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webpack/lib/Compilation.js

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/*
MIT License http://www.opensource.org/licenses/mit-license.php
Author Tobias Koppers @sokra
*/
"use strict";
const asyncLib = require("neo-async");
const {
HookMap,
SyncHook,
SyncBailHook,
SyncWaterfallHook,
AsyncSeriesHook
} = require("tapable");
const util = require("util");
const { CachedSource } = require("webpack-sources");
const AsyncDependencyToInitialChunkError = require("./AsyncDependencyToInitialChunkError");
const Chunk = require("./Chunk");
const ChunkGraph = require("./ChunkGraph");
const ChunkGroup = require("./ChunkGroup");
const ChunkRenderError = require("./ChunkRenderError");
const ChunkTemplate = require("./ChunkTemplate");
const DependencyTemplates = require("./DependencyTemplates");
const Entrypoint = require("./Entrypoint");
const FileSystemInfo = require("./FileSystemInfo");
const {
connectChunkGroupAndChunk,
connectChunkGroupParentAndChild
} = require("./GraphHelpers");
const { makeWebpackError } = require("./HookWebpackError");
const MainTemplate = require("./MainTemplate");
const ModuleDependencyError = require("./ModuleDependencyError");
const ModuleDependencyWarning = require("./ModuleDependencyWarning");
const ModuleGraph = require("./ModuleGraph");
const ModuleNotFoundError = require("./ModuleNotFoundError");
const ModuleProfile = require("./ModuleProfile");
const ModuleRestoreError = require("./ModuleRestoreError");
const ModuleTemplate = require("./ModuleTemplate");
const RuntimeGlobals = require("./RuntimeGlobals");
const RuntimeTemplate = require("./RuntimeTemplate");
const Stats = require("./Stats");
const WebpackError = require("./WebpackError");
const StatsFactory = require("./stats/StatsFactory");
const StatsPrinter = require("./stats/StatsPrinter");
const AsyncQueue = require("./util/AsyncQueue");
const Queue = require("./util/Queue");
const {
compareLocations,
concatComparators,
compareSelect,
compareIds,
compareStringsNumeric
} = require("./util/comparators");
const createHash = require("./util/createHash");
const { arrayToSetDeprecation } = require("./util/deprecation");
/** @typedef {import("webpack-sources").Source} Source */
/** @typedef {import("../declarations/WebpackOptions").OutputOptions} OutputOptions */
/** @typedef {import("./AsyncDependenciesBlock")} AsyncDependenciesBlock */
/** @typedef {import("./ChunkGroup").ChunkGroupOptions} ChunkGroupOptions */
/** @typedef {import("./Compiler")} Compiler */
/** @typedef {import("./DependenciesBlock")} DependenciesBlock */
/** @typedef {import("./Dependency")} Dependency */
/** @typedef {import("./Dependency").DependencyLocation} DependencyLocation */
/** @typedef {import("./DependencyTemplate")} DependencyTemplate */
/** @typedef {import("./Module")} Module */
/** @typedef {import("./ModuleFactory")} ModuleFactory */
/** @typedef {import("./RuntimeModule")} RuntimeModule */
/** @typedef {import("./Template").RenderManifestEntry} RenderManifestEntry */
/** @typedef {import("./WebpackError")} WebpackError */
/** @typedef {import("./dependencies/DependencyReference")} DependencyReference */
/** @typedef {import("./dependencies/DllEntryDependency")} DllEntryDependency */
/** @typedef {import("./dependencies/EntryDependency")} EntryDependency */
/** @typedef {import("./stats/StatsFactory")} StatsFactory */
/** @typedef {import("./stats/StatsPrinter")} StatsPrinter */
/** @typedef {import("./util/createHash").Hash} Hash */
/**
* @callback Callback
* @param {WebpackError=} err
* @returns {void}
*/
/**
* @callback ModuleCallback
* @param {WebpackError=} err
* @param {Module=} result
* @returns {void}
*/
/**
* @callback DepBlockVarDependenciesCallback
* @param {Dependency} dependency
* @returns {any}
*/
/**
* @typedef {Object} Plugin
* @property {() => void} apply
*/
/** @typedef {new (...args: any[]) => Dependency} DepConstructor */
/** @typedef {Record<string, Source>} CompilationAssets */
/**
* @typedef {Object} AvailableModulesChunkGroupMapping
* @property {ChunkGroup} chunkGroup
* @property {Set<Module>} availableModules
* @property {boolean} needCopy
*/
/**
* @typedef {Object} DependenciesBlockLike
* @property {Dependency[]} dependencies
* @property {AsyncDependenciesBlock[]} blocks
*/
/**
* @typedef {Object} ChunkPathData
* @property {string|number} id
* @property {string=} name
* @property {string} hash
* @property {string} renderedHash
* @property {function(number): string=} hashWithLength
* @property {(Record<string, string>)=} contentHash
* @property {(Record<string, (length: number) => string>)=} contentHashWithLength
*/
/**
* @typedef {Object} ModulePathData
* @property {string|number} id
* @property {string} hash
* @property {string} renderedHash
* @property {function(number): string=} hashWithLength
*/
/**
* @typedef {Object} PathData
* @property {ChunkGraph=} chunkGraph
* @property {string=} hash
* @property {function(number): string=} hashWithLength
* @property {(Chunk|ChunkPathData)=} chunk
* @property {(Module|ModulePathData)=} module
* @property {string=} filename
* @property {string=} basename
* @property {string=} query
* @property {string=} contentHashType
* @property {string=} contentHash
* @property {function(number): string=} contentHashWithLength
* @property {boolean=} noChunkHash
*/
// TODO webpack 6: remove
const deprecatedNormalModuleLoaderHook = util.deprecate(compilation => {
return require("./NormalModule").getCompilationHooks(compilation).loader;
}, "Compilation.hooks.normalModuleLoader was moved to NormalModule.getCompilationHooks(compilation).loader");
const byId = compareSelect(
/**
* @param {Chunk} c chunk
* @returns {number | string} id
*/ c => c.id,
compareIds
);
const byNameOrHash = concatComparators(
compareSelect(
/**
* @param {Compilation} c compilation
* @returns {string} name
*/
c => c.name,
compareIds
),
compareSelect(
/**
* @param {Compilation} c compilation
* @returns {string} hash
*/ c => c.fullHash,
compareIds
)
);
/**
* @template T
* @param {Set<T>} a first set
* @param {Set<T>} b second set
* @returns {number} cmp
*/
const bySetSize = (a, b) => {
return a.size - b.size;
};
/**
* @template T
* @param {T[]} arr array of elements to iterate over
* @param {function(T): void} fn callback applied to each element
* @returns {void}
*/
const iterationOfArrayCallback = (arr, fn) => {
for (let index = 0; index < arr.length; index++) {
fn(arr[index]);
}
};
/**
* @template T
* @param {Set<T>} set set to add items to
* @param {Set<T>} otherSet set to add items from
* @returns {void}
*/
const addAllToSet = (set, otherSet) => {
for (const item of otherSet) {
set.add(item);
}
};
class Compilation {
/**
* Creates an instance of Compilation.
