357 lines
12 KiB
JavaScript
357 lines
12 KiB
JavaScript
// @ts-check
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/** @typedef {import("webpack/lib/Compilation.js")} WebpackCompilation */
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/** @typedef {import("webpack/lib/Compiler.js")} WebpackCompiler */
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/** @typedef {import("webpack/lib/Chunk.js")} WebpackChunk */
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'use strict';
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/**
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* @file
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* This file uses webpack to compile a template with a child compiler.
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*
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* [TEMPLATE] -> [JAVASCRIPT]
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*
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*/
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'use strict';
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const NodeTemplatePlugin = require('webpack/lib/node/NodeTemplatePlugin');
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const NodeTargetPlugin = require('webpack/lib/node/NodeTargetPlugin');
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const LoaderTargetPlugin = require('webpack/lib/LoaderTargetPlugin');
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const LibraryTemplatePlugin = require('webpack/lib/LibraryTemplatePlugin');
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const SingleEntryPlugin = require('webpack/lib/SingleEntryPlugin');
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/**
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* The HtmlWebpackChildCompiler is a helper to allow resusing one childCompiler
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* for multile HtmlWebpackPlugin instances to improve the compilation performance.
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*/
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class HtmlWebpackChildCompiler {
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constructor () {
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/**
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* @type {string[]} templateIds
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* The template array will allow us to keep track which input generated which output
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*/
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this.templates = [];
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/**
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* @type {Promise<{[templatePath: string]: { content: string, hash: string, entry: WebpackChunk }}>}
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*/
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this.compilationPromise; // eslint-disable-line
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/**
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* @type {number}
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*/
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this.compilationStartedTimestamp; // eslint-disable-line
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/**
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* @type {number}
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*/
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this.compilationEndedTimestamp; // eslint-disable-line
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/**
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* All file dependencies of the child compiler
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* @type {string[]}
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*/
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this.fileDependencies = [];
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}
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/**
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* Add a templatePath to the child compiler
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* The given template will be compiled by `compileTemplates`
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* @param {string} template - The webpack path to the template e.g. `'!!html-loader!index.html'`
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* @returns {boolean} true if the template is new
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*/
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addTemplate (template) {
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const templateId = this.templates.indexOf(template);
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// Don't add the template to the compiler if a similar template was already added
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if (templateId !== -1) {
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return false;
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}
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// A child compiler can compile only once
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// throw an error if a new template is added after the compilation started
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if (this.isCompiling()) {
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throw new Error('New templates can only be added before `compileTemplates` was called.');
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}
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// Add the template to the childCompiler
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this.templates.push(template);
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// Mark the cache invalid
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return true;
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}
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/**
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* Returns true if the childCompiler is currently compiling
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* @retuns {boolean}
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*/
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isCompiling () {
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return !this.didCompile() && this.compilationStartedTimestamp !== undefined;
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}
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/**
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* Returns true if the childCOmpiler is done compiling
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*/
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didCompile () {
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return this.compilationEndedTimestamp !== undefined;
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}
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/**
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* This function will start the template compilation
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* once it is started no more templates can be added
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*
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* @param {WebpackCompilation} mainCompilation
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* @returns {Promise<{[templatePath: string]: { content: string, hash: string, entry: WebpackChunk }}>}
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*/
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compileTemplates (mainCompilation) {
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// To prevent multiple compilations for the same template
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// the compilation is cached in a promise.
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// If it already exists return
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if (this.compilationPromise) {
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return this.compilationPromise;
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}
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// The entry file is just an empty helper as the dynamic template
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// require is added in "loader.js"
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const outputOptions = {
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filename: '__child-[name]',
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publicPath: mainCompilation.outputOptions.publicPath
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};
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const compilerName = 'HtmlWebpackCompiler';
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// Create an additional child compiler which takes the template
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// and turns it into an Node.JS html factory.
