All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.google.javascript.jscomp.AbstractCommandLineRunner Maven / Gradle / Ivy

Go to download

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.

The newest version!
/*
 * Copyright 2009 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 static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import static java.lang.Math.min;
import static java.nio.charset.StandardCharsets.US_ASCII;
import static java.nio.charset.StandardCharsets.UTF_8;

import com.google.common.annotations.GwtIncompatible;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Ascii;
import com.google.common.base.Function;
import com.google.common.base.Joiner;
import com.google.common.base.Strings;
import com.google.common.base.Supplier;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.common.io.ByteStreams;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.annotations.SerializedName;
import com.google.gson.reflect.TypeToken;
import com.google.gson.stream.JsonReader;
import com.google.gson.stream.JsonWriter;
import com.google.javascript.jscomp.CodePrinter.LicenseTracker;
import com.google.javascript.jscomp.Compiler.ChunkGraphAwareLicenseTracker;
import com.google.javascript.jscomp.Compiler.ScriptNodeLicensesOnlyTracker;
import com.google.javascript.jscomp.Compiler.SingleBinaryLicenseTracker;
import com.google.javascript.jscomp.CompilerOptions.JsonStreamMode;
import com.google.javascript.jscomp.CompilerOptions.OutputJs;
import com.google.javascript.jscomp.CompilerOptions.TweakProcessing;
import com.google.javascript.jscomp.deps.ModuleLoader;
import com.google.javascript.jscomp.deps.SourceCodeEscapers;
import com.google.javascript.jscomp.ijs.IjsErrors;
import com.google.javascript.jscomp.parsing.Config;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.StaticSourceFile.SourceKind;
import com.google.javascript.rhino.TokenStream;
import java.io.BufferedInputStream;
import java.io.BufferedOutputStream;
import java.io.BufferedWriter;
import java.io.Closeable;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.Flushable;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.PrintStream;
import java.io.StringWriter;
import java.io.Writer;
import java.lang.reflect.Type;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Level;
import java.util.zip.GZIPInputStream;
import java.util.zip.ZipEntry;
import java.util.zip.ZipInputStream;
import org.jspecify.nullness.Nullable;

/**
 * Implementations of AbstractCommandLineRunner translate flags into Java API calls on the Compiler.
 * AbstractCompiler contains common flags and logic to make that happen.
 *
 * 

This class may be extended and used to create other Java classes that behave the same as * running the Compiler from the command line. Example: * *

 * class MyCommandLineRunner extends
 *     AbstractCommandLineRunner<MyCompiler, MyOptions> {
 *   MyCommandLineRunner(String[] args) {
 *     super(args);
 *   }
 *
 *   @Override
 *   protected MyOptions createOptions() {
 *     MyOptions options = new MyOptions();
 *     CompilerFlagTranslator.setOptionsFromFlags(options);
 *     addMyCrazyCompilerPassThatOutputsAnExtraFile(options);
 *     return options;
 *   }
 *
 *   @Override
 *   protected MyCompiler createCompiler() {
 *     return new MyCompiler();
 *   }
 *
 *   public static void main(String[] args) {
 *     (new MyCommandLineRunner(args)).run();
 *   }
 * }
 * 
*/ public abstract class AbstractCommandLineRunner { static final DiagnosticType OUTPUT_SAME_AS_INPUT_ERROR = DiagnosticType.error( "JSC_OUTPUT_SAME_AS_INPUT_ERROR", "Bad output file (already listed as input file): {0}"); static final DiagnosticType COULD_NOT_SERIALIZE_AST = DiagnosticType.error("JSC_COULD_NOT_SERIALIZE_AST", "Could not serialize ast to: {0}"); static final DiagnosticType COULD_NOT_DESERIALIZE_AST = DiagnosticType.error("JSC_COULD_NOT_DESERIALIZE_AST", "Could not deserialize ast from: {0}"); static final DiagnosticType NO_TREE_GENERATED_ERROR = DiagnosticType.error( "JSC_NO_TREE_GENERATED_ERROR", "Code contains errors. No tree was generated."); static final DiagnosticType INVALID_MODULE_SOURCEMAP_PATTERN = DiagnosticType.error( "JSC_INVALID_MODULE_SOURCEMAP_PATTERN", "When using --module flags, the --create_source_map flag must contain " + "%outname% in the value."); static final String WAITING_FOR_INPUT_WARNING = "The compiler is waiting for input via stdin."; // Use an 8MiB buffer since the concatenated TypedAst file can be very large. private static final int GZIPPED_TYPEDAST_BUFFER_SIZE = 8 * 1024 * 1024; @GwtIncompatible("Unnecessary") private final CommandLineConfig config; @GwtIncompatible("Unnecessary") private final InputStream in; @GwtIncompatible("Unnecessary") private final PrintStream defaultJsOutput; @GwtIncompatible("Unnecessary") private final PrintStream err; @GwtIncompatible("Unnecessary") private A compiler; @GwtIncompatible("Unnecessary") private Charset inputCharset; // NOTE(nicksantos): JSCompiler has always used ASCII as the default // output charset. This was done to solve legacy problems with // bad proxies, etc. We are not sure if these issues are still problems, // and changing the encoding would require a big obnoxious migration plan. // // New outputs should use outputCharset2, which is how I would have // designed this if I had a time machine. @GwtIncompatible("Unnecessary") private Charset outputCharset2; @GwtIncompatible("Unnecessary") private Charset legacyOutputCharset; @GwtIncompatible("Unnecessary") private boolean testMode = false; @GwtIncompatible("Unnecessary") private @Nullable Supplier> externsSupplierForTesting = null; @GwtIncompatible("Unnecessary") private @Nullable Supplier> inputsSupplierForTesting = null; @GwtIncompatible("Unnecessary") private @Nullable Supplier> chunksSupplierForTesting = null; @GwtIncompatible("Unnecessary") private Function exitCodeReceiver = SystemExitCodeReceiver.INSTANCE; @GwtIncompatible("Unnecessary") private @Nullable Map rootRelativePathsMap = null; @GwtIncompatible("Unnecessary") private @Nullable Map parsedModuleWrappers = null; @GwtIncompatible("Unnecessary") private @Nullable ImmutableMap parsedModuleOutputFiles = null; @GwtIncompatible("Unnecessary") private @Nullable ImmutableMap parsedModuleConformanceFiles = null; @GwtIncompatible("Unnecessary") private final Gson gson; static final String OUTPUT_MARKER = "%output%"; private static final String OUTPUT_MARKER_JS_STRING = "%output|jsstring%"; @GwtIncompatible("Unnecessary") private final List filesToStreamOut = new ArrayList<>(); @GwtIncompatible("Unnecessary") AbstractCommandLineRunner() { this(System.in, System.out, System.err); } @GwtIncompatible("Unnecessary") AbstractCommandLineRunner(PrintStream out, PrintStream err) { this(System.in, out, err); } @GwtIncompatible("Unnecessary") AbstractCommandLineRunner(InputStream in, PrintStream out, PrintStream err) { this.config = new CommandLineConfig(); this.in = checkNotNull(in); this.defaultJsOutput = checkNotNull(out); this.err = checkNotNull(err); this.gson = new Gson(); } /** * Put the command line runner into test mode. In test mode, all outputs will be blackholed. * * @param externsSupplier A provider for externs. * @param inputsSupplier A provider for source inputs. * @param chunksSupplier A provider for modules. Only one of inputsSupplier and chunksSupplier may * be non-null. * @param exitCodeReceiver A receiver for the status code that would have been passed to * System.exit in non-test mode. */ @VisibleForTesting @GwtIncompatible("Unnecessary") void enableTestMode( Supplier> externsSupplier, Supplier> inputsSupplier, Supplier> chunksSupplier, Function exitCodeReceiver) { checkArgument(inputsSupplier == null != (chunksSupplier == null)); testMode = true; this.externsSupplierForTesting = externsSupplier; this.inputsSupplierForTesting = inputsSupplier; this.chunksSupplierForTesting = chunksSupplier; this.exitCodeReceiver = exitCodeReceiver; } /** * @param newExitCodeReceiver receives a non-zero integer to indicate a problem during execution * or 0i to indicate success. */ @GwtIncompatible("Unnecessary") public void setExitCodeReceiver(Function newExitCodeReceiver) { this.exitCodeReceiver = checkNotNull(newExitCodeReceiver); } /** Returns whether we're in test mode. */ @GwtIncompatible("Unnecessary") protected boolean isInTestMode() { return testMode; } /** Returns whether output should be a JSON stream. */ @GwtIncompatible("Unnecessary") private boolean isOutputInJson() { return config.jsonStreamMode == JsonStreamMode.OUT || config.jsonStreamMode == JsonStreamMode.BOTH; } /** Get the command line config, so that it can be initialized. */ @GwtIncompatible("Unnecessary") protected CommandLineConfig getCommandLineConfig() { return config; } /** Returns the instance of the Compiler to use when {@link #run()} is called. */ @GwtIncompatible("Unnecessary") protected abstract A createCompiler(); /** * Performs any transformation needed on the given compiler input and appends it to the given * output bundle. */ @GwtIncompatible("Unnecessary") protected abstract void prepForBundleAndAppendTo( Appendable out, CompilerInput input, String content) throws IOException; /** Writes whatever runtime libraries are needed to bundle. */ @GwtIncompatible("Unnecessary") protected abstract void appendRuntimeTo(Appendable out) throws IOException; /** * Returns the instance of the Options to use when {@link #run()} is called. createCompiler() is * called before createOptions(), so getCompiler() will not return null when createOptions() is * called. */ @GwtIncompatible("Unnecessary") protected abstract B createOptions(); /** The warning classes that are available from the command-line. */ @GwtIncompatible("Unnecessary") protected DiagnosticGroups getDiagnosticGroups() { if (compiler == null) { return new DiagnosticGroups(); } return compiler.getDiagnosticGroups(); } @GwtIncompatible("Unnecessary") protected abstract void addAllowlistWarningsGuard(CompilerOptions options, File allowlistFile); @GwtIncompatible("Unnecessary") protected static void setWarningGuardOptions( CompilerOptions options, ArrayList> warningGuards, DiagnosticGroups diagnosticGroups) { if (warningGuards != null) { final ImmutableSet groupNames = DiagnosticGroups.getRegisteredGroups().keySet(); for (FlagEntry entry : warningGuards) { if ("*".equals(entry.value)) { for (String groupName : groupNames) { if (!DiagnosticGroups.wildcardExcludedGroups.contains(groupName)) { diagnosticGroups.setWarningLevel(options, groupName, entry.flag); } } } else if (groupNames.contains(entry.value)) { diagnosticGroups.setWarningLevel(options, entry.value, entry.flag); } else { throw new FlagUsageException("Unknown diagnostic group: '" + entry.value + "'"); } } } } /** * Sets options based on the configurations set flags API. Called during the run() run() method. * If you want to ignore the flags API, or interpret flags your own way, then you should override * this method. */ @GwtIncompatible("Unnecessary") protected void setRunOptions(CompilerOptions options) throws IOException { DiagnosticGroups diagnosticGroups = getDiagnosticGroups(); if (config.shouldSaveAfterStage1() || config.shouldContinueCompilation()) { if (options.checksOnly) { throw new FlagUsageException( "checks_only mode is incompatible with multi-stage compilation"); } if (options.getExternExportsPath() != null) { throw new FlagUsageException( "generating externs from exports is incompatible with multi-stage compilation"); } } setWarningGuardOptions(options, config.warningGuards, diagnosticGroups); if (!config.warningsAllowFile.isEmpty()) { addAllowlistWarningsGuard(options, new File(config.warningsAllowFile)); } if (!config.hideWarningsFor.isEmpty()) { options.addWarningsGuard( new ShowByPathWarningsGuard( config.hideWarningsFor.toArray(new String[] {}), ShowByPathWarningsGuard.ShowType.EXCLUDE)); } List define = new ArrayList<>(config.define); if (config.browserFeaturesetYear != 0) { try { options.setBrowserFeaturesetYear(config.browserFeaturesetYear); } catch (IllegalStateException e) { throw new FlagUsageException(e.getMessage()); } } if (config.emitAsyncFunctionsWithZonejs) { options.setAllowZoneJsWithAsyncFunctionsInOutput(true); } createDefineReplacements(define, options); options.setTweakProcessing(config.tweakProcessing); // TODO(tjgq): Unconditionally set the options. if (config.dependencyOptions != null) { options.setDependencyOptions(config.dependencyOptions); } options.devMode = config.jscompDevMode; options.setCodingConvention(config.codingConvention); options.setSummaryDetailLevel(config.summaryDetailLevel); options.setTrustedStrings(true); legacyOutputCharset = options.outputCharset = getLegacyOutputCharset(); outputCharset2 = getOutputCharset2(); inputCharset = getInputCharset(); if (config.jsOutputFile.length() > 0) { if (config.skipNormalOutputs) { throw new FlagUsageException( "skip_normal_outputs and js_output_file cannot be used together."); } } if (config.skipNormalOutputs && config.printAst) { throw new FlagUsageException("skip_normal_outputs and print_ast cannot be used together."); } if (config.skipNormalOutputs && config.printTree) { throw new FlagUsageException("skip_normal_outputs and print_tree cannot be used together."); } if (config.skipNormalOutputs && config.printTreeJson) { throw new FlagUsageException( "skip_normal_outputs and print_tree_json_path cannot be used together."); } if (config.createSourceMap.length() > 0) { options.setSourceMapOutputPath(config.createSourceMap); } else if (isOutputInJson()) { options.setSourceMapOutputPath("%outname%"); } options.sourceMapDetailLevel = config.sourceMapDetailLevel; options.sourceMapFormat = config.sourceMapFormat; options.sourceMapLocationMappings = config.sourceMapLocationMappings; options.parseInlineSourceMaps = config.parseInlineSourceMaps; options.applyInputSourceMaps = config.applyInputSourceMaps; ImmutableMap.Builder inputSourceMaps = new ImmutableMap.Builder<>(); for (Map.Entry files : config.sourceMapInputFiles.entrySet()) { SourceFile sourceMap = SourceFile.builder().withKind(SourceKind.NON_CODE).withPath(files.getValue()).build(); inputSourceMaps.put(files.getKey(), new SourceMapInput(sourceMap)); } options.inputSourceMaps = inputSourceMaps.buildOrThrow(); if (!config.variableMapInputFile.isEmpty()) { options.inputVariableMap = VariableMap.load(config.variableMapInputFile); } if (!config.propertyMapInputFile.isEmpty()) { options.inputPropertyMap = VariableMap.load(config.propertyMapInputFile); } if (!config.outputManifests.isEmpty()) { Set uniqueNames = new LinkedHashSet<>(); for (String filename : config.outputManifests) { if (!uniqueNames.add(filename)) { throw new FlagUsageException( "output_manifest flags specify duplicate file names: " + filename); } } } if (!config.outputBundles.isEmpty()) { Set uniqueNames = new LinkedHashSet<>(); for (String filename : config.outputBundles) { if (!uniqueNames.add(filename)) { throw new FlagUsageException( "output_bundle flags specify duplicate file names: " + filename); } } } options.setProcessCommonJSModules(config.processCommonJSModules); options.moduleRoots = config.moduleRoots; options.angularPass = config.angularPass; if (!config.jsonWarningsFile.isEmpty()) { options.addReportGenerator( new JsonErrorReportGenerator(new PrintStream(config.jsonWarningsFile), compiler)); } if (config.errorFormat == CommandLineConfig.ErrorFormatOption.JSON) { JsonErrorReportGenerator errorGenerator = new JsonErrorReportGenerator(getErrorPrintStream(), compiler); compiler.setErrorManager(new SortingErrorManager(ImmutableSet.of(errorGenerator))); } if (config.printTree || config.printTreeJson) { options.setParseJsDocDocumentation(Config.JsDocParsing.INCLUDE_ALL_COMMENTS); } if (config.skipNormalOutputs) { // If skipping normal outputs, it's unnecessary to do a full AST parse of each input file. // The regex parser may still run if ordering/pruning inputs. compiler.setPreferRegexParser(true); } } @GwtIncompatible("Unnecessary") protected final A getCompiler() { return compiler; } /** * @return a mutable list */ @GwtIncompatible("Unnecessary") public static List getBuiltinExterns(CompilerOptions.Environment env) throws IOException { try (InputStream input = getExternsInput()) { ZipInputStream zip = new ZipInputStream(input); String envPrefix = Ascii.toLowerCase(env.toString()) + "/"; Map mapFromExternsZip = new LinkedHashMap<>(); for (ZipEntry entry = null; (entry = zip.getNextEntry()) != null; ) { String filename = entry.getName(); // Always load externs in the root folder. // If the non-core-JS externs are organized in subfolders, only load // the ones in a subfolder matching the specified environment. Strip the subfolder. if (filename.contains("/")) { if (!filename.startsWith(envPrefix)) { continue; } filename = filename.substring(envPrefix.length()); // remove envPrefix, including '/' } BufferedInputStream entryStream = new BufferedInputStream(ByteStreams.limit(zip, entry.getSize())); mapFromExternsZip.put( filename, // Give the files an odd prefix, so that they do not conflict // with the user's files. SourceFile.builder() .withPath("externs.zip//" + filename) .withContent(entryStream) .build()); } return DefaultExterns.prepareExterns(env, mapFromExternsZip); } } /** * Some text identifying this binary and its version. * *

