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725 lines
21 KiB
725 lines
21 KiB
/*
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MIT License http://www.opensource.org/licenses/mit-license.php
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Author Tobias Koppers @sokra
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*/
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"use strict";
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const AsyncDependencyToInitialChunkError = require("./AsyncDependencyToInitialChunkError");
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const GraphHelpers = require("./GraphHelpers");
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/** @typedef {import("./AsyncDependenciesBlock")} AsyncDependenciesBlock */
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/** @typedef {import("./Chunk")} Chunk */
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/** @typedef {import("./ChunkGroup")} ChunkGroup */
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/** @typedef {import("./Compilation")} Compilation */
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/** @typedef {import("./DependenciesBlock")} DependenciesBlock */
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/** @typedef {import("./Dependency")} Dependency */
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/** @typedef {import("./Entrypoint")} Entrypoint */
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/** @typedef {import("./Module")} Module */
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/**
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* @typedef {Object} QueueItem
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* @property {number} action
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* @property {DependenciesBlock} block
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* @property {Module} module
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* @property {Chunk} chunk
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* @property {ChunkGroup} chunkGroup
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*/
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/**
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* @typedef {Object} ChunkGroupInfo
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* @property {ChunkGroup} chunkGroup the chunk group
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* @property {Set<Module>} minAvailableModules current minimal set of modules available at this point
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* @property {boolean} minAvailableModulesOwned true, if minAvailableModules is owned and can be modified
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* @property {Set<Module>[]} availableModulesToBeMerged enqueued updates to the minimal set of available modules
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* @property {QueueItem[]} skippedItems queue items that were skipped because module is already available in parent chunks (need to reconsider when minAvailableModules is shrinking)
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* @property {Set<Module>} resultingAvailableModules set of modules available including modules from this chunk group
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* @property {Set<ChunkGroup>} children set of children chunk groups, that will be revisited when availableModules shrink
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*/
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/**
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* @typedef {Object} ChunkGroupDep
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* @property {AsyncDependenciesBlock} block referencing block
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* @property {ChunkGroup} chunkGroup referenced chunk group
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*/
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/**
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* @template T
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* @param {Set<T>} a first set
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* @param {Set<T>} b second set
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* @returns {number} cmp
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*/
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const bySetSize = (a, b) => {
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return b.size - a.size;
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};
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/**
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* Extracts simplified info from the modules and their dependencies
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* @param {Compilation} compilation the compilation
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* @returns {Map<DependenciesBlock, { modules: Iterable<Module>, blocks: AsyncDependenciesBlock[]}>} the mapping block to modules and inner blocks
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*/
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const extraceBlockInfoMap = compilation => {
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/** @type {Map<DependenciesBlock, { modules: Iterable<Module>, blocks: AsyncDependenciesBlock[]}>} */
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const blockInfoMap = new Map();
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/**
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* @param {Dependency} d dependency to iterate over
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* @returns {void}
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*/
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const iteratorDependency = d => {
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// We skip Dependencies without Reference
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const ref = compilation.getDependencyReference(currentModule, d);
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if (!ref) {
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return;
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}
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// We skip Dependencies without Module pointer
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const refModule = ref.module;
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if (!refModule) {
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return;
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}
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// We skip weak Dependencies
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if (ref.weak) {
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return;
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}
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blockInfoModules.add(refModule);
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};
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/**
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* @param {AsyncDependenciesBlock} b blocks to prepare
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* @returns {void}
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*/
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const iteratorBlockPrepare = b => {
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blockInfoBlocks.push(b);
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blockQueue.push(b);
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};
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/** @type {Module} */
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let currentModule;
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/** @type {DependenciesBlock} */
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let block;
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/** @type {DependenciesBlock[]} */
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let blockQueue;
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/** @type {Set<Module>} */
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let blockInfoModules;
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/** @type {AsyncDependenciesBlock[]} */
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let blockInfoBlocks;
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for (const module of compilation.modules) {
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blockQueue = [module];
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currentModule = module;
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while (blockQueue.length > 0) {
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block = blockQueue.pop();
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blockInfoModules = new Set();
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blockInfoBlocks = [];
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if (block.variables) {
