/* MIT License http://www.opensource.org/licenses/mit-license.php Author Tobias Koppers @sokra */ "use strict"; const identifierUtils = require("../util/identifier"); function moveModuleBetween(oldChunk, newChunk) { return function(module) { oldChunk.moveModule(module, newChunk); }; } function isNotAEntryModule(entryModule) { return function(module) { return entryModule !== module; }; } function copyWithReason(obj) { const newObj = {}; Object.keys(obj).forEach((key) => { newObj[key] = obj[key]; }); if(!newObj.reasons || newObj.reasons.indexOf("aggressive-splitted") < 0) newObj.reasons = (newObj.reasons || []).concat("aggressive-splitted"); return newObj; } class AggressiveSplittingPlugin { constructor(options) { this.options = options || {}; if(typeof this.options.minSize !== "number") this.options.minSize = 30 * 1024; if(typeof this.options.maxSize !== "number") this.options.maxSize = 50 * 1024; if(typeof this.options.chunkOverhead !== "number") this.options.chunkOverhead = 0; if(typeof this.options.entryChunkMultiplicator !== "number") this.options.entryChunkMultiplicator = 1; } apply(compiler) { compiler.plugin("this-compilation", (compilation) => { compilation.plugin("optimize-chunks-advanced", (chunks) => { // Precompute stuff const nameToModuleMap = new Map(); compilation.modules.forEach(m => { const name = identifierUtils.makePathsRelative(compiler.context, m.identifier(), compilation.cache); nameToModuleMap.set(name, m); }); const savedSplits = compilation.records && compilation.records.aggressiveSplits || []; const usedSplits = compilation._aggressiveSplittingSplits ? savedSplits.concat(compilation._aggressiveSplittingSplits) : savedSplits; const minSize = this.options.minSize; const maxSize = this.options.maxSize; // 1. try to restore to recorded splitting for(let j = 0; j < usedSplits.length; j++) { const splitData = usedSplits[j]; const selectedModules = splitData.modules.map(name => nameToModuleMap.get(name)); // Does the modules exist at all? if(selectedModules.every(Boolean)) { // Find all chunks containing all modules in the split for(let i = 0; i < chunks.length; i++) { const chunk = chunks[i]; // Cheap check if chunk is suitable at all if(chunk.getNumberOfModules() < splitData.modules.length) continue; // Check if all modules are in the chunk if(selectedModules.every(m => chunk.containsModule(m))) { // Is chunk identical to the split or do we need to split it? if(chunk.getNumberOfModules() > splitData.modules.length) { // split the chunk into two parts const newChunk = compilation.addChunk(); selectedModules.forEach(moveModuleBetween(chunk, newChunk)); chunk.split(newChunk); chunk.name = null; newChunk._fromAggressiveSplitting = true; if(j < savedSplits.length) newChunk._fromAggressiveSplittingIndex = j; if(splitData.id !== null && splitData.id !== undefined) { newChunk.id = splitData.id; } newChunk.origins = chunk.origins.map(copyWithReason); chunk.origins = chunk.origins.map(copyWithReason); return true; } else { // chunk is identical to the split if(j < savedSplits.length) chunk._fromAggressiveSplittingIndex = j; chunk.name = null; if(splitData.id !== null && splitData.id !== undefined) { chunk.id = splitData.id; } } } } } } // 2. for any other chunk which isn't splitted yet, split it for(let i = 0; i < chunks.length; i++) { const chunk = chunks[i]; const size = chunk.size(this.options); if(size > maxSize && chunk.getNumberOfModules() > 1) { const newChunk = compilation.addChunk(); const modules = chunk.getModules() .filter(isNotAEntryModule(chunk.entryModule)) .sort((a, b) => { a = a.identifier(); b = b.identifier(); if(a > b) return 1; if(a < b) return -1; return 0; }); for(let k = 0; k < modules.length; k++) { chunk.moveModule(modules[k], newChunk); const newSize = newChunk.size(this.options); const chunkSize = chunk.size(this.options); // break early if it's fine if(chunkSize < maxSize && newSize < maxSize && newSize >= minSize && chunkSize >= minSize) break; if(newSize > maxSize && k === 0) { // break if there is a single module which is bigger than maxSize break; } if(newSize > maxSize || chunkSize < minSize) { // move it back newChunk.moveModule(modules[k], chunk); // check if it's fine now if(newSize < maxSize && newSize >= minSize && chunkSize >= minSize) break; } } if(newChunk.getNumberOfModules() > 0) { chunk.split(newChunk); chunk.name = null; newChunk.origins = chunk.origins.map(copyWithReason); chunk.origins = chunk.origins.map(copyWithReason); compilation._aggressiveSplittingSplits = (compilation._aggressiveSplittingSplits || []).concat({ modules: newChunk.mapModules(m => identifierUtils.makePathsRelative(compiler.context, m.identifier(), compilation.cache)) }); return true; } else { chunks.splice(chunks.indexOf(newChunk), 1); } } } }); compilation.plugin("record-hash", (records) => { // 3. save to made splittings to records const minSize = this.options.minSize; if(!records.aggressiveSplits) records.aggressiveSplits = []; compilation.chunks.forEach((chunk) => { if(chunk.hasEntryModule()) return; const size = chunk.size(this.options); const incorrectSize = size < minSize; const modules = chunk.mapModules(m => identifierUtils.makePathsRelative(compiler.context, m.identifier(), compilation.cache)); if(typeof chunk._fromAggressiveSplittingIndex === "undefined") { if(incorrectSize) return; chunk.recorded = true; records.aggressiveSplits.push({ modules: modules, hash: chunk.hash, id: chunk.id }); } else { const splitData = records.aggressiveSplits[chunk._fromAggressiveSplittingIndex]; if(splitData.hash !== chunk.hash || incorrectSize) { if(chunk._fromAggressiveSplitting) { chunk._aggressiveSplittingInvalid = true; splitData.invalid = true; } else { splitData.hash = chunk.hash; } } } }); records.aggressiveSplits = records.aggressiveSplits.filter((splitData) => { return !splitData.invalid; }); }); compilation.plugin("need-additional-seal", (callback) => { const invalid = compilation.chunks.some((chunk) => { return chunk._aggressiveSplittingInvalid; }); if(invalid) return true; }); }); } } module.exports = AggressiveSplittingPlugin;