, _context) { return this.setSourceMapRange(this.factory.createLiteral(ast.value), ast.sourceSpan); } visitLocalizedString(ast, context) { const elements = [createTemplateElement(ast.serializeI18nHead())]; const expressions = []; for (let i = 0; i < ast.expressions.length; i++) { const placeholder = this.setSourceMapRange(ast.expressions[i].visitExpression(this, context), ast.getPlaceholderSourceSpan(i)); expressions.push(placeholder); elements.push(createTemplateElement(ast.serializeI18nTemplatePart(i + 1))); } const localizeTag = this.factory.createIdentifier("$localize"); return this.setSourceMapRange(this.createTaggedTemplateExpression(localizeTag, { elements, expressions }), ast.sourceSpan); } createTaggedTemplateExpression(tag, template) { return this.downlevelTaggedTemplates ? this.createES5TaggedTemplateFunctionCall(tag, template) : this.factory.createTaggedTemplate(tag, template); } createES5TaggedTemplateFunctionCall(tagHandler, { elements, expressions }) { const { moduleImport, symbol } = this.imports.generateNamedImport("tslib", "__makeTemplateObject"); const __makeTemplateObjectHelper = moduleImport === null ? this.factory.createIdentifier(symbol) : this.factory.createPropertyAccess(moduleImport, symbol); const cooked = []; const raw = []; for (const element of elements) { cooked.push(this.factory.setSourceMapRange(this.factory.createLiteral(element.cooked), element.range)); raw.push(this.factory.setSourceMapRange(this.factory.createLiteral(element.raw), element.range)); } const templateHelperCall = this.factory.createCallExpression( __makeTemplateObjectHelper, [this.factory.createArrayLiteral(cooked), this.factory.createArrayLiteral(raw)], false ); return this.factory.createCallExpression( tagHandler, [templateHelperCall, ...expressions], false ); } visitExternalExpr(ast, _context) { if (ast.value.name === null) { if (ast.value.moduleName === null) { throw new Error("Invalid import without name nor moduleName"); } return this.imports.generateNamespaceImport(ast.value.moduleName); } if (ast.value.moduleName !== null) { const { moduleImport, symbol } = this.imports.generateNamedImport(ast.value.moduleName, ast.value.name); if (moduleImport === null) { return this.factory.createIdentifier(symbol); } else { return this.factory.createPropertyAccess(moduleImport, symbol); } } else { return this.factory.createIdentifier(ast.value.name); } } visitConditionalExpr(ast, context) { let cond = ast.condition.visitExpression(this, context); if (ast.condition instanceof o.ConditionalExpr) { cond = this.factory.createParenthesizedExpression(cond); } return this.factory.createConditional(cond, ast.trueCase.visitExpression(this, context), ast.falseCase.visitExpression(this, context)); } visitNotExpr(ast, context) { return this.factory.createUnaryExpression("!", ast.condition.visitExpression(this, context)); } visitFunctionExpr(ast, context) { var _a; return this.factory.createFunctionExpression((_a = ast.name) != null ? _a : null, ast.params.map((param) => param.name), this.factory.createBlock(this.visitStatements(ast.statements, context))); } visitBinaryOperatorExpr(ast, context) { if (!BINARY_OPERATORS.has(ast.operator)) { throw new Error(`Unknown binary operator: ${o.BinaryOperator[ast.operator]}`); } return this.factory.createBinaryExpression(ast.lhs.visitExpression(this, context), BINARY_OPERATORS.get(ast.operator), ast.rhs.visitExpression(this, context)); } visitReadPropExpr(ast, context) { return this.factory.createPropertyAccess(ast.receiver.visitExpression(this, context), ast.name); } visitReadKeyExpr(ast, context) { return this.factory.createElementAccess(ast.receiver.visitExpression(this, context), ast.index.visitExpression(this, context)); } visitLiteralArrayExpr(ast, context) { return this.factory.createArrayLiteral(ast.entries.map((expr) => this.setSourceMapRange(expr.visitExpression(this, context), ast.sourceSpan))); } visitLiteralMapExpr(ast, context) { const properties = ast.entries.map((entry) => { return { propertyName: entry.key, quoted: entry.quoted, value: entry.value.visitExpression(this, context) }; }); return this.setSourceMapRange(this.factory.createObjectLiteral(properties), ast.sourceSpan); } visitCommaExpr(ast, context) { throw new Error("Method not implemented."); } visitWrappedNodeExpr(ast, _context) { this.recordWrappedNode(ast); return ast.node; } visitTypeofExpr(ast, context) { return this.factory.createTypeOfExpression(ast.expr.visitExpression(this, context)); } visitUnaryOperatorExpr(ast, context) { if (!UNARY_OPERATORS.has(ast.operator)) { throw new Error(`Unknown unary operator: ${o.UnaryOperator[ast.operator]}`); } return this.factory.createUnaryExpression(UNARY_OPERATORS.get(ast.operator), ast.expr.visitExpression(this, context)); } visitStatements(statements, context) { return statements.map((stmt) => stmt.visitStatement(this, context)).filter((stmt) => stmt !== void 0); } setSourceMapRange(ast, span) { return this.factory.setSourceMapRange(ast, createRange(span)); } attachComments(statement, leadingComments) { if (leadingComments !== void 0) { this.factory.attachComments(statement, leadingComments); } return statement; } }; function createTemplateElement({ cooked, raw, range }) { return { cooked, raw, range: createRange(range) }; } function createRange(span) { if (span === null) { return null; } const { start, end } = span; const { url, content } = start.file; if (!url) { return null; } return { url, content, start: { offset: start.offset, line: start.line, column: start.col }, end: { offset: end.offset, line: end.line, column: end.col } }; } // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/import_manager.mjs import ts from "typescript"; var ImportManager = class { constructor(rewriter = new NoopImportRewriter(), prefix = "i") { this.rewriter = rewriter; this.prefix = prefix; this.specifierToIdentifier = /* @__PURE__ */ new Map(); this.nextIndex = 0; } generateNamespaceImport(moduleName) { if (!this.specifierToIdentifier.has(moduleName)) { this.specifierToIdentifier.set(moduleName, ts.factory.createIdentifier(`${this.prefix}${this.nextIndex++}`)); } return this.specifierToIdentifier.get(moduleName); } generateNamedImport(moduleName, originalSymbol) { const symbol = this.rewriter.rewriteSymbol(originalSymbol, moduleName); if (!this.rewriter.shouldImportSymbol(symbol, moduleName)) { return { moduleImport: null, symbol }; } const moduleImport = this.generateNamespaceImport(moduleName); return { moduleImport, symbol }; } getAllImports(contextPath) { const imports = []; for (const [originalSpecifier, qualifier] of this.specifierToIdentifier) { const specifier = this.rewriter.rewriteSpecifier(originalSpecifier, contextPath); imports.push({ specifier, qualifier }); } return imports; } }; // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/type_translator.mjs import * as o2 from "@angular/compiler"; import ts2 from "typescript"; function translateType(type, contextFile, reflector, refEmitter, imports) { return type.visitType(new TypeTranslatorVisitor(imports, contextFile, reflector, refEmitter), new Context(false)); } var TypeTranslatorVisitor = class { constructor(imports, contextFile, reflector, refEmitter) { this.imports = imports; this.contextFile = contextFile; this.reflector = reflector; this.refEmitter = refEmitter; } visitBuiltinType(type, context) { switch (type.name) { case o2.BuiltinTypeName.Bool: return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.BooleanKeyword); case o2.BuiltinTypeName.Dynamic: return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.AnyKeyword); case o2.BuiltinTypeName.Int: case o2.BuiltinTypeName.Number: return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.NumberKeyword); case o2.BuiltinTypeName.String: return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.StringKeyword); case o2.BuiltinTypeName.None: return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.NeverKeyword); default: throw new Error(`Unsupported builtin type: ${o2.BuiltinTypeName[type.name]}`); } } visitExpressionType(type, context) { const typeNode = this.translateExpression(type.value, context); if (type.typeParams === null) { return typeNode; } if (!ts2.isTypeReferenceNode(typeNode)) { throw new Error("An ExpressionType with type arguments must translate into a TypeReferenceNode"); } else if (typeNode.typeArguments !