import {createRequire as __cjsCompatRequire} from 'module'; const require = __cjsCompatRequire(import.meta.url); // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/source_file.mjs import { decode, encode } from "@jridgewell/sourcemap-codec"; import mapHelpers from "convert-source-map"; // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/segment_marker.mjs function compareSegments(a, b) { return a.position - b.position; } function offsetSegment(startOfLinePositions, marker, offset) { if (offset === 0) { return marker; } let line = marker.line; const position = marker.position + offset; while (line < startOfLinePositions.length - 1 && startOfLinePositions[line + 1] <= position) { line++; } while (line > 0 && startOfLinePositions[line] > position) { line--; } const column = position - startOfLinePositions[line]; return { line, column, position, next: void 0 }; } // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/source_file.mjs function removeSourceMapComments(contents) { return mapHelpers.removeMapFileComments(mapHelpers.removeComments(contents)).replace(/\n\n$/, "\n"); } var SourceFile = class { constructor(sourcePath, contents, rawMap, sources, fs) { this.sourcePath = sourcePath; this.contents = contents; this.rawMap = rawMap; this.sources = sources; this.fs = fs; this.contents = removeSourceMapComments(contents); this.startOfLinePositions = computeStartOfLinePositions(this.contents); this.flattenedMappings = this.flattenMappings(); } renderFlattenedSourceMap() { const sources = new IndexedMap(); const names = new IndexedSet(); const mappings = []; const sourcePathDir = this.fs.dirname(this.sourcePath); const relativeSourcePathCache = new Cache((input) => this.fs.relative(sourcePathDir, input)); for (const mapping of this.flattenedMappings) { const sourceIndex = sources.set(relativeSourcePathCache.get(mapping.originalSource.sourcePath), mapping.originalSource.contents); const mappingArray = [ mapping.generatedSegment.column, sourceIndex, mapping.originalSegment.line, mapping.originalSegment.column ]; if (mapping.name !== void 0) { const nameIndex = names.add(mapping.name); mappingArray.push(nameIndex); } const line = mapping.generatedSegment.line; while (line >= mappings.length) { mappings.push([]); } mappings[line].push(mappingArray); } const sourceMap = { version: 3, file: this.fs.relative(sourcePathDir, this.sourcePath), sources: sources.keys, names: names.values, mappings: encode(mappings), sourcesContent: sources.values }; return sourceMap; } getOriginalLocation(line, column) { if (this.flattenedMappings.length === 0) { return null; } let position; if (line < this.startOfLinePositions.length) { position = this.startOfLinePositions[line] + column; } else { position = this.contents.length; } const locationSegment = { line, column, position, next: void 0 }; let mappingIndex = findLastMappingIndexBefore(this.flattenedMappings, locationSegment, false, 0); if (mappingIndex < 0) { mappingIndex = 0; } const { originalSegment, originalSource, generatedSegment } = this.flattenedMappings[mappingIndex]; const offset = locationSegment.position - generatedSegment.position; const offsetOriginalSegment = offsetSegment(originalSource.startOfLinePositions, originalSegment, offset); return { file: originalSource.sourcePath, line: offsetOriginalSegment.line, column: offsetOriginalSegment.column }; } flattenMappings() { const mappings = parseMappings(this.rawMap && this.rawMap.map, this.sources, this.startOfLinePositions); ensureOriginalSegmentLinks(mappings); const flattenedMappings = []; for (let mappingIndex = 0; mappingIndex < mappings.length; mappingIndex++) { const aToBmapping = mappings[mappingIndex]; const bSource = aToBmapping.originalSource; if (bSource.flattenedMappings.length === 0) { flattenedMappings.push(aToBmapping); continue; } const incomingStart = aToBmapping.originalSegment; const incomingEnd = incomingStart.next; let outgoingStartIndex = findLastMappingIndexBefore(bSource.flattenedMappings, incomingStart, false, 0); if (outgoingStartIndex < 0) { outgoingStartIndex = 0; } const outgoingEndIndex = incomingEnd !