hexo/node_modules/webpack/lib/optimize/SplitChunksPlugin.js

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2023-09-25 15:58:56 +08:00
/*
MIT License http://www.opensource.org/licenses/mit-license.php
Author Tobias Koppers @sokra
*/
"use strict";
const Chunk = require("../Chunk");
const { STAGE_ADVANCED } = require("../OptimizationStages");
const WebpackError = require("../WebpackError");
const { requestToId } = require("../ids/IdHelpers");
const { isSubset } = require("../util/SetHelpers");
const SortableSet = require("../util/SortableSet");
const {
compareModulesByIdentifier,
compareIterables
} = require("../util/comparators");
const createHash = require("../util/createHash");
const deterministicGrouping = require("../util/deterministicGrouping");
const { makePathsRelative } = require("../util/identifier");
const memoize = require("../util/memoize");
const MinMaxSizeWarning = require("./MinMaxSizeWarning");
/** @typedef {import("../../declarations/WebpackOptions").OptimizationSplitChunksCacheGroup} OptimizationSplitChunksCacheGroup */
/** @typedef {import("../../declarations/WebpackOptions").OptimizationSplitChunksGetCacheGroups} OptimizationSplitChunksGetCacheGroups */
/** @typedef {import("../../declarations/WebpackOptions").OptimizationSplitChunksOptions} OptimizationSplitChunksOptions */
/** @typedef {import("../../declarations/WebpackOptions").OptimizationSplitChunksSizes} OptimizationSplitChunksSizes */
/** @typedef {import("../../declarations/WebpackOptions").Output} OutputOptions */
/** @typedef {import("../ChunkGraph")} ChunkGraph */
/** @typedef {import("../ChunkGroup")} ChunkGroup */
/** @typedef {import("../Compilation").AssetInfo} AssetInfo */
/** @typedef {import("../Compilation").PathData} PathData */
/** @typedef {import("../Compiler")} Compiler */
/** @typedef {import("../Module")} Module */
/** @typedef {import("../ModuleGraph")} ModuleGraph */
/** @typedef {import("../util/deterministicGrouping").GroupedItems<Module>} DeterministicGroupingGroupedItemsForModule */
/** @typedef {import("../util/deterministicGrouping").Options<Module>} DeterministicGroupingOptionsForModule */
/** @typedef {Record<string, number>} SplitChunksSizes */
/**
* @callback ChunkFilterFunction
* @param {Chunk} chunk
* @returns {boolean | undefined}
*/
/**
* @callback CombineSizeFunction
* @param {number} a
* @param {number} b
* @returns {number}
*/
/**
* @typedef {Object} CacheGroupSource
* @property {string=} key
* @property {number=} priority
* @property {GetName=} getName
* @property {ChunkFilterFunction=} chunksFilter
* @property {boolean=} enforce
* @property {SplitChunksSizes} minSize
* @property {SplitChunksSizes} minSizeReduction
* @property {SplitChunksSizes} minRemainingSize
* @property {SplitChunksSizes} enforceSizeThreshold
* @property {SplitChunksSizes} maxAsyncSize
* @property {SplitChunksSizes} maxInitialSize
* @property {number=} minChunks
* @property {number=} maxAsyncRequests
* @property {number=} maxInitialRequests
* @property {(string | function(PathData, AssetInfo=): string)=} filename
* @property {string=} idHint
* @property {string=} automaticNameDelimiter
* @property {boolean=} reuseExistingChunk
* @property {boolean=} usedExports
*/
/**
* @typedef {Object} CacheGroup
* @property {string} key
* @property {number=} priority
* @property {GetName=} getName
* @property {ChunkFilterFunction=} chunksFilter
* @property {SplitChunksSizes} minSize
* @property {SplitChunksSizes} minSizeReduction
* @property {SplitChunksSizes} minRemainingSize
* @property {SplitChunksSizes} enforceSizeThreshold
* @property {SplitChunksSizes} maxAsyncSize
* @property {SplitChunksSizes} maxInitialSize
* @property {number=} minChunks
* @property {number=} maxAsyncRequests
* @property {number=} maxInitialRequests
* @property {(string | function(PathData, AssetInfo=): string)=} filename
* @property {string=} idHint
* @property {string} automaticNameDelimiter
* @property {boolean} reuseExistingChunk
* @property {boolean} usedExports
* @property {boolean} _validateSize
* @property {boolean} _validateRemainingSize
* @property {SplitChunksSizes} _minSizeForMaxSize
* @property {boolean} _conditionalEnforce
*/
/**
* @typedef {Object} FallbackCacheGroup
* @property {ChunkFilterFunction} chunksFilter
* @property {SplitChunksSizes} minSize
* @property {SplitChunksSizes} maxAsyncSize
* @property {SplitChunksSizes} maxInitialSize
* @property {string} automaticNameDelimiter
*/
/**
* @typedef {Object} CacheGroupsContext
* @property {ModuleGraph} moduleGraph
* @property {ChunkGraph} chunkGraph
*/
/**
* @callback GetCacheGroups
* @param {Module} module
* @param {CacheGroupsContext} context
* @returns {CacheGroupSource[]}
*/
/**
* @callback GetName
* @param {Module=} module
* @param {Chunk[]=} chunks
* @param {string=} key
* @returns {string=}
*/
/**
* @typedef {Object} SplitChunksOptions
* @property {ChunkFilterFunction} chunksFilter
* @property {string[]} defaultSizeTypes
* @property {SplitChunksSizes} minSize
* @property {SplitChunksSizes} minSizeReduction
* @property {SplitChunksSizes} minRemainingSize
* @property {SplitChunksSizes} enforceSizeThreshold
* @property {SplitChunksSizes} maxInitialSize
* @property {SplitChunksSizes} maxAsyncSize
* @property {number} minChunks
* @property {number} maxAsyncRequests
* @property {number} maxInitialRequests
* @property {boolean} hidePathInfo
* @property {string | function(PathData, AssetInfo=): string} filename
* @property {string} automaticNameDelimiter
* @property {GetCacheGroups} getCacheGroups
* @property {GetName} getName
* @property {boolean} usedExports
* @property {FallbackCacheGroup} fallbackCacheGroup
*/
/**
* @typedef {Object} ChunksInfoItem
* @property {SortableSet<Module>} modules
* @property {CacheGroup} cacheGroup
* @property {number} cacheGroupIndex
* @property {string} name
* @property {Record<string, number>} sizes
* @property {Set<Chunk>} chunks
* @property {Set<Chunk>} reuseableChunks
* @property {Set<bigint | Chunk>} chunksKeys
*/