At minimum, this is what will be printed when `--version` is passed. */ protected abstract String getVersionText(); @GwtIncompatible("Unnecessary") private static InputStream getExternsInput() { InputStream input = AbstractCommandLineRunner.class.getResourceAsStream("/externs.zip"); if (input == null) { // In some environments, the externs.zip is relative to this class. input = AbstractCommandLineRunner.class.getResourceAsStream("externs.zip"); } checkNotNull(input); return input; } /** Runs the Compiler and calls System.exit() with the exit status of the compiler. */ @GwtIncompatible("Unnecessary") public final void run() { int result; try { result = doRun(); } catch (FlagUsageException e) { err.println(e.getMessage()); result = -1; } catch (Throwable t) { t.printStackTrace(err); result = -2; } exitCodeReceiver.apply(result); } /** Returns the PrintStream for writing errors associated with this AbstractCommandLineRunner. */ @GwtIncompatible("Unnecessary") protected final PrintStream getErrorPrintStream() { return err; } @GwtIncompatible("Unnecessary") public List parseJsonFilesFromInputStream() throws IOException { List jsonFiles = new ArrayList<>(); try (JsonReader reader = new JsonReader(new InputStreamReader(this.in, inputCharset))) { reader.beginArray(); while (reader.hasNext()) { JsonFileSpec jsonFile = gson.fromJson(reader, JsonFileSpec.class); jsonFiles.add(jsonFile); } reader.endArray(); } return jsonFiles; } /** * Creates inputs from a list of files. * * @param files A list of flag entries indicates js and zip file names. * @param allowStdIn Whether '-' is allowed appear as a filename to represent stdin. If true, '-' * is only allowed to appear once. * @param jsChunkSpecs A list chunk specs. * @return An array of inputs */ @GwtIncompatible("Unnecessary") private List createInputs( List> files, boolean allowStdIn, List jsChunkSpecs) throws IOException { return createInputs(files, /* jsonFiles= */ null, allowStdIn, jsChunkSpecs); } /** * Creates inputs from a list of source files and json files. * * @param files A list of flag entries indicates js and zip file names. * @param jsonFiles A list of json encoded files. * @param jsChunkSpecs A list chunk specs. * @return An array of inputs */ @GwtIncompatible("Unnecessary") private List createInputs( List> files, List jsonFiles, List jsChunkSpecs) throws IOException { return createInputs(files, jsonFiles, /* allowStdIn= */ false, jsChunkSpecs); } /** * Creates inputs from a list of source files, zips and json files. * *