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// This allows us to use loaders during the compilation
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const childCompiler = mainCompilation.createChildCompiler(compilerName, outputOptions);
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// The file path context which webpack uses to resolve all relative files to
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childCompiler.context = mainCompilation.compiler.context;
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// Compile the template to nodejs javascript
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new NodeTemplatePlugin(outputOptions).apply(childCompiler);
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new NodeTargetPlugin().apply(childCompiler);
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new LibraryTemplatePlugin('HTML_WEBPACK_PLUGIN_RESULT', 'var').apply(childCompiler);
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new LoaderTargetPlugin('node').apply(childCompiler);
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// Add all templates
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this.templates.forEach((template, index) => {
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new SingleEntryPlugin(childCompiler.context, template, `HtmlWebpackPlugin_${index}`).apply(childCompiler);
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});
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this.compilationStartedTimestamp = new Date().getTime();
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this.compilationPromise = new Promise((resolve, reject) => {
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childCompiler.runAsChild((err, entries, childCompilation) => {
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// Extract templates
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const compiledTemplates = entries
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? extractHelperFilesFromCompilation(mainCompilation, childCompilation, outputOptions.filename, entries)
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: [];
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// Extract file dependencies
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if (entries) {
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this.fileDependencies = Array.from(childCompilation.fileDependencies);
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}
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// Reject the promise if the childCompilation contains error
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if (childCompilation && childCompilation.errors && childCompilation.errors.length) {
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const errorDetails = childCompilation.errors.map(error => error.message + (error.error ? ':\n' + error.error : '')).join('\n');
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reject(new Error('Child compilation failed:\n' + errorDetails));
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return;
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}
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// Reject if the error object contains errors
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if (err) {
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reject(err);
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return;
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}
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/**
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* @type {{[templatePath: string]: { content: string, hash: string, entry: WebpackChunk }}}
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*/
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const result = {};
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compiledTemplates.forEach((templateSource, entryIndex) => {
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// The compiledTemplates are generated from the entries added in
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// the addTemplate function.
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// Therefore the array index of this.templates should be the as entryIndex.
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result[this.templates[entryIndex]] = {
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content: templateSource,
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hash: childCompilation.hash,
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entry: entries[entryIndex]
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};
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});
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this.compilationEndedTimestamp = new Date().getTime();
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resolve(result);
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});
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});
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return this.compilationPromise;
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}
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}
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/**
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* The webpack child compilation will create files as a side effect.
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* This function will extract them and clean them up so they won't be written to disk.
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*
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* Returns the source code of the compiled templates as string
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*
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* @returns Array<string>
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*/
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function extractHelperFilesFromCompilation (mainCompilation, childCompilation, filename, childEntryChunks) {
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const helperAssetNames = childEntryChunks.map((entryChunk, index) => {
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return mainCompilation.mainTemplate.getAssetPath(filename, {
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hash: childCompilation.hash,
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chunk: entryChunk,
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name: `HtmlWebpackPlugin_${index}`
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});
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});
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helperAssetNames.forEach((helperFileName) => {
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delete mainCompilation.assets[helperFileName];
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});
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const helperContents = helperAssetNames.map((helperFileName) => {
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return childCompilation.assets[helperFileName].source();
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});
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return helperContents;
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}
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/**
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* @type {WeakMap<WebpackCompiler, HtmlWebpackChildCompiler>}}
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*/
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const childCompilerCache = new WeakMap();
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/**
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* Get child compiler from cache or a new child compiler for the given mainCompilation
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*
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* @param {WebpackCompiler} mainCompiler
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*/
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function getChildCompiler (mainCompiler) {
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const cachedChildCompiler = childCompilerCache.get(mainCompiler);
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if (cachedChildCompiler) {
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return cachedChildCompiler;
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}
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const newCompiler = new HtmlWebpackChildCompiler();
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childCompilerCache.set(mainCompiler, newCompiler);
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return newCompiler;
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}
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/**
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* Remove the childCompiler from the cache
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*
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* @param {WebpackCompiler} mainCompiler
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*/
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function clearCache (mainCompiler) {
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const childCompiler = getChildCompiler(mainCompiler);
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// If this childCompiler was already used
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// remove the entire childCompiler from the cache
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if (childCompiler.isCompiling() || childCompiler.didCompile()) {
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childCompilerCache.delete(mainCompiler);
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}
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}
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/**
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* Register a template for the current main compiler
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* @param {WebpackCompiler} mainCompiler
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* @param {string} templatePath
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*/
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function addTemplateToCompiler (mainCompiler, templatePath) {
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const childCompiler = getChildCompiler(mainCompiler);
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const isNew = childCompiler.addTemplate(templatePath);
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if (isNew) {
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clearCache(mainCompiler);
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}
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}
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/**
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* Starts the compilation for all templates.
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* This has to be called once all templates where added.
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*
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* If this function is called multiple times it will use a cache inside
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* the childCompiler
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*
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* @param {string} templatePath
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* @param {string} outputFilename
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* @param {WebpackCompilation} mainCompilation
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*/
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function compileTemplate (templatePath, outputFilename, mainCompilation) {
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const childCompiler = getChildCompiler(mainCompilation.compiler);
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return childCompiler.compileTemplates(mainCompilation).then((compiledTemplates) => {
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if (!compiledTemplates[templatePath]) console.log(Object.keys(compiledTemplates), templatePath);
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const compiledTemplate = compiledTemplates[templatePath];
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// Replace [hash] placeholders in filename
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const outputName = mainCompilation.mainTemplate.getAssetPath(outputFilename, {
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hash: compiledTemplate.hash,
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chunk: compiledTemplate.entry
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});
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return {
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// Hash of the template entry point
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hash: compiledTemplate.hash,
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// Output name
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outputName: outputName,
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// Compiled code
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content: compiledTemplate.content
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};
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});
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}
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/**
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* Return all file dependencies of the last child compilation
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*
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* @param {WebpackCompiler} compiler
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* @returns {Array<string>}
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*/
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function getFileDependencies (compiler) {
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const childCompiler = getChildCompiler(compiler);
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return childCompiler.fileDependencies;
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}
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/**
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* @type {WeakMap<WebpackCompilation, WeakMap<HtmlWebpackChildCompiler, boolean>>}}
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*/
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const hasOutdatedCompilationDependenciesMap = new WeakMap();
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/**
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* Returns `true` if the file dependencies of the current childCompiler
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* for the given mainCompilation are outdated.
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*
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* Uses the `hasOutdatedCompilationDependenciesMap` cache if possible.
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*
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* @param {WebpackCompilation} mainCompilation
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* @returns {boolean}
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*/
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function hasOutDatedTemplateCache (mainCompilation) {
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const childCompiler = getChildCompiler(mainCompilation.compiler);
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/**
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* @type {WeakMap<HtmlWebpackChildCompiler, boolean>|undefined}
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*/
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let hasOutdatedChildCompilerDependenciesMap = hasOutdatedCompilationDependenciesMap.get(mainCompilation);
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// Create map for childCompiler if none exist
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if (!hasOutdatedChildCompilerDependenciesMap) {
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hasOutdatedChildCompilerDependenciesMap = new WeakMap();
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hasOutdatedCompilationDependenciesMap.set(mainCompilation, hasOutdatedChildCompilerDependenciesMap);
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}
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// Try to get the `checkChildCompilerCache` result from cache
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let isOutdated = hasOutdatedChildCompilerDependenciesMap.get(childCompiler);
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if (isOutdated !== undefined) {
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return isOutdated;
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}
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// If `checkChildCompilerCache` has never been called for the given
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// `mainCompilation` and `childCompiler` combination call it:
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isOutdated = isChildCompilerCacheOutdated(mainCompilation, childCompiler);
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hasOutdatedChildCompilerDependenciesMap.set(childCompiler, isOutdated);
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return isOutdated;
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}
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/**
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* Returns `true` if the file dependencies of the given childCompiler are outdated.
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*
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* @param {WebpackCompilation} mainCompilation
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* @param {HtmlWebpackChildCompiler} childCompiler
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* @returns {boolean}
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*/
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function isChildCompilerCacheOutdated (mainCompilation, childCompiler) {
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// If the compilation was never run there is no invalid cache
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if (!childCompiler.compilationStartedTimestamp) {
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return false;
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}
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// Check if any dependent file was changed after the last compilation
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const fileTimestamps = mainCompilation.fileTimestamps;
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const isCacheOutOfDate = childCompiler.fileDependencies.some((fileDependency) => {
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const timestamp = fileTimestamps.get(fileDependency);
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// If the timestamp is not known the file is new
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// If the timestamp is larger then the file has changed
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// Otherwise the file is still the same
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return !timestamp || timestamp > childCompiler.compilationStartedTimestamp;
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});
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return isCacheOutOfDate;
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}
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module.exports = {
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addTemplateToCompiler,
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compileTemplate,
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hasOutDatedTemplateCache,
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clearCache,
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getFileDependencies
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};
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