const defaultGetName = /** @type {GetName} */ (() => {});
const deterministicGroupingForModules =
/** @type {function(DeterministicGroupingOptionsForModule): DeterministicGroupingGroupedItemsForModule[]} */ (
deterministicGrouping
);
/** @type {WeakMap<Module, string>} */
const getKeyCache = new WeakMap();
/**
* @param {string} name a filename to hash
* @param {OutputOptions} outputOptions hash function used
* @returns {string} hashed filename
*/
const hashFilename = (name, outputOptions) => {
const digest = /** @type {string} */ (
createHash(outputOptions.hashFunction)
.update(name)
.digest(outputOptions.hashDigest)
);
return digest.slice(0, 8);
};
/**
* @param {Chunk} chunk the chunk
* @returns {number} the number of requests
*/
const getRequests = chunk => {
let requests = 0;
for (const chunkGroup of chunk.groupsIterable) {
requests = Math.max(requests, chunkGroup.chunks.length);
}
return requests;
};
const mapObject = (obj, fn) => {
const newObj = Object.create(null);
for (const key of Object.keys(obj)) {
newObj[key] = fn(obj[key], key);
}
return newObj;
};
/**
* @template T
* @param {Set<T>} a set
* @param {Set<T>} b other set
* @returns {boolean} true if at least one item of a is in b
*/
const isOverlap = (a, b) => {
for (const item of a) {
if (b.has(item)) return true;
}
return false;
};
const compareModuleIterables = compareIterables(compareModulesByIdentifier);
/**
* @param {ChunksInfoItem} a item
* @param {ChunksInfoItem} b item
* @returns {number} compare result
*/
const compareEntries = (a, b) => {
// 1. by priority
const diffPriority = a.cacheGroup.priority - b.cacheGroup.priority;
if (diffPriority) return diffPriority;
// 2. by number of chunks
const diffCount = a.chunks.size - b.chunks.size;
if (diffCount) return diffCount;
// 3. by size reduction
const aSizeReduce = totalSize(a.sizes) * (a.chunks.size - 1);
const bSizeReduce = totalSize(b.sizes) * (b.chunks.size - 1);
const diffSizeReduce = aSizeReduce - bSizeReduce;
if (diffSizeReduce) return diffSizeReduce;
// 4. by cache group index
const indexDiff = b.cacheGroupIndex - a.cacheGroupIndex;
if (indexDiff) return indexDiff;
// 5. by number of modules (to be able to compare by identifier)
const modulesA = a.modules;
const modulesB = b.modules;
const diff = modulesA.size - modulesB.size;
if (diff) return diff;
// 6. by module identifiers
modulesA.sort();
modulesB.sort();
return compareModuleIterables(modulesA, modulesB);
};
/**
* @param {Chunk} chunk the chunk
* @returns {boolean} true, if the chunk is an entry chunk
*/
const INITIAL_CHUNK_FILTER = chunk => chunk.canBeInitial();
/**
* @param {Chunk} chunk the chunk
* @returns {boolean} true, if the chunk is an async chunk
*/
const ASYNC_CHUNK_FILTER = chunk => !chunk.canBeInitial();
/**
* @param {Chunk} chunk the chunk
* @returns {boolean} always true
*/
const ALL_CHUNK_FILTER = chunk => true;
/**
* @param {OptimizationSplitChunksSizes | undefined} value the sizes
* @param {string[]} defaultSizeTypes the default size types
* @returns {SplitChunksSizes} normalized representation
*/
const normalizeSizes = (value, defaultSizeTypes) => {
if (typeof value === "number") {
/** @type {Record<string, number>} */
const o = {};
for (const sizeType of defaultSizeTypes) o[sizeType] = value;
return o;
} else if (typeof value === "object" && value !== null) {
return { ...value };
} else {
return {};
}
};
/**
* @param {...SplitChunksSizes} sizes the sizes
* @returns {SplitChunksSizes} the merged sizes
*/
const mergeSizes = (...sizes) => {
/** @type {SplitChunksSizes} */
let merged = {};
for (let i = sizes.length - 1; i >= 0; i--) {
merged = Object.assign(merged, sizes[i]);
}
return merged;
};
/**
* @param {SplitChunksSizes} sizes the sizes
* @returns {boolean} true, if there are sizes > 0
*/
const hasNonZeroSizes = sizes => {
for (const key of Object.keys(sizes)) {
if (sizes[key] > 0) return true;
}
return false;
};
/**
* @param {SplitChunksSizes} a first sizes
* @param {SplitChunksSizes} b second sizes
* @param {CombineSizeFunction} combine a function to combine sizes
* @returns {SplitChunksSizes} the combine sizes
*/
const combineSizes = (a, b, combine) => {
const aKeys = new Set(Object.keys(a));
const bKeys = new Set(Object.keys(b));
/** @type {SplitChunksSizes} */
const result = {};
for (const key of aKeys) {
if (bKeys.has(key)) {
result[key] = combine(a[key], b[key]);
} else {
result[key] = a[key];
}
}
for (const key of bKeys) {
if (!aKeys.has(key)) {
result[key] = b[key];
}
}
return result;
};
/**
* @param {SplitChunksSizes} sizes the sizes
* @param {SplitChunksSizes} minSize the min sizes
* @returns {boolean} true if there are sizes and all existing sizes are at least `minSize`
*/
const checkMinSize = (sizes, minSize) => {
for (const key of Object.keys(minSize)) {
const size = sizes[key];
if (size === undefined || size === 0) continue;
if (size < minSize[key]) return false;
}
return true;
};
/**
* @param {SplitChunksSizes} sizes the sizes
* @param {SplitChunksSizes} minSizeReduction the min sizes
* @param {number} chunkCount number of chunks
* @returns {boolean} true if there are sizes and all existing sizes are at least `minSizeReduction`
*/
const checkMinSizeReduction = (sizes, minSizeReduction, chunkCount) => {
for (const key of Object.keys(minSizeReduction)) {
const size = sizes[key];
if (size === undefined || size === 0) continue;
if (size * chunkCount < minSizeReduction[key]) return false;
}
return true;
};
/**
* @param {SplitChunksSizes} sizes the sizes
* @param {SplitChunksSizes} minSize the min sizes
* @returns {undefined | string[]} list of size types that are below min size
*/
const getViolatingMinSizes = (sizes, minSize) => {
let list;
for (const key of Object.keys(minSize)) {
const size = sizes[key];
if (size === undefined || size === 0) continue;
if (size < minSize[key]) {
if (list === undefined) list = [key];
else list.push(key);
}
}
return list;
};
/**
* @param {SplitChunksSizes} sizes the sizes
* @returns {number} the total size
*/
const totalSize = sizes => {
let size = 0;
for (const key of Object.keys(sizes)) {