* @param {Compiler} compiler the compiler which created the compilation
*/
constructor(compiler) {
const getNormalModuleLoader = () => deprecatedNormalModuleLoaderHook(this);
this.hooks = Object.freeze({
/** @type {SyncHook<[Module]>} */
buildModule: new SyncHook(["module"]),
/** @type {SyncHook<[Module]>} */
rebuildModule: new SyncHook(["module"]),
/** @type {SyncHook<[Module, WebpackError]>} */
failedModule: new SyncHook(["module", "error"]),
/** @type {SyncHook<[Module]>} */
succeedModule: new SyncHook(["module"]),
/** @type {SyncHook<[Dependency, string]>} */
addEntry: new SyncHook(["entry", "name"]),
/** @type {SyncHook<[Dependency, string, Error]>} */
failedEntry: new SyncHook(["entry", "name", "error"]),
/** @type {SyncHook<[Dependency, string, Module]>} */
succeedEntry: new SyncHook(["entry", "name", "module"]),
/** @type {SyncWaterfallHook<[DependencyReference, Dependency]>} */
dependencyReference: new SyncWaterfallHook([
"dependencyReference",
"dependency"
]),
/** @type {AsyncSeriesHook<[Iterable<Module>]>} */
finishModules: new AsyncSeriesHook(["modules"]),
/** @type {AsyncSeriesHook<[Module]>} */
finishRebuildingModule: new AsyncSeriesHook(["module"]),
/** @type {SyncHook<[]>} */
unseal: new SyncHook([]),
/** @type {SyncHook<[]>} */
seal: new SyncHook([]),
/** @type {SyncHook<[]>} */
beforeChunks: new SyncHook([]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
afterChunks: new SyncHook(["chunks"]),
/** @type {SyncBailHook<[Iterable<Module>]>} */
optimizeDependencies: new SyncBailHook(["modules"]),
/** @type {SyncHook<[Iterable<Module>]>} */
afterOptimizeDependencies: new SyncHook(["modules"]),
/** @type {SyncHook<[]>} */
optimize: new SyncHook([]),
/** @type {SyncBailHook<[Iterable<Module>]>} */
optimizeModules: new SyncBailHook(["modules"]),
/** @type {SyncHook<[Iterable<Module>]>} */
afterOptimizeModules: new SyncHook(["modules"]),
/** @type {SyncBailHook<[Iterable<Chunk>, ChunkGroup[]]>} */
optimizeChunks: new SyncBailHook(["chunks", "chunkGroups"]),
/** @type {SyncHook<[Iterable<Chunk>, ChunkGroup[]]>} */
afterOptimizeChunks: new SyncHook(["chunks", "chunkGroups"]),
/** @type {AsyncSeriesHook<[Iterable<Chunk>, Iterable<Module>]>} */
optimizeTree: new AsyncSeriesHook(["chunks", "modules"]),
/** @type {SyncHook<[Iterable<Chunk>, Iterable<Module>]>} */
afterOptimizeTree: new SyncHook(["chunks", "modules"]),
/** @type {SyncBailHook<[Iterable<Chunk>, Iterable<Module>]>} */
optimizeChunkModules: new SyncBailHook(["chunks", "modules"]),
/** @type {SyncHook<[Iterable<Chunk>, Iterable<Module>]>} */
afterOptimizeChunkModules: new SyncHook(["chunks", "modules"]),
/** @type {SyncBailHook<[], boolean>} */
shouldRecord: new SyncBailHook([]),
/** @type {SyncHook<[Chunk, Set<string>]>} */
additionalChunkRuntimeRequirements: new SyncHook([
"chunk",
"runtimeRequirements"
]),
/** @type {HookMap<SyncBailHook<[Chunk, Set<string>]>>} */
runtimeRequirementInChunk: new HookMap(
() => new SyncBailHook(["chunk", "runtimeRequirements"])
),
/** @type {SyncHook<[Module, Set<string>]>} */
additionalModuleRuntimeRequirements: new SyncHook([
"module",
"runtimeRequirements"
]),
/** @type {HookMap<SyncBailHook<[Module, Set<string>]>>} */
runtimeRequirementInModule: new HookMap(
() => new SyncBailHook(["module", "runtimeRequirements"])
),
/** @type {SyncHook<[Chunk, Set<string>]>} */
additionalTreeRuntimeRequirements: new SyncHook([
"chunk",
"runtimeRequirements"
]),
/** @type {HookMap<SyncBailHook<[Chunk, Set<string>]>>} */
runtimeRequirementInTree: new HookMap(
() => new SyncBailHook(["chunk", "runtimeRequirements"])
),
/** @type {SyncHook<[RuntimeModule, Chunk]>} */
runtimeModule: new SyncHook(["module", "chunk"]),
/** @type {SyncHook<[Iterable<Module>, any]>} */
reviveModules: new SyncHook(["modules", "records"]),
/** @type {SyncHook<[Iterable<Module>]>} */
beforeModuleIds: new SyncHook(["modules"]),
/** @type {SyncHook<[Iterable<Module>]>} */
moduleIds: new SyncHook(["modules"]),
/** @type {SyncHook<[Iterable<Module>]>} */
optimizeModuleIds: new SyncHook(["modules"]),
/** @type {SyncHook<[Iterable<Module>]>} */
afterOptimizeModuleIds: new SyncHook(["modules"]),
/** @type {SyncHook<[Iterable<Chunk>, any]>} */
reviveChunks: new SyncHook(["chunks", "records"]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
beforeChunkIds: new SyncHook(["chunks"]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
chunkIds: new SyncHook(["chunks"]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
optimizeChunkIds: new SyncHook(["chunks"]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
afterOptimizeChunkIds: new SyncHook(["chunks"]),
/** @type {SyncHook<[Iterable<Module>, any]>} */
recordModules: new SyncHook(["modules", "records"]),
/** @type {SyncHook<[Iterable<Chunk>, any]>} */
recordChunks: new SyncHook(["chunks", "records"]),
/** @type {SyncHook<[Iterable<Module>]>} */
optimizeCodeGeneration: new SyncHook(["modules"]),
/** @type {SyncHook<[]>} */
beforeModuleHash: new SyncHook([]),
/** @type {SyncHook<[]>} */
afterModuleHash: new SyncHook([]),
/** @type {SyncHook<[]>} */
beforeRuntimeRequirements: new SyncHook([]),
/** @type {SyncHook<[]>} */
afterRuntimeRequirements: new SyncHook([]),
/** @type {SyncHook<[]>} */
beforeHash: new SyncHook([]),
/** @type {SyncHook<[Chunk]>} */
contentHash: new SyncHook(["chunk"]),
/** @type {SyncHook<[]>} */
afterHash: new SyncHook([]),
/** @type {SyncHook<[any]>} */
recordHash: new SyncHook(["records"]),
/** @type {SyncHook<[Compilation, any]>} */
record: new SyncHook(["compilation", "records"]),
/** @type {SyncHook<[]>} */
beforeModuleAssets: new SyncHook([]),
/** @type {SyncBailHook<[], boolean>} */
shouldGenerateChunkAssets: new SyncBailHook([]),
/** @type {SyncHook<[]>} */
beforeChunkAssets: new SyncHook([]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
additionalChunkAssets: new SyncHook(["chunks"]),
/** @type {AsyncSeriesHook<[]>} */
additionalAssets: new AsyncSeriesHook([]),
/** @type {AsyncSeriesHook<[Iterable<Chunk>]>} */
optimizeChunkAssets: new AsyncSeriesHook(["chunks"]),
/** @type {SyncHook<[Iterable<Chunk>]>} */
afterOptimizeChunkAssets: new SyncHook(["chunks"]),
/** @type {AsyncSeriesHook<[CompilationAssets]>} */
optimizeAssets: new AsyncSeriesHook(["assets"]),
/** @type {SyncHook<[CompilationAssets]>} */
afterOptimizeAssets: new SyncHook(["assets"]),
/** @type {SyncBailHook<[], boolean>} */
needAdditionalSeal: new SyncBailHook([]),
/** @type {AsyncSeriesHook<[]>} */
afterSeal: new AsyncSeriesHook([]),
/** @type {SyncHook<[Chunk, Hash]>} */
chunkHash: new SyncHook(["chunk", "chunkHash"]),
/** @type {SyncHook<[Module, string]>} */
moduleAsset: new SyncHook(["module", "filename"]),
/** @type {SyncHook<[Chunk, string]>} */
chunkAsset: new SyncHook(["chunk", "filename"]),
/** @type {SyncWaterfallHook<[string, TODO]>} */
assetPath: new SyncWaterfallHook(["filename", "data"]), // TODO MainTemplate
/** @type {SyncBailHook<[], boolean>} */
needAdditionalPass: new SyncBailHook([]),
/** @type {SyncHook<[Compiler, string, number]>} */
childCompiler: new SyncHook([
"childCompiler",
"compilerName",
"compilerIndex"
]),
/** @type {HookMap<SyncHook<[Object, Object]>>} */
statsPreset: new HookMap(() => new SyncHook(["options", "context"])),
/** @type {SyncHook<[Object, Object]>} */
statsNormalize: new SyncHook(["options", "context"]),
/** @type {SyncHook<[StatsFactory, Object]>} */
statsFactory: new SyncHook(["statsFactory", "options"]),
/** @type {SyncHook<[StatsPrinter, Object]>} */
statsPrinter: new SyncHook(["statsPrinter", "options"]),
get normalModuleLoader() {
return getNormalModuleLoader();
}
});
/** @type {string=} */
this.name = undefined;
/** @type {Compiler} */
this.compiler = compiler;
this.resolverFactory = compiler.resolverFactory;
this.inputFileSystem = compiler.inputFileSystem;
this.fileSystemInfo = new FileSystemInfo(this.inputFileSystem);
if (compiler.fileTimestamps) {
this.fileSystemInfo.addFileTimestamps(compiler.fileTimestamps);
}
if (compiler.contextTimestamps) {
this.fileSystemInfo.addContextTimestamps(compiler.contextTimestamps);
}
this.requestShortener = compiler.requestShortener;
this.compilerPath = compiler.compilerPath;
this.cache = compiler.cache;
const options = compiler.options;
this.options = options;
this.outputOptions = options && options.output;
/** @type {boolean} */
this.bail = (options && options.bail) || false;
/** @type {boolean} */
this.profile = (options && options.profile) || false;
this.mainTemplate = new MainTemplate(this.outputOptions);
this.chunkTemplate = new ChunkTemplate(this.outputOptions);
this.runtimeTemplate = new RuntimeTemplate(
this.outputOptions,
this.requestShortener
);
/** @type {{javascript: ModuleTemplate, webassembly: ModuleTemplate}} */
this.moduleTemplates = {
javascript: new ModuleTemplate(this.runtimeTemplate, "javascript"),
webassembly: new ModuleTemplate(this.runtimeTemplate, "webassembly")
};
this.moduleGraph = new ModuleGraph();
this.chunkGraph = undefined;
/** @type {AsyncQueue<TODO, TODO, Module>} */
this.factorizeQueue = new AsyncQueue({
name: "factorize",
parallelism: options.parallelism || 100,
processor: this._factorizeModule.bind(this)
});
/** @type {AsyncQueue<Module, string, Module>} */