Can be overridden by subclasses who want to pull files from different places. * * @param files A list of flag entries indicates js and zip file names * @param jsonFiles A list of json encoded files. * @param allowStdIn Whether '-' is allowed appear as a filename to represent stdin. If true, '-' * is only allowed to appear once. * @param jsChunkSpecs A list chunk specs. * @return An array of inputs */ @GwtIncompatible("Unnecessary") protected List createInputs( List> files, @Nullable List jsonFiles, boolean allowStdIn, List jsChunkSpecs) throws IOException { List inputs = new ArrayList<>(files.size()); boolean usingStdin = false; int jsChunkIndex = 0; JsChunkSpec jsChunkSpec = Iterables.getFirst(jsChunkSpecs, null); int cumulatedInputFilesExpected = jsChunkSpec == null ? Integer.MAX_VALUE : jsChunkSpec.getNumInputs(); for (int i = 0; i < files.size(); i++) { FlagEntry file = files.get(i); String filename = file.value; if (file.flag == JsSourceType.JS_ZIP) { if (this.config.typedAstListInputFilename != null) { throw new FlagUsageException("Can't use TypedASTs with --zip."); } if (!"-".equals(filename)) { List newFiles = SourceFile.fromZipFile(filename, inputCharset); // Update the manifest maps for new zip entries. if (rootRelativePathsMap.containsKey(filename)) { String rootFilename = rootRelativePathsMap.get(filename); for (SourceFile zipEntry : newFiles) { String zipEntryName = zipEntry.getName(); checkState(zipEntryName.contains(filename)); String zipmap = zipEntryName.replace(filename, rootFilename); rootRelativePathsMap.put(zipEntryName, zipmap); } } inputs.addAll(newFiles); if (jsChunkSpec != null) { jsChunkSpec.numJsFiles += newFiles.size() - 1; } } } else if (!"-".equals(filename)) { SourceKind kind = file.flag == JsSourceType.WEAKDEP ? SourceKind.WEAK : SourceKind.STRONG; SourceFile newFile = SourceFile.builder() .withPath(filename) .withCharset(inputCharset) .withKind(kind) .build(); inputs.add(newFile); } else { if (this.config.typedAstListInputFilename != null) { throw new FlagUsageException("Can't use TypedASTs with stdin."); } if (!config.defaultToStdin) { throw new FlagUsageException("Can't specify stdin."); } if (usingStdin) { throw new FlagUsageException("Can't specify stdin twice."); } if (!config.outputManifests.isEmpty()) { throw new FlagUsageException( "Manifest files cannot be generated when the input is from stdin."); } if (!config.outputBundles.isEmpty()) { throw new FlagUsageException( "Bundle files cannot be generated when the input is from stdin."); } this.err.println(WAITING_FOR_INPUT_WARNING); inputs.add( SourceFile.builder() .withPath("stdin") .withContent(this.in) .withCharset(inputCharset) .build()); usingStdin = true; } if (i >= cumulatedInputFilesExpected - 1) { jsChunkIndex++; if (jsChunkIndex < jsChunkSpecs.size()) { jsChunkSpec = jsChunkSpecs.get(jsChunkIndex); cumulatedInputFilesExpected += jsChunkSpec.getNumInputs(); } } } if (jsonFiles != null) { for (JsonFileSpec jsonFile : jsonFiles) { inputs.add(SourceFile.fromCode(jsonFile.getPath(), jsonFile.getSrc())); } } return inputs; } /** * Removes input --ijs files whose basename matches an input --js or --weakdep file. * * @throws FlagUsageException If there are both input --ijs files and module specs. */ @GwtIncompatible("Unnecessary") private ImmutableList deduplicateIjsFiles( List> files, List moduleRoots, boolean hasModuleSpecs) { ImmutableList.Builder errors = ImmutableList.builder(); // First pass: collect the (module root relative) names of --js and --weakdep files. Map relativeToAbsoluteName = new LinkedHashMap<>(); for (FlagEntry file : files) { // TODO(tjgq): Handle zip files. if (file.flag == JsSourceType.JS || file.flag == JsSourceType.WEAKDEP) { String absoluteName = file.value; String relativeName = getModuleRootRelativeName(absoluteName, moduleRoots); relativeToAbsoluteName.put(relativeName, absoluteName); } } // Second pass: drop --ijs files whose (module root relative) name matches a --js or --weakdep // file. Iterator> iterator = files.iterator(); while (iterator.hasNext()) { FlagEntry file = iterator.next(); if (file.flag == JsSourceType.IJS) { if (hasModuleSpecs) { throw new FlagUsageException("--ijs is incompatible with --chunk or --module."); } String absoluteName = file.value; if (!absoluteName.endsWith(".i.js")) { errors.add(JSError.make(IjsErrors.BAD_IJS_FILE_NAME, absoluteName)); continue; } String relativeName = getModuleRootRelativeName(absoluteName, moduleRoots); String relativeNonIjsName = relativeName.substring(0, relativeName.length() - ".i.js".length()); if (relativeToAbsoluteName.containsKey(relativeNonIjsName)) { errors.add( JSError.make( IjsErrors.CONFLICTING_IJS_FILE, relativeToAbsoluteName.get(relativeNonIjsName), absoluteName)); iterator.remove(); } } } return errors.build(); } private String getModuleRootRelativeName(String filename, List moduleRoots) { for (String moduleRoot : moduleRoots) { if (filename.startsWith(moduleRoot + "/")) { return filename.substring(moduleRoot.length() + 1); } } return filename; } /** Creates JS source code inputs from a list of files. */ @GwtIncompatible("Unnecessary") private @Nullable List createSourceInputs( List jsChunkSpecs, List> files, List jsonFiles, List moduleRoots) throws IOException { if (isInTestMode()) { return inputsSupplierForTesting != null ? inputsSupplierForTesting.get() : null; } if (files.isEmpty() && jsonFiles == null && config.defaultToStdin) { // Request to read from stdin. files = ImmutableList.of(new FlagEntry(JsSourceType.JS, "-")); } for (JSError error : deduplicateIjsFiles(files, moduleRoots, !jsChunkSpecs.isEmpty())) { compiler.report(error); } try { if (jsonFiles != null) { return createInputs(files, jsonFiles, jsChunkSpecs); } else { return createInputs(files, true, jsChunkSpecs); } } catch (FlagUsageException e) { throw new FlagUsageException("Bad --js flag. " + e.getMessage()); } } /** Creates JS extern inputs from a list of files. */ @GwtIncompatible("Unnecessary") private List createExternInputs(List files) throws IOException { List> externFiles = new ArrayList<>(); for (String file : files) { externFiles.add(new FlagEntry(JsSourceType.EXTERN, file)); } try { return createInputs(externFiles, false, new ArrayList()); } catch (FlagUsageException e) { throw new FlagUsageException("Bad --externs flag. " + e.getMessage()); } } /** * Creates chunk objects from a list of chunk specifications. * * @param specs A list of chunk specifications, not null or empty. * @param inputs A list of JS file paths, not null * @return An array of module objects */ public static List createJsChunks(List specs, List inputs) { checkState(specs != null); checkState(!specs.isEmpty()); checkState(inputs != null); List chunkNames = new ArrayList<>(specs.size()); Map chunksByName = new LinkedHashMap<>(); Map modulesFileCountMap = new LinkedHashMap<>(); int numJsFilesExpected = 0; int minJsFilesRequired = 0; for (JsChunkSpec spec : specs) { if (chunksByName.containsKey(spec.name)) { throw new FlagUsageException("Duplicate module name: " + spec.name); } JSChunk chunk = new JSChunk(spec.name); for (String dep : spec.deps) { JSChunk other = chunksByName.get(dep); if (other == null) { throw new FlagUsageException( "Module '" + spec.name + "' depends on unknown module '" + dep + "'. Be sure to list modules in dependency order."); } chunk.addDependency(other); } // We will allow modules of zero input. if (spec.numJsFiles < 0) { numJsFilesExpected = -1; } else { minJsFilesRequired += spec.numJsFiles; } if (numJsFilesExpected >= 0) { numJsFilesExpected += spec.numJsFiles; } // Add modules in reverse order so that source files are allocated to // modules in reverse order. This allows the first module // (presumably the base module) to have a size of 'auto' chunkNames.add(0, spec.name); modulesFileCountMap.put(spec.name, spec.numJsFiles); chunksByName.put(spec.name, chunk); } final int totalNumJsFiles = inputs.size(); if (numJsFilesExpected >= 0 || minJsFilesRequired > totalNumJsFiles) { if (minJsFilesRequired > totalNumJsFiles) { numJsFilesExpected = minJsFilesRequired; } if (numJsFilesExpected > totalNumJsFiles) { throw new FlagUsageException( "Not enough JS files specified. Expected " + numJsFilesExpected + " but found " + totalNumJsFiles); } else if (numJsFilesExpected < totalNumJsFiles) { throw new FlagUsageException( "Too many JS files specified. Expected " + numJsFilesExpected + " but found " + totalNumJsFiles); } } int numJsFilesLeft = totalNumJsFiles; int moduleIndex = 0; for (String chunkName : chunkNames) { // Parse module inputs. int numJsFiles = modulesFileCountMap.get(chunkName); JSChunk chunk = chunksByName.get(chunkName); // Check if the first chunk specified 'auto' for the number of files if (moduleIndex == chunkNames.size() - 1 && numJsFiles == -1) { numJsFiles = numJsFilesLeft; } List moduleFiles = inputs.subList(numJsFilesLeft - numJsFiles, numJsFilesLeft); for (CompilerInput input : moduleFiles) { chunk.add(input); } numJsFilesLeft -= numJsFiles; moduleIndex++; } return new ArrayList<>(chunksByName.values()); } /** * Validates the module name. Can be overridden by subclasses. * * @param name The module name */ @GwtIncompatible("Unnecessary") protected void checkModuleName(String name) { if (!TokenStream.isJSIdentifier(name)) { throw new FlagUsageException("Invalid module name: '" + name + "'"); } } /** * Parses module wrapper specifications. * * @param specs A list of module wrapper specifications, not null. The spec format is: * name:wrapper. Wrappers. * @param chunks The JS chunks whose wrappers are specified * @return A map from module name to module wrapper. Modules with no wrapper will have the empty * string as their value in this map. */ public static Map parseModuleWrappers( List specs, Iterable chunks) { checkState(specs != null); Map wrappers = new LinkedHashMap<>(); // Prepopulate the map with module names. for (JSChunk c : chunks) { wrappers.put(c.getName(), ""); } for (String spec : specs) { // Format is ":". int pos = spec.indexOf(':'); if (pos == -1) { throw new FlagUsageException( "Expected module wrapper to have " + ": format: " + spec); } // Parse module name. String name = spec.substring(0, pos); if (!wrappers.containsKey(name)) { throw new FlagUsageException("Unknown module: '" + name + "'"); } String wrapper = spec.substring(pos + 1); // Support for %n% and %output% wrapper = wrapper.replace("%output%", "%s").replace("%n%", "\n"); if (!wrapper.contains("%s")) { throw new FlagUsageException("No %s placeholder in module wrapper: '" + wrapper + "'"); } wrappers.put(name, wrapper); } return wrappers; } /** * Parses module output name specifications. * * @param specs A list of module output name specifications, not null. The spec format is: {@code * name:output_file}. * @return A map from module name to module output file name, if declared. Modules with no * predeclared output file name will have no entry in this map. */ private static ImmutableMap parseModuleOutputFiles(List specs) { checkArgument(specs != null); ImmutableMap.Builder outputFilesBuilder = ImmutableMap.builder(); for (String spec : specs) { // Format is ":". int pos = spec.indexOf(':'); if (pos == -1) { throw new FlagUsageException( "Expected chunk_output_file to have " + ": format: " + spec); } String name = spec.substring(0, pos); String filename = spec.substring(pos + 1); outputFilesBuilder.put(name, filename); } return outputFilesBuilder.buildOrThrow(); } /** * Returns the output file name for a chunk. * *

For chunks with predeclared output file names specified using {@code --chunk_output_file}, * the output file name is {@code /} * *