size += sizes[key];
}
return size;
};
/**
* @param {false|string|Function|undefined} name the chunk name
* @returns {GetName | undefined} a function to get the name of the chunk
*/
const normalizeName = name => {
if (typeof name === "string") {
return () => name;
}
if (typeof name === "function") {
return /** @type {GetName} */ (name);
}
};
/**
* @param {OptimizationSplitChunksCacheGroup["chunks"]} chunks the chunk filter option
* @returns {ChunkFilterFunction} the chunk filter function
*/
const normalizeChunksFilter = chunks => {
if (chunks === "initial") {
return INITIAL_CHUNK_FILTER;
}
if (chunks === "async") {
return ASYNC_CHUNK_FILTER;
}
if (chunks === "all") {
return ALL_CHUNK_FILTER;
}
if (chunks instanceof RegExp) {
return chunk => {
return chunk.name ? chunks.test(chunk.name) : false;
};
}
if (typeof chunks === "function") {
return chunks;
}
};
/**
* @param {GetCacheGroups | Record<string, false|string|RegExp|OptimizationSplitChunksGetCacheGroups|OptimizationSplitChunksCacheGroup>} cacheGroups the cache group options
* @param {string[]} defaultSizeTypes the default size types
* @returns {GetCacheGroups} a function to get the cache groups
*/
const normalizeCacheGroups = (cacheGroups, defaultSizeTypes) => {
if (typeof cacheGroups === "function") {
return cacheGroups;
}
if (typeof cacheGroups === "object" && cacheGroups !== null) {
/** @type {(function(Module, CacheGroupsContext, CacheGroupSource[]): void)[]} */
const handlers = [];
for (const key of Object.keys(cacheGroups)) {
const option = cacheGroups[key];
if (option === false) {
continue;
}
if (typeof option === "string" || option instanceof RegExp) {
const source = createCacheGroupSource({}, key, defaultSizeTypes);
handlers.push((module, context, results) => {
if (checkTest(option, module, context)) {
results.push(source);
}
});
} else if (typeof option === "function") {
const cache = new WeakMap();
handlers.push((module, context, results) => {
const result = option(module);
if (result) {
const groups = Array.isArray(result) ? result : [result];
for (const group of groups) {
const cachedSource = cache.get(group);
if (cachedSource !== undefined) {
results.push(cachedSource);
} else {
const source = createCacheGroupSource(
group,
key,
defaultSizeTypes
);
cache.set(group, source);
results.push(source);
}
}
}
});
} else {
const source = createCacheGroupSource(option, key, defaultSizeTypes);
handlers.push((module, context, results) => {
if (
checkTest(option.test, module, context) &&
checkModuleType(option.type, module) &&
checkModuleLayer(option.layer, module)
) {
results.push(source);
}
});
}
}
/**
* @param {Module} module the current module
* @param {CacheGroupsContext} context the current context
* @returns {CacheGroupSource[]} the matching cache groups
*/
const fn = (module, context) => {
/** @type {CacheGroupSource[]} */
let results = [];
for (const fn of handlers) {
fn(module, context, results);
}
return results;
};
return fn;
}
return () => null;
};
/**
* @param {undefined|boolean|string|RegExp|Function} test test option
* @param {Module} module the module
* @param {CacheGroupsContext} context context object
* @returns {boolean} true, if the module should be selected
*/
const checkTest = (test, module, context) => {
if (test === undefined) return true;
if (typeof test === "function") {
return test(module, context);
}
if (typeof test === "boolean") return test;
if (typeof test === "string") {
const name = module.nameForCondition();
return name && name.startsWith(test);
}
if (test instanceof RegExp) {
const name = module.nameForCondition();
return name && test.test(name);
}
return false;
};
/**
* @param {undefined|string|RegExp|Function} test type option
* @param {Module} module the module
* @returns {boolean} true, if the module should be selected
*/
const checkModuleType = (test, module) => {
if (test === undefined) return true;
if (typeof test === "function") {
return test(module.type);
}
if (typeof test === "string") {
const type = module.type;
return test === type;
}
if (test instanceof RegExp) {
const type = module.type;
return test.test(type);
}
return false;
};
/**
* @param {undefined|string|RegExp|Function} test type option
* @param {Module} module the module
* @returns {boolean} true, if the module should be selected
*/
const checkModuleLayer = (test, module) => {
if (test === undefined) return true;
if (typeof test === "function") {
return test(module.layer);
}
if (typeof test === "string") {
const layer = module.layer;
return test === "" ? !layer : layer && layer.startsWith(test);
}
if (test instanceof RegExp) {
const layer = module.layer;
return test.test(layer);
}
return false;
};
/**
* @param {OptimizationSplitChunksCacheGroup} options the group options
* @param {string} key key of cache group
* @param {string[]} defaultSizeTypes the default size types
* @returns {CacheGroupSource} the normalized cached group
*/
const createCacheGroupSource = (options, key, defaultSizeTypes) => {
const minSize = normalizeSizes(options.minSize, defaultSizeTypes);
const minSizeReduction = normalizeSizes(
options.minSizeReduction,
defaultSizeTypes
);
const maxSize = normalizeSizes(options.maxSize, defaultSizeTypes);
return {
key,
priority: options.priority,
getName: normalizeName(options.name),
chunksFilter: normalizeChunksFilter(options.chunks),
enforce: options.enforce,
minSize,
minSizeReduction,
minRemainingSize: mergeSizes(
normalizeSizes(options.minRemainingSize, defaultSizeTypes),
minSize
),
enforceSizeThreshold: normalizeSizes(
options.enforceSizeThreshold,
defaultSizeTypes
),
maxAsyncSize: mergeSizes(
normalizeSizes(options.maxAsyncSize, defaultSizeTypes),
maxSize
),
maxInitialSize: mergeSizes(
normalizeSizes(options.maxInitialSize, defaultSizeTypes),
maxSize
),
minChunks: options.minChunks,
maxAsyncRequests: options.maxAsyncRequests,
maxInitialRequests: options.maxInitialRequests,
filename: options.filename,
idHint: options.idHint,
automaticNameDelimiter: options.automaticNameDelimiter,
reuseExistingChunk: options.reuseExistingChunk,
usedExports: options.usedExports
};
};
module.exports = class SplitChunksPlugin {
/**
* @param {OptimizationSplitChunksOptions=} options plugin options
*/
constructor(options = {}) {
const defaultSizeTypes = options.defaultSizeTypes || [
"javascript",
"unknown"
];
const fallbackCacheGroup = options.fallbackCacheGroup || {};
const minSize = normalizeSizes(options.minSize, defaultSizeTypes);
const minSizeReduction = normalizeSizes(
options.minSizeReduction,
defaultSizeTypes
);
const maxSize = normalizeSizes(options.maxSize, defaultSizeTypes);
/** @type {SplitChunksOptions} */
this.options = {
chunksFilter: normalizeChunksFilter(options.chunks || "all"),
defaultSizeTypes,
minSize,
minSizeReduction,
minRemainingSize: mergeSizes(
normalizeSizes(options.minRemainingSize, defaultSizeTypes),
minSize
),
enforceSizeThreshold: normalizeSizes(
options.enforceSizeThreshold,
defaultSizeTypes
),
maxAsyncSize: mergeSizes(
normalizeSizes(options.maxAsyncSize, defaultSizeTypes),
maxSize
),
maxInitialSize: mergeSizes(
normalizeSizes(options.maxInitialSize, defaultSizeTypes),
maxSize
),
minChunks: options.minChunks || 1,
maxAsyncRequests: options.maxAsyncRequests || 1,
maxInitialRequests: options.maxInitialRequests || 1,
hidePathInfo: options.hidePathInfo || false,
filename: options.filename || undefined,
getCacheGroups: normalizeCacheGroups(
options.cacheGroups,
defaultSizeTypes
),
getName: options.name ? normalizeName(options.name) : defaultGetName,
automaticNameDelimiter: options.automaticNameDelimiter,
usedExports: options.usedExports,
fallbackCacheGroup: {
chunksFilter: normalizeChunksFilter(
fallbackCacheGroup.chunks || options.chunks || "all"
),
minSize: mergeSizes(
normalizeSizes(fallbackCacheGroup.minSize, defaultSizeTypes),
minSize
),
maxAsyncSize: mergeSizes(
normalizeSizes(fallbackCacheGroup.maxAsyncSize, defaultSizeTypes),
normalizeSizes(fallbackCacheGroup.maxSize, defaultSizeTypes),
normalizeSizes(options.maxAsyncSize, defaultSizeTypes),
normalizeSizes(options.maxSize, defaultSizeTypes)
),
maxInitialSize: mergeSizes(
normalizeSizes(fallbackCacheGroup.maxInitialSize, defaultSizeTypes),
normalizeSizes(fallbackCacheGroup.maxSize, defaultSizeTypes),
normalizeSizes(options.maxInitialSize, defaultSizeTypes),
normalizeSizes(options.maxSize, defaultSizeTypes)
),
automaticNameDelimiter:
fallbackCacheGroup.automaticNameDelimiter ||
options.automaticNameDelimiter ||
"~"
}
};
/** @type {WeakMap<CacheGroupSource, CacheGroup>} */
this._cacheGroupCache = new WeakMap();
}
/**
* @param {CacheGroupSource} cacheGroupSource source
* @returns {CacheGroup} the cache group (cached)
*/
_getCacheGroup(cacheGroupSource) {
const cacheEntry = this._cacheGroupCache.get(cacheGroupSource);
if (cacheEntry !== undefined) return cacheEntry;
const minSize = mergeSizes(
cacheGroupSource.minSize,
cacheGroupSource.enforce ? undefined : this.options.minSize
);
const minSizeReduction = mergeSizes(
cacheGroupSource.minSizeReduction,
cacheGroupSource.enforce ? undefined : this.options.minSizeReduction
);
const minRemainingSize = mergeSizes(
cacheGroupSource.minRemainingSize,
cacheGroupSource.enforce ? undefined : this.options.minRemainingSize
);
const enforceSizeThreshold = mergeSizes(
cacheGroupSource.enforceSizeThreshold,
cacheGroupSource.enforce ? undefined : this.options.enforceSizeThreshold
);
const cacheGroup = {
key: cacheGroupSource.key,
priority: cacheGroupSource.priority || 0,
chunksFilter: cacheGroupSource.chunksFilter || this.options.chunksFilter,
minSize,
minSizeReduction,
minRemainingSize,
enforceSizeThreshold,
maxAsyncSize: mergeSizes(
cacheGroupSource.maxAsyncSize,
cacheGroupSource.enforce ? undefined : this.options.maxAsyncSize
),
maxInitialSize: mergeSizes(
cacheGroupSource.maxInitialSize,
cacheGroupSource.enforce ? undefined : this.options.maxInitialSize
),
minChunks:
cacheGroupSource.minChunks !== undefined
? cacheGroupSource.minChunks
: cacheGroupSource.enforce
? 1
: this.options.minChunks,
maxAsyncRequests:
cacheGroupSource.maxAsyncRequests !== undefined
? cacheGroupSource.maxAsyncRequests
: cacheGroupSource.enforce
? Infinity
: this.options.maxAsyncRequests,
maxInitialRequests:
cacheGroupSource.maxInitialRequests !== undefined
? cacheGroupSource.maxInitialRequests
: cacheGroupSource.enforce
? Infinity
: this.options.maxInitialRequests,
getName:
cacheGroupSource.getName !== undefined
? cacheGroupSource.getName
: this.options.getName,
usedExports:
cacheGroupSource.usedExports !== undefined
? cacheGroupSource.usedExports
: this.options.usedExports,
filename:
cacheGroupSource.filename !== undefined
? cacheGroupSource.filename
: this.options.filename,
automaticNameDelimiter:
cacheGroupSource.automaticNameDelimiter !== undefined
? cacheGroupSource.automaticNameDelimiter
: this.options.automaticNameDelimiter,
idHint:
cacheGroupSource.idHint !== undefined
? cacheGroupSource.idHint
: cacheGroupSource.key,
reuseExistingChunk: cacheGroupSource.reuseExistingChunk || false,
_validateSize: hasNonZeroSizes(minSize),
_validateRemainingSize: hasNonZeroSizes(minRemainingSize),
_minSizeForMaxSize: mergeSizes(
cacheGroupSource.minSize,
this.options.minSize
),
_conditionalEnforce: hasNonZeroSizes(enforceSizeThreshold)
};
this._cacheGroupCache.set(cacheGroupSource, cacheGroup);
return cacheGroup;
}
/**
* Apply the plugin
* @param {Compiler} compiler the compiler instance
* @returns {void}
*/
apply(compiler) {
const cachedMakePathsRelative = makePathsRelative.bindContextCache(
compiler.context,
compiler.root
);
compiler.hooks.thisCompilation.tap("SplitChunksPlugin", compilation => {
const logger = compilation.getLogger("webpack.SplitChunksPlugin");
let alreadyOptimized = false;
compilation.hooks.unseal.tap("SplitChunksPlugin", () => {
alreadyOptimized = false;
});
compilation.hooks.optimizeChunks.tap(
{
name: "SplitChunksPlugin",
stage: STAGE_ADVANCED
},
chunks => {
if (alreadyOptimized) return;
alreadyOptimized = true;
logger.time("prepare");
const chunkGraph = compilation.chunkGraph;
const moduleGraph = compilation.moduleGraph;
