/* MIT License http://www.opensource.org/licenses/mit-license.php Author Tobias Koppers @sokra */ "use strict"; const { STAGE_BASIC } = require("../OptimizationStages"); /** @typedef {import("../Chunk")} Chunk */ /** @typedef {import("../ChunkGroup")} ChunkGroup */ /** @typedef {import("../Compiler")} Compiler */ /** @typedef {import("../Module")} Module */ /** * Intersects multiple masks represented as bigints * @param {bigint[]} masks The module masks to intersect * @returns {bigint} The intersection of all masks */ function intersectMasks(masks) { let result = masks[0]; for (let i = masks.length - 1; i >= 1; i--) { result &= masks[i]; } return result; } const ZERO_BIGINT = BigInt(0); const ONE_BIGINT = BigInt(1); const THIRTY_TWO_BIGINT = BigInt(32); /** * Parses the module mask and returns the modules represented by it * @param {bigint} mask the module mask * @param {Module[]} ordinalModules the modules in the order they were added to the mask (LSB is index 0) * @returns {Generator} the modules represented by the mask */ function* getModulesFromMask(mask, ordinalModules) { let offset = 31; while (mask !== ZERO_BIGINT) { // Consider the last 32 bits, since that's what Math.clz32 can handle let last32 = Number(BigInt.asUintN(32, mask)); while (last32 > 0) { let last = Math.clz32(last32); // The number of trailing zeros is the number trimmed off the input mask + 31 - the number of leading zeros // The 32 is baked into the initial value of offset const moduleIndex = offset - last; // The number of trailing zeros is the index into the array generated by getOrCreateModuleMask const module = ordinalModules[moduleIndex]; yield module; // Remove the matched module from the mask // Since we can only count leading zeros, not trailing, we can't just downshift the mask last32 &= ~(1 << (31 - last)); } // Remove the processed chunk from the mask mask >>= THIRTY_TWO_BIGINT; offset += 32; } } class RemoveParentModulesPlugin { /** * @param {Compiler} compiler the compiler * @returns {void} */ apply(compiler) { compiler.hooks.compilation.tap("RemoveParentModulesPlugin", compilation => { /** * @param {Iterable} chunks the chunks * @param {ChunkGroup[]} chunkGroups the chunk groups */ const handler = (chunks, chunkGroups) => { const chunkGraph = compilation.chunkGraph; const queue = new Set(); const availableModulesMap = new WeakMap(); let nextModuleMask = ONE_BIGINT; const maskByModule = new WeakMap(); /** @type {Module[]} */ const ordinalModules = []; /** * Gets or creates a unique mask for a module * @param {Module} mod the module to get the mask for * @returns {bigint} the module mask to uniquely identify the module */ const getOrCreateModuleMask = mod => { let id = maskByModule.get(mod); if (id === undefined) { id = nextModuleMask; ordinalModules.push(mod); maskByModule.set(mod, id); nextModuleMask <<= ONE_BIGINT; } return id; }; // Initialize masks by chunk and by chunk group for quicker comparisons const chunkMasks = new WeakMap(); for (const chunk of chunks) { let mask = ZERO_BIGINT; for (const m of chunkGraph.getChunkModulesIterable(chunk)) { const id = getOrCreateModuleMask(m); mask |= id; } chunkMasks.set(chunk, mask); } const chunkGroupMasks = new WeakMap(); for (const chunkGroup of chunkGroups) { let mask = ZERO_BIGINT; for (const chunk of chunkGroup.chunks) { const chunkMask = chunkMasks.get(chunk); if (chunkMask !== undefined) { mask |= chunkMask; } } chunkGroupMasks.set(chunkGroup, mask); } for (const chunkGroup of compilation.entrypoints.values()) { // initialize available modules for chunks without parents availableModulesMap.set(chunkGroup, ZERO_BIGINT); for (const child of chunkGroup.childrenIterable) { queue.add(child); } } for (const chunkGroup of compilation.asyncEntrypoints) { // initialize available modules for chunks without parents availableModulesMap.set(chunkGroup, ZERO_BIGINT); for (const child of chunkGroup.childrenIterable) { queue.add(child); } } for (const chunkGroup of queue) { let availableModulesMask = availableModulesMap.get(chunkGroup); let changed = false; for (const parent of chunkGroup.parentsIterable) { const availableModulesInParent = availableModulesMap.get(parent); if (availableModulesInParent !== undefined) { const parentMask = availableModulesInParent | chunkGroupMasks.get(parent); // If we know the available modules in parent: process these if (availableModulesMask === undefined) { // if we have not own info yet: create new entry availableModulesMask = parentMask; changed = true; } else { let newMask = availableModulesMask & parentMask; if (newMask !== availableModulesMask) { changed = true; availableModulesMask = newMask; } } } } if (changed) { availableModulesMap.set(chunkGroup, availableModulesMask); // if something changed: enqueue our children for (const child of chunkGroup.childrenIterable) { // Push the child to the end of the queue queue.delete(child); queue.add(child); } } } // now we have available modules for every chunk for (const chunk of chunks) { const chunkMask = chunkMasks.get(chunk); if (chunkMask === undefined) continue; // No info about this chunk const availableModulesSets = Array.from( chunk.groupsIterable, chunkGroup => availableModulesMap.get(chunkGroup) ); if (availableModulesSets.some(s => s === undefined)) continue; // No info about this chunk group const availableModulesMask = intersectMasks(availableModulesSets); const toRemoveMask = chunkMask & availableModulesMask; if (toRemoveMask !== ZERO_BIGINT) { for (const module of getModulesFromMask( toRemoveMask, ordinalModules )) { chunkGraph.disconnectChunkAndModule(chunk, module); } } } }; compilation.hooks.optimizeChunks.tap( { name: "RemoveParentModulesPlugin", stage: STAGE_BASIC }, handler ); }); } } module.exports = RemoveParentModulesPlugin;