== void 0 ? findLastMappingIndexBefore(bSource.flattenedMappings, incomingEnd, true, outgoingStartIndex) : bSource.flattenedMappings.length - 1; for (let bToCmappingIndex = outgoingStartIndex; bToCmappingIndex <= outgoingEndIndex; bToCmappingIndex++) { const bToCmapping = bSource.flattenedMappings[bToCmappingIndex]; flattenedMappings.push(mergeMappings(this, aToBmapping, bToCmapping)); } } return flattenedMappings; } }; function findLastMappingIndexBefore(mappings, marker, exclusive, lowerIndex) { let upperIndex = mappings.length - 1; const test = exclusive ? -1 : 0; if (compareSegments(mappings[lowerIndex].generatedSegment, marker) > test) { return -1; } let matchingIndex = -1; while (lowerIndex <= upperIndex) { const index = upperIndex + lowerIndex >> 1; if (compareSegments(mappings[index].generatedSegment, marker) <= test) { matchingIndex = index; lowerIndex = index + 1; } else { upperIndex = index - 1; } } return matchingIndex; } function mergeMappings(generatedSource, ab, bc) { const name = bc.name || ab.name; const diff = compareSegments(bc.generatedSegment, ab.originalSegment); if (diff > 0) { return { name, generatedSegment: offsetSegment(generatedSource.startOfLinePositions, ab.generatedSegment, diff), originalSource: bc.originalSource, originalSegment: bc.originalSegment }; } else { return { name, generatedSegment: ab.generatedSegment, originalSource: bc.originalSource, originalSegment: offsetSegment(bc.originalSource.startOfLinePositions, bc.originalSegment, -diff) }; } } function parseMappings(rawMap, sources, generatedSourceStartOfLinePositions) { if (rawMap === null) { return []; } const rawMappings = decode(rawMap.mappings); if (rawMappings === null) { return []; } const mappings = []; for (let generatedLine = 0; generatedLine < rawMappings.length; generatedLine++) { const generatedLineMappings = rawMappings[generatedLine]; for (const rawMapping of generatedLineMappings) { if (rawMapping.length >= 4) { const originalSource = sources[rawMapping[1]]; if (originalSource === null || originalSource === void 0) { continue; } const generatedColumn = rawMapping[0]; const name = rawMapping.length === 5 ? rawMap.names[rawMapping[4]] : void 0; const line = rawMapping[2]; const column = rawMapping[3]; const generatedSegment = { line: generatedLine, column: generatedColumn, position: generatedSourceStartOfLinePositions[generatedLine] + generatedColumn, next: void 0 }; const originalSegment = { line, column, position: originalSource.startOfLinePositions[line] + column, next: void 0 }; mappings.push({ name, generatedSegment, originalSegment, originalSource }); } } } return mappings; } function extractOriginalSegments(mappings) { const originalSegments = /* @__PURE__ */ new Map(); for (const mapping of mappings) { const originalSource = mapping.originalSource; if (!originalSegments.has(originalSource)) { originalSegments.set(originalSource, []); } const segments = originalSegments.get(originalSource); segments.push(mapping.originalSegment); } originalSegments.forEach((segmentMarkers) => segmentMarkers.sort(compareSegments)); return originalSegments; } function ensureOriginalSegmentLinks(mappings) { const segmentsBySource = extractOriginalSegments(mappings); segmentsBySource.forEach((markers) => { for (let i = 0; i < markers.length - 1; i++) { markers[i].next = markers[i + 1]; } }); } function computeStartOfLinePositions(str) { const NEWLINE_MARKER_OFFSET = 1; const lineLengths = computeLineLengths(str); const startPositions = [0]; for (let i = 0; i < lineLengths.length - 1; i++) { startPositions.push(startPositions[i] + lineLengths[i] + NEWLINE_MARKER_OFFSET); } return startPositions; } function computeLineLengths(str) { return str.split(/\n/).map((s) => s.length); } var IndexedMap = class { constructor() { this.map = /* @__PURE__ */ new Map(); this.keys = []; this.values = []; } set(key, value) { if (this.map.has(key)) { return this.map.get(key); } const index = this.values.push(value) - 1; this.keys.push(key); this.map.set(key, index); return index; } }; var IndexedSet = class { constructor() { this.map = /* @__PURE__ */ new Map(); this.values = []; } add(value) { if (this.map.has(value)) { return this.map.get(value); } const index = this.values.push(value) - 1; this.map.set(value, index); return index; } }; var Cache = class { constructor(computeFn) { this.computeFn = computeFn; this.map = /* @__PURE__ */ new Map(); } get(input) { if (!this.map.has(input)) { this.map.set(input, this.computeFn(input)); } return this.map.get(input); } }; // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/source_file_loader.mjs import mapHelpers2 from "convert-source-map"; // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/content_origin.mjs var ContentOrigin; (function(ContentOrigin2) { ContentOrigin2[ContentOrigin2["Provided"] = 0] = "Provided"; ContentOrigin2[ContentOrigin2["Inline"] = 1] = "Inline"; ContentOrigin2[ContentOrigin2["FileSystem"] = 2] = "FileSystem"; })(ContentOrigin || (ContentOrigin = {})); // bazel-out/darwin_arm64-fastbuild/bin/packages/compiler-cli/src/ngtsc/sourcemaps/src/source_file_loader.mjs var SCHEME_MATCHER = /^([a-z][a-z0-9.