// Give each selected chunk an index (to create strings from chunks)
/** @type {Map<Chunk, bigint>} */
const chunkIndexMap = new Map();
const ZERO = BigInt("0");
const ONE = BigInt("1");
const START = ONE << BigInt("31");
let index = START;
for (const chunk of chunks) {
chunkIndexMap.set(
chunk,
index | BigInt((Math.random() * 0x7fffffff) | 0)
);
index = index << ONE;
}
/**
* @param {Iterable<Chunk>} chunks list of chunks
* @returns {bigint | Chunk} key of the chunks
*/
const getKey = chunks => {
const iterator = chunks[Symbol.iterator]();
let result = iterator.next();
if (result.done) return ZERO;
const first = result.value;
result = iterator.next();
if (result.done) return first;
let key =
chunkIndexMap.get(first) | chunkIndexMap.get(result.value);
while (!(result = iterator.next()).done) {
const raw = chunkIndexMap.get(result.value);
key = key ^ raw;
}
return key;
};
/**
* @param {bigint | Chunk} key key of the chunks
* @returns {string} stringified key
*/
const keyToString = key => {
if (typeof key === "bigint") return key.toString(16);
return chunkIndexMap.get(key).toString(16);
};
const getChunkSetsInGraph = memoize(() => {
/** @type {Map<bigint, Set<Chunk>>} */
const chunkSetsInGraph = new Map();
/** @type {Set<Chunk>} */
const singleChunkSets = new Set();
for (const module of compilation.modules) {
const chunks = chunkGraph.getModuleChunksIterable(module);
const chunksKey = getKey(chunks);
if (typeof chunksKey === "bigint") {
if (!chunkSetsInGraph.has(chunksKey)) {
chunkSetsInGraph.set(chunksKey, new Set(chunks));
}
} else {
singleChunkSets.add(chunksKey);
}
}
return { chunkSetsInGraph, singleChunkSets };
});
/**
* @param {Module} module the module
* @returns {Iterable<Chunk[]>} groups of chunks with equal exports
*/
const groupChunksByExports = module => {
const exportsInfo = moduleGraph.getExportsInfo(module);
const groupedByUsedExports = new Map();
for (const chunk of chunkGraph.getModuleChunksIterable(module)) {
const key = exportsInfo.getUsageKey(chunk.runtime);
const list = groupedByUsedExports.get(key);
if (list !== undefined) {
list.push(chunk);
} else {
groupedByUsedExports.set(key, [chunk]);
}
}
return groupedByUsedExports.values();
};
/** @type {Map<Module, Iterable<Chunk[]>>} */
const groupedByExportsMap = new Map();
const getExportsChunkSetsInGraph = memoize(() => {
/** @type {Map<bigint, Set<Chunk>>} */
const chunkSetsInGraph = new Map();
/** @type {Set<Chunk>} */
const singleChunkSets = new Set();
for (const module of compilation.modules) {
const groupedChunks = Array.from(groupChunksByExports(module));
groupedByExportsMap.set(module, groupedChunks);
for (const chunks of groupedChunks) {
if (chunks.length === 1) {
singleChunkSets.add(chunks[0]);
} else {
const chunksKey = /** @type {bigint} */ (getKey(chunks));
if (!chunkSetsInGraph.has(chunksKey)) {
chunkSetsInGraph.set(chunksKey, new Set(chunks));
}
}
}
}
return { chunkSetsInGraph, singleChunkSets };
});
// group these set of chunks by count
// to allow to check less sets via isSubset
// (only smaller sets can be subset)
/**
* @param {IterableIterator<Set<Chunk>>} chunkSets set of sets of chunks
* @returns {Map<number, Array<Set<Chunk>>>} map of sets of chunks by count
*/
const groupChunkSetsByCount = chunkSets => {
/** @type {Map<number, Array<Set<Chunk>>>} */
const chunkSetsByCount = new Map();
for (const chunksSet of chunkSets) {
const count = chunksSet.size;
let array = chunkSetsByCount.get(count);
if (array === undefined) {
array = [];
chunkSetsByCount.set(count, array);
}
array.push(chunksSet);
}
return chunkSetsByCount;
};
const getChunkSetsByCount = memoize(() =>
groupChunkSetsByCount(
getChunkSetsInGraph().chunkSetsInGraph.values()
)
);
const getExportsChunkSetsByCount = memoize(() =>
groupChunkSetsByCount(
getExportsChunkSetsInGraph().chunkSetsInGraph.values()
)
);
// Create a list of possible combinations
const createGetCombinations = (
chunkSets,
singleChunkSets,
chunkSetsByCount
) => {
/** @type {Map<bigint | Chunk, (Set<Chunk> | Chunk)[]>} */
const combinationsCache = new Map();
return key => {
const cacheEntry = combinationsCache.get(key);
if (cacheEntry !== undefined) return cacheEntry;
if (key instanceof Chunk) {
const result = [key];
combinationsCache.set(key, result);
return result;
}
const chunksSet = chunkSets.get(key);
/** @type {(Set<Chunk> | Chunk)[]} */
const array = [chunksSet];
for (const [count, setArray] of chunkSetsByCount) {
// "equal" is not needed because they would have been merge in the first step
if (count < chunksSet.size) {
for (const set of setArray) {
if (isSubset(chunksSet, set)) {
array.push(set);
}
}
}
}
for (const chunk of singleChunkSets) {
if (chunksSet.has(chunk)) {
array.push(chunk);
}
}
combinationsCache.set(key, array);
return array;
};
};
const getCombinationsFactory = memoize(() => {
const { chunkSetsInGraph, singleChunkSets } = getChunkSetsInGraph();
return createGetCombinations(
chunkSetsInGraph,
singleChunkSets,
getChunkSetsByCount()
);
});
const getCombinations = key => getCombinationsFactory()(key);
const getExportsCombinationsFactory = memoize(() => {
const { chunkSetsInGraph, singleChunkSets } =
getExportsChunkSetsInGraph();
return createGetCombinations(
chunkSetsInGraph,
singleChunkSets,
getExportsChunkSetsByCount()
);
});
const getExportsCombinations = key =>
getExportsCombinationsFactory()(key);
/**
* @typedef {Object} SelectedChunksResult
* @property {Chunk[]} chunks the list of chunks
* @property {bigint | Chunk} key a key of the list
*/
/** @type {WeakMap<Set<Chunk> | Chunk, WeakMap<ChunkFilterFunction, SelectedChunksResult>>} */
const selectedChunksCacheByChunksSet = new WeakMap();
/**
* get list and key by applying the filter function to the list
* It is cached for performance reasons
* @param {Set<Chunk> | Chunk} chunks list of chunks
* @param {ChunkFilterFunction} chunkFilter filter function for chunks
* @returns {SelectedChunksResult} list and key
*/
const getSelectedChunks = (chunks, chunkFilter) => {
let entry = selectedChunksCacheByChunksSet.get(chunks);