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for (const variable of block.variables) {
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for (const dep of variable.dependencies) iteratorDependency(dep);
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}
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}
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if (block.dependencies) {
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for (const dep of block.dependencies) iteratorDependency(dep);
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}
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if (block.blocks) {
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for (const b of block.blocks) iteratorBlockPrepare(b);
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}
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const blockInfo = {
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modules: blockInfoModules,
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blocks: blockInfoBlocks
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};
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blockInfoMap.set(block, blockInfo);
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}
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}
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return blockInfoMap;
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};
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/**
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*
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* @param {Compilation} compilation the compilation
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* @param {Entrypoint[]} inputChunkGroups input groups
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* @param {Map<ChunkGroup, ChunkGroupInfo>} chunkGroupInfoMap mapping from chunk group to available modules
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* @param {Map<ChunkGroup, ChunkGroupDep[]>} chunkDependencies dependencies for chunk groups
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* @param {Set<DependenciesBlock>} blocksWithNestedBlocks flag for blocks that have nested blocks
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* @param {Set<ChunkGroup>} allCreatedChunkGroups filled with all chunk groups that are created here
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*/
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const visitModules = (
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compilation,
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inputChunkGroups,
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chunkGroupInfoMap,
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chunkDependencies,
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blocksWithNestedBlocks,
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allCreatedChunkGroups
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) => {
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const logger = compilation.getLogger("webpack.buildChunkGraph.visitModules");
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const { namedChunkGroups } = compilation;
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logger.time("prepare");
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const blockInfoMap = extraceBlockInfoMap(compilation);
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/** @type {Map<ChunkGroup, { index: number, index2: number }>} */
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const chunkGroupCounters = new Map();
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for (const chunkGroup of inputChunkGroups) {
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chunkGroupCounters.set(chunkGroup, {
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index: 0,
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index2: 0
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});
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}
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let nextFreeModuleIndex = 0;
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let nextFreeModuleIndex2 = 0;
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/** @type {Map<DependenciesBlock, ChunkGroup>} */
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const blockChunkGroups = new Map();
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const ADD_AND_ENTER_MODULE = 0;
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const ENTER_MODULE = 1;
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const PROCESS_BLOCK = 2;
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const LEAVE_MODULE = 3;
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/**
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* @param {QueueItem[]} queue the queue array (will be mutated)
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* @param {ChunkGroup} chunkGroup chunk group
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* @returns {QueueItem[]} the queue array again
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*/
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const reduceChunkGroupToQueueItem = (queue, chunkGroup) => {
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for (const chunk of chunkGroup.chunks) {
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const module = chunk.entryModule;
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queue.push({
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action: ENTER_MODULE,
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block: module,
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module,
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chunk,
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chunkGroup
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});
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}
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chunkGroupInfoMap.set(chunkGroup, {
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chunkGroup,
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minAvailableModules: new Set(),
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minAvailableModulesOwned: true,
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availableModulesToBeMerged: [],
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skippedItems: [],
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resultingAvailableModules: undefined,
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children: undefined
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});
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return queue;
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};
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// Start with the provided modules/chunks
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/** @type {QueueItem[]} */
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let queue = inputChunkGroups
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.reduce(reduceChunkGroupToQueueItem, [])
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.reverse();
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/** @type {Map<ChunkGroup, Set<ChunkGroup>>} */
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const queueConnect = new Map();
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/** @type {Set<ChunkGroupInfo>} */
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const outdatedChunkGroupInfo = new Set();
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/** @type {QueueItem[]} */
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let queueDelayed = [];
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logger.timeEnd("prepare");
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/** @type {Module} */
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let module;
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/** @type {Chunk} */
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let chunk;
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/** @type {ChunkGroup} */
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let chunkGroup;
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/** @type {DependenciesBlock} */
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let block;
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/** @type {Set<Module>} */
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let minAvailableModules;
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/** @type {QueueItem[]} */
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let skippedItems;
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// For each async Block in graph
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/**
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* @param {AsyncDependenciesBlock} b iterating over each Async DepBlock
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* @returns {void}