Otherwise, the output file name is {@code /.js} */ @GwtIncompatible("Unnecessary") @VisibleForTesting String getChunkOutputFileName(JSChunk m) { if (parsedModuleOutputFiles == null) { parsedModuleOutputFiles = parseModuleOutputFiles(config.moduleOutputFiles); } String outputFile = parsedModuleOutputFiles.get(m.getName()); if (outputFile != null) { return config.moduleOutputPathPrefix + outputFile; } return config.moduleOutputPathPrefix + m.getName() + ".js"; } /** Returns the conformance file name for a chunk. */ @GwtIncompatible("Unnecessary") @VisibleForTesting String getChunkConformanceFileName(JSChunk m) { if (parsedModuleConformanceFiles == null) { parsedModuleConformanceFiles = parseModuleOutputFiles(config.moduleConformanceFiles); } return parsedModuleConformanceFiles.get(m.getName()); } @VisibleForTesting @GwtIncompatible("Unnecessary") void writeModuleOutput(String fileName, Appendable out, LicenseTracker lt, JSChunk m) throws IOException { if (parsedModuleWrappers == null) { parsedModuleWrappers = parseModuleWrappers( config.moduleWrapper, ImmutableList.copyOf(compiler.getChunkGraph().getAllChunks())); } if (!isOutputInJson()) { maybeCreateDirsForPath(fileName); } String baseName = new File(fileName).getName(); writeOutput( out, compiler, lt, m, parsedModuleWrappers.get(m.getName()).replace("%basename%", baseName), "%s", null, fileName); } /** * Writes code to an output stream, optionally wrapping it in an arbitrary wrapper that contains a * placeholder where the code should be inserted. * * @param chunk Which chunk to write. If this is null, write the entire AST. */ @GwtIncompatible("Unnecessary") void writeOutput( Appendable out, Compiler compiler, LicenseTracker licenseTracker, @Nullable JSChunk chunk, String wrapper, String codePlaceholder, @Nullable Function escaper, String filename) throws IOException { if (compiler.getOptions().outputJs == OutputJs.SENTINEL) { out.append("// No JS output because the compiler was run in checks-only mode.\n"); return; } checkState(compiler.getOptions().outputJs == OutputJs.NORMAL); String code = chunk == null ? compiler.toSource() : compiler.toSource(licenseTracker, chunk); writeOutput(out, compiler, code, wrapper, codePlaceholder, escaper, filename); } /** * Writes code to an output stream, optionally wrapping it in an arbitrary wrapper that contains a * placeholder where the code should be inserted. */ @GwtIncompatible("Unnecessary") @VisibleForTesting void writeOutput( Appendable out, Compiler compiler, String code, String wrapper, String codePlaceholder, @Nullable Function escaper, String filename) throws IOException { int pos = wrapper.indexOf(codePlaceholder); if (pos != -1) { String prefix = ""; if (pos > 0) { prefix = wrapper.substring(0, pos); out.append(prefix); } out.append(escaper == null ? code : escaper.apply(code)); int suffixStart = pos + codePlaceholder.length(); if (suffixStart != wrapper.length()) { // Something after placeholder? out.append(wrapper.substring(suffixStart)); } // Make sure we always end output with a line feed. out.append('\n'); // If we have a source map, adjust its offsets to match // the code WITHIN the wrapper. if (compiler != null && compiler.getSourceMap() != null) { compiler.getSourceMap().setWrapperPrefix(prefix); } } else { out.append(code); out.append('\n'); } } /** Creates any directories necessary to write a file that will have a given path prefix. */ @GwtIncompatible("Unnecessary") private static void maybeCreateDirsForPath(String pathPrefix) { if (!Strings.isNullOrEmpty(pathPrefix)) { File parent = new File(pathPrefix).getParentFile(); if (parent != null) { parent.mkdirs(); } } } @GwtIncompatible("Unnecessary") private Appendable createDefaultOutput() throws IOException { boolean writeOutputToFile = !config.jsOutputFile.isEmpty(); if (writeOutputToFile) { return fileNameToLegacyOutputWriter(config.jsOutputFile); } else { return streamToLegacyOutputWriter(defaultJsOutput); } } @GwtIncompatible("Unnecessary") private static void closeAppendable(Appendable output) throws IOException { if (output instanceof Flushable) { ((Flushable) output).flush(); } if (output instanceof Closeable) { ((Closeable) output).close(); } } /** * Parses command-line arguments and runs the compiler. * * @return system exit status */ @GwtIncompatible("Unnecessary") protected int doRun() throws IOException { CompileMetricsRecorderInterface metricsRecorder = getCompileMetricsRecorder(); metricsRecorder.recordActionStart(); if (this.config.printVersion) { this.defaultJsOutput.println(this.getVersionText()); this.defaultJsOutput.flush(); return 0; } Compiler.setLoggingLevel(Level.parse(config.loggingLevel)); compiler = createCompiler(); B options = createOptions(); setRunOptions(options); @Nullable String typedAstListInputFilename = config.typedAstListInputFilename; List externs = createExterns(options); List chunks = null; rootRelativePathsMap = constructRootRelativePathsMap(); boolean writeOutputToFile = !config.jsOutputFile.isEmpty(); List outputFileNames = new ArrayList<>(); if (writeOutputToFile) { outputFileNames.add(config.jsOutputFile); } boolean createCommonJsModules = false; if (options.getProcessCommonJSModules() && (config.module.size() == 1 && "auto".equals(config.module.get(0)))) { createCommonJsModules = true; config.module.remove(0); } List jsChunkSpecs = new ArrayList<>(); for (int i = 0; i < config.module.size(); i++) { jsChunkSpecs.add(JsChunkSpec.create(config.module.get(i), i == 0)); } List jsonFiles = null; if (config.jsonStreamMode == JsonStreamMode.IN || config.jsonStreamMode == JsonStreamMode.BOTH) { jsonFiles = parseJsonFilesFromInputStream(); ImmutableMap.Builder inputSourceMaps = new ImmutableMap.Builder<>(); ImmutableMap.Builder inputPathByWebpackId = new ImmutableMap.Builder<>(); boolean foundJsonInputSourceMap = false; for (JsonFileSpec jsonFile : jsonFiles) { if (jsonFile.getSourceMap() != null && jsonFile.getSourceMap().length() > 0) { String sourceMapPath = jsonFile.getPath() + ".map"; SourceFile sourceMap = SourceFile.fromCode(sourceMapPath, jsonFile.getSourceMap()); inputSourceMaps.put(jsonFile.getPath(), new SourceMapInput(sourceMap)); foundJsonInputSourceMap = true; } if (jsonFile.getWebpackId() != null) { inputPathByWebpackId.put(jsonFile.getWebpackId(), jsonFile.getPath()); } } if (foundJsonInputSourceMap) { inputSourceMaps.putAll(options.inputSourceMaps); options.inputSourceMaps = inputSourceMaps.buildOrThrow(); } compiler.initWebpackMap(inputPathByWebpackId.buildOrThrow()); } else { ImmutableMap emptyMap = ImmutableMap.of(); compiler.initWebpackMap(emptyMap); } options.setDoLateLocalization(config.shouldDoLateLocalization()); options.setAlwaysGatherSourceMapInfo(config.shouldAlwaysGatherSourceMapInfo()); compiler.initOptions(options); List sources = createSourceInputs(jsChunkSpecs, config.mixedJsSources, jsonFiles, config.moduleRoots); if (!jsChunkSpecs.isEmpty()) { if (isInTestMode()) { chunks = chunksSupplierForTesting.get(); } else { if (JsonStreamMode.IN.equals(config.jsonStreamMode) || JsonStreamMode.NONE.equals(config.jsonStreamMode)) { for (JsChunkSpec m : jsChunkSpecs) { checkModuleName(m.getName()); } } ImmutableList.Builder inputs = ImmutableList.builder(); for (SourceFile source : sources) { inputs.add(new CompilerInput(source, /* isExtern= */ false)); } chunks = createJsChunks(jsChunkSpecs, inputs.build()); } for (JSChunk m : chunks) { outputFileNames.add(getChunkOutputFileName(m)); } if (typedAstListInputFilename != null) { this.initChunksWithTypedAstFilesystem(externs, chunks, options, typedAstListInputFilename); } else { compiler.initChunks(externs, chunks, options); } } else { if (typedAstListInputFilename != null) { this.initWithTypedAstFilesystem(externs, sources, options, typedAstListInputFilename); } else { compiler.init(externs, sources, options); } } // Release temporary data structures now that the compiler has // been initialized jsChunkSpecs = null; jsonFiles = null; externs = null; sources = null; Result result; // We won't want to process results for cases where compilation is only partially done. boolean shouldProcessResults = true; if (config.skipNormalOutputs) { metricsRecorder.recordActionName("skip normal outputs"); // TODO(bradfordcsmith): Should we be ignoring possible init/initChunks() errors here? compiler.orderInputsWithLargeStack(); result = null; } else if (compiler.hasErrors()) { metricsRecorder.recordActionName("initialization errors occurred"); // init() or initChunks() encountered an error. compiler.generateReport(); result = compiler.getResult(); } else if (options.getInstrumentForCoverageOnly()) { result = instrumentForCoverage(metricsRecorder); } else if (config.shouldSaveAfterStage1()) { result = performStage1andSave(config.getSaveCompilationStateToFilename(), metricsRecorder); // Don't output any results, since compilation isn't done yet. shouldProcessResults = false; } else if (config.shouldRestoreTypedAstsPerformStage2AndSave()) { result = restoreTypedAstsPerformStage2AndSave( config.getSaveCompilationStateToFilename(), metricsRecorder); // Don't output any results, since compilation isn't done yet. shouldProcessResults = false; } else if (config.shouldRestoreTypedAstsPerformStages2And3()) { result = restoreTypedAstsPerformStages2and3(metricsRecorder); } else if (config.shouldRestoreAndPerformStage2AndSave()) { result = restoreAndPerformStage2AndSave( config.getContinueSavedCompilationFileName(), config.getSaveCompilationStateToFilename(), metricsRecorder); // Don't output any results, since compilation isn't done yet. shouldProcessResults = false; } else if (config.shouldRestoreAndPerformStages2And3()) { result = restoreAndPerformStages2and3( config.getContinueSavedCompilationFileName(), metricsRecorder); if (chunks != null) { chunks = ImmutableList.copyOf(compiler.getChunks()); } } else if (config.shouldRestoreAndPerformStage3()) { result = restoreAndPerformStage3(config.getContinueSavedCompilationFileName(), metricsRecorder); if (chunks != null) { chunks = ImmutableList.copyOf(compiler.getChunks()); } } else { result = performFullCompilation(metricsRecorder); } if (createCommonJsModules) { // For Commonchunks construct modules from actual inputs. chunks = ImmutableList.copyOf(compiler.getChunks()); for (JSChunk c : chunks) { outputFileNames.add(getChunkOutputFileName(c)); } } for (String outputFileName : outputFileNames) { if (compiler.getSourceFileByName(outputFileName) != null) { compiler.report(JSError.make(OUTPUT_SAME_AS_INPUT_ERROR, outputFileName)); return 1; } } int exitStatus = shouldProcessResults ? processResults(result, chunks, options) : getExitStatusForResult(result); metricsRecorder.recordResultMetrics(compiler, result); return exitStatus; } /** * Child classes should override this if they want to actually record metrics about the * compilation. */ protected CompileMetricsRecorderInterface getCompileMetricsRecorder() { return new DummyCompileMetricsRecorder(); } @GwtIncompatible("Unnecessary") private Result performStage1andSave( String filename, CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("stage 1"); try (BufferedOutputStream serializedOutputStream = new BufferedOutputStream(new FileOutputStream(filename))) { compiler.parseForCompilation(); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage1Passes(); } if (!compiler.hasErrors()) { compiler.saveState(serializedOutputStream); } compiler.performPostCompilationTasks(); } catch (IOException e) { compiler.report(JSError.make(COULD_NOT_SERIALIZE_AST, filename)); } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private void initWithTypedAstFilesystem( List externs, List sources, CompilerOptions options, String filename) { try (GZIPInputStream typedAstListStream = new GZIPInputStream(new FileInputStream(filename), GZIPPED_TYPEDAST_BUFFER_SIZE)) { compiler.initWithTypedAstFilesystem(externs, sources, options, typedAstListStream); } catch (IOException e) { compiler.report(JSError.make(COULD_NOT_DESERIALIZE_AST, filename)); } } @GwtIncompatible("Unnecessary") private void initChunksWithTypedAstFilesystem( List externs, List chunks, CompilerOptions options, String filename) { try (GZIPInputStream typedAstListStream = new GZIPInputStream(new FileInputStream(filename), GZIPPED_TYPEDAST_BUFFER_SIZE)) { compiler.initChunksWithTypedAstFilesystem(externs, chunks, options, typedAstListStream); } catch (IOException e) { compiler.report(JSError.make(COULD_NOT_DESERIALIZE_AST, filename)); } } @GwtIncompatible("Unnecessary") private