if (entry === undefined) {
entry = new WeakMap();
selectedChunksCacheByChunksSet.set(chunks, entry);
}
let entry2 =
/** @type {SelectedChunksResult} */
(entry.get(chunkFilter));
if (entry2 === undefined) {
/** @type {Chunk[]} */
const selectedChunks = [];
if (chunks instanceof Chunk) {
if (chunkFilter(chunks)) selectedChunks.push(chunks);
} else {
for (const chunk of chunks) {
if (chunkFilter(chunk)) selectedChunks.push(chunk);
}
}
entry2 = {
chunks: selectedChunks,
key: getKey(selectedChunks)
};
entry.set(chunkFilter, entry2);
}
return entry2;
};
/** @type {Map<string, boolean>} */
const alreadyValidatedParents = new Map();
/** @type {Set<string>} */
const alreadyReportedErrors = new Set();
// Map a list of chunks to a list of modules
// For the key the chunk "index" is used, the value is a SortableSet of modules
/** @type {Map<string, ChunksInfoItem>} */
const chunksInfoMap = new Map();
/**
* @param {CacheGroup} cacheGroup the current cache group
* @param {number} cacheGroupIndex the index of the cache group of ordering
* @param {Chunk[]} selectedChunks chunks selected for this module
* @param {bigint | Chunk} selectedChunksKey a key of selectedChunks
* @param {Module} module the current module
* @returns {void}
*/
const addModuleToChunksInfoMap = (
cacheGroup,
cacheGroupIndex,
selectedChunks,
selectedChunksKey,
module
) => {
// Break if minimum number of chunks is not reached
if (selectedChunks.length < cacheGroup.minChunks) return;
// Determine name for split chunk
const name =
/** @type {string} */
(cacheGroup.getName(module, selectedChunks, cacheGroup.key));
// Check if the name is ok
const existingChunk = compilation.namedChunks.get(name);
if (existingChunk) {
const parentValidationKey = `${name}|${
typeof selectedChunksKey === "bigint"
? selectedChunksKey
: selectedChunksKey.debugId
}`;
const valid = alreadyValidatedParents.get(parentValidationKey);
if (valid === false) return;
if (valid === undefined) {
// Module can only be moved into the existing chunk if the existing chunk
// is a parent of all selected chunks
let isInAllParents = true;
/** @type {Set<ChunkGroup>} */
const queue = new Set();
for (const chunk of selectedChunks) {
for (const group of chunk.groupsIterable) {
queue.add(group);
}
}
for (const group of queue) {
if (existingChunk.isInGroup(group)) continue;
let hasParent = false;
for (const parent of group.parentsIterable) {
hasParent = true;
queue.add(parent);
}
if (!hasParent) {
isInAllParents = false;
}
}
const valid = isInAllParents;
alreadyValidatedParents.set(parentValidationKey, valid);
if (!valid) {
if (!alreadyReportedErrors.has(name)) {
alreadyReportedErrors.add(name);
compilation.errors.push(
new WebpackError(
"SplitChunksPlugin\n" +
`Cache group "${cacheGroup.key}" conflicts with existing chunk.\n` +
`Both have the same name "${name}" and existing chunk is not a parent of the selected modules.\n` +
"Use a different name for the cache group or make sure that the existing chunk is a parent (e. g. via dependOn).\n" +
'HINT: You can omit "name" to automatically create a name.\n' +
"BREAKING CHANGE: webpack < 5 used to allow to use an entrypoint as splitChunk. " +
"This is no longer allowed when the entrypoint is not a parent of the selected modules.\n" +
"Remove this entrypoint and add modules to cache group's 'test' instead. " +
"If you need modules to be evaluated on startup, add them to the existing entrypoints (make them arrays). " +
"See migration guide of more info."
)
);
}
return;
}
}
}
// Create key for maps
// When it has a name we use the name as key
// Otherwise we create the key from chunks and cache group key
// This automatically merges equal names
const key =
cacheGroup.key +
(name
? ` name:${name}`
: ` chunks:${keyToString(selectedChunksKey)}`);
// Add module to maps
let info = /** @type {ChunksInfoItem} */ (chunksInfoMap.get(key));
if (info === undefined) {
chunksInfoMap.set(
key,
(info = {
modules: new SortableSet(
undefined,
compareModulesByIdentifier
),
cacheGroup,
cacheGroupIndex,
name,
sizes: {},
chunks: new Set(),
reuseableChunks: new Set(),
chunksKeys: new Set()
})
);
}
const oldSize = info.modules.size;
info.modules.add(module);
if (info.modules.size !== oldSize) {
for (const type of module.getSourceTypes()) {
info.sizes[type] = (info.sizes[type] || 0) + module.size(type);
}
}
const oldChunksKeysSize = info.chunksKeys.size;
info.chunksKeys.add(selectedChunksKey);
if (oldChunksKeysSize !== info.chunksKeys.size) {
for (const chunk of selectedChunks) {
info.chunks.add(chunk);
}
}
};
const context = {
moduleGraph,
chunkGraph
};
logger.timeEnd("prepare");
logger.time("modules");
// Walk through all modules
for (const module of compilation.modules) {
// Get cache group
let cacheGroups = this.options.getCacheGroups(module, context);
if (!Array.isArray(cacheGroups) || cacheGroups.length === 0) {
continue;
}
// Prepare some values (usedExports = false)
const getCombs = memoize(() => {
const chunks = chunkGraph.getModuleChunksIterable(module);
const chunksKey = getKey(chunks);
return getCombinations(chunksKey);
});
// Prepare some values (usedExports = true)
const getCombsByUsedExports = memoize(() => {
// fill the groupedByExportsMap
getExportsChunkSetsInGraph();
/** @type {Set<Set<Chunk> | Chunk>} */
const set = new Set();
const groupedByUsedExports =
/** @type {Iterable<Chunk[]>} */
(groupedByExportsMap.get(module));
for (const chunks of groupedByUsedExports) {
const chunksKey = getKey(chunks);
for (const comb of getExportsCombinations(chunksKey))
set.add(comb);
}
return set;
});
let cacheGroupIndex = 0;
for (const cacheGroupSource of cacheGroups) {
const cacheGroup = this._getCacheGroup(cacheGroupSource);
const combs = cacheGroup.usedExports
? getCombsByUsedExports()
: getCombs();
// For all combination of chunk selection
for (const chunkCombination of combs) {
// Break if minimum number of chunks is not reached
const count =
chunkCombination instanceof Chunk ? 1 : chunkCombination.size;
if (count < cacheGroup.minChunks) continue;
// Select chunks by configuration
const { chunks: selectedChunks, key: selectedChunksKey } =
getSelectedChunks(
chunkCombination,
/** @type {ChunkFilterFunction} */ (cacheGroup.chunksFilter)
);
addModuleToChunksInfoMap(
cacheGroup,
cacheGroupIndex,
selectedChunks,
selectedChunksKey,
module
);
}
cacheGroupIndex++;
}
}
logger.timeEnd("modules");
logger.time("queue");
/**
* @param {ChunksInfoItem} info entry
* @param {string[]} sourceTypes source types to be removed
*/
const removeModulesWithSourceType = (info, sourceTypes) => {
for (const module of info.modules) {
const types = module.getSourceTypes();
if (sourceTypes.some(type => types.has(type))) {
info.modules.delete(module);
for (const type of types) {
info.sizes[type] -= module.size(type);
}
}
}
};
/**
* @param {ChunksInfoItem} info entry
* @returns {boolean} true, if entry become empty
*/
const removeMinSizeViolatingModules = info => {
if (!info.cacheGroup._validateSize) return false;
const violatingSizes = getViolatingMinSizes(
info.sizes,
info.cacheGroup.minSize
);
if (violatingSizes === undefined) return false;
removeModulesWithSourceType(info, violatingSizes);
return info.modules.size === 0;
};
// Filter items were size < minSize
for (const [key, info] of chunksInfoMap) {
if (removeMinSizeViolatingModules(info)) {
chunksInfoMap.delete(key);
} else if (
!checkMinSizeReduction(
info.sizes,
info.cacheGroup.minSizeReduction,
info.chunks.size
)
) {
chunksInfoMap.delete(key);
}
}
/**
* @typedef {Object} MaxSizeQueueItem
* @property {SplitChunksSizes} minSize
* @property {SplitChunksSizes} maxAsyncSize
* @property {SplitChunksSizes} maxInitialSize
* @property {string} automaticNameDelimiter
* @property {string[]} keys
*/
/** @type {Map<Chunk, MaxSizeQueueItem>} */
const maxSizeQueueMap = new Map();
while (chunksInfoMap.size > 0) {
// Find best matching entry
let bestEntryKey;
let bestEntry;
for (const pair of chunksInfoMap) {
const key = pair[0];
const info = pair[1];
if (
bestEntry === undefined ||
compareEntries(bestEntry, info) < 0
) {
bestEntry = info;
bestEntryKey = key;
}
}
const item = /** @type {ChunksInfoItem} */ (bestEntry);
chunksInfoMap.delete(/** @type {string} */ (bestEntryKey));
/** @type {Chunk["name"] | undefined} */
let chunkName = item.name;
// Variable for the new chunk (lazy created)
/** @type {Chunk | undefined} */
let newChunk;
// When no chunk name, check if we can reuse a chunk instead of creating a new one
let isExistingChunk = false;
let isReusedWithAllModules = false;
if (chunkName) {
const chunkByName = compilation.namedChunks.get(chunkName);
if (chunkByName !== undefined) {
newChunk = chunkByName;
const oldSize = item.chunks.size;
item.chunks.delete(newChunk);
isExistingChunk = item.chunks.size !== oldSize;
}
} else if (item.cacheGroup.reuseExistingChunk) {
outer: for (const chunk of item.chunks) {
if (
chunkGraph.getNumberOfChunkModules(chunk) !==
item.modules.size
) {
continue;
}
if (
item.chunks.size > 1 &&
chunkGraph.getNumberOfEntryModules(chunk) > 0
) {
continue;
}
for (const module of item.modules) {
if (!chunkGraph.isModuleInChunk(module, chunk)) {
continue outer;
}
}
if (!newChunk || !newChunk.name) {
newChunk = chunk;
} else if (
chunk.name &&
chunk.name.length < newChunk.name.length
) {
newChunk = chunk;
} else if (
chunk.name &&
chunk.name.length === newChunk.name.length &&
chunk.name < newChunk.name
) {
newChunk = chunk;
}
}
if (newChunk) {
item.chunks.delete(newChunk);
chunkName = undefined;
isExistingChunk = true;
isReusedWithAllModules = true;
}
}
const enforced =
item.cacheGroup._conditionalEnforce &&
checkMinSize(item.sizes, item.cacheGroup.enforceSizeThreshold);
const usedChunks = new Set(item.chunks);
// Check if maxRequests condition can be fulfilled
if (
!enforced &&
(Number.isFinite(item.cacheGroup.maxInitialRequests) ||
Number.isFinite(item.cacheGroup.maxAsyncRequests))
) {
for (const chunk of usedChunks) {
// respect max requests
const maxRequests = /** @type {number} */ (
chunk.isOnlyInitial()
? item.cacheGroup.maxInitialRequests
: chunk.canBeInitial()
? Math.min(
/** @type {number} */
(item.cacheGroup.maxInitialRequests),
/** @type {number} */
(item.cacheGroup.maxAsyncRequests)
)
: item.cacheGroup.maxAsyncRequests
);
if (
isFinite(maxRequests) &&
getRequests(chunk) >= maxRequests
) {
usedChunks.delete(chunk);
}
}
}
outer: for (const chunk of usedChunks) {
for (const module of item.modules) {
if (chunkGraph.isModuleInChunk(module, chunk)) continue outer;
}
usedChunks.delete(chunk);
}
// Were some (invalid) chunks removed from usedChunks?
// => readd all modules to the queue, as things could have been changed
if (usedChunks.size < item.chunks.size) {
if (isExistingChunk)
usedChunks.add(/** @type {Chunk} */ (newChunk));
if (
/** @type {number} */ (usedChunks.size) >=
/** @type {number} */ (item.cacheGroup.minChunks)
) {
const chunksArr = Array.from(usedChunks);
for (const module of item.modules) {
addModuleToChunksInfoMap(
item.cacheGroup,
item.cacheGroupIndex,
chunksArr,
getKey(usedChunks),
module
);
}
}
continue;
}
// Validate minRemainingSize constraint when a single chunk is left over
if (
!enforced &&
item.cacheGroup._validateRemainingSize &&
usedChunks.size === 1
) {
const [chunk] = usedChunks;
let chunkSizes = Object.create(null);
for (const module of chunkGraph.getChunkModulesIterable(chunk)) {
if (!item.modules.has(module)) {
for (const type of module.getSourceTypes()) {
chunkSizes[type] =
(chunkSizes[type] || 0) + module.size(type);
}
}
}
const violatingSizes = getViolatingMinSizes(
chunkSizes,
item.cacheGroup.minRemainingSize
);
if (violatingSizes !== undefined) {
const oldModulesSize = item.modules.size;
removeModulesWithSourceType(item, violatingSizes);
if (
item.modules.size > 0 &&
item.modules.size !== oldModulesSize
) {
// queue this item again to be processed again
// without violating modules
chunksInfoMap.set(/** @type {string} */ (bestEntryKey), item);
}
continue;
}
}
// Create the new chunk if not reusing one
if (newChunk === undefined) {
newChunk = compilation.addChunk(chunkName);
}
// Walk through all chunks
for (const chunk of usedChunks) {
// Add graph connections for splitted chunk
chunk.split(newChunk);
}
// Add a note to the chunk
newChunk.chunkReason =
(newChunk.chunkReason ? newChunk.chunkReason + ", " : "") +
(isReusedWithAllModules
? "reused as split chunk"
: "split chunk");
if (item.cacheGroup.key) {
newChunk.chunkReason += ` (cache group: ${item.cacheGroup.key})`;
}
if (chunkName) {
newChunk.chunkReason += ` (name: ${chunkName})`;
}
if (item.cacheGroup.filename) {
newChunk.filenameTemplate = item.cacheGroup.filename;
}
if (item.cacheGroup.idHint) {
newChunk.idNameHints.add(item.cacheGroup.idHint);
}
if (!isReusedWithAllModules) {
// Add all modules to the new chunk
for (const module of item.modules) {
if (!module.chunkCondition(newChunk, compilation)) continue;
// Add module to new chunk
chunkGraph.connectChunkAndModule(newChunk, module);
// Remove module from used chunks
for (const chunk of usedChunks) {
chunkGraph.disconnectChunkAndModule(chunk, module);
}
}
} else {
// Remove all modules from used chunks
for (const module of item.modules) {
for (const chunk of usedChunks) {
chunkGraph.disconnectChunkAndModule(chunk, module);
}
}
}
if (
Object.keys(item.cacheGroup.maxAsyncSize).length > 0 ||
Object.keys(item.cacheGroup.maxInitialSize).length > 0
) {
const oldMaxSizeSettings = maxSizeQueueMap.get(newChunk);
maxSizeQueueMap.set(newChunk, {
minSize: oldMaxSizeSettings
? combineSizes(
oldMaxSizeSettings.minSize,
item.cacheGroup._minSizeForMaxSize,
Math.max
)
: item.cacheGroup.minSize,
maxAsyncSize: oldMaxSizeSettings
? combineSizes(
oldMaxSizeSettings.maxAsyncSize,
item.cacheGroup.maxAsyncSize,
Math.min
)
: item.cacheGroup.maxAsyncSize,
maxInitialSize: oldMaxSizeSettings
? combineSizes(
oldMaxSizeSettings.maxInitialSize,
item.cacheGroup.maxInitialSize,
Math.min
)
: item.cacheGroup.maxInitialSize,
automaticNameDelimiter: item.cacheGroup.automaticNameDelimiter,
keys: oldMaxSizeSettings
? oldMaxSizeSettings.keys.concat(item.cacheGroup.key)
: [item.cacheGroup.key]
});
}
// remove all modules from other entries and update size
for (const [key, info] of chunksInfoMap) {
if (isOverlap(info.chunks, usedChunks)) {
// update modules and total size
// may remove it from the map when < minSize
let updated = false;
for (const module of item.modules) {
if (info.modules.has(module)) {
// remove module
info.modules.delete(module);
// update size
for (const key of module.getSourceTypes()) {
info.sizes[key] -= module.size(key);
}
updated = true;
}
}
if (updated) {
if (info.modules.size === 0) {
chunksInfoMap.delete(key);
continue;
}
if (
removeMinSizeViolatingModules(info) ||
!checkMinSizeReduction(
info.sizes,
info.cacheGroup.minSizeReduction,
info.chunks.size
)
) {
chunksInfoMap.delete(key);
continue;
}
}
}
}
}
logger.timeEnd("queue");
logger.time("maxSize");
/** @type {Set<string>} */
const incorrectMinMaxSizeSet = new Set();
const { outputOptions } = compilation;
// Make sure that maxSize is fulfilled
const { fallbackCacheGroup } = this.options;
for (const chunk of Array.from(compilation.chunks)) {
const chunkConfig = maxSizeQueueMap.get(chunk);
const {
minSize,
maxAsyncSize,
maxInitialSize,
automaticNameDelimiter
} = chunkConfig || fallbackCacheGroup;
if (!chunkConfig && !fallbackCacheGroup.chunksFilter(chunk))
continue;
/** @type {SplitChunksSizes} */
let maxSize;
if (chunk.isOnlyInitial()) {
maxSize = maxInitialSize;
} else if (chunk.canBeInitial()) {
maxSize = combineSizes(maxAsyncSize, maxInitialSize, Math.min);
} else {
maxSize = maxAsyncSize;
}
if (Object.keys(maxSize).length === 0) {
continue;
}
for (const key of Object.keys(maxSize)) {
const maxSizeValue = maxSize[key];
const minSizeValue = minSize[key];
if (
typeof minSizeValue === "number" &&
minSizeValue > maxSizeValue
) {
const keys = chunkConfig && chunkConfig.keys;
const warningKey = `${
keys && keys.join()
} ${minSizeValue} ${maxSizeValue}`;
if (!incorrectMinMaxSizeSet.has(warningKey)) {
incorrectMinMaxSizeSet.add(warningKey);
compilation.warnings.push(
new MinMaxSizeWarning(keys, minSizeValue, maxSizeValue)
);
}
}
}
const results = deterministicGroupingForModules({
minSize,
maxSize: mapObject(maxSize, (value, key) => {
const minSizeValue = minSize[key];
return typeof minSizeValue === "number"
? Math.max(value, minSizeValue)
: value;
}),
items: chunkGraph.getChunkModulesIterable(chunk),
getKey(module) {
const cache = getKeyCache.get(module);
if (cache !== undefined) return cache;
const ident = cachedMakePathsRelative(module.identifier());
const nameForCondition =
module.nameForCondition && module.nameForCondition();
const name = nameForCondition
? cachedMakePathsRelative(nameForCondition)
: ident.replace(/^.*!|\?[^?!]*$/g, "");
const fullKey =
name +
automaticNameDelimiter +
hashFilename(ident, outputOptions);
const key = requestToId(fullKey);
getKeyCache.set(module, key);
return key;
},
getSize(module) {
const size = Object.create(null);
for (const key of module.getSourceTypes()) {
size[key] = module.size(key);
}
return size;
}
});
if (results.length <= 1) {
continue;
}
for (let i = 0; i < results.length; i++) {
const group = results[i];
const key = this.options.hidePathInfo
? hashFilename(group.key, outputOptions)
: group.key;
let name = chunk.name
? chunk.name + automaticNameDelimiter + key
: null;
if (name && name.length > 100) {
name =
name.slice(0, 100) +
automaticNameDelimiter +
hashFilename(name, outputOptions);
}
if (i !== results.length - 1) {
const newPart = compilation.addChunk(
/** @type {Chunk["name"]} */ (name)
);
chunk.split(newPart);
newPart.chunkReason = chunk.chunkReason;
// Add all modules to the new chunk
for (const module of group.items) {
if (!module.chunkCondition(newPart, compilation)) {
continue;
}
// Add module to new chunk
chunkGraph.connectChunkAndModule(newPart, module);
// Remove module from used chunks
chunkGraph.disconnectChunkAndModule(chunk, module);
}
} else {
// change the chunk to be a part
chunk.name = /** @type {Chunk["name"]} */ (name);
}
}
}
logger.timeEnd("maxSize");
}
);
});
}
};