this.addModuleQueue = new AsyncQueue({
name: "addModule",
parallelism: options.parallelism || 100,
getKey: module => module.identifier(),
processor: this._addModule.bind(this)
});
/** @type {AsyncQueue<Module, Module, Module>} */
this.buildQueue = new AsyncQueue({
name: "build",
parallelism: options.parallelism || 100,
processor: this._buildModule.bind(this)
});
/** @type {AsyncQueue<Module, Module, Module>} */
this.rebuildQueue = new AsyncQueue({
name: "rebuild",
parallelism: options.parallelism || 100,
processor: this._rebuildModule.bind(this)
});
/** @type {AsyncQueue<Module, Module, Module>} */
this.processDependenciesQueue = new AsyncQueue({
name: "processDependencies",
parallelism: options.parallelism || 100,
processor: this._processModuleDependencies.bind(this)
});
/** @type {Map<string, EntryDependency[]>} */
this.entryDependencies = new Map();
/** @type {Map<string, Entrypoint>} */
this.entrypoints = new Map();
/** @type {Set<Chunk>} */
this.chunks = new Set();
arrayToSetDeprecation(this.chunks, "Compilation.chunks");
/** @type {ChunkGroup[]} */
this.chunkGroups = [];
/** @type {Map<string, ChunkGroup>} */
this.namedChunkGroups = new Map();
/** @type {Map<string, Chunk>} */
this.namedChunks = new Map();
/** @type {Set<Module>} */
this.modules = new Set();
arrayToSetDeprecation(this.modules, "Compilation.modules");
/** @private @type {Map<string, Module>} */
this._modules = new Map();
this.records = null;
/** @type {string[]} */
this.additionalChunkAssets = [];
/** @type {CompilationAssets} */
this.assets = {};
/** @type {WebpackError[]} */
this.errors = [];
/** @type {WebpackError[]} */
this.warnings = [];
/** @type {Compilation[]} */
this.children = [];
/** @type {Map<DepConstructor, ModuleFactory>} */
this.dependencyFactories = new Map();
/** @type {DependencyTemplates} */
this.dependencyTemplates = new DependencyTemplates();
this.childrenCounters = {};
/** @type {Set<number|string>} */
this.usedChunkIds = null;
/** @type {Set<number>} */
this.usedModuleIds = null;
/** @type {boolean} */
this.needAdditionalPass = false;
/** @type {WeakSet<Module>} */
this.builtModules = new WeakSet();
/** @private @type {Map<Module, Callback[]>} */
this._rebuildingModules = new Map();
/** @type {Set<string>} */
this.emittedAssets = new Set();
/** @type {Set<string>} */
this.fileDependencies = new Set();
/** @type {Set<string>} */
this.contextDependencies = new Set();
/** @type {Set<string>} */
this.missingDependencies = new Set();
}
getStats() {
return new Stats(this);
}
createStatsOptions(optionsOrPreset, context = {}) {
if (
typeof optionsOrPreset === "boolean" ||
typeof optionsOrPreset === "string"
) {
optionsOrPreset = { preset: optionsOrPreset };
}
if (typeof optionsOrPreset === "object" && optionsOrPreset !== null) {
const options = { ...optionsOrPreset };
if (options.preset !== undefined) {
this.hooks.statsPreset.for(options.preset).call(options, context);
}
this.hooks.statsNormalize.call(options, context);
return options;
} else {
const options = {};
this.hooks.statsNormalize.call(options, context);
return options;
}
}
createStatsFactory(options) {
const statsFactory = new StatsFactory();
this.hooks.statsFactory.call(statsFactory, options);
return statsFactory;
}
createStatsPrinter(options) {
const statsPrinter = new StatsPrinter();
this.hooks.statsPrinter.call(statsPrinter, options);
return statsPrinter;
}
/**
* @param {Module} module module to be added that was created
* @param {ModuleCallback} callback returns the module in the compilation,
* it could be the passed one (if new), or an already existing in the compilation
* @returns {void}
*/
addModule(module, callback) {
this.addModuleQueue.add(module, callback);
}
/**
* @param {Module} module module to be added that was created
* @param {ModuleCallback} callback returns the module in the compilation,
* it could be the passed one (if new), or an already existing in the compilation
* @returns {void}
*/
_addModule(module, callback) {
const identifier = module.identifier();
const alreadyAddedModule = this._modules.get(identifier);
if (alreadyAddedModule) {
return callback(null, alreadyAddedModule);
}
const currentProfile = this.profile
? this.moduleGraph.getProfile(module)
: undefined;
if (currentProfile !== undefined) {
currentProfile.markRestoringStart();
}
const cacheName = `${this.compilerPath}/module/${identifier}`;
this.cache.get(cacheName, null, (err, cacheModule) => {
if (err) return callback(new ModuleRestoreError(module, err));
if (currentProfile !== undefined) {
currentProfile.markRestoringEnd();
currentProfile.markIntegrationStart();
}
if (cacheModule) {
cacheModule.updateCacheModule(module);
module = cacheModule;
}
this._modules.set(identifier, module);
this.modules.add(module);
ModuleGraph.setModuleGraphForModule(module, this.moduleGraph);
if (currentProfile !== undefined) {
currentProfile.markIntegrationEnd();
}
callback(null, module);
});
}
/**
* Fetches a module from a compilation by its identifier
* @param {Module} module the module provided
* @returns {Module} the module requested
*/
getModule(module) {
const identifier = module.identifier();
return this._modules.get(identifier);
}
/**
* Attempts to search for a module by its identifier
* @param {string} identifier identifier (usually path) for module
* @returns {Module|undefined} attempt to search for module and return it, else undefined
*/
findModule(identifier) {
return this._modules.get(identifier);
}
/**
* Schedules a build of the module object
*
* @param {Module} module module to be built
* @param {ModuleCallback} callback the callback
* @returns {void}
*/
buildModule(module, callback) {
this.buildQueue.add(module, callback);
}
/**
* Builds the module object
*
* @param {Module} module module to be built
* @param {ModuleCallback} callback the callback
* @returns {void}
*/
_buildModule(module, callback) {
const currentProfile = this.profile
? this.moduleGraph.getProfile(module)
: undefined;
if (currentProfile !== undefined) {
currentProfile.markBuildingStart();
}
module.needBuild(
{
fileSystemInfo: this.fileSystemInfo
},
(err, needBuild) => {
if (err) return callback(err);
if (!needBuild) {
if (currentProfile !== undefined) {
currentProfile.markBuildingEnd();
}
return callback();
}
this.hooks.buildModule.call(module);
this.builtModules.add(module);
module.build(
this.options,
this,
this.resolverFactory.get("normal", module.resolveOptions),
this.inputFileSystem,
err => {
if (currentProfile !== undefined) {
currentProfile.markBuildingEnd();
}
if (err) {
this.hooks.failedModule.call(module, err);
return callback(err);
}
if (currentProfile !== undefined) {
currentProfile.markStoringStart();
}
this.cache.store(
`${this.compilerPath}/module/${module.identifier()}`,
null,
module,
err => {
if (currentProfile !== undefined) {
currentProfile.markStoringEnd();
}
if (err) {
this.hooks.failedModule.call(module, err);
return callback(err);
}
this.hooks.succeedModule.call(module);
return callback();
}
);
}
);
}
);
}
/**
* @param {Module} module to be processed for deps
* @param {ModuleCallback} callback callback to be triggered
* @returns {void}
*/
processModuleDependencies(module, callback) {
this.processDependenciesQueue.add(module, callback);
}
/**
* @param {Module} module to be processed for deps
* @param {ModuleCallback} callback callback to be triggered
* @returns {void}
*/
_processModuleDependencies(module, callback) {
const dependencies = new Map();
let currentBlock = module;
const processDependency = dep => {
this.moduleGraph.setParents(dep, currentBlock, module);
const resourceIdent = dep.getResourceIdentifier();
if (resourceIdent) {
const factory = this.dependencyFactories.get(dep.constructor);
if (factory === undefined) {
throw new Error(
`No module factory available for dependency type: ${dep.constructor.name}`
);
}
let innerMap = dependencies.get(factory);
if (innerMap === undefined) {
dependencies.set(factory, (innerMap = new Map()));
}
let list = innerMap.get(resourceIdent);
if (list === undefined) innerMap.set(resourceIdent, (list = []));
list.push(dep);
}
};
const processDependenciesBlock = block => {
if (block.dependencies) {
currentBlock = block;
iterationOfArrayCallback(block.dependencies, processDependency);
}
if (block.blocks) {
iterationOfArrayCallback(block.blocks, processDependenciesBlock);
}
};
try {
processDependenciesBlock(module);
} catch (e) {
return callback(e);
}
const sortedDependencies = [];
for (const pair1 of dependencies) {
for (const pair2 of pair1[1]) {
sortedDependencies.push({
factory: pair1[0],
dependencies: pair2[1]
});
}
}
if (sortedDependencies.length === 0) {
callback();
return;
}
process.nextTick(() => {
// This is nested so we need to allow one additional task
this.processDependenciesQueue.increaseParallelism();
asyncLib.forEach(
sortedDependencies,
(item, callback) => {
this.handleModuleCreation(
{
factory: item.factory,
dependencies: item.dependencies,
originModule: module
},
err => {
// In V8, the Error objects keep a reference to the functions on the stack. These warnings &
// errors are created inside closures that keep a reference to the Compilation, so errors are
// leaking the Compilation object.