Result restoreTypedAstsPerformStage2AndSave( String outputFilename, CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("parse & optimize"); try { if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage2Passes(); if (!compiler.hasErrors()) { try (BufferedOutputStream serializedOutputStream = new BufferedOutputStream(new FileOutputStream(outputFilename))) { compiler.saveState(serializedOutputStream); } catch (IOException e) { compiler.report(JSError.make(COULD_NOT_SERIALIZE_AST, outputFilename)); } compiler.performPostCompilationTasks(); } } } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result restoreTypedAstsPerformStages2and3( CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("skip-checks compile"); try { if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage2Passes(); if (!compiler.hasErrors()) { compiler.stage3Passes(); } compiler.performPostCompilationTasks(); } } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result restoreAndPerformStage2AndSave( String inputFilename, String outputFilename, CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("stage 2/3"); try (BufferedInputStream serializedInputStream = new BufferedInputStream(new FileInputStream(inputFilename))) { compiler.restoreState(serializedInputStream); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage2Passes(); if (!compiler.hasErrors()) { try (BufferedOutputStream serializedOutputStream = new BufferedOutputStream(new FileOutputStream(outputFilename))) { compiler.saveState(serializedOutputStream); } catch (IOException e) { compiler.report(JSError.make(COULD_NOT_SERIALIZE_AST, outputFilename)); } compiler.performPostCompilationTasks(); } } } catch (IOException | ClassNotFoundException e) { compiler.report(JSError.make(COULD_NOT_DESERIALIZE_AST, inputFilename)); } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result restoreAndPerformStages2and3( String filename, CompileMetricsRecorderInterface metricsRecorder) { // From the outside this looks like the second stage of a 2-stage compile. metricsRecorder.recordActionName("stage 2/2"); try (BufferedInputStream serializedInputStream = new BufferedInputStream(new FileInputStream(filename))) { compiler.restoreState(serializedInputStream); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage2Passes(); if (!compiler.hasErrors()) { compiler.stage3Passes(); } } compiler.performPostCompilationTasks(); } catch (IOException | ClassNotFoundException e) { compiler.report(JSError.make(COULD_NOT_DESERIALIZE_AST, filename)); } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result restoreAndPerformStage3( String filename, CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("stage 3/3"); try (BufferedInputStream serializedInputStream = new BufferedInputStream(new FileInputStream(filename))) { compiler.restoreState(serializedInputStream); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage3Passes(); } compiler.performPostCompilationTasks(); } catch (IOException | ClassNotFoundException e) { compiler.report(JSError.make(COULD_NOT_DESERIALIZE_AST, filename)); } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result performFullCompilation(CompileMetricsRecorderInterface metricsRecorder) { // This is the code path taken when "building" a library by just checking it for errors // and generating an .ijs file and also when doing a full compilation. metricsRecorder.recordActionName( compiler.getOptions().checksOnly ? "checks-only" : "full compile"); try { compiler.parseForCompilation(); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.stage1Passes(); if (!compiler.hasErrors()) { compiler.stage2Passes(); if (!compiler.hasErrors()) { compiler.stage3Passes(); } } compiler.performPostCompilationTasks(); } } finally { // Make sure we generate a report of errors and warnings even if the compiler throws an // exception somewhere. compiler.generateReport(); } return compiler.getResult(); } @GwtIncompatible("Unnecessary") private Result instrumentForCoverage(CompileMetricsRecorderInterface metricsRecorder) { metricsRecorder.recordActionName("instrument for coverage"); try { compiler.parseForCompilation(); if (!compiler.hasErrors()) { metricsRecorder.recordStartState(compiler); compiler.instrumentForCoverage(); } } finally { compiler.generateReport(); } return compiler.getResult(); } /** Processes the results of the compile job, and returns an error code. */ @GwtIncompatible("Unnecessary") int processResults(Result result, List chunks, B options) throws IOException { if (config.printAst) { if (compiler.getRoot() == null) { return 1; } else { Appendable jsOutput = createDefaultOutput(); ControlFlowGraph cfg = compiler.computeCFG(); DotFormatter.appendDot(compiler.getRoot().getLastChild(), cfg, jsOutput); jsOutput.append('\n'); closeAppendable(jsOutput); return 0; } } if (config.printTree) { if (compiler.getRoot() == null) { compiler.report(JSError.make(NO_TREE_GENERATED_ERROR)); return 1; } else { Appendable jsOutput = createDefaultOutput(); compiler.getJsRoot().appendStringTree(jsOutput); jsOutput.append("\n"); closeAppendable(jsOutput); return 0; } } if (config.printTreeJson) { if (compiler.getRoot() == null) { compiler.report(JSError.make(NO_TREE_GENERATED_ERROR)); return 1; } else { Appendable jsOutput = createDefaultOutput(); compiler.getJsRoot().appendJsonTree(jsOutput); closeAppendable(jsOutput); return 0; } } if (config.skipNormalOutputs) { // Output the manifest and bundle files if requested. outputManifest(); outputBundle(); outputChunkGraphJson(); return 0; } else if (options.outputJs != OutputJs.NONE && result.success) { outputChunkGraphJson(); if (chunks == null) { outputSingleBinary(options); // Output the source map if requested. // If output files are being written to stdout as a JSON string, // outputSingleBinary will have added the sourcemap to the output file if (!isOutputInJson()) { outputSourceMap(options, config.jsOutputFile); } } else { DiagnosticType error = outputModuleBinaryAndSourceMaps(compiler.getChunkGraph(), options); if (error != null) { compiler.report(JSError.make(error)); return 1; } } // Output the externs if required. if (options.getExternExportsPath() != null) { try (Writer eeOut = openExternExportsStream(options, config.jsOutputFile)) { eeOut.append(result.externExport); } } // Output the variable and property name maps if requested. outputNameMaps(); // Output the ReplaceStrings map if requested outputStringMap(); // Output the manifest and bundle files if requested. outputManifest(); outputBundle(); // Output the production instrumentation param mapping if requested. outputInstrumentationMapping(); if (isOutputInJson()) { outputJsonStream(); } } return getExitStatusForResult(result); } private static int getExitStatusForResult(Result result) { // return 0 if no errors, the error count otherwise return min(result.errors.size(), 0x7f); } @GwtIncompatible("Unnecessary") Function getJavascriptEscaper() { return SourceCodeEscapers.javascriptEscaper().asFunction(); } @GwtIncompatible("Unnecessary") void outputSingleBinary(B options) throws IOException { Function escaper = null; String marker = OUTPUT_MARKER; if (config.outputWrapper.contains(OUTPUT_MARKER_JS_STRING)) { marker = OUTPUT_MARKER_JS_STRING; escaper = getJavascriptEscaper(); } if (isOutputInJson()) { this.filesToStreamOut.add(createJsonFile(options, marker, escaper)); } else { if (!config.jsOutputFile.isEmpty()) { maybeCreateDirsForPath(config.jsOutputFile); } Appendable jsOutput = createDefaultOutput(); writeOutput( jsOutput, compiler, // So long as the JSChunk arg is null the compiler will write all sources to jsOutput // Use single-binary license tracking to dedupe licenses among all the inputs new SingleBinaryLicenseTracker(compiler), (JSChunk) null, config.outputWrapper, marker, escaper, config.jsOutputFile); closeAppendable(jsOutput); } } /** Save the compiler output to a JsonFileSpec to be later written to stdout */ @GwtIncompatible("Unnecessary") JsonFileSpec createJsonFile(B options, String outputMarker, Function escaper) throws IOException { Appendable jsOutput = new StringBuilder(); writeOutput( jsOutput, compiler, // So long as the JSChunk arg is null the compiler will write all sources to jsOutput // Use single-binary license tracking to dedupe licenses among all the inputs new SingleBinaryLicenseTracker(compiler), (JSChunk) null, config.outputWrapper, outputMarker, escaper, config.jsOutputFile); JsonFileSpec jsonOutput = new JsonFileSpec( jsOutput.toString(), Strings.isNullOrEmpty(config.jsOutputFile) ? "compiled.js" : config.jsOutputFile); if (options.shouldGatherSourceMapInfo()) { StringBuilder sourcemap = new StringBuilder(); compiler.getSourceMap().appendTo(sourcemap, jsonOutput.getPath()); jsonOutput.setSourceMap(sourcemap.toString()); } return jsonOutput; } @GwtIncompatible("Unnecessary") void outputJsonStream() throws IOException { try (JsonWriter jsonWriter = new JsonWriter(new BufferedWriter(new OutputStreamWriter(defaultJsOutput, UTF_8)))) { Gson gsonOut = new GsonBuilder().disableHtmlEscaping().setPrettyPrinting().create(); Type filesCollectionType = new TypeToken>() {}.getType(); gsonOut.toJson(this.filesToStreamOut, filesCollectionType, jsonWriter); } } @GwtIncompatible("Unnecessary") private @Nullable DiagnosticType outputModuleBinaryAndSourceMaps( JSChunkGraph chunkGraph, B options) throws IOException { Iterable modules = chunkGraph.getAllChunks(); parsedModuleWrappers = parseModuleWrappers(config.moduleWrapper, modules); if (!isOutputInJson()) { // make sure the method generates all dirs up to the latest / maybeCreateDirsForPath(config.moduleOutputPathPrefix + "dummy"); } // If the source map path is in fact a pattern for each // module, create a stream per-module. Otherwise, create // a single source map. Writer mapFileOut = null; // When the json_streams flag is specified, sourcemaps are always generated // per module if (!(shouldGenerateMapPerModule(options) || !options.shouldGatherSourceMapInfo() || config.jsonStreamMode == JsonStreamMode.OUT || config.jsonStreamMode == JsonStreamMode.BOTH)) { // warn that this is not supported return INVALID_MODULE_SOURCEMAP_PATTERN; } ChunkGraphAwareLicenseTracker mlicenseTracker = new ChunkGraphAwareLicenseTracker(compiler); for (JSChunk m : modules) { if (m.getName().equals(JSChunk.WEAK_CHUNK_NAME)) { // Skip the weak module, which is always empty. continue; } if (isOutputInJson()) { this.filesToStreamOut.add(createJsonFileFromModule(m)); } else { if (shouldGenerateMapPerModule(options)) { mapFileOut = fileNameToOutputWriter2(expandSourceMapPath(options, m)); } String moduleFilename = getChunkOutputFileName(m); maybeCreateDirsForPath(moduleFilename); try (Writer writer = fileNameToLegacyOutputWriter(moduleFilename)) { if (options.shouldGatherSourceMapInfo()) { compiler.resetAndIntitializeSourceMap(); } mlicenseTracker.setCurrentChunkContext(m); writeModuleOutput(moduleFilename, writer, mlicenseTracker, m); if (options.shouldGatherSourceMapInfo()) { compiler.getSourceMap().appendTo(mapFileOut, moduleFilename); } } if (shouldGenerateMapPerModule(options) && mapFileOut != null) { mapFileOut.close(); mapFileOut = null; } } } if (mapFileOut != null) { mapFileOut.close(); } return null; } /** Given an output module, convert it to a JSONFileSpec with associated sourcemap */ @GwtIncompatible("Unnecessary") private JsonFileSpec createJsonFileFromModule(JSChunk chunk) throws IOException { compiler.resetAndIntitializeSourceMap(); String filename = getChunkOutputFileName(chunk); StringBuilder output = new StringBuilder(); writeModuleOutput(filename, output, new ScriptNodeLicensesOnlyTracker(compiler), chunk); JsonFileSpec jsonFile = new JsonFileSpec(output.toString(), filename); StringBuilder moduleSourceMap = new StringBuilder(); compiler.getSourceMap().appendTo(moduleSourceMap, getChunkOutputFileName(chunk)); jsonFile.setSourceMap(moduleSourceMap.toString()); return jsonFile; } /** * Query the flag for the input charset, and return a Charset object representing the selection. * * @return Charset to use when reading inputs * @throws FlagUsageException if flag is not a valid Charset name. */ @GwtIncompatible("Unnecessary") private Charset getInputCharset() { if (!config.charset.isEmpty()) { if (!Charset.isSupported(config.charset)) { throw new FlagUsageException(config.charset + " is not a valid charset name."); } return Charset.forName(config.charset); } return UTF_8; } /** * Query the flag for the output charset. * *