== void 0) { throw new Error(`An ExpressionType with type arguments cannot have multiple levels of type arguments`); } const typeArgs = type.typeParams.map((param) => this.translateType(param, context)); return ts2.factory.createTypeReferenceNode(typeNode.typeName, typeArgs); } visitArrayType(type, context) { return ts2.factory.createArrayTypeNode(this.translateType(type.of, context)); } visitMapType(type, context) { const parameter = ts2.factory.createParameterDeclaration(void 0, void 0, "key", void 0, ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.StringKeyword)); const typeArgs = type.valueType !== null ? this.translateType(type.valueType, context) : ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.UnknownKeyword); const indexSignature = ts2.factory.createIndexSignature(void 0, [parameter], typeArgs); return ts2.factory.createTypeLiteralNode([indexSignature]); } visitTransplantedType(ast, context) { if (!ts2.isTypeNode(ast.type)) { throw new Error(`A TransplantedType must wrap a TypeNode`); } return this.translateTransplantedTypeNode(ast.type, context); } visitReadVarExpr(ast, context) { if (ast.name === null) { throw new Error(`ReadVarExpr with no variable name in type`); } return ts2.factory.createTypeQueryNode(ts2.factory.createIdentifier(ast.name)); } visitWriteVarExpr(expr, context) { throw new Error("Method not implemented."); } visitWriteKeyExpr(expr, context) { throw new Error("Method not implemented."); } visitWritePropExpr(expr, context) { throw new Error("Method not implemented."); } visitInvokeFunctionExpr(ast, context) { throw new Error("Method not implemented."); } visitTaggedTemplateExpr(ast, context) { throw new Error("Method not implemented."); } visitInstantiateExpr(ast, context) { throw new Error("Method not implemented."); } visitLiteralExpr(ast, context) { if (ast.value === null) { return ts2.factory.createLiteralTypeNode(ts2.factory.createNull()); } else if (ast.value === void 0) { return ts2.factory.createKeywordTypeNode(ts2.SyntaxKind.UndefinedKeyword); } else if (typeof ast.value === "boolean") { return ts2.factory.createLiteralTypeNode(ast.value ? ts2.factory.createTrue() : ts2.factory.createFalse()); } else if (typeof ast.value === "number") { return ts2.factory.createLiteralTypeNode(ts2.factory.createNumericLiteral(ast.value)); } else { return ts2.factory.createLiteralTypeNode(ts2.factory.createStringLiteral(ast.value)); } } visitLocalizedString(ast, context) { throw new Error("Method not implemented."); } visitExternalExpr(ast, context) { if (ast.value.moduleName === null || ast.value.name === null) { throw new Error(`Import unknown module or symbol`); } const { moduleImport, symbol } = this.imports.generateNamedImport(ast.value.moduleName, ast.value.name); const symbolIdentifier = ts2.factory.createIdentifier(symbol); const typeName = moduleImport ? ts2.factory.createQualifiedName(moduleImport, symbolIdentifier) : symbolIdentifier; const typeArguments = ast.typeParams !== null ? ast.typeParams.map((type) => this.translateType(type, context)) : void 0; return ts2.factory.createTypeReferenceNode(typeName, typeArguments); } visitConditionalExpr(ast, context) { throw new Error("Method not implemented."); } visitNotExpr(ast, context) { throw new Error("Method not implemented."); } visitFunctionExpr(ast, context) { throw new Error("Method not implemented."); } visitUnaryOperatorExpr(ast, context) { throw new Error("Method not implemented."); } visitBinaryOperatorExpr(ast, context) { throw new Error("Method not implemented."); } visitReadPropExpr(ast, context) { throw new Error("Method not implemented."); } visitReadKeyExpr(ast, context) { throw new Error("Method not implemented."); } visitLiteralArrayExpr(ast, context) { const values = ast.entries.map((expr) => this.translateExpression(expr, context)); return ts2.factory.createTupleTypeNode(values); } visitLiteralMapExpr(ast, context) { const entries = ast.entries.map((entry) => { const { key, quoted } = entry; const type = this.translateExpression(entry.value, context); return ts2.factory.createPropertySignature( void 0, quoted ? ts2.factory.createStringLiteral(key) : key, void 0, type ); }); return ts2.factory.createTypeLiteralNode(entries); } visitCommaExpr(ast, context) { throw new Error("Method not implemented."); } visitWrappedNodeExpr(ast, context) { const node = ast.node; if (ts2.isEntityName(node)) { return ts2.factory.createTypeReferenceNode(node, void 0); } else if (ts2.isTypeNode(node)) { return node; } else if (ts2.isLiteralExpression(node)) { return ts2.factory.createLiteralTypeNode(node); } else { throw new Error(`Unsupported WrappedNodeExpr in TypeTranslatorVisitor: ${ts2.SyntaxKind[node.kind]}`); } } visitTypeofExpr(ast, context) { const typeNode = this.translateExpression(ast.expr, context); if (!ts2.isTypeReferenceNode(typeNode)) { throw new Error(`The target of a typeof expression must be a type reference, but it was ${ts2.SyntaxKind[typeNode.kind]}`); } return ts2.factory.createTypeQueryNode(typeNode.typeName); } translateType(type, context) { const typeNode = type.visitType(this, context); if (!ts2.isTypeNode(typeNode)) { throw new Error(`A Type must translate to a TypeNode, but was ${ts2.SyntaxKind[typeNode.kind]}`); } return typeNode; } translateExpression(expr, context) { const typeNode = expr.visitExpression(this, context); if (!ts2.isTypeNode(typeNode)) { throw new Error(`An Expression must translate to a TypeNode, but was ${ts2.SyntaxKind[typeNode.kind]}`); } return typeNode; } translateTransplantedTypeReferenceNode(node, context) { const declaration = this.reflector.getDeclarationOfIdentifier(node.typeName); if (declaration === null) { throw new Error(`Unable to statically determine the declaration file of type node ${node.typeName.text}`); } const emittedType = this.refEmitter.emit(new Reference(declaration.node), this.contextFile, ImportFlags.NoAliasing | ImportFlags.AllowTypeImports | ImportFlags.AllowRelativeDtsImports); assertSuccessfulReferenceEmit(emittedType, node, "type"); const result = emittedType.expression.visitExpression(this, context); if (!ts2.isTypeReferenceNode(result)) { throw new Error(`Expected TypeReferenceNode when referencing the type for ${node.typeName.text}, but received ${ts2.SyntaxKind[result.kind]}`); } if (node.typeArguments === void 0 || node.typeArguments.length === 0) { return result; } const translatedArgs = node.typeArguments.map((arg) => this.translateTransplantedTypeNode(arg, context)); return ts2.factory.updateTypeReferenceNode(result, result.typeName, ts2.factory.createNodeArray(translatedArgs)); } translateTransplantedTypeNode(rootNode, context) { const factory = (transformContext) => (root) => { const walk = (node) => { if (ts2.isTypeReferenceNode(node) && ts2.isIdentifier(node.typeName)) { const translated = this.translateTransplantedTypeReferenceNode(node, context); if (translated !== node) { return translated; } } return ts2.visitEachChild(node, walk, transformContext); }; return ts2.visitNode(root, walk); }; return ts2.transform(rootNode, [factory]).transformed[0]; } }; // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/typescript_ast_factory.mjs import ts3 from "typescript"; var PureAnnotation; (function(PureAnnotation2) { PureAnnotation2["CLOSURE"] = "* @pureOrBreakMyCode "; PureAnnotation2["TERSER"] = "@__PURE__"; })(PureAnnotation || (PureAnnotation = {})); var UNARY_OPERATORS2 = { "+": ts3.SyntaxKind.PlusToken, "-": ts3.SyntaxKind.MinusToken, "!": ts3.SyntaxKind.ExclamationToken }; var BINARY_OPERATORS2 = { "&&": ts3.SyntaxKind.AmpersandAmpersandToken, ">": ts3.SyntaxKind.GreaterThanToken, ">=": ts3.SyntaxKind.GreaterThanEqualsToken, "&": ts3.SyntaxKind.AmpersandToken, "/": ts3.SyntaxKind.SlashToken, "==": ts3.SyntaxKind.EqualsEqualsToken, "===": ts3.SyntaxKind.EqualsEqualsEqualsToken, "<": ts3.SyntaxKind.LessThanToken, "<=": ts3.SyntaxKind.LessThanEqualsToken, "-": ts3.SyntaxKind.MinusToken, "%": ts3.SyntaxKind.PercentToken, "*": ts3.SyntaxKind.AsteriskToken, "!=": ts3.SyntaxKind.ExclamationEqualsToken, "!==": ts3.SyntaxKind.ExclamationEqualsEqualsToken, "||": ts3.SyntaxKind.BarBarToken, "+": ts3.SyntaxKind.PlusToken, "??": ts3.SyntaxKind.QuestionQuestionToken }; var VAR_TYPES = { "const": ts3.NodeFlags.Const, "let": ts3.NodeFlags.Let, "var": ts3.NodeFlags.None }; var TypeScriptAstFactory = class { constructor(annotateForClosureCompiler) { this.annotateForClosureCompiler = annotateForClosureCompiler; this.externalSourceFiles = /* @__PURE__ */ new Map(); this.attachComments = attachComments; this.createArrayLiteral = ts3.factory.createArrayLiteralExpression; this.createElementAccess = ts3.factory.createElementAccessExpression; this.createExpressionStatement = ts3.factory.createExpressionStatement; this.createIdentifier = ts3.factory.createIdentifier; this.createParenthesizedExpression = ts3.factory.createParenthesizedExpression; this.createPropertyAccess = ts3.factory.createPropertyAccessExpression; this.createThrowStatement = ts3.factory.createThrowStatement; this.createTypeOfExpression = ts3.factory.createTypeOfExpression; } createAssignment(target, value) { return ts3.factory.createBinaryExpression(target, ts3.SyntaxKind.EqualsToken, value); } createBinaryExpression(leftOperand, operator, rightOperand) { return ts3.factory.createBinaryExpression(leftOperand, BINARY_OPERATORS2[operator], rightOperand); } createBlock(body) { return ts3.factory.createBlock(body); } createCallExpression(callee, args, pure) { const call = ts3.factory.createCallExpression(callee, void 0, args); if (pure) { ts3.addSyntheticLeadingComment( call, ts3.SyntaxKind.MultiLineCommentTrivia, this.annotateForClosureCompiler ? PureAnnotation.CLOSURE : PureAnnotation.TERSER, false ); } return call; } createConditional(condition, whenTrue, whenFalse) { return ts3.factory.createConditionalExpression(condition, void 0, whenTrue, void 0, whenFalse); } createFunctionDeclaration(functionName, parameters, body) { if (!ts3.isBlock(body)) { throw new Error(`Invalid syntax, expected a block, but got ${ts3.SyntaxKind[body.kind]}.`); } return ts3.factory.createFunctionDeclaration(void 0, void 0, functionName, void 0, parameters.map((param) => ts3.factory.createParameterDeclaration(void 0, void 0, param)), void 0, body); } createFunctionExpression(functionName, parameters, body) { if (!ts3.isBlock(body)) { throw new Error(`Invalid syntax, expected a block, but got ${ts3.SyntaxKind[body.kind]}.`); } return ts3.factory.createFunctionExpression(void 0, void 0, functionName != null ? functionName : void 0, void 0, parameters.map((param) => ts3.factory.createParameterDeclaration(void 0, void 0, param)), void 0, body); } createIfStatement(condition, thenStatement, elseStatement) { return ts3.factory.createIfStatement(condition, thenStatement, elseStatement != null ? elseStatement : void 0); } createLiteral(value) { if (value === void 0) { return ts3.factory.createIdentifier("undefined"); } else if (value === null) { return ts3.factory.createNull(); } else if (typeof value === "boolean") { return value ? ts3.factory.createTrue() : ts3.factory.createFalse(); } else if (typeof value === "number") { return ts3.factory.createNumericLiteral(value); } else { return ts3.factory.createStringLiteral(value); } } createNewExpression(expression, args) { return ts3.factory.createNewExpression(expression, void 0, args); } createObjectLiteral(properties) { return ts3.factory.createObjectLiteralExpression(properties.map((prop) => ts3.factory.createPropertyAssignment(prop.quoted ? ts3.factory.createStringLiteral(prop.propertyName) : ts3.factory.createIdentifier(prop.propertyName), prop.value))); } createReturnStatement(expression) { return ts3.factory.createReturnStatement(expression != null ? expression : void 0); } createTaggedTemplate(tag, template) { let templateLiteral; const length = template.elements.length; const head = template.elements[0]; if (length === 1) { templateLiteral = ts3.factory.createNoSubstitutionTemplateLiteral(head.cooked, head.raw); } else { const spans = []; for (let i = 1; i < length - 1; i++) { const { cooked, raw, range } = template.elements[i]; const middle = createTemplateMiddle(cooked, raw); if (range !== null) { this.setSourceMapRange(middle, range); } spans.push(ts3.factory.createTemplateSpan(template.expressions[i - 1], middle)); } const resolvedExpression = template.expressions[length - 2]; const templatePart = template.elements[length - 1]; const templateTail = createTemplateTail(templatePart.cooked, templatePart.raw); if (templatePart.range !== null) { this.setSourceMapRange(templateTail, templatePart.range); } spans.push(ts3.factory.createTemplateSpan(resolvedExpression, templateTail)); templateLiteral = ts3.factory.createTemplateExpression(ts3.factory.createTemplateHead(head.cooked, head.raw), spans); } if (head.range !== null) { this.setSourceMapRange(templateLiteral, head.range); } return ts3.factory.createTaggedTemplateExpression(tag, void 0, templateLiteral); } createUnaryExpression(operator, operand) { return ts3.factory.createPrefixUnaryExpression(UNARY_OPERATORS2[operator], operand); } createVariableDeclaration(variableName, initializer, type) { return ts3.factory.createVariableStatement(void 0, ts3.factory.createVariableDeclarationList([ts3.factory.createVariableDeclaration(variableName, void 0, void 0, initializer != null ? initializer : void 0)], VAR_TYPES[type])); } setSourceMapRange(node, sourceMapRange) { if (sourceMapRange === null) { return node; } const url = sourceMapRange.url; if (!this.externalSourceFiles.has(url)) { this.externalSourceFiles.set(url, ts3.createSourceMapSource(url, sourceMapRange.content, (pos) => pos)); } const source = this.externalSourceFiles.get(url); ts3.setSourceMapRange(node, { pos: sourceMapRange.start.offset, end: sourceMapRange.end.offset, source }); return node; } }; function createTemplateMiddle(cooked, raw) { const node = ts3.factory.createTemplateHead(cooked, raw); node.kind = ts3.SyntaxKind.TemplateMiddle; return node; } function createTemplateTail(cooked, raw) { const node = ts3.factory.createTemplateHead(cooked, raw); node.kind = ts3.SyntaxKind.TemplateTail; return node; } function attachComments(statement, leadingComments) { for (const comment of leadingComments) { const commentKind = comment.multiline ? ts3.SyntaxKind.MultiLineCommentTrivia : ts3.SyntaxKind.SingleLineCommentTrivia; if (comment.multiline) { ts3.addSyntheticLeadingComment(statement, commentKind, comment.toString(), comment.trailingNewline); } else { for (const line of comment.toString().split("\n")) { ts3.addSyntheticLeadingComment(statement, commentKind, line, comment.trailingNewline); } } } } // bazel-out/darwin-fastbuild/bin/packages/compiler-cli/src/ngtsc/translator/src/typescript_translator.mjs function translateExpression(expression, imports, options = {}) { return expression.visitExpression(new ExpressionTranslatorVisitor(new TypeScriptAstFactory(options.annotateForClosureCompiler === true), imports, options), new Context(false)); } function translateStatement(statement, imports, options = {}) { return statement.visitStatement(new ExpressionTranslatorVisitor(new TypeScriptAstFactory(options.annotateForClosureCompiler === true), imports, options), new Context(true)); } export { Context, ImportManager, ExpressionTranslatorVisitor, translateType, translateExpression, translateStatement }; /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ //# sourceMappingURL=chunk-JCLVSACV.js.map