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*/
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const iteratorBlock = b => {
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// 1. We create a chunk for this Block
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// but only once (blockChunkGroups map)
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let c = blockChunkGroups.get(b);
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if (c === undefined) {
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c = namedChunkGroups.get(b.chunkName);
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if (c && c.isInitial()) {
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compilation.errors.push(
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new AsyncDependencyToInitialChunkError(b.chunkName, module, b.loc)
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);
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c = chunkGroup;
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} else {
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c = compilation.addChunkInGroup(
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b.groupOptions || b.chunkName,
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module,
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b.loc,
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b.request
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);
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chunkGroupCounters.set(c, { index: 0, index2: 0 });
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blockChunkGroups.set(b, c);
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allCreatedChunkGroups.add(c);
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}
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} else {
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// TODO webpack 5 remove addOptions check
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if (c.addOptions) c.addOptions(b.groupOptions);
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c.addOrigin(module, b.loc, b.request);
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}
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// 2. We store the Block+Chunk mapping as dependency for the chunk
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let deps = chunkDependencies.get(chunkGroup);
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if (!deps) chunkDependencies.set(chunkGroup, (deps = []));
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deps.push({
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block: b,
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chunkGroup: c
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});
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// 3. We create/update the chunk group info
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let connectList = queueConnect.get(chunkGroup);
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if (connectList === undefined) {
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connectList = new Set();
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queueConnect.set(chunkGroup, connectList);
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}
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connectList.add(c);
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// 4. We enqueue the DependenciesBlock for traversal
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queueDelayed.push({
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action: PROCESS_BLOCK,
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block: b,
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module: module,
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chunk: c.chunks[0],
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chunkGroup: c
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});
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};
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// Iterative traversal of the Module graph
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// Recursive would be simpler to write but could result in Stack Overflows
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while (queue.length) {
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logger.time("visiting");
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while (queue.length) {
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const queueItem = queue.pop();
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module = queueItem.module;
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block = queueItem.block;
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chunk = queueItem.chunk;
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if (chunkGroup !== queueItem.chunkGroup) {
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chunkGroup = queueItem.chunkGroup;
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const chunkGroupInfo = chunkGroupInfoMap.get(chunkGroup);
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minAvailableModules = chunkGroupInfo.minAvailableModules;
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skippedItems = chunkGroupInfo.skippedItems;
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}
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switch (queueItem.action) {
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case ADD_AND_ENTER_MODULE: {
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if (minAvailableModules.has(module)) {
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// already in parent chunks
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// skip it for now, but enqueue for rechecking when minAvailableModules shrinks
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skippedItems.push(queueItem);
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break;
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}
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// We connect Module and Chunk when not already done
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if (chunk.addModule(module)) {
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module.addChunk(chunk);
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} else {
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// already connected, skip it
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break;
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}
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}
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// fallthrough
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case ENTER_MODULE: {
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if (chunkGroup !== undefined) {
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const index = chunkGroup.getModuleIndex(module);
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if (index === undefined) {
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chunkGroup.setModuleIndex(
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module,
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chunkGroupCounters.get(chunkGroup).index++
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);
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}
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}
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if (module.index === null) {
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module.index = nextFreeModuleIndex++;
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}
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queue.push({
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action: LEAVE_MODULE,
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block,
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module,
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chunk,
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chunkGroup
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});
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}
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// fallthrough
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case PROCESS_BLOCK: {
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// get prepared block info
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const blockInfo = blockInfoMap.get(block);
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// Buffer items because order need to be reverse to get indicies correct
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const skipBuffer = [];
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const queueBuffer = [];
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// Traverse all referenced modules
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for (const refModule of blockInfo.modules) {
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if (chunk.containsModule(refModule)) {
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// skip early if already connected
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continue;
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}
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if (minAvailableModules.has(refModule)) {
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// already in parent chunks, skip it for now
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skipBuffer.push({
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action: ADD_AND_ENTER_MODULE,
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block: refModule,
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module: refModule,
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chunk,
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chunkGroup
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});
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continue;
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}
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// enqueue the add and enter to enter in the correct order
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// this is relevant with circular dependencies
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queueBuffer.push({
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action: ADD_AND_ENTER_MODULE,
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block: refModule,
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module: refModule,
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chunk,
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chunkGroup
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});
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}
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// Add buffered items in reversed order
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for (let i = skipBuffer.length - 1; i >= 0; i--) {
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skippedItems.push(skipBuffer[i]);
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}
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for (let i = queueBuffer.length - 1; i >= 0; i--) {
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queue.push(queueBuffer[i]);
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}
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// Traverse all Blocks
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for (const block of blockInfo.blocks) iteratorBlock(block);
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if (blockInfo.blocks.length > 0 && module !== block) {
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blocksWithNestedBlocks.add(block);
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}
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break;
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}
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case LEAVE_MODULE: {
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if (chunkGroup !== undefined) {
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const index = chunkGroup.getModuleIndex2(module);
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if (index === undefined) {
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chunkGroup.setModuleIndex2(
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module,
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chunkGroupCounters.get(chunkGroup).index2++
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);
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}
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}
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if (module.index2 === null) {
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module.index2 = nextFreeModuleIndex2++;
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}
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break;
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}
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}
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}
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logger.timeEnd("visiting");
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while (queueConnect.size > 0) {
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logger.time("calculating available modules");
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// Figure out new parents for chunk groups
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// to get new available modules for these children
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for (const [chunkGroup, targets] of queueConnect) {
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const info = chunkGroupInfoMap.get(chunkGroup);
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let minAvailableModules = info.minAvailableModules;
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// 1. Create a new Set of available modules at this points
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const resultingAvailableModules = new Set(minAvailableModules);
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for (const chunk of chunkGroup.chunks) {
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for (const m of chunk.modulesIterable) {
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resultingAvailableModules.add(m);
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}
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}
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info.resultingAvailableModules = resultingAvailableModules;
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if (info.children === undefined) {
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info.children = targets;
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} else {
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for (const target of targets) {
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info.children.add(target);
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}
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}
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// 2. Update chunk group info
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for (const target of targets) {
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let chunkGroupInfo = chunkGroupInfoMap.get(target);
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if (chunkGroupInfo === undefined) {
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chunkGroupInfo = {
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chunkGroup: target,
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minAvailableModules: undefined,
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minAvailableModulesOwned: undefined,
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availableModulesToBeMerged: [],
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skippedItems: [],
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resultingAvailableModules: undefined,
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children: undefined
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};
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chunkGroupInfoMap.set(target, chunkGroupInfo);
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}
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chunkGroupInfo.availableModulesToBeMerged.push(
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resultingAvailableModules
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);
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outdatedChunkGroupInfo.add(chunkGroupInfo);
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}
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}
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queueConnect.clear();
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logger.timeEnd("calculating available modules");
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if (outdatedChunkGroupInfo.size > 0) {
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logger.time("merging available modules");
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// Execute the merge
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for (const info of outdatedChunkGroupInfo) {
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const availableModulesToBeMerged = info.availableModulesToBeMerged;
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let cachedMinAvailableModules = info.minAvailableModules;
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// 1. Get minimal available modules
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// It doesn't make sense to traverse a chunk again with more available modules.
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// This step calculates the minimal available modules and skips traversal when
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// the list didn't shrink.
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if (availableModulesToBeMerged.length > 1) {
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availableModulesToBeMerged.sort(bySetSize);
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}
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let changed = false;
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for (const availableModules of availableModulesToBeMerged) {
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if (cachedMinAvailableModules === undefined) {
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cachedMinAvailableModules = availableModules;
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info.minAvailableModules = cachedMinAvailableModules;
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info.minAvailableModulesOwned = false;
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changed = true;
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} else {
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if (info.minAvailableModulesOwned) {
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// We own it and can modify it
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for (const m of cachedMinAvailableModules) {
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if (!availableModules.has(m)) {
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cachedMinAvailableModules.delete(m);
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changed = true;
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}
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}
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} else {
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for (const m of cachedMinAvailableModules) {
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if (!availableModules.has(m)) {
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// cachedMinAvailableModules need to be modified
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// but we don't own it
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// construct a new Set as intersection of cachedMinAvailableModules and availableModules
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/** @type {Set<Module>} */
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const newSet = new Set();
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const iterator = cachedMinAvailableModules[
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Symbol.iterator
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]();
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/** @type {IteratorResult<Module>} */
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let it;
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while (!(it = iterator.next()).done) {
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const module = it.value;
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if (module === m) break;
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newSet.add(module);
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}
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while (!(it = iterator.next()).done) {
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const module = it.value;
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if (availableModules.has(module)) {
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newSet.add(module);
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}
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}
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cachedMinAvailableModules = newSet;
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info.minAvailableModulesOwned = true;
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info.minAvailableModules = newSet;
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// Update the cache from the first queue
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// if the chunkGroup is currently cached
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if (chunkGroup === info.chunkGroup) {
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minAvailableModules = cachedMinAvailableModules;
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}
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changed = true;
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break;
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}
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}
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}
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}
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}
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availableModulesToBeMerged.length = 0;
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if (!changed) continue;
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// 2. Reconsider skipped items
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for (const queueItem of info.skippedItems) {
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queue.push(queueItem);
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}
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info.skippedItems.length = 0;
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|
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// 3. Reconsider children chunk groups
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if (info.children !== undefined) {
|
|
const chunkGroup = info.chunkGroup;
|
|
for (const c of info.children) {
|
|
let connectList = queueConnect.get(chunkGroup);
|
|
if (connectList === undefined) {
|
|
connectList = new Set();
|
|
queueConnect.set(chunkGroup, connectList);
|
|
}
|
|
connectList.add(c);
|
|
}
|
|
}
|
|
}
|
|
outdatedChunkGroupInfo.clear();
|
|
logger.timeEnd("merging available modules");
|
|
}
|
|
}
|
|
|
|
// Run queueDelayed when all items of the queue are processed
|
|
// This is important to get the global indicing correct
|
|
// Async blocks should be processed after all sync blocks are processed
|
|
if (queue.length === 0) {
|
|
const tempQueue = queue;
|
|
queue = queueDelayed.reverse();
|
|
queueDelayed = tempQueue;
|
|
}
|
|
}
|
|
};
|
|
|
|
/**
|
|
*
|
|
* @param {Set<DependenciesBlock>} blocksWithNestedBlocks flag for blocks that have nested blocks
|
|
* @param {Map<ChunkGroup, ChunkGroupDep[]>} chunkDependencies dependencies for chunk groups
|
|
* @param {Map<ChunkGroup, ChunkGroupInfo>} chunkGroupInfoMap mapping from chunk group to available modules
|
|
*/
|
|
const connectChunkGroups = (
|
|
blocksWithNestedBlocks,
|
|
chunkDependencies,
|
|
chunkGroupInfoMap
|
|
) => {
|
|
/** @type {Set<Module>} */
|
|
let resultingAvailableModules;
|
|
|
|
/**
|
|
* 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 chunk.modulesIterable) {
|
|
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;
|
|
// TODO is this needed?
|
|
if (blocksWithNestedBlocks.has(dep.block)) return true;
|
|
if (areModulesAvailable(depChunkGroup, resultingAvailableModules)) {
|
|
return false; // break all modules are already available
|
|
}
|
|
return true;
|
|
};
|
|
|
|
// For all deps, check if chunk groups need to be connected
|
|
for (const [chunkGroup, deps] of chunkDependencies) {
|
|
if (deps.length === 0) continue;
|
|
|
|
// 1. Get info from chunk group info map
|
|
const info = chunkGroupInfoMap.get(chunkGroup);
|
|
resultingAvailableModules = info.resultingAvailableModules;
|
|
|
|
// 2. Foreach edge
|
|
for (let i = 0; i < deps.length; i++) {
|
|
const dep = deps[i];
|
|
|
|
// Filter inline, rather than creating a new array from `.filter()`
|
|
// TODO check if inlining filterFn makes sense here
|
|
if (!filterFn(dep)) {
|
|
continue;
|
|
}
|
|
const depChunkGroup = dep.chunkGroup;
|
|
const depBlock = dep.block;
|
|
|
|
// 5. Connect block with chunk
|
|
GraphHelpers.connectDependenciesBlockAndChunkGroup(
|
|
depBlock,
|
|
depChunkGroup
|
|
);
|
|
|
|
// 6. Connect chunk with parent
|
|
GraphHelpers.connectChunkGroupParentAndChild(chunkGroup, depChunkGroup);
|
|
}
|
|
}
|
|
};
|
|
|
|
/**
|
|
* Remove all unconnected chunk groups
|
|
* @param {Compilation} compilation the compilation
|
|
* @param {Iterable<ChunkGroup>} allCreatedChunkGroups all chunk groups that where created before
|
|
*/
|
|
const cleanupUnconnectedGroups = (compilation, allCreatedChunkGroups) => {
|
|
for (const chunkGroup of allCreatedChunkGroups) {
|
|
if (chunkGroup.getNumberOfParents() === 0) {
|
|
for (const chunk of chunkGroup.chunks) {
|
|
const idx = compilation.chunks.indexOf(chunk);
|
|
if (idx >= 0) compilation.chunks.splice(idx, 1);
|
|
chunk.remove("unconnected");
|
|
}
|
|
chunkGroup.remove("unconnected");
|
|
}
|
|
}
|
|
};
|
|
|
|
/**
|
|
* This method creates the Chunk graph from the Module graph
|
|
* @param {Compilation} compilation the compilation
|
|
* @param {Entrypoint[]} inputChunkGroups chunk groups which are processed
|
|
* @returns {void}
|
|
*/
|
|
const buildChunkGraph = (compilation, inputChunkGroups) => {
|
|
// SHARED STATE
|
|
|
|
/** @type {Map<ChunkGroup, ChunkGroupDep[]>} */
|
|
const chunkDependencies = new Map();
|
|
|
|
/** @type {Set<ChunkGroup>} */
|
|
const allCreatedChunkGroups = new Set();
|
|
|
|
/** @type {Map<ChunkGroup, ChunkGroupInfo>} */
|
|
const chunkGroupInfoMap = new Map();
|
|
|
|
/** @type {Set<DependenciesBlock>} */
|
|
const blocksWithNestedBlocks = new Set();
|
|
|
|
// PART ONE
|
|
|
|
visitModules(
|
|
compilation,
|
|
inputChunkGroups,
|
|
chunkGroupInfoMap,
|
|
chunkDependencies,
|
|
blocksWithNestedBlocks,
|
|
allCreatedChunkGroups
|
|
);
|
|
|
|
// PART TWO
|
|
|
|
connectChunkGroups(
|
|
blocksWithNestedBlocks,
|
|
chunkDependencies,
|
|
chunkGroupInfoMap
|
|
);
|
|
|
|
// Cleaup work
|
|
|
|
cleanupUnconnectedGroups(compilation, allCreatedChunkGroups);
|
|
};
|
|
|
|
module.exports = buildChunkGraph;
|