Let the outputCharset be the same as the input charset... except if we're reading in UTF-8 * by default. By tradition, we've always output ASCII to avoid various hiccups with different * browsers, proxies and firewalls. * * @return Name of the charset to use when writing outputs. Guaranteed to be a supported charset. * @throws FlagUsageException if flag is not a valid Charset name. */ @GwtIncompatible("Unnecessary") private Charset getLegacyOutputCharset() { if (!config.charset.isEmpty()) { if (!Charset.isSupported(config.charset)) { throw new FlagUsageException(config.charset + " is not a valid charset name."); } return Charset.forName(config.charset); } return US_ASCII; } /** * Query the flag for the output charset. Defaults to UTF-8. * * @throws FlagUsageException if flag is not a valid Charset name. */ @GwtIncompatible("Unnecessary") private Charset getOutputCharset2() { if (!config.charset.isEmpty()) { if (!Charset.isSupported(config.charset)) { throw new FlagUsageException(config.charset + " is not a valid charset name."); } return Charset.forName(config.charset); } return UTF_8; } @GwtIncompatible("Unnecessary") protected List createExterns(CompilerOptions options) throws IOException { return isInTestMode() ? externsSupplierForTesting.get() : createExternInputs(config.externs); } /** * Returns true if and only if a source map file should be generated for each module, as opposed * to one unified map. This is specified by having the source map pattern include the %outname% * variable. */ @GwtIncompatible("Unnecessary") protected boolean shouldGenerateMapPerModule(B options) { return options.shouldGatherSourceMapInfo() && options.getSourceMapOutputPath().contains("%outname%"); } /** * Returns a stream for outputting the generated externs file. * * @param options The options to the Compiler. * @param path The path of the generated JS source file. * @return The stream or null if no extern-ed exports are being generated. */ @GwtIncompatible("Unnecessary") private @Nullable Writer openExternExportsStream(B options, String path) throws IOException { final String externExportsPath = options.getExternExportsPath(); if (externExportsPath == null) { return null; } String exPath = externExportsPath; if (!exPath.contains(File.separator)) { File outputFile = new File(path); exPath = outputFile.getParent() + File.separatorChar + exPath; } return fileNameToOutputWriter2(exPath); } /** * Expand a file path specified on the command-line. * *

Most file paths on the command-line allow an %outname% placeholder. The placeholder will * expand to a different value depending on the current output mode. There are three scenarios: * *

1) Single JS output, single extra output: sub in jsOutputPath. 2) Multiple JS output, single * extra output: sub in the base module name. 3) Multiple JS output, multiple extra output: sub in * the module output file. * *