if (err && this.bail) {
// eslint-disable-next-line no-self-assign
err.stack = err.stack;
return callback(err);
}
callback();
}
);
},
err => {
this.processDependenciesQueue.decreaseParallelism();
return callback(err);
}
);
});
}
/**
* @typedef {Object} HandleModuleCreationOptions
* @property {ModuleFactory} factory
* @property {Dependency[]} dependencies
* @property {Module | null} originModule
* @property {string=} context
*/
/**
* @param {HandleModuleCreationOptions} options options object
* @param {ModuleCallback} callback callback
* @returns {void}
*/
handleModuleCreation(
{ factory, dependencies, originModule, context },
callback
) {
const moduleGraph = this.moduleGraph;
const currentProfile = this.profile ? new ModuleProfile() : undefined;
this.factorizeModule(
{ currentProfile, factory, dependencies, originModule, context },
(err, newModule) => {
if (err) {
if (dependencies.every(d => d.optional)) {
this.warnings.push(err);
} else {
this.errors.push(err);
}
return callback(err);
}
if (!newModule) {
return callback();
}
if (currentProfile !== undefined) {
moduleGraph.setProfile(newModule, currentProfile);
}
this.addModule(newModule, (err, module) => {
if (err) {
if (!err.module) {
err.module = module;
}
this.errors.push(err);
return callback(err);
}
for (let i = 0; i < dependencies.length; i++) {
const dependency = dependencies[i];
moduleGraph.setResolvedModule(originModule, dependency, module);
}
if (moduleGraph.getIssuer(module) === undefined) {
moduleGraph.setIssuer(
module,
originModule !== undefined ? originModule : null
);
}
if (module !== newModule) {
if (currentProfile !== undefined) {
const otherProfile = moduleGraph.getProfile(module);
if (otherProfile !== undefined) {
currentProfile.mergeInto(otherProfile);
} else {
moduleGraph.setProfile(module, currentProfile);
}
}
}
this.buildModule(module, err => {
if (err) {
if (!err.module) {
err.module = module;
}
this.errors.push(err);
return callback(err);
}
// This avoids deadlocks for circular dependencies
if (this.processDependenciesQueue.isProcessing(module)) {
return callback();
}
this.processModuleDependencies(module, err => {
if (err) {
return callback(err);
}
callback(null, module);
});
});
});
}
);
}
/**
* @typedef {Object} FactorizeModuleOptions
* @property {ModuleProfile} currentProfile
* @property {ModuleFactory} factory
* @property {Dependency[]} dependencies
* @property {Module | null} originModule
* @property {string=} context
*/
/**
* @param {FactorizeModuleOptions} options options object
* @param {ModuleCallback} callback callback
* @returns {void}
*/
factorizeModule(options, callback) {
this.factorizeQueue.add(options, callback);
}
/**
* @param {FactorizeModuleOptions} options options object
* @param {ModuleCallback} callback callback
* @returns {void}
*/
_factorizeModule(
{ currentProfile, factory, dependencies, originModule, context },
callback
) {
if (currentProfile !== undefined) {
currentProfile.markFactoryStart();
}
factory.create(
{
contextInfo: {
issuer: originModule ? originModule.nameForCondition() : "",
compiler: this.compiler.name
},
resolveOptions: originModule ? originModule.resolveOptions : undefined,
context: context
? context
: originModule
? originModule.context
: this.compiler.context,
dependencies: dependencies
},
(err, result) => {
if (result) {
const {
fileDependencies,
contextDependencies,
missingDependencies
} = result;
if (fileDependencies) {
addAllToSet(this.fileDependencies, fileDependencies);
}
if (contextDependencies) {
addAllToSet(this.contextDependencies, contextDependencies);
}
if (missingDependencies) {
addAllToSet(this.missingDependencies, missingDependencies);
}
}
if (err) {
const notFoundError = new ModuleNotFoundError(
originModule,
err,
dependencies.map(d => d.loc).filter(Boolean)[0]
);
return callback(notFoundError);
}
if (!result) {
return callback();
}
const newModule = result.module;
if (!newModule) {
return callback();
}
if (currentProfile !== undefined) {
currentProfile.markFactoryEnd();
}
callback(null, newModule);
}
);
}
/**
*
* @param {string} context context string path
* @param {Dependency} dependency dependency used to create Module chain
* @param {ModuleCallback} callback callback for when module chain is complete
* @returns {void} will throw if dependency instance is not a valid Dependency
*/
addModuleChain(context, dependency, callback) {
if (
typeof dependency !== "object" ||
dependency === null ||
!dependency.constructor
) {
return callback(
new WebpackError("Parameter 'dependency' must be a Dependency")
);
}
const Dep = /** @type {DepConstructor} */ (dependency.constructor);
const moduleFactory = this.dependencyFactories.get(Dep);
if (!moduleFactory) {
return callback(
new WebpackError(
`No dependency factory available for this dependency type: ${dependency.constructor.name}`
)
);
}
this.handleModuleCreation(
{
factory: moduleFactory,
dependencies: [dependency],
originModule: null,
context
},
err => {
if (err && this.bail) {
callback(err);
this.buildQueue.stop();
this.rebuildQueue.stop();
this.processDependenciesQueue.stop();
this.factorizeQueue.stop();
} else {
callback();
}
}
);
}
/**
*
* @param {string} context context path for entry
* @param {EntryDependency} entry entry dependency being created
* @param {string} name name of entry
* @param {ModuleCallback} callback callback function
* @returns {void} returns
*/
addEntry(context, entry, name, callback) {
this.hooks.addEntry.call(entry, name);
let entriesArray = this.entryDependencies.get(name);
if (entriesArray === undefined) {
entriesArray = [];
this.entryDependencies.set(name, entriesArray);
}
entriesArray.push(entry);
this.addModuleChain(context, entry, (err, module) => {
if (err) {
this.hooks.failedEntry.call(entry, name, err);
return callback(err);
}
this.hooks.succeedEntry.call(entry, name, module);
return callback(null, module);
});
}
/**
* @param {Module} module module to be rebuilt
* @param {ModuleCallback} callback callback when module finishes rebuilding
* @returns {void}
*/
rebuildModule(module, callback) {
this.rebuildQueue.add(module, callback);
}
/**
* @param {Module} module module to be rebuilt
* @param {ModuleCallback} callback callback when module finishes rebuilding
* @returns {void}
*/
_rebuildModule(module, callback) {
this.hooks.rebuildModule.call(module);
const oldDependencies = module.dependencies.slice();
const oldBlocks = module.blocks.slice();
module.invalidateBuild();
this.buildQueue.invalidate(module);
this.buildModule(module, err => {
if (err) {
return this.hooks.finishRebuildingModule.callAsync(module, err2 => {
if (err2) {
callback(
makeWebpackError(err2, "Compilation.hooks.finishRebuildingModule")
);
return;
}
callback(err);
});
}
this.processModuleDependencies(module, err => {
if (err) return callback(err);
this.removeReasonsOfDependencyBlock(module, {
dependencies: oldDependencies,
blocks: oldBlocks
});
this.hooks.finishRebuildingModule.callAsync(module, err2 => {
if (err2) {
callback(
makeWebpackError(err2, "Compilation.hooks.finishRebuildingModule")
);
return;
}
callback(null, module);
});
});
});
}
finish(callback) {
const modules = this.modules;
this.hooks.finishModules.callAsync(modules, err => {
if (err) return callback(err);
// extract warnings and errors from modules
for (const module of modules) {
this.reportDependencyErrorsAndWarnings(module, [module]);
if (module.isOptional(this.moduleGraph)) {
for (const error of module.errors) {
if (!error.module) {
error.module = module;
}
this.warnings.push(error);
}
} else {
for (const error of module.errors) {
if (!error.module) {
error.module = module;
}
this.errors.push(error);
}
}
for (const warning of module.warnings) {
if (!warning.module) {
warning.module = module;
}
this.warnings.push(warning);
}
}
callback();
});
}
unseal() {
this.hooks.unseal.call();
this.chunks.clear();
this.chunkGroups.length = 0;
this.namedChunks.clear();
this.namedChunkGroups.clear();
this.entrypoints.clear();
this.additionalChunkAssets.length = 0;
this.assets = {};
this.moduleGraph.removeAllModuleAttributes();
}
/**
* @param {Callback} callback signals when the call finishes
* @returns {void}
*/
seal(callback) {
const chunkGraph = new ChunkGraph(this.moduleGraph);
this.chunkGraph = chunkGraph;
for (const module of this.modules) {
ChunkGraph.setChunkGraphForModule(module, chunkGraph);
}
this.hooks.seal.call();
while (this.hooks.optimizeDependencies.call(this.modules)) {
/* empty */
}
this.hooks.afterOptimizeDependencies.call(this.modules);
this.hooks.beforeChunks.call();
for (const [name, dependencies] of this.entryDependencies) {
const chunk = this.addChunk(name);
chunk.name = name;
const entrypoint = new Entrypoint(name);
entrypoint.setRuntimeChunk(chunk);
this.namedChunkGroups.set(name, entrypoint);
this.entrypoints.set(name, entrypoint);
this.chunkGroups.push(entrypoint);
connectChunkGroupAndChunk(entrypoint, chunk);
for (const dep of dependencies) {
entrypoint.addOrigin(null, { name }, dep.request);
const module = this.moduleGraph.getModule(dep);
if (module) {
chunkGraph.connectChunkAndModule(chunk, module);
chunkGraph.connectChunkAndEntryModule(chunk, module, entrypoint);
this.assignDepth(module);
}
}
}
this.processDependenciesBlocksForChunkGroups(
/** @type {Entrypoint[]} */ (this.chunkGroups.slice())
);
this.hooks.afterChunks.call(this.chunks);
this.hooks.optimize.call();
while (this.hooks.optimizeModules.call(this.modules)) {
/* empty */
}
this.hooks.afterOptimizeModules.call(this.modules);
while (this.hooks.optimizeChunks.call(this.chunks, this.chunkGroups)) {
/* empty */
}
this.hooks.afterOptimizeChunks.call(this.chunks, this.chunkGroups);
this.hooks.optimizeTree.callAsync(this.chunks, this.modules, err => {
if (err) {
return callback(
makeWebpackError(err, "Compilation.hooks.optimizeTree")
);
}
this.hooks.afterOptimizeTree.call(this.chunks, this.modules);
while (this.hooks.optimizeChunkModules.call(this.chunks, this.modules)) {
/* empty */
}
this.hooks.afterOptimizeChunkModules.call(this.chunks, this.modules);
const shouldRecord = this.hooks.shouldRecord.call() !== false;
this.hooks.reviveModules.call(this.modules, this.records);
this.hooks.beforeModuleIds.call(this.modules);
this.hooks.moduleIds.call(this.modules);
this.hooks.optimizeModuleIds.call(this.modules);
this.hooks.afterOptimizeModuleIds.call(this.modules);
this.hooks.reviveChunks.call(this.chunks, this.records);
this.hooks.beforeChunkIds.call(this.chunks);
this.hooks.chunkIds.call(this.chunks);
this.hooks.optimizeChunkIds.call(this.chunks);
this.hooks.afterOptimizeChunkIds.call(this.chunks);
this.sortItemsWithChunkIds();
if (shouldRecord) {
this.hooks.recordModules.call(this.modules, this.records);
this.hooks.recordChunks.call(this.chunks, this.records);
}
this.hooks.optimizeCodeGeneration.call(this.modules);
this.hooks.beforeModuleHash.call();
this.createModuleHashes();
this.hooks.afterModuleHash.call();
this.hooks.beforeRuntimeRequirements.call();
this.processRuntimeRequirements(this.entrypoints.values());
this.hooks.afterRuntimeRequirements.call();
this.hooks.beforeHash.call();
this.createHash();
this.hooks.afterHash.call();
if (shouldRecord) {
this.hooks.recordHash.call(this.records);
}
this.hooks.beforeModuleAssets.call();
this.createModuleAssets();
const cont = () => {
this.hooks.additionalChunkAssets.call(this.chunks);
this.summarizeDependencies();
if (shouldRecord) {
this.hooks.record.call(this, this.records);
}
this.hooks.additionalAssets.callAsync(err => {
if (err) {
return callback(
makeWebpackError(err, "Compilation.hooks.additionalAssets")
);
}
this.hooks.optimizeChunkAssets.callAsync(this.chunks, err => {
if (err) {
return callback(
makeWebpackError(err, "Compilation.hooks.optimizeChunkAssets")
);
}
this.hooks.afterOptimizeChunkAssets.call(this.chunks);
this.hooks.optimizeAssets.callAsync(this.assets, err => {
if (err) {
return callback(
makeWebpackError(err, "Compilation.hooks.optimizeAssets")
);
}
this.hooks.afterOptimizeAssets.call(this.assets);
if (this.hooks.needAdditionalSeal.call()) {
this.unseal();
return this.seal(callback);
}
return this.hooks.afterSeal.callAsync(callback);
});
});
});
};
if (this.hooks.shouldGenerateChunkAssets.call() !== false) {
this.hooks.beforeChunkAssets.call();
this.createChunkAssets(err => {
if (err) {
return callback(err);
}
cont();
});
} else {
cont();
}
});
}
/**
* @param {Module} module moulde to report from
* @param {DependenciesBlock[]} blocks blocks to report from
* @returns {void}
*/
reportDependencyErrorsAndWarnings(module, blocks) {
for (let indexBlock = 0; indexBlock < blocks.length; indexBlock++) {
const block = blocks[indexBlock];
const dependencies = block.dependencies;
for (let indexDep = 0; indexDep < dependencies.length; indexDep++) {
const d = dependencies[indexDep];
const warnings = d.getWarnings(this.moduleGraph);
if (warnings) {
for (let indexWar = 0; indexWar < warnings.length; indexWar++) {
const w = warnings[indexWar];
const warning = new ModuleDependencyWarning(module, w, d.loc);
this.warnings.push(warning);
}
}
const errors = d.getErrors(this.moduleGraph);
if (errors) {
for (let indexErr = 0; indexErr < errors.length; indexErr++) {
const e = errors[indexErr];
const error = new ModuleDependencyError(module, e, d.loc);
this.errors.push(error);
}
}
}
this.reportDependencyErrorsAndWarnings(module, block.blocks);
}
}
/**
* @param {Iterable<Entrypoint>} entrypoints the entrypoints
* @returns {void}
*/
processRuntimeRequirements(entrypoints) {
const {
chunkGraph,
moduleGraph,
runtimeTemplate,
dependencyTemplates
} = this;
const additionalModuleRuntimeRequirements = /** @type {TODO} */ (this.hooks
.additionalModuleRuntimeRequirements);
const runtimeRequirementInModule = this.hooks.runtimeRequirementInModule;
for (const module of this.modules) {
if (chunkGraph.getNumberOfModuleChunks(module) > 0) {
const runtimeRequirements = module.getRuntimeRequirements({
dependencyTemplates,
runtimeTemplate,
moduleGraph,
chunkGraph
});
let set;
if (runtimeRequirements) {
set = new Set(runtimeRequirements);
} else if (additionalModuleRuntimeRequirements.isUsed()) {
set = new Set();
} else {
continue;
}
additionalModuleRuntimeRequirements.call(module, set);
for (const r of set) {
const hook = runtimeRequirementInModule.get(r);
if (hook !== undefined) hook.call(module, set);
}
chunkGraph.addModuleRuntimeRequirements(module, set);
}
}
for (const chunk of this.chunks) {
const set = new Set();
for (const module of chunkGraph.getChunkModulesIterable(chunk)) {
const runtimeRequirements = chunkGraph.getModuleRuntimeRequirements(
module
);
for (const r of runtimeRequirements) set.add(r);
}
this.hooks.additionalChunkRuntimeRequirements.call(chunk, set);
for (const r of set) {
this.hooks.runtimeRequirementInChunk.for(r).call(chunk, set);
}
chunkGraph.addChunkRuntimeRequirements(chunk, set);
}
const treeEntries = new Set(
Array.from(entrypoints).map(ep => ep.getRuntimeChunk())
);
for (const chunk of treeEntries) {
const allReferencedChunks = new Set();
const queue = new Set(chunk.groupsIterable);
for (const chunkGroup of queue) {
for (const chunk of chunkGroup.chunks) {
allReferencedChunks.add(chunk);
}
for (const child of chunkGroup.childrenIterable) {
queue.add(child);
}
}
const set = new Set();
for (const chunk of allReferencedChunks) {
const runtimeRequirements = chunkGraph.getChunkRuntimeRequirements(
chunk
);
for (const r of runtimeRequirements) set.add(r);
}
this.hooks.additionalTreeRuntimeRequirements.call(chunk, set);
for (const r of set) {
this.hooks.runtimeRequirementInTree.for(r).call(chunk, set);
}
chunkGraph.addTreeRuntimeRequirements(chunk, set);
}
}
/**
* @param {Chunk} chunk target chunk
* @param {RuntimeModule} module runtime module
* @returns {void}
*/
addRuntimeModule(chunk, module) {
// Deprecated ModuleGraph association
ModuleGraph.setModuleGraphForModule(module, this.moduleGraph);
// add it to the list
this.modules.add(module);
this._modules.set(module.identifier(), module);
// connect to the chunk graph
this.chunkGraph.connectChunkAndModule(chunk, module);
this.chunkGraph.connectChunkAndRuntimeModule(chunk, module);
// Setup internals
const exportsInfo = this.moduleGraph.getExportsInfo(module);
exportsInfo.setHasProvideInfo();
exportsInfo.setUsedForSideEffectsOnly();
this.chunkGraph.addModuleRuntimeRequirements(module, [
RuntimeGlobals.require
]);
// runtime modules don't need ids
this.chunkGraph.setModuleId(module, "");
// Call hook
this.hooks.runtimeModule.call(module, chunk);
}
/**
* @param {string|ChunkGroupOptions} groupOptions options for the chunk group
* @param {Module} module the module the references the chunk group
* @param {DependencyLocation} loc the location from with the chunk group is referenced (inside of module)
* @param {string} request the request from which the the chunk group is referenced
* @returns {ChunkGroup} the new or existing chunk group
*/
addChunkInGroup(groupOptions, module, loc, request) {
if (typeof groupOptions === "string") {
groupOptions = { name: groupOptions };
}
const name = groupOptions.name;
if (name) {
const chunkGroup = this.namedChunkGroups.get(name);
if (chunkGroup !== undefined) {
chunkGroup.addOptions(groupOptions);
if (module) {
chunkGroup.addOrigin(module, loc, request);
}
return chunkGroup;
}
}
const chunkGroup = new ChunkGroup(groupOptions);
if (module) chunkGroup.addOrigin(module, loc, request);
const chunk = this.addChunk(name);
connectChunkGroupAndChunk(chunkGroup, chunk);
this.chunkGroups.push(chunkGroup);
if (name) {
this.namedChunkGroups.set(name, chunkGroup);
}
return chunkGroup;
}
/**
* This method first looks to see if a name is provided for a new chunk,
* and first looks to see if any named chunks already exist and reuse that chunk instead.
*
* @param {string=} name optional chunk name to be provided
* @returns {Chunk} create a chunk (invoked during seal event)
*/
addChunk(name) {
if (name) {
const chunk = this.namedChunks.get(name);
if (chunk !== undefined) {
return chunk;
}
}
const chunk = new Chunk(name);
this.chunks.add(chunk);
ChunkGraph.setChunkGraphForChunk(chunk, this.chunkGraph);
if (name) {
this.namedChunks.set(name, chunk);
}
return chunk;
}
/**
* @param {Module} module module to assign depth
* @returns {void}
*/
assignDepth(module) {
const moduleGraph = this.moduleGraph;
const queue = new Set([module]);
let depth;
moduleGraph.setDepth(module, 0);
/**
* @param {Module} module module for processeing
* @returns {void}
*/
const enqueueJob = module => {
if (!moduleGraph.setDepthIfLower(module, depth)) return;
queue.add(module);
};
/**
* @param {Dependency} dependency dependency to assign depth to
* @returns {void}
*/
const assignDepthToDependency = dependency => {
const module = this.moduleGraph.getModule(dependency);
if (module) {
enqueueJob(module);
}
};
/**
* @param {DependenciesBlock} block block to assign depth to
* @returns {void}
*/
const assignDepthToDependencyBlock = block => {
if (block.dependencies) {
iterationOfArrayCallback(block.dependencies, assignDepthToDependency);
}
if (block.blocks) {
iterationOfArrayCallback(block.blocks, assignDepthToDependencyBlock);
}
};
for (module of queue) {
queue.delete(module);
depth = moduleGraph.getDepth(module) + 1;
assignDepthToDependencyBlock(module);
}
}
/**
* @param {Dependency} dependency the dependency
* @returns {DependencyReference} a reference for the dependency
*/
getDependencyReference(dependency) {
const ref = dependency.getReference(this.moduleGraph);
if (!ref) return null;
return this.hooks.dependencyReference.call(ref, dependency);
}
/**
* This method creates the Chunk graph from the Module graph
* @private
* @param {Entrypoint[]} inputChunkGroups chunk groups which are processed
* @returns {void}
*/
processDependenciesBlocksForChunkGroups(inputChunkGroups) {
// Process is splitting into two parts:
// Part one traverse the module graph and builds a very basic chunks graph
// in chunkDependencies.
// Part two traverse every possible way through the basic chunk graph and
// tracks the available modules. While traversing it connects chunks with
// eachother and Blocks with Chunks. It stops traversing when all modules
// for a chunk are already available. So it doesn't connect unneeded chunks.
const moduleGraph = this.moduleGraph;
/** @typedef {{block: AsyncDependenciesBlock, chunkGroup: ChunkGroup, couldBeFiltered: boolean}} ChunkGroupDep */
/** @type {Map<ChunkGroup, ChunkGroupDep[]>} */
const chunkDependencies = new Map();
/** @type {Set<ChunkGroup>} */
const allCreatedChunkGroups = new Set();
// PREPARE
/** @type {Map<DependenciesBlock, { modules: Module[], blocks: AsyncDependenciesBlock[]}>} */
const blockInfoMap = new Map();
/**
* @param {Dependency} d dependency to iterate over
* @returns {void}
*/
const iteratorDependency = d => {
// We skip Dependencies without Reference
const ref = this.getDependencyReference(d);
if (!ref) {
return;
}
// We skip Dependencies without Module pointer
const refModule = ref.module;
if (!refModule) {
return;
}
// We skip weak Dependencies
if (ref.weak) {
return;
}
blockInfoModules.add(refModule);
};
/**
* @param {AsyncDependenciesBlock} b blocks to prepare
* @returns {void}
*/
const iteratorBlockPrepare = b => {
blockInfoBlocks.push(b);
blockQueue.push(b);
};
/** @type {DependenciesBlock} */
let block;
/** @type {DependenciesBlock[]} */
let blockQueue;
/** @type {Set<Module>} */
let blockInfoModules;
/** @type {AsyncDependenciesBlock[]} */
let blockInfoBlocks;
for (const module of this.modules) {
blockQueue = [module];
while (blockQueue.length > 0) {
block = blockQueue.pop();
blockInfoModules = new Set();
blockInfoBlocks = [];
if (block.dependencies) {
iterationOfArrayCallback(block.dependencies, iteratorDependency);
}
if (block.blocks) {
iterationOfArrayCallback(block.blocks, iteratorBlockPrepare);
}
const blockInfo = {
modules: Array.from(blockInfoModules),
blocks: blockInfoBlocks
};
blockInfoMap.set(block, blockInfo);
}
}
const chunkGraph = this.chunkGraph;
// PART ONE
/** @type {Map<ChunkGroup, { preOrderIndex: number, postOrderIndex: number }>} */
const chunkGroupCounters = new Map();
for (const chunkGroup of inputChunkGroups) {
chunkGroupCounters.set(chunkGroup, {
preOrderIndex: 0,
postOrderIndex: 0
});
}
let nextFreeModulePreOrderIndex = 0;
let nextFreeModulePostOrderIndex = 0;
/** @type {Map<DependenciesBlock, ChunkGroup>} */
const blockChunkGroups = new Map();
/** @type {Set<DependenciesBlock>} */
const blocksWithNestedBlocks = new Set();
const ADD_AND_ENTER_MODULE = 0;
const ENTER_MODULE = 1;
const PROCESS_BLOCK = 2;
const LEAVE_MODULE = 3;
/**
* @typedef {Object} QueueItem
* @property {number} action
* @property {DependenciesBlock} block
* @property {Module} module
* @property {Chunk} chunk
* @property {ChunkGroup} chunkGroup
*/
/**
* @param {QueueItem[]} queue the queue array (will be mutated)
* @param {ChunkGroup} chunkGroup chunk group
* @returns {QueueItem[]} the queue array again
*/
const reduceChunkGroupToQueueItem = (queue, chunkGroup) => {
for (const chunk of chunkGroup.chunks) {
for (const module of chunkGraph.getChunkEntryModulesIterable(chunk)) {
queue.push({
action: ENTER_MODULE,
block: module,
module,
chunk,
chunkGroup
});
}
}
return queue;
};
// Start with the provided modules/chunks
/** @type {QueueItem[]} */
let queue = inputChunkGroups
.reduce(reduceChunkGroupToQueueItem, [])
.reverse();
/** @type {QueueItem[]} */
let queueDelayed = [];
/** @type {Module} */
let module;
/** @type {Chunk} */
let chunk;
/** @type {ChunkGroup} */
let chunkGroup;
// For each async Block in graph
/**
* @param {AsyncDependenciesBlock} b iterating over each Async DepBlock
* @returns {void}
*/
const iteratorBlock = b => {
// 1. We create a chunk for this Block
// but only once (blockChunkGroups map)
let c = blockChunkGroups.get(b);
if (c === undefined) {
c = this.namedChunkGroups.get(b.chunkName);
if (c && c.isInitial()) {
this.errors.push(
new AsyncDependencyToInitialChunkError(b.chunkName, module, b.loc)
);
c = chunkGroup;
} else {
c = this.addChunkInGroup(
b.groupOptions || b.chunkName,
module,
b.loc,
b.request
);
chunkGroupCounters.set(c, { preOrderIndex: 0, postOrderIndex: 0 });
blockChunkGroups.set(b, c);
allCreatedChunkGroups.add(c);
}
} else {
c.addOptions(b.groupOptions);
c.addOrigin(module, b.loc, b.request);
}
// 2. We store the Block+Chunk mapping as dependency for the chunk
let deps = chunkDependencies.get(chunkGroup);
if (!deps) chunkDependencies.set(chunkGroup, (deps = []));
deps.push({
block: b,
chunkGroup: c,
couldBeFiltered: true
});
// 3. We enqueue the DependenciesBlock for traversal
queueDelayed.push({
action: PROCESS_BLOCK,
block: b,
module: module,
chunk: c.chunks[0],
chunkGroup: c
});
};
// Iterative traversal of the Module graph
// Recursive would be simpler to write but could result in Stack Overflows
while (queue.length) {
while (queue.length) {
const queueItem = queue.pop();
module = queueItem.module;
block = queueItem.block;
chunk = queueItem.chunk;
chunkGroup = queueItem.chunkGroup;
switch (queueItem.action) {
case ADD_AND_ENTER_MODULE: {
// We connect Module and Chunk when not already done
if (!chunkGraph.connectChunkAndModule(chunk, module)) {
// already connected, skip it
break;
}
}
// fallthrough
case ENTER_MODULE: {
if (chunkGroup !== undefined) {
const index = chunkGroup.getModulePreOrderIndex(module);
if (index === undefined) {
chunkGroup.setModulePreOrderIndex(
module,
chunkGroupCounters.get(chunkGroup).preOrderIndex++
);
}
}
if (
moduleGraph.setPreOrderIndexIfUnset(
module,
nextFreeModulePreOrderIndex
)
) {
nextFreeModulePreOrderIndex++;
}
queue.push({
action: LEAVE_MODULE,
block,
module,
chunk,
chunkGroup
});
}
// fallthrough
case PROCESS_BLOCK: {
// get prepared block info
const blockInfo = blockInfoMap.get(block);
// Traverse all referenced modules
for (let i = blockInfo.modules.length - 1; i >= 0; i--) {
const refModule = blockInfo.modules[i];
if (chunkGraph.isModuleInChunk(refModule, chunk)) {
// skip early if already connected
continue;
}
// enqueue the add and enter to enter in the correct order
// this is relevant with circular dependencies
queue.push({
action: ADD_AND_ENTER_MODULE,
block: refModule,
module: refModule,
chunk,
chunkGroup
});
}
// Traverse all Blocks
iterationOfArrayCallback(blockInfo.blocks, iteratorBlock);
if (blockInfo.blocks.length > 0 && module !== block) {
blocksWithNestedBlocks.add(block);
}
break;
}
case LEAVE_MODULE: {
if (chunkGroup !== undefined) {
const index = chunkGroup.getModulePostOrderIndex(module);
if (index === undefined) {
chunkGroup.setModulePostOrderIndex(
module,
chunkGroupCounters.get(chunkGroup).postOrderIndex++
);
}
}
if (
moduleGraph.setPostOrderIndexIfUnset(
module,
nextFreeModulePostOrderIndex
)
) {
nextFreeModulePostOrderIndex++;
}
break;
}
}
}
const tempQueue = queue;
queue = queueDelayed.reverse();
queueDelayed = tempQueue;
}
// PART TWO
/** @type {Set<Module>} */
let newAvailableModules;
/**
* @typedef {Object} ChunkGroupInfo
* @property {Set<Module>} minAvailableModules current minimal set of modules available at this point
* @property {Set<Module>[]} availableModulesToBeMerged enqueued updates to the minimal set of available modules
*/
/** @type {Map<ChunkGroup, ChunkGroupInfo>} */
const chunkGroupInfoMap = new Map();
/** @type {Queue<ChunkGroup>} */
const queue2 = new Queue(inputChunkGroups);
for (const chunkGroup of inputChunkGroups) {
chunkGroupInfoMap.set(chunkGroup, {
minAvailableModules: undefined,
availableModulesToBeMerged: [new Set()]
});
}
/**
* Helper function to check if all modules of a chunk are available
*
* @param {ChunkGroup} chunkGroup the chunkGroup to scan
* @param {Set<Module>} availableModules the comparitor set
* @returns {boolean} return true if all modules of a chunk are available
*/
const areModulesAvailable = (chunkGroup, availableModules) => {
for (const chunk of chunkGroup.chunks) {
for (const module of chunkGraph.getChunkModulesIterable(chunk)) {
if (!availableModules.has(module)) return false;
}
}
return true;
};
// For each edge in the basic chunk graph
/**
* @param {ChunkGroupDep} dep the dependency used for filtering
* @returns {boolean} used to filter "edges" (aka Dependencies) that were pointing
* to modules that are already available. Also filters circular dependencies in the chunks graph
*/
const filterFn = dep => {
const depChunkGroup = dep.chunkGroup;
if (!dep.couldBeFiltered) return true;
if (blocksWithNestedBlocks.has(dep.block)) return true;
if (areModulesAvailable(depChunkGroup, newAvailableModules)) {
return false; // break all modules are already available
}
dep.couldBeFiltered = false;
return true;
};
// Iterative traversing of the basic chunk graph
while (queue2.length) {
chunkGroup = queue2.dequeue();
const info = chunkGroupInfoMap.get(chunkGroup);
const availableModulesToBeMerged = info.availableModulesToBeMerged;
let minAvailableModules = info.minAvailableModules;
// 1. Get minimal available modules
// It doesn't make sense to traverse a chunk again with more available modules.
// This step calculates the minimal available modules and skips traversal when
// the list didn't shrink.
availableModulesToBeMerged.sort(bySetSize);
let changed = false;
for (const availableModules of availableModulesToBeMerged) {
if (minAvailableModules === undefined) {
minAvailableModules = new Set(availableModules);
info.minAvailableModules = minAvailableModules;
changed = true;
} else {
for (const m of minAvailableModules) {
if (!availableModules.has(m)) {
minAvailableModules.delete(m);
changed = true;
}
}
}
}
availableModulesToBeMerged.length = 0;
if (!changed) continue;
// 2. Get the edges at this point of the graph
const deps = chunkDependencies.get(chunkGroup);
if (!deps) continue;
if (deps.length === 0) continue;
// 3. Create a new Set of available modules at this points
newAvailableModules = new Set(minAvailableModules);
for (const chunk of chunkGroup.chunks) {
for (const m of chunkGraph.getChunkModulesIterable(chunk)) {
newAvailableModules.add(m);
}
}
// 4. Foreach remaining edge
const nextChunkGroups = new Set();
for (let i = 0; i < deps.length; i++) {
const dep = deps[i];
// Filter inline, rather than creating a new array from `.filter()`
if (!filterFn(dep)) {
continue;
}
const depChunkGroup = dep.chunkGroup;
const depBlock = dep.block;
// 5. Connect block with chunk
chunkGraph.connectBlockAndChunkGroup(depBlock, depChunkGroup);
// 6. Connect chunk with parent
connectChunkGroupParentAndChild(chunkGroup, depChunkGroup);
nextChunkGroups.add(depChunkGroup);
}
// 7. Enqueue further traversal
for (const nextChunkGroup of nextChunkGroups) {
let nextInfo = chunkGroupInfoMap.get(nextChunkGroup);
if (nextInfo === undefined) {
nextInfo = {
minAvailableModules: undefined,
availableModulesToBeMerged: []
};
chunkGroupInfoMap.set(nextChunkGroup, nextInfo);
}
nextInfo.availableModulesToBeMerged.push(newAvailableModules);
// As queue deduplicates enqueued items this makes sure that a ChunkGroup
// is not enqueued twice
queue2.enqueue(nextChunkGroup);
}
}
// Remove all unconnected chunk groups
for (const chunkGroup of allCreatedChunkGroups) {
if (chunkGroup.getNumberOfParents() === 0) {
for (const chunk of chunkGroup.chunks) {
this.chunks.delete(chunk);
chunkGraph.disconnectChunk(chunk);
}
chunkGraph.disconnectChunkGroup(chunkGroup);
chunkGroup.remove();
}
}
}
/**
*
* @param {Module} module module relationship for removal
* @param {DependenciesBlockLike} block //TODO: good description
* @returns {void}
*/
removeReasonsOfDependencyBlock(module, block) {
const chunkGraph = this.chunkGraph;
const iteratorDependency = d => {
if (!d.module) {
return;
}
if (d.module.removeReason(module, d)) {
for (const chunk of chunkGraph.getModuleChunksIterable(d.module)) {
this.patchChunksAfterReasonRemoval(d.module, chunk);
}
}
};
if (block.blocks) {
iterationOfArrayCallback(block.blocks, block =>
this.removeReasonsOfDependencyBlock(module, block)
);
}
if (block.dependencies) {
iterationOfArrayCallback(block.dependencies, iteratorDependency);
}
}
/**
* @param {Module} module module to patch tie
* @param {Chunk} chunk chunk to patch tie
* @returns {void}
*/
patchChunksAfterReasonRemoval(module, chunk) {
if (!module.hasReasons(this.moduleGraph)) {
this.removeReasonsOfDependencyBlock(module, module);
}
if (!module.hasReasonForChunk(chunk, this.moduleGraph, this.chunkGraph)) {
if (this.chunkGraph.isModuleInChunk(module, chunk)) {
this.chunkGraph.disconnectChunkAndModule(chunk, module);
this.removeChunkFromDependencies(module, chunk);
}
}
}
/**
*
* @param {DependenciesBlock} block block tie for Chunk
* @param {Chunk} chunk chunk to remove from dep
* @returns {void}
*/
removeChunkFromDependencies(block, chunk) {
const iteratorDependency = d => {
if (!d.module) {
return;
}
this.patchChunksAfterReasonRemoval(d.module, chunk);
};
const blocks = block.blocks;
for (let indexBlock = 0; indexBlock < blocks.length; indexBlock++) {
const asyncBlock = blocks[indexBlock];
const chunkGroup = this.chunkGraph.getBlockChunkGroup(asyncBlock);
// Grab all chunks from the first Block's AsyncDepBlock
const chunks = chunkGroup.chunks;
// For each chunk in chunkGroup
for (let indexChunk = 0; indexChunk < chunks.length; indexChunk++) {
const iteratedChunk = chunks[indexChunk];
chunkGroup.removeChunk(iteratedChunk);
// Recurse
this.removeChunkFromDependencies(block, iteratedChunk);
}
}
if (block.dependencies) {
iterationOfArrayCallback(block.dependencies, iteratorDependency);
}
}
sortItemsWithChunkIds() {
for (const chunkGroup of this.chunkGroups) {
chunkGroup.sortItems();
}
const byMessage = compareSelect(
err => `${err.message}`,
compareStringsNumeric
);
const byModule = compareSelect(
err => (err.module && err.module.identifier()) || "",
compareStringsNumeric
);
const byLocation = compareSelect(err => err.loc, compareLocations);
const compareErrors = concatComparators(byModule, byLocation, byMessage);
this.errors.sort(compareErrors);
this.warnings.sort(compareErrors);
this.children.sort(byNameOrHash);
}
summarizeDependencies() {
for (
let indexChildren = 0;
indexChildren < this.children.length;
indexChildren++
) {
const child = this.children[indexChildren];
addAllToSet(this.fileDependencies, child.fileDependencies);
addAllToSet(this.contextDependencies, child.contextDependencies);
addAllToSet(this.missingDependencies, child.missingDependencies);
}
for (const module of this.modules) {
const fileDependencies = module.buildInfo.fileDependencies;
const contextDependencies = module.buildInfo.contextDependencies;
const missingDependencies = module.buildInfo.missingDependencies;
if (fileDependencies) {
addAllToSet(this.fileDependencies, fileDependencies);
}
if (contextDependencies) {
addAllToSet(this.contextDependencies, contextDependencies);
}
if (missingDependencies) {
addAllToSet(this.missingDependencies, missingDependencies);
}
}
for (const error of this.errors) {
if (
typeof error.missing === "object" &&
error.missing &&
error.missing[Symbol.iterator]
) {
addAllToSet(this.missingDependencies, error.missing);
}
}
}
createModuleHashes() {
const chunkGraph = this.chunkGraph;
const { hashFunction, hashDigest, hashDigestLength } = this.outputOptions;
for (const module of this.modules) {
const moduleHash = createHash(hashFunction);
module.updateHash(moduleHash, chunkGraph);
const moduleHashDigest = moduleHash.digest(hashDigest);
chunkGraph.setModuleHashes(
module,
moduleHashDigest,
moduleHashDigest.substr(0, hashDigestLength)
);
}
}
createHash() {
const chunkGraph = this.chunkGraph;
const outputOptions = this.outputOptions;
const hashFunction = outputOptions.hashFunction;
const hashDigest = outputOptions.hashDigest;
const hashDigestLength = outputOptions.hashDigestLength;
const hash = createHash(hashFunction);
if (outputOptions.hashSalt) {
hash.update(outputOptions.hashSalt);
}
this.mainTemplate.updateHash(hash);
this.chunkTemplate.updateHash(hash);
for (const key of Object.keys(this.moduleTemplates).sort()) {
this.moduleTemplates[key].updateHash(hash);
}
for (const child of this.children) {
hash.update(child.hash);
}
for (const warning of this.warnings) {
hash.update(`${warning.message}`);
}
for (const error of this.errors) {
hash.update(`${error.message}`);
}
// clone needed as sort below is inplace mutation
const chunks = Array.from(this.chunks);
/**
* sort here will bring all "falsy" values to the beginning
* this is needed as the "hasRuntime()" chunks are dependent on the
* hashes of the non-runtime chunks.
