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Closure Compiler is a JavaScript optimizing compiler. It parses your JavaScript, analyzes it, removes dead code and rewrites and minimizes what's left. It also checks syntax, variable references, and types, and warns about common JavaScript pitfalls. It is used in many of Google's JavaScript apps, including Gmail, Google Web Search, Google Maps, and Google Docs. This binary checks for style issues such as incorrect or missing JSDoc usage, and missing goog.require() statements. It does not do more advanced checks such as typechecking.

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/*
 * Copyright 2014 The Closure Compiler Authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.google.javascript.jscomp;

import com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.jscomp.parsing.parser.FeatureSet;
import com.google.javascript.jscomp.parsing.parser.FeatureSet.Feature;
import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.Node;

/**
 * Injects JS library code that may be needed by the transpiled form of the input source code.
 *
 * 

The intention here is to add anything that could be needed and rely on `RemoveUnusedCode` to * remove the parts that don't end up getting used. This pass should run before type checking so the * type checking code can add type information to the injected JavaScript for checking and * optimization purposes. * *

This class also reports an error if it finds getters or setters are used and the language * output level is too low to support them. TODO(bradfordcsmith): The getter/setter check should * probably be done separately in an earlier pass that only runs when the output language level is * ES3 and the input language level is ES5 or greater. */ public final class Es6InjectRuntimeLibraries extends AbstractPostOrderCallback implements HotSwapCompilerPass { private final AbstractCompiler compiler; private final boolean getterSetterSupported; // Since there's currently no Feature for Symbol, run this pass if the code has any ES6 features. private static final FeatureSet requiredForFeatures = FeatureSet.ES6.without(FeatureSet.ES5); public Es6InjectRuntimeLibraries(AbstractCompiler compiler) { this.compiler = compiler; this.getterSetterSupported = !FeatureSet.ES3.contains(compiler.getOptions().getOutputFeatureSet()); } @Override public void process(Node externs, Node root) { FeatureSet used = FeatureSet.ES3; for (Node script : root.children()) { used = used.with(getScriptFeatures(script)); } FeatureSet mustBeCompiledAway = used.without(compiler.getOptions().getOutputFeatureSet()); // TODO(johnlenz): remove this check for Symbol. Symbol should be handled like the other // polyfills. // Check for "Symbol" references before injecting libraries. This prevents conditional checks // from pulling in 'Symbol'. TranspilationPasses.processTranspile(compiler, root, requiredForFeatures, this); // We will need these runtime methods when we transpile, but we want the runtime // functions to be have JSType applied to it by the type inferrence. if (mustBeCompiledAway.contains(Feature.FOR_OF)) { Es6ToEs3Util.preloadEs6RuntimeFunction(compiler, "makeIterator"); } if (mustBeCompiledAway.contains(Feature.ARRAY_DESTRUCTURING)) { Es6ToEs3Util.preloadEs6RuntimeFunction(compiler, "makeIterator"); } if (mustBeCompiledAway.contains(Feature.ARRAY_PATTERN_REST)) { Es6ToEs3Util.preloadEs6RuntimeFunction(compiler, "arrayFromIterator"); } if (mustBeCompiledAway.contains(Feature.SPREAD_EXPRESSIONS)) { Es6ToEs3Util.preloadEs6RuntimeFunction(compiler, "arrayfromiterable"); } if (mustBeCompiledAway.contains(Feature.CLASS_EXTENDS)) { Es6ToEs3Util.preloadEs6RuntimeFunction(compiler, "inherits"); } if (mustBeCompiledAway.contains(Feature.CLASS_GETTER_SETTER)) { compiler.ensureLibraryInjected("util/global", /* force= */ false); } if (mustBeCompiledAway.contains(Feature.GENERATORS)) { compiler.ensureLibraryInjected("es6/generator_engine", /* force= */ false); } if (mustBeCompiledAway.contains(Feature.ASYNC_FUNCTIONS)) { compiler.ensureLibraryInjected("es6/execute_async_generator", /* force= */ false); } if (mustBeCompiledAway.contains(Feature.ASYNC_GENERATORS)) { compiler.ensureLibraryInjected("es6/async_generator_wrapper", /* force= */ false); } if (mustBeCompiledAway.contains(Feature.FOR_AWAIT_OF)) { compiler.ensureLibraryInjected("es6/util/makeasynciterator", /* force= */ false); } } private static FeatureSet getScriptFeatures(Node script) { FeatureSet features = NodeUtil.getFeatureSetOfScript(script); return features != null ? features : FeatureSet.ES3; } @Override public void hotSwapScript(Node scriptRoot, Node originalRoot) { TranspilationPasses.hotSwapTranspile(compiler, scriptRoot, requiredForFeatures, this); } @Override public void visit(NodeTraversal t, Node n, Node parent) { switch (n.getToken()) { // TODO(johnlenz): remove this. Symbol should be handled like the other polyfills. case NAME: if (!n.isFromExterns() && isGlobalSymbol(t, n)) { initSymbolBefore(n); } break; case GETPROP: if (!n.isFromExterns()) { visitGetprop(t, n); } break; // TODO(johnlenz): this check doesn't belong here. case GETTER_DEF: case SETTER_DEF: if (!getterSetterSupported) { Es6ToEs3Util.cannotConvert( compiler, n, "ES5 getters/setters (consider using --language_out=ES5)"); } break; default: break; } } /** @return Whether {@code n} is a reference to the global "Symbol" function. */ private boolean isGlobalSymbol(NodeTraversal t, Node n) { if (!n.matchesName("Symbol")) { return false; } Var var = t.getScope().getVar("Symbol"); return var == null || var.isGlobal(); } /** Inserts a call to $jscomp.initSymbol() before {@code n}. */ private void initSymbolBefore(Node n) { compiler.ensureLibraryInjected("es6/symbol", false); Node statement = NodeUtil.getEnclosingStatement(n); Node initSymbol = IR.exprResult(IR.call(NodeUtil.newQName(compiler, "$jscomp.initSymbol"))); statement.getParent().addChildBefore(initSymbol.useSourceInfoFromForTree(statement), statement); compiler.reportChangeToEnclosingScope(initSymbol); } // TODO(tbreisacher): Do this for all well-known symbols. private void visitGetprop(NodeTraversal t, Node n) { Node receiverNode = n.getFirstChild(); String propName = receiverNode.getNext().getString(); if (isGlobalSymbol(t, receiverNode)) { compiler.ensureLibraryInjected("es6/symbol", false); Node statement = NodeUtil.getEnclosingStatement(n); switch (propName) { case "iterator": { Node init = IR.exprResult(IR.call(NodeUtil.newQName(compiler, "$jscomp.initSymbolIterator"))) .useSourceInfoFromForTree(statement); statement.getParent().addChildBefore(init, statement); compiler.reportChangeToEnclosingScope(init); break; } case "asyncIterator": { Node init = IR.exprResult( IR.call(NodeUtil.newQName(compiler, "$jscomp.initSymbolAsyncIterator"))) .useSourceInfoFromForTree(statement); statement.getParent().addChildBefore(init, statement); compiler.reportChangeToEnclosingScope(init); break; } default: // TODO(bradfordcsmith): Should we warn for unrecognized symbol names? break; } } } }





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