Passing a JSChunk to this function automatically triggers case #3. Otherwise, we'll use * strategy #1 or #2 based on the current output mode. */ @GwtIncompatible("Unnecessary") private String expandCommandLinePath(String path, @Nullable JSChunk forChunk) { String sub; if (forChunk != null) { sub = getChunkOutputFileName(forChunk); } else if (!config.module.isEmpty()) { sub = config.moduleOutputPathPrefix; } else { sub = config.jsOutputFile; } return path.replace("%outname%", sub); } /** Expansion function for source map. */ @VisibleForTesting @GwtIncompatible("Unnecessary") @Nullable String expandSourceMapPath(B options, @Nullable JSChunk forChunk) { if (!options.shouldGatherSourceMapInfo()) { return null; } return expandCommandLinePath(options.getSourceMapOutputPath(), forChunk); } /** * Converts a file name into a Writer taking in account the output charset. Returns null if the * file name is null. */ @GwtIncompatible("Unnecessary") private @Nullable Writer fileNameToLegacyOutputWriter(String fileName) throws IOException { if (fileName == null) { return null; } if (isInTestMode()) { return new StringWriter(); } return streamToLegacyOutputWriter(filenameToOutputStream(fileName)); } /** * Converts a file name into a Writer taking in account the output charset. Returns null if the * file name is null. */ @GwtIncompatible("Unnecessary") private @Nullable Writer fileNameToOutputWriter2(String fileName) throws IOException { if (fileName == null) { return null; } if (isInTestMode()) { return new StringWriter(); } return streamToOutputWriter2(filenameToOutputStream(fileName)); } /** Converts a file name into a Outputstream. Returns null if the file name is null. */ @GwtIncompatible("Unnecessary") protected @Nullable OutputStream filenameToOutputStream(String fileName) throws IOException { if (fileName == null) { return null; } return new FileOutputStream(fileName); } /** Create a writer with the legacy output charset. */ @GwtIncompatible("Unnecessary") private Writer streamToLegacyOutputWriter(OutputStream stream) { if (legacyOutputCharset == null) { return createWriter(stream, UTF_8); } else { return createWriter(stream, legacyOutputCharset); } } /** Create a writer with the newer output charset. */ @GwtIncompatible("Unnecessary") private Writer streamToOutputWriter2(OutputStream stream) { if (outputCharset2 == null) { return createWriter(stream, UTF_8); } else { return createWriter(stream, outputCharset2); } } /** Creates a buffered Writer that writes to the given stream using the given encoding. */ @GwtIncompatible("Unnecessary") Writer createWriter(OutputStream stream, Charset charset) { return new BufferedWriter(new OutputStreamWriter(stream, charset)); } /** * Outputs the source map found in the compiler to the proper path if one exists. * * @param options The options to the Compiler. */ @GwtIncompatible("Unnecessary") private void outputSourceMap(B options, String associatedName) throws IOException { if (!options.shouldGatherSourceMapInfo() || options.getSourceMapOutputPath().equals("/dev/null")) { return; } String outName = expandSourceMapPath(options, null); maybeCreateDirsForPath(outName); try (Writer out = fileNameToOutputWriter2(outName)) { compiler.getSourceMap().appendTo(out, associatedName); } } /** * Returns the path at which to output map file(s) based on the path at which the JS binary will * be placed. * * @return The path in which to place the generated map file(s). */ @GwtIncompatible("Unnecessary") private String getMapPath(String outputFile) { String basePath = ""; if (outputFile.isEmpty()) { // If we have a js_module_binary rule, output the maps // at modulename_props_map.out, etc. if (!config.moduleOutputPathPrefix.isEmpty()) { basePath = config.moduleOutputPathPrefix; } else { basePath = "jscompiler"; } } else { // Get the path of the output file. File file = new File(outputFile); String outputFileName = file.getName(); // Strip the .js from the name. if (outputFileName.endsWith(".js")) { outputFileName = outputFileName.substring(0, outputFileName.length() - 3); } String fileParent = file.getParent(); if (fileParent == null) { basePath = outputFileName; } else { basePath = file.getParent() + File.separatorChar + outputFileName; } } return basePath; } /** * Outputs the variable and property name maps for the specified compiler if the proper FLAGS are * set. */ @GwtIncompatible("Unnecessary") private void outputNameMaps() throws IOException { String propertyMapOutputPath = null; String variableMapOutputPath = null; // Check the create_name_map_files FLAG. if (config.createNameMapFiles) { String basePath = getMapPath(config.jsOutputFile); propertyMapOutputPath = basePath + "_props_map.out"; variableMapOutputPath = basePath + "_vars_map.out"; } // Check the individual FLAGS. if (!config.variableMapOutputFile.isEmpty()) { if (variableMapOutputPath != null) { throw new FlagUsageException( "The flags variable_map_output_file and " + "create_name_map_files cannot both be used simultaneously."); } variableMapOutputPath = config.variableMapOutputFile; } if (!config.propertyMapOutputFile.isEmpty()) { if (propertyMapOutputPath != null) { throw new FlagUsageException( "The flags property_map_output_file and " + "create_name_map_files cannot both be used simultaneously."); } propertyMapOutputPath = config.propertyMapOutputFile; } // Output the maps. if (variableMapOutputPath != null && compiler.getVariableMap() != null) { compiler.getVariableMap().save(variableMapOutputPath); } if (propertyMapOutputPath != null && compiler.getPropertyMap() != null) { compiler.getPropertyMap().save(propertyMapOutputPath); } } /** * Outputs the string map generated by the {@link ReplaceStrings} pass if an output path exists. */ @GwtIncompatible("Unnecessary") private void outputStringMap() throws IOException { if (!config.stringMapOutputPath.isEmpty()) { if (compiler.getStringMap() == null) { // Ensure an empty file is created if there is no string map. // This avoids confusing some build tools that expect to see the file, even if it is empty. if (!(new File(config.stringMapOutputPath).createNewFile())) { throw new IOException("Could not create file: " + config.stringMapOutputPath); } } else { compiler.getStringMap().save(config.stringMapOutputPath); } } } /** * Create a map of constant names to constant values from a textual description of the map. * * @param definitions A list of overriding definitions for defines in the form {@code * [=]}, where {@code } is a number, boolean, or single-quoted string without * single quotes. */ @VisibleForTesting public static void createDefineReplacements(List definitions, CompilerOptions options) { // Parse the definitions for (String override : definitions) { String[] assignment = override.split("=", 2); String defName = assignment[0]; if (defName.length() > 0) { String defValue = assignment.length == 1 ? "true" : assignment[1]; boolean isTrue = defValue.equals("true"); boolean isFalse = defValue.equals("false"); if (isTrue || isFalse) { options.setDefineToBooleanLiteral(defName, isTrue); continue; } else if (defValue.length() > 1 && ((defValue.charAt(0) == '\'' && defValue.charAt(defValue.length() - 1) == '\'') || (defValue.charAt(0) == '\"' && defValue.charAt(defValue.length() - 1) == '\"'))) { // If the value starts and ends with a single quote, // we assume that it's a string. String maybeStringVal = defValue.substring(1, defValue.length() - 1); if (maybeStringVal.indexOf(defValue.charAt(0)) == -1) { options.setDefineToStringLiteral(defName, maybeStringVal); continue; } } else { try { double value = Double.parseDouble(defValue); options.setDefineToDoubleLiteral(defName, value); continue; } catch (NumberFormatException e) { // do nothing, it will be caught at the end } if (defValue.length() > 0) { options.setDefineToStringLiteral(defName, defValue); continue; } } } throw new RuntimeException("--define flag syntax invalid: " + override); } } /** * Returns true if and only if a manifest or bundle should be generated for each module, as * opposed to one unified manifest. */ @GwtIncompatible("Unnecessary") private boolean shouldGenerateOutputPerModule(String output) { return !config.module.isEmpty() && output != null && output.contains("%outname%"); } @GwtIncompatible("Unnecessary") private void outputManifest() throws IOException { outputManifestOrBundle(config.outputManifests, true); } @GwtIncompatible("Unnecessary") private void outputBundle() throws IOException { outputManifestOrBundle(config.outputBundles, false); } @GwtIncompatible("Unnecessary") private void outputInstrumentationMapping() throws IOException { if (!Strings.isNullOrEmpty(config.instrumentationMappingFile)) { String path = expandCommandLinePath(config.instrumentationMappingFile, /* forChunk= */ null); compiler.getInstrumentationMapping().save(path); } } /** * Writes the manifest or bundle of all compiler input files that were included as controlled by * --dependency_mode, if requested. */ @GwtIncompatible("Unnecessary") private void outputManifestOrBundle(List outputFiles, boolean isManifest) throws IOException { if (outputFiles.isEmpty()) { return; } for (String output : outputFiles) { if (output.isEmpty()) { continue; } if (shouldGenerateOutputPerModule(output)) { // Generate per-module manifests or bundles. Iterable chunks = compiler.getChunkGraph().getAllChunks(); for (JSChunk chunk : chunks) { try (Writer out = fileNameToOutputWriter2(expandCommandLinePath(output, chunk))) { if (isManifest) { printManifestTo(chunk, out); } else { printBundleTo(chunk, out); } } } } else { // Generate a single file manifest or bundle. try (Writer out = fileNameToOutputWriter2(expandCommandLinePath(output, null))) { if (config.module.isEmpty()) { // For a single-module compilation, generate a single headerless manifest or bundle // containing only the strong files. JSChunk chunk = compiler.getChunkGraph().getChunkByName(JSChunk.STRONG_CHUNK_NAME); if (isManifest) { printManifestTo(chunk, out); } else { printBundleTo(chunk, out); } } else { // For a multi-module compilation, generate a single manifest file with module headers. printChunkGraphManifestOrBundleTo(compiler.getChunkGraph(), out, isManifest); } } } } } /** Creates a file containing the current module graph in JSON serialization. */ @GwtIncompatible("Unnecessary") private void outputChunkGraphJson() throws IOException { if (config.outputModuleDependencies != null && config.outputModuleDependencies.length() != 0) { try (Writer out = fileNameToOutputWriter2(config.outputModuleDependencies)) { printChunkGraphJsonTo(out); } } } /** Prints the current module graph as JSON. */ @VisibleForTesting @GwtIncompatible("Unnecessary") void printChunkGraphJsonTo(Appendable out) throws IOException { out.append(compiler.getChunkGraph().toJson().toString()); } /** Prints a set of modules to the manifest or bundle file. */ @VisibleForTesting @GwtIncompatible("Unnecessary") void printChunkGraphManifestOrBundleTo(JSChunkGraph graph, Appendable out, boolean isManifest) throws IOException { Joiner commas = Joiner.on(","); boolean requiresNewline = false; for (JSChunk chunk : graph.getAllChunks()) { if (!isManifest && chunk.isWeak()) { // Skip the weak module on a multi-module bundle, but not a multi-module manifest. continue; } if (requiresNewline) { out.append("\n"); } if (isManifest) { // See CommandLineRunnerTest to see what the format of this // manifest looks like. String dependencies = commas.join(chunk.getSortedDependencyNames()); out.append( String.format( "{%s%s}\n", chunk.getName(), dependencies.isEmpty() ? "" : ":" + dependencies)); printManifestTo(chunk, out); } else { printBundleTo(chunk, out); } requiresNewline = true; } } /** * Prints a list of input names (using root-relative paths), delimited by newlines, to the * manifest file. */ @VisibleForTesting @GwtIncompatible("Unnecessary") void printManifestTo(JSChunk chunk, Appendable out) throws IOException { for (CompilerInput input : chunk.getInputs()) { String name = input.getName(); // Ignore fill files created by the compiler to facilitate cross-module code motion. if (Compiler.isFillFileName(name)) { continue; } String rootRelativePath = rootRelativePathsMap.get(name); String displayName = rootRelativePath != null ? rootRelativePath : name; out.append(displayName); out.append("\n"); } } /** * Prints all the input contents, starting with a comment that specifies the input file name * (using root-relative paths) before each file. */ @VisibleForTesting @GwtIncompatible("Unnecessary") void printBundleTo(JSChunk chunk, Appendable out) throws IOException { ImmutableList inputs = chunk.getInputs(); // Prebuild ASTs before they're needed in getLoadFlags, for performance and because // StackOverflowErrors can be hit if not prebuilt. if (compiler.getOptions().numParallelThreads > 1) { new PrebuildAst(compiler, compiler.getOptions().numParallelThreads).prebuild(inputs); } if (!compiler.getOptions().preventLibraryInjection) { // ES6 modules will need a runtime in a bundle. Skip appending this runtime if there are no // ES6 modules to cut down on size. for (CompilerInput input : inputs) { if (input.isEs6Module()) { appendRuntimeTo(out); break; } } } for (CompilerInput input : inputs) { String name = input.getName(); String code = input.getSourceFile().getCode(); // Ignore empty fill files created by the compiler to facilitate cross-module code motion. // Note that non-empty fill files (ones whose code has actually been moved into) are still // emitted. In particular, this ensures that if there are no (real) inputs the bundle will be // empty. if (Compiler.isFillFileName(name) && code.isEmpty()) { continue; } String rootRelativePath = rootRelativePathsMap.get(name); String displayName = rootRelativePath != null ? rootRelativePath : input.getName(); out.append("//"); out.append(displayName); out.append("\n"); prepForBundleAndAppendTo(out, input, code); out.append("\n"); } } /** * Construct and return the input root path map. The key is the exec path of each input file, and * the value is the corresponding root relative path. */ @GwtIncompatible("Unnecessary") private Map constructRootRelativePathsMap() { Map rootRelativePathsMap = new LinkedHashMap<>(); for (String mapString : config.manifestMaps) { int colonIndex = mapString.indexOf(':'); checkState(colonIndex > 0); String execPath = mapString.substring(0, colonIndex); String rootRelativePath = mapString.substring(colonIndex + 1); checkState(rootRelativePath.indexOf(':') == -1); rootRelativePathsMap.put(execPath, rootRelativePath); } return rootRelativePathsMap; } /** * Configurations for the command line configs. Designed for easy building, so that we can * decouple the flags-parsing library from the actual configuration options. * *