*/
chunks.sort((a, b) => {
const aEntry = a.hasRuntime();
const bEntry = b.hasRuntime();
if (aEntry && !bEntry) return 1;
if (!aEntry && bEntry) return -1;
return byId(a, b);
});
for (let i = 0; i < chunks.length; i++) {
const chunk = chunks[i];
// Last minute module hash generation for modules that depend on chunk hashes
for (const module of chunkGraph.getChunkModulesIterable(chunk)) {
if (!chunkGraph.getModuleHash(module)) {
const moduleHash = createHash(hashFunction);
module.updateHash(moduleHash, chunkGraph);
const moduleHashDigest = moduleHash.digest(hashDigest);
chunkGraph.setModuleHashes(
module,
moduleHashDigest,
moduleHashDigest.substr(0, hashDigestLength)
);
}
}
const chunkHash = createHash(hashFunction);
try {
if (outputOptions.hashSalt) {
chunkHash.update(outputOptions.hashSalt);
}
chunk.updateHash(chunkHash, chunkGraph);
const template = chunk.hasRuntime()
? this.mainTemplate
: this.chunkTemplate;
template.updateHashForChunk(chunkHash, chunk, {
chunkGraph,
moduleGraph: this.moduleGraph,
runtimeTemplate: this.runtimeTemplate
});
this.hooks.chunkHash.call(chunk, chunkHash);
chunk.hash = chunkHash.digest(hashDigest);
hash.update(chunk.hash);
chunk.renderedHash = chunk.hash.substr(0, hashDigestLength);
this.hooks.contentHash.call(chunk);
} catch (err) {
this.errors.push(new ChunkRenderError(chunk, "", err));
}
}
this.fullHash = hash.digest(hashDigest);
this.hash = this.fullHash.substr(0, hashDigestLength);
}
/**
* @param {string} update extra information
* @returns {void}
*/
modifyHash(update) {
const outputOptions = this.outputOptions;
const hashFunction = outputOptions.hashFunction;
const hashDigest = outputOptions.hashDigest;
const hashDigestLength = outputOptions.hashDigestLength;
const hash = createHash(hashFunction);
hash.update(this.fullHash);
hash.update(update);
this.fullHash = hash.digest(hashDigest);
this.hash = this.fullHash.substr(0, hashDigestLength);
}
createModuleAssets() {
for (const module of this.modules) {
if (module.buildInfo.assets) {
for (const assetName of Object.keys(module.buildInfo.assets)) {
const fileName = this.getPath(assetName, {
chunkGraph: this.chunkGraph,
module
});
this.assets[fileName] = module.buildInfo.assets[assetName];
this.hooks.moduleAsset.call(module, fileName);
}
}
}
}
/**
* @param {Callback} callback signals when the call finishes
* @returns {void}
*/
createChunkAssets(callback) {
const outputOptions = this.outputOptions;
const cachedSourceMap = new WeakMap();
/** @type {Map<string, {hash: string, source: Source, chunk: Chunk}>} */
const alreadyWrittenFiles = new Map();
asyncLib.forEach(
this.chunks,
(chunk, callback) => {
/** @type {RenderManifestEntry[]} */
let manifest;
try {
chunk.files.clear();
const template = chunk.hasRuntime()
? this.mainTemplate
: this.chunkTemplate;
manifest = template.getRenderManifest({
chunk,
hash: this.hash,
fullHash: this.fullHash,
outputOptions,
moduleTemplates: this.moduleTemplates,
dependencyTemplates: this.dependencyTemplates,
chunkGraph: this.chunkGraph,
moduleGraph: this.moduleGraph,
runtimeTemplate: this.runtimeTemplate
}); // [{ render(), filenameTemplate, pathOptions, identifier, hash }]
} catch (err) {
this.errors.push(new ChunkRenderError(chunk, "", err));
return callback();
}
asyncLib.forEach(
manifest,
(fileManifest, callback) => {
const ident = fileManifest.identifier;
const cacheName = `${this.compilerPath}/asset/${ident}`;
const usedHash = fileManifest.hash;
this.cache.get(cacheName, usedHash, (err, sourceFromCache) => {
let filenameTemplate, file;
try {
filenameTemplate = fileManifest.filenameTemplate;
file = this.getPath(filenameTemplate, fileManifest.pathOptions);
if (err) {
this.errors.push(
new ChunkRenderError(chunk, file || filenameTemplate, err)
);
return callback();
}
let source = sourceFromCache;
// check if the same filename was already written by another chunk
const alreadyWritten = alreadyWrittenFiles.get(file);
if (alreadyWritten !== undefined) {
if (alreadyWritten.hash !== usedHash) {
return callback(
new WebpackError(
`Conflict: Multiple chunks emit assets to the same filename ${file}` +
` (chunks ${alreadyWritten.chunk.id} and ${chunk.id})`
)
);
} else {
source = alreadyWritten.source;
}
} else if (!source) {
// render the asset
source = fileManifest.render();
// Ensure that source is a cached source to avoid additional cost because of repeated access
if (!(source instanceof CachedSource)) {
const cacheEntry = cachedSourceMap.get(source);
if (cacheEntry) {
source = cacheEntry;
} else {
const cachedSource = new CachedSource(source);
cachedSourceMap.set(source, cachedSource);
source = cachedSource;
}
}
}
if (this.assets[file] && this.assets[file] !== source) {
return callback(
new WebpackError(
`Conflict: Rendering chunk ${chunk.id} ` +
`emits to the filename ${file} ` +
"which was already written to by something else " +
"(but not another chunk)"
)
);
}
this.assets[file] = source;
chunk.files.add(file);
this.hooks.chunkAsset.call(chunk, file);
alreadyWrittenFiles.set(file, {
hash: usedHash,
source,
chunk
});
if (source !== sourceFromCache) {
this.cache.store(cacheName, usedHash, source, callback);
} else {
callback();
}
} catch (err) {
this.errors.push(
new ChunkRenderError(chunk, file || filenameTemplate, err)
);
return callback();
}
});
},
callback
);
},
callback
);
}
/**
* @param {string | function(PathData): string} filename used to get asset path with hash
* @param {PathData} data context data
* @returns {string} interpolated path
*/
getPath(filename, data) {
if (!data.hash) {
data = {
hash: this.hash,
...data
};
}
return this.mainTemplate.getAssetPath(filename, data);
}
/**
* This function allows you to run another instance of webpack inside of webpack however as
* a child with different settings and configurations (if desired) applied. It copies all hooks, plugins
* from parent (or top level compiler) and creates a child Compilation
*
* @param {string} name name of the child compiler
* @param {OutputOptions} outputOptions // Need to convert config schema to types for this
* @param {Plugin[]} plugins webpack plugins that will be applied
* @returns {Compiler} creates a child Compiler instance
*/
createChildCompiler(name, outputOptions, plugins) {
const idx = this.childrenCounters[name] || 0;
this.childrenCounters[name] = idx + 1;
return this.compiler.createChildCompiler(
this,
name,
idx,
outputOptions,
plugins
);
}
checkConstraints() {
const chunkGraph = this.chunkGraph;
/** @type {Set<number|string>} */
const usedIds = new Set();
for (const module of this.modules) {
if (module.type === "runtime") continue;
const moduleId = chunkGraph.getModuleId(module);
if (moduleId === null) continue;
if (usedIds.has(moduleId)) {
throw new Error(`checkConstraints: duplicate module id ${moduleId}`);
}
usedIds.add(moduleId);
}
for (const chunk of this.chunks) {
for (const module of chunkGraph.getChunkModulesIterable(chunk)) {
if (!this.modules.has(module)) {
throw new Error(
"checkConstraints: module in chunk but not in compilation " +
` ${chunk.debugId} ${module.debugId}`
);
}
}
for (const module of chunkGraph.getChunkEntryModulesIterable(chunk)) {
if (!this.modules.has(module)) {
throw new Error(
"checkConstraints: entry module in chunk but not in compilation " +
` ${chunk.debugId} ${module.debugId}`
);
}
}
}
for (const chunkGroup of this.chunkGroups) {
chunkGroup.checkConstraints();
}
}
}
module.exports = Compilation;
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