-]*):\/\//i; var SourceFileLoader = class { constructor(fs, logger, schemeMap) { this.fs = fs; this.logger = logger; this.schemeMap = schemeMap; this.currentPaths = []; } loadSourceFile(sourcePath, contents = null, mapAndPath = null) { const contentsOrigin = contents !== null ? ContentOrigin.Provided : ContentOrigin.FileSystem; const sourceMapInfo = mapAndPath && { origin: ContentOrigin.Provided, ...mapAndPath }; return this.loadSourceFileInternal(sourcePath, contents, contentsOrigin, sourceMapInfo); } loadSourceFileInternal(sourcePath, contents, sourceOrigin, sourceMapInfo) { const previousPaths = this.currentPaths.slice(); try { if (contents === null) { if (!this.fs.exists(sourcePath)) { return null; } contents = this.readSourceFile(sourcePath); } if (sourceMapInfo === null) { sourceMapInfo = this.loadSourceMap(sourcePath, contents, sourceOrigin); } let sources = []; if (sourceMapInfo !== null) { const basePath = sourceMapInfo.mapPath || sourcePath; sources = this.processSources(basePath, sourceMapInfo); } return new SourceFile(sourcePath, contents, sourceMapInfo, sources, this.fs); } catch (e) { this.logger.warn(`Unable to fully load ${sourcePath} for source-map flattening: ${e.message}`); return null; } finally { this.currentPaths = previousPaths; } } loadSourceMap(sourcePath, sourceContents, sourceOrigin) { const lastLine = this.getLastNonEmptyLine(sourceContents); const inline = mapHelpers2.commentRegex.exec(lastLine); if (inline !== null) { return { map: mapHelpers2.fromComment(inline.pop()).sourcemap, mapPath: null, origin: ContentOrigin.Inline }; } if (sourceOrigin === ContentOrigin.Inline) { return null; } const external = mapHelpers2.mapFileCommentRegex.exec(lastLine); if (external) { try { const fileName = external[1] || external[2]; const externalMapPath = this.fs.resolve(this.fs.dirname(sourcePath), fileName); return { map: this.readRawSourceMap(externalMapPath), mapPath: externalMapPath, origin: ContentOrigin.FileSystem }; } catch (e) { this.logger.warn(`Unable to fully load ${sourcePath} for source-map flattening: ${e.message}`); return null; } } const impliedMapPath = this.fs.resolve(sourcePath + ".map"); if (this.fs.exists(impliedMapPath)) { return { map: this.readRawSourceMap(impliedMapPath), mapPath: impliedMapPath, origin: ContentOrigin.FileSystem }; } return null; } processSources(basePath, { map, origin: sourceMapOrigin }) { const sourceRoot = this.fs.resolve(this.fs.dirname(basePath), this.replaceSchemeWithPath(map.sourceRoot || "")); return map.sources.map((source, index) => { const path = this.fs.resolve(sourceRoot, this.replaceSchemeWithPath(source)); const content = map.sourcesContent && map.sourcesContent[index] || null; const sourceOrigin = content !== null && sourceMapOrigin !== ContentOrigin.Provided ? ContentOrigin.Inline : ContentOrigin.FileSystem; return this.loadSourceFileInternal(path, content, sourceOrigin, null); }); } readSourceFile(sourcePath) { this.trackPath(sourcePath); return this.fs.readFile(sourcePath); } readRawSourceMap(mapPath) { this.trackPath(mapPath); return JSON.parse(this.fs.readFile(mapPath)); } trackPath(path) { if (this.currentPaths.includes(path)) { throw new Error(`Circular source file mapping dependency: ${this.currentPaths.join(" -> ")} -> ${path}`); } this.currentPaths.push(path); } getLastNonEmptyLine(contents) { let trailingWhitespaceIndex = contents.length - 1; while (trailingWhitespaceIndex > 0 && (contents[trailingWhitespaceIndex] === "\n" || contents[trailingWhitespaceIndex] === "\r")) { trailingWhitespaceIndex--; } let lastRealLineIndex = contents.lastIndexOf("\n", trailingWhitespaceIndex - 1); if (lastRealLineIndex === -1) { lastRealLineIndex = 0; } return contents.slice(lastRealLineIndex + 1); } replaceSchemeWithPath(path) { return path.replace(SCHEME_MATCHER, (_, scheme) => this.schemeMap[scheme.toLowerCase()] || ""); } }; export { SourceFile, SourceFileLoader }; /** * @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-GYHDNUIK.js.map