TODO(tjgq): Investigate whether this class is really needed to mediate between the * CompilerOptions and runner implementations. An alternative would be for the runners to fill in * the CompilerOptions directly, but that conflicts with the latter's mutability and the desire to * reuse the same options across multiple compilations. */ @GwtIncompatible("Unnecessary") protected static class CommandLineConfig { private boolean printVersion; @CanIgnoreReturnValue CommandLineConfig setPrintVersion(boolean x) { this.printVersion = x; return this; } private boolean printTree = false; private boolean printTreeJson = false; /** Prints out the parse tree and exits */ @CanIgnoreReturnValue CommandLineConfig setPrintTree(boolean printTree) { this.printTree = printTree; return this; } /** Prints out the parse tree and exits */ @CanIgnoreReturnValue CommandLineConfig setPrintTreeJson(boolean printTreeJson) { this.printTreeJson = printTreeJson; return this; } private boolean printAst = false; /** Prints a dot file describing the internal abstract syntax tree and exits */ @CanIgnoreReturnValue public CommandLineConfig setPrintAst(boolean printAst) { this.printAst = printAst; return this; } private CompilerOptions.DevMode jscompDevMode = CompilerOptions.DevMode.OFF; /** Turns on extra validity checks */ @CanIgnoreReturnValue public CommandLineConfig setJscompDevMode(CompilerOptions.DevMode jscompDevMode) { this.jscompDevMode = jscompDevMode; return this; } private String loggingLevel = Level.WARNING.getName(); /** * The logging level (standard java.util.logging.Level values) for Compiler progress. Does not * control errors or warnings for the JavaScript code under compilation */ @CanIgnoreReturnValue public CommandLineConfig setLoggingLevel(String loggingLevel) { this.loggingLevel = loggingLevel; return this; } private final List externs = new ArrayList<>(); /** The file containing JavaScript externs. You may specify multiple. */ @CanIgnoreReturnValue public CommandLineConfig setExterns(List externs) { this.externs.clear(); this.externs.addAll(externs); return this; } private final List> mixedJsSources = new ArrayList<>(); /** The JavaScript source file names, including .js and .zip files. You may specify multiple. */ @CanIgnoreReturnValue public CommandLineConfig setMixedJsSources(List> mixedJsSources) { this.mixedJsSources.clear(); this.mixedJsSources.addAll(mixedJsSources); return this; } private boolean defaultToStdin = false; /** * Whether to read a single source file from standard input if no input files are explicitly * specified. */ @CanIgnoreReturnValue public CommandLineConfig setDefaultToStdin() { this.defaultToStdin = true; return this; } private String jsOutputFile = ""; /** Primary output filename. If not specified, output is written to stdout */ @CanIgnoreReturnValue public CommandLineConfig setJsOutputFile(String jsOutputFile) { this.jsOutputFile = jsOutputFile; return this; } /** * When non-null specifies a file containing saved compiler state to restore and continue * compiling. */ private @Nullable String continueSavedCompilationFileName = null; /** * When > 0 indicates the stage at which compilation stopped for the compilation state that is * being restored from a save file. */ private int restoredCompilationStage = -1; /** * When > 0 indicates the stage at which compilation should stop and the compilation state be * stored into a save file. */ private int saveAfterCompilationStage = -1; /** Set the compiler to resume a saved compilation state from a file. */ @CanIgnoreReturnValue public CommandLineConfig setContinueSavedCompilationFileName( String fileName, int restoredCompilationStage) { if (fileName != null) { checkArgument( restoredCompilationStage > 0 && restoredCompilationStage < 3, "invalid compilation stage: %s", restoredCompilationStage); continueSavedCompilationFileName = fileName; this.restoredCompilationStage = restoredCompilationStage; } return this; } boolean shouldSaveAfterStage1() { if (saveCompilationStateToFilename != null && saveAfterCompilationStage == 1) { checkState( restoredCompilationStage < 0, "cannot perform stage 1 after restoring from stage %s", restoredCompilationStage); checkState( continueSavedCompilationFileName == null, "cannot restore a saved compilation and also save after stage 1"); return true; } else { return false; } } String getContinueSavedCompilationFileName() { return continueSavedCompilationFileName; } boolean shouldRestoreAndPerformStages2And3() { // We have a saved compilations state to restore return shouldContinueCompilation() // the restored compilation stopped at stage 1 && restoredCompilationStage == 1 // we want to complete the rest of the compilation stages && saveAfterCompilationStage < 0; } private boolean shouldContinueCompilation() { if (continueSavedCompilationFileName != null) { checkState( restoredCompilationStage > 0 && restoredCompilationStage < 3, "invalid restored compilation stage: %s", restoredCompilationStage); return true; } else { return false; } } boolean shouldRestoreTypedAstsPerformStage2AndSave() { // We have a typed ast input list to parse return typedAstListInputFilename != null // we want to stop and save after optimizations && saveAfterCompilationStage == 2; } boolean shouldRestoreTypedAstsPerformStages2And3() { // We have a typed ast input list to parse return typedAstListInputFilename != null // we do not want to stop and save after optimizations && saveAfterCompilationStage == -1; } boolean shouldRestoreAndPerformStage2AndSave() { // We have a saved compilations state to restore return shouldContinueCompilation() // the restored compilation stopped at stage 1 && restoredCompilationStage == 1 // we want to stop and save after stage 2 && saveAfterCompilationStage == 2; } boolean shouldRestoreAndPerformStage3() { if (shouldContinueCompilation() && restoredCompilationStage == 2) { // We have a saved compilations state from stage 2 to restore and continue checkState( saveAfterCompilationStage < 0, "request to save after stage %s is invalid when restoring from stage 2", saveAfterCompilationStage); return true; } else { return false; } } boolean shouldDoLateLocalization() { // The point of dividing checks, optimizations, and finalizations into different stages is to // localization work for last, so we avoid doing checks and optimizations separately for every // locale. // If we aren't doing finalizations as a separate final stage, then late localization is just // doing more work for a possibly-bigger compiled output (because code gets added after // optimizations have already executed). return shouldRestoreAndPerformStage2AndSave() || shouldRestoreAndPerformStage3() || shouldRestoreTypedAstsPerformStage2AndSave(); } boolean shouldAlwaysGatherSourceMapInfo() { // If we're doing a partial compilation that isn't the final stage, we need to always gather // source map info in case the final stage requires it. return shouldSaveAfterStage1() || shouldRestoreAndPerformStage2AndSave() || shouldRestoreTypedAstsPerformStage2AndSave(); } private @Nullable String typedAstListInputFilename; @CanIgnoreReturnValue public CommandLineConfig setTypedAstListInputFilename(@Nullable String fileName) { this.typedAstListInputFilename = fileName; return this; } private @Nullable String saveCompilationStateToFilename = null; /** Set the compiler to perform the first phase and save the intermediate result to a file. */ @CanIgnoreReturnValue public CommandLineConfig setSaveCompilationStateToFilename( String fileName, int saveAfterCompilationStage) { saveCompilationStateToFilename = fileName; this.saveAfterCompilationStage = saveAfterCompilationStage; return this; } public String getSaveCompilationStateToFilename() { return saveCompilationStateToFilename; } private final List module = new ArrayList<>(); /** * A JavaScript module specification. The format is {@code * :[:[,...][:]]]}. Module names must be unique. Each dep is the name * of a module that this module depends on. Modules must be listed in dependency order, and JS * source files must be listed in the corresponding order. Where --module flags occur in * relation to --js flags is unimportant */ @CanIgnoreReturnValue public CommandLineConfig setModule(List module) { this.module.clear(); this.module.addAll(module); return this; } private Map sourceMapInputFiles = new LinkedHashMap<>(); @CanIgnoreReturnValue public CommandLineConfig setSourceMapInputFiles(Map sourceMapInputFiles) { this.sourceMapInputFiles = sourceMapInputFiles; return this; } private boolean parseInlineSourceMaps = false; @CanIgnoreReturnValue public CommandLineConfig setParseInlineSourceMaps(boolean parseInlineSourceMaps) { this.parseInlineSourceMaps = parseInlineSourceMaps; return this; } private String variableMapInputFile = ""; /** * File containing the serialized version of the variable renaming map produced by a previous * compilation */ @CanIgnoreReturnValue public CommandLineConfig setVariableMapInputFile(String variableMapInputFile) { this.variableMapInputFile = variableMapInputFile; return this; } private String propertyMapInputFile = ""; /** * File containing the serialized version of the property renaming map produced by a previous * compilation */ @CanIgnoreReturnValue public CommandLineConfig setPropertyMapInputFile(String propertyMapInputFile) { this.propertyMapInputFile = propertyMapInputFile; return this; } private String variableMapOutputFile = ""; /** File where the serialized version of the variable renaming map produced should be saved */ @CanIgnoreReturnValue public CommandLineConfig setVariableMapOutputFile(String variableMapOutputFile) { this.variableMapOutputFile = variableMapOutputFile; return this; } private boolean createNameMapFiles = false; /** * If true, variable renaming and property renaming map files will be produced as {binary * name}_vars_map.out and {binary name}_props_map.out. Note that this flag cannot be used in * conjunction with either variable_map_output_file or property_map_output_file */ @CanIgnoreReturnValue public CommandLineConfig setCreateNameMapFiles(boolean createNameMapFiles) { this.createNameMapFiles = createNameMapFiles; return this; } private String propertyMapOutputFile = ""; /** File where the serialized version of the property renaming map produced should be saved */ @CanIgnoreReturnValue public CommandLineConfig setPropertyMapOutputFile(String propertyMapOutputFile) { this.propertyMapOutputFile = propertyMapOutputFile; return this; } private String stringMapOutputPath = ""; /** * File where the serialized version of the string map produced by the ReplaceStrings pass * should be saved. */ @CanIgnoreReturnValue public CommandLineConfig setStringMapOutputFile(String stringMapOutputPath) { this.stringMapOutputPath = stringMapOutputPath; return this; } private String instrumentationMappingFile = ""; @CanIgnoreReturnValue public CommandLineConfig setInstrumentationMappingFile(String instrumentationMappingFile) { this.instrumentationMappingFile = instrumentationMappingFile; return this; } private CodingConvention codingConvention = CodingConventions.getDefault(); /** Sets rules and conventions to enforce. */ @CanIgnoreReturnValue public CommandLineConfig setCodingConvention(CodingConvention codingConvention) { this.codingConvention = codingConvention; return this; } private int summaryDetailLevel = 1; /** * Controls how detailed the compilation summary is. Values: 0 (never print summary), 1 (print * summary only if there are errors or warnings), 2 (print summary if type checking is on), 3 * (always print summary). The default level is 1 */ @CanIgnoreReturnValue public CommandLineConfig setSummaryDetailLevel(int summaryDetailLevel) { this.summaryDetailLevel = summaryDetailLevel; return this; } private String outputWrapper = ""; /** * Interpolate output into this string at the place denoted by the marker token %output%, or * %output|jsstring% */ @CanIgnoreReturnValue public CommandLineConfig setOutputWrapper(String outputWrapper) { this.outputWrapper = outputWrapper; return this; } private final List moduleWrapper = new ArrayList<>(); /** * An output wrapper for a JavaScript module (optional). See the flag description for formatting * requirements. */ @CanIgnoreReturnValue public CommandLineConfig setModuleWrapper(List moduleWrapper) { this.moduleWrapper.clear(); this.moduleWrapper.addAll(moduleWrapper); return this; } private String moduleOutputPathPrefix = ""; /** * Prefix for filenames of compiled chunks. {@code .js} will be appended to this * prefix. Directories will be created as needed. Use with --module */ @CanIgnoreReturnValue public CommandLineConfig setModuleOutputPathPrefix(String moduleOutputPathPrefix) { this.moduleOutputPathPrefix = moduleOutputPathPrefix; return this; } private final List moduleOutputFiles = new ArrayList<>(); /** * The output file name for a JavaScript chunk (optional). See the flag description for * formatting requirements. */ @CanIgnoreReturnValue public CommandLineConfig setModuleOutputFiles(List moduleOutputFiles) { this.moduleOutputFiles.clear(); this.moduleOutputFiles.addAll(moduleOutputFiles); return this; } private final List moduleConformanceFiles = new ArrayList<>(); /** * The conformance report file name for a JavaScript chunk (optional). See the flag description * for formatting requirements. */ @CanIgnoreReturnValue public CommandLineConfig setModuleConformanceFiles(List moduleConformanceFiles) { this.moduleConformanceFiles.clear(); this.moduleConformanceFiles.addAll(moduleConformanceFiles); return this; } private String createSourceMap = ""; /** * If specified, a source map file mapping the generated source files back to the original * source file will be output to the specified path. The %outname% placeholder will expand to * the name of the output file that the source map corresponds to. */ @CanIgnoreReturnValue public CommandLineConfig setCreateSourceMap(String createSourceMap) { this.createSourceMap = createSourceMap; return this; } private SourceMap.DetailLevel sourceMapDetailLevel = SourceMap.DetailLevel.ALL; /** The detail supplied in the source map file, if generated. */ @CanIgnoreReturnValue public CommandLineConfig setSourceMapDetailLevel(SourceMap.DetailLevel level) { this.sourceMapDetailLevel = level; return this; } private SourceMap.Format sourceMapFormat = SourceMap.Format.DEFAULT; /** The source map format to use, if generated. */ @CanIgnoreReturnValue public CommandLineConfig setSourceMapFormat(SourceMap.Format format) { this.sourceMapFormat = format; return this; } private ImmutableList sourceMapLocationMappings = ImmutableList.of(); /** The source map location mappings to use, if generated. */ @CanIgnoreReturnValue public CommandLineConfig setSourceMapLocationMappings( List locationMappings) { this.sourceMapLocationMappings = ImmutableList.copyOf(locationMappings); return this; } private boolean applyInputSourceMaps = false; /** * Whether to apply input source maps to the output, i.e. map back to original inputs from input * files that have source maps applied to them. */ @CanIgnoreReturnValue public CommandLineConfig setApplyInputSourceMaps(boolean applyInputSourceMaps) { this.applyInputSourceMaps = applyInputSourceMaps; return this; } private final ArrayList> warningGuards = new ArrayList<>(); /** Add warning guards. */ @CanIgnoreReturnValue public CommandLineConfig setWarningGuards(List> warningGuards) { this.warningGuards.clear(); this.warningGuards.addAll(warningGuards); return this; } private final List define = new ArrayList<>(); /** * Override the value of a variable annotated @define. The format is {@code [=]}, * where {@code } is the name of a @define variable and {@code } is a boolean, * number, or a single-quoted string that contains no single quotes. If {@code [=]} is * omitted, the variable is marked true */ @CanIgnoreReturnValue public CommandLineConfig setDefine(List define) { this.define.clear(); this.define.addAll(define); return this; } private int browserFeaturesetYear = 0; /** Indicates target browser's year */ @CanIgnoreReturnValue public CommandLineConfig setBrowserFeaturesetYear(Integer browserFeaturesetYear) { this.browserFeaturesetYear = browserFeaturesetYear; return this; } private boolean emitAsyncFunctionsWithZonejs = false; /** Relax the restriction on disallowing --language_out=ES_2017 together with Zone.js */ @CanIgnoreReturnValue public CommandLineConfig setEmitAsyncFunctionsWithZonejs(boolean emitAsyncFunctionsWithZonejs) { this.emitAsyncFunctionsWithZonejs = emitAsyncFunctionsWithZonejs; return this; } private TweakProcessing tweakProcessing = TweakProcessing.OFF; /** Sets the kind of processing to do for goog.tweak functions. */ @CanIgnoreReturnValue public CommandLineConfig setTweakProcessing(TweakProcessing tweakProcessing) { this.tweakProcessing = tweakProcessing; return this; } private String charset = ""; /** Input charset for all files. */ @CanIgnoreReturnValue public CommandLineConfig setCharset(String charset) { this.charset = charset; return this; } private @Nullable DependencyOptions dependencyOptions = null; /** Sets the dependency management options. */ @CanIgnoreReturnValue public CommandLineConfig setDependencyOptions(@Nullable DependencyOptions dependencyOptions) { this.dependencyOptions = dependencyOptions; return this; } private List outputManifests = ImmutableList.of(); /** Sets whether to print output manifest files. Filter out empty file names. */ @CanIgnoreReturnValue public CommandLineConfig setOutputManifest(List outputManifests) { this.outputManifests = new ArrayList<>(); for (String manifestName : outputManifests) { if (!manifestName.isEmpty()) { this.outputManifests.add(manifestName); } } this.outputManifests = ImmutableList.copyOf(this.outputManifests); return this; } private @Nullable String outputModuleDependencies = null; /** Sets whether a JSON file representing the dependencies between modules should be created. */ @CanIgnoreReturnValue public CommandLineConfig setOutputModuleDependencies(String outputModuleDependencies) { this.outputModuleDependencies = outputModuleDependencies; return this; } private List outputBundles = ImmutableList.of(); /** Sets whether to print output bundle files. */ @CanIgnoreReturnValue public CommandLineConfig setOutputBundle(List outputBundles) { this.outputBundles = outputBundles; return this; } private boolean skipNormalOutputs = false; /** Sets whether the normal outputs of compilation should be skipped. */ @CanIgnoreReturnValue public CommandLineConfig setSkipNormalOutputs(boolean skipNormalOutputs) { this.skipNormalOutputs = skipNormalOutputs; return this; } private List manifestMaps = ImmutableList.of(); /** Sets the execPath:rootRelativePath mappings */ @CanIgnoreReturnValue public CommandLineConfig setManifestMaps(List manifestMaps) { this.manifestMaps = manifestMaps; return this; } private boolean processCommonJSModules = false; /** Sets whether to process Commonchunks. */ @CanIgnoreReturnValue public CommandLineConfig setProcessCommonJSModules(boolean processCommonJSModules) { this.processCommonJSModules = processCommonJSModules; return this; } private List moduleRoots = ImmutableList.of(ModuleLoader.DEFAULT_FILENAME_PREFIX); /** Sets the module roots. */ @CanIgnoreReturnValue public CommandLineConfig setModuleRoots(List jsChunkRoots) { this.moduleRoots = jsChunkRoots; return this; } private String warningsAllowFile = ""; /** Sets a allowlist file that suppresses warnings. */ @CanIgnoreReturnValue public CommandLineConfig setWarningsAllowlistFile(String fileName) { this.warningsAllowFile = fileName; return this; } private List hideWarningsFor = ImmutableList.of(); /** Sets the paths for which warnings will be hidden. */ @CanIgnoreReturnValue public CommandLineConfig setHideWarningsFor(List hideWarningsFor) { this.hideWarningsFor = hideWarningsFor; return this; } private boolean angularPass = false; /** Sets whether to process AngularJS-specific annotations. */ @CanIgnoreReturnValue public CommandLineConfig setAngularPass(boolean angularPass) { this.angularPass = angularPass; return this; } private JsonStreamMode jsonStreamMode = JsonStreamMode.NONE; @CanIgnoreReturnValue public CommandLineConfig setJsonStreamMode(JsonStreamMode mode) { this.jsonStreamMode = mode; return this; } /** Set of options that can be used with the --formatting flag. */ protected enum ErrorFormatOption { STANDARD, JSON } private ErrorFormatOption errorFormat = ErrorFormatOption.STANDARD; @CanIgnoreReturnValue public CommandLineConfig setErrorFormat(ErrorFormatOption errorFormat) { this.errorFormat = errorFormat; return this; } private String jsonWarningsFile = ""; @CanIgnoreReturnValue public CommandLineConfig setJsonWarningsFile(String jsonWarningsFile) { this.jsonWarningsFile = jsonWarningsFile; return this; } } /** Representation of a source file from an encoded json stream input */ @GwtIncompatible("Unnecessary") public static class JsonFileSpec { private final @Nullable String src; private final @Nullable String path; @SerializedName( value = "source_map", alternate = {"sourceMap"}) private @Nullable String sourceMap; @SerializedName( value = "webpack_id", alternate = {"webpackId"}) private final @Nullable String webpackId; // Graal requires a non-arg constructor for use with GSON // See https://github.com/oracle/graal/issues/680 private JsonFileSpec() { this(null, null, null, null); } public JsonFileSpec(String src, String path) { this(src, path, null, null); } public JsonFileSpec(String src, String path, String sourceMap) { this(src, path, sourceMap, null); } public JsonFileSpec( @Nullable String src, @Nullable String path, @Nullable String sourceMap, @Nullable String webpackId) { this.src = src; this.path = path; this.sourceMap = sourceMap; this.webpackId = webpackId; } public String getSrc() { return this.src; } public String getPath() { return this.path; } public String getSourceMap() { return this.sourceMap; } public String getWebpackId() { return this.webpackId; } public void setSourceMap(String map) { this.sourceMap = map; } } /** Flag types for JavaScript source files. */ @GwtIncompatible("Unnecessary") protected enum JsSourceType { EXTERN("extern"), JS("js"), JS_ZIP("jszip"), WEAKDEP("weakdep"), IJS("ijs"); @VisibleForTesting final String flagName; private JsSourceType(String flagName) { this.flagName = flagName; } } /** A pair from flag to its value. */ @GwtIncompatible("Unnecessary") protected static class FlagEntry { private final T flag; private final String value; protected FlagEntry(T flag, String value) { this.flag = flag; this.value = value; } @Override public boolean equals(Object o) { if (o instanceof FlagEntry) { FlagEntry that = (FlagEntry) o; return that.flag.equals(this.flag) && that.value.equals(this.value); } return false; } @Override public int hashCode() { return flag.hashCode() + value.hashCode(); } @Override public String toString() { return this.flag + "=" + this.value; } public T getFlag() { return flag; } public String getValue() { return value; } } /** Represents a specification for a serving chunk. */ public static class JsChunkSpec { private final String name; // Number of input files, including js and zip files. private final int numInputs; private final ImmutableList deps; // Number of input js files. All zip files should be expanded. private int numJsFiles; private JsChunkSpec(String name, int numInputs, ImmutableList deps) { this.name = name; this.numInputs = numInputs; this.deps = deps; this.numJsFiles = numInputs; } /** * @param specString The spec format is: name:num-js-files[:[dep,...][:]]. Module * names must not contain the ':' character. * @param isFirstChunk Whether the spec is for the first module. * @return A parsed chunk spec. */ public static JsChunkSpec create(String specString, boolean isFirstChunk) { // Format is ":[:[,...][:]]". String[] parts = specString.split(":"); if (parts.length < 2 || parts.length > 4) { throw new FlagUsageException( "Expected 2-4 colon-delimited parts in " + "chunk spec: " + specString); } // Parse module name. String name = parts[0]; // Parse module dependencies. String[] deps = parts.length > 2 && parts[2].length() > 0 ? parts[2].split(",") : new String[0]; // Parse module inputs. int numInputs = -1; try { numInputs = Integer.parseInt(parts[1]); } catch (NumberFormatException ignored) { numInputs = -1; } // We will allow modules of zero input. if (numInputs < 0) { // A size of 'auto' is only allowed on the base module if // and it must also be the first module if (parts.length == 2 && "auto".equals(parts[1])) { if (!isFirstChunk) { throw new FlagUsageException( "Invalid JS file count '" + parts[1] + "' for module: " + name + ". Only the first module may specify " + "a size of 'auto' and it must have no dependencies."); } } else { throw new FlagUsageException( "Invalid JS file count '" + parts[1] + "' for module: " + name); } } return new JsChunkSpec(name, numInputs, ImmutableList.copyOf(deps)); } public String getName() { return name; } public int getNumInputs() { return numInputs; } public ImmutableList getDeps() { return deps; } public int getNumJsFiles() { return numJsFiles; } } @GwtIncompatible("Unnecessary") static final class SystemExitCodeReceiver implements Function { static final SystemExitCodeReceiver INSTANCE = new SystemExitCodeReceiver(); private SystemExitCodeReceiver() { // singleton } @Override public Void apply(Integer exitCode) { int exitCodeValue = checkNotNull(exitCode); // Don't spuriously report success. // Posix conventions only guarantee that 8b are significant. byte exitCodeByte = (byte) exitCodeValue; if (exitCodeByte == 0 && exitCodeValue != 0) { exitCodeByte = (byte) -1; } System.exit(exitCodeByte); return null; } } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy