/*
* Copyright 2008 Google Inc.
*
* 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.gwt.dev.jjs;
import com.google.gwt.core.ext.BadPropertyValueException;
import com.google.gwt.core.ext.PropertyOracle;
import com.google.gwt.core.ext.SelectionProperty;
import com.google.gwt.core.ext.TreeLogger;
import com.google.gwt.core.ext.UnableToCompleteException;
import com.google.gwt.core.ext.linker.Artifact;
import com.google.gwt.core.ext.linker.ArtifactSet;
import com.google.gwt.core.ext.linker.CompilationMetricsArtifact;
import com.google.gwt.core.ext.linker.EmittedArtifact;
import com.google.gwt.core.ext.linker.EmittedArtifact.Visibility;
import com.google.gwt.core.ext.linker.ModuleMetricsArtifact;
import com.google.gwt.core.ext.linker.PrecompilationMetricsArtifact;
import com.google.gwt.core.ext.linker.StatementRanges;
import com.google.gwt.core.ext.linker.SymbolData;
import com.google.gwt.core.ext.linker.SyntheticArtifact;
import com.google.gwt.core.ext.linker.impl.StandardSymbolData;
import com.google.gwt.core.ext.soyc.Range;
import com.google.gwt.core.ext.soyc.SourceMapRecorder;
import com.google.gwt.core.ext.soyc.impl.DependencyRecorder;
import com.google.gwt.core.ext.soyc.impl.SizeMapRecorder;
import com.google.gwt.core.ext.soyc.impl.SplitPointRecorder;
import com.google.gwt.core.ext.soyc.impl.StoryRecorder;
import com.google.gwt.core.linker.SoycReportLinker;
import com.google.gwt.dev.Permutation;
import com.google.gwt.dev.cfg.ConfigurationProperty;
import com.google.gwt.dev.cfg.ModuleDef;
import com.google.gwt.dev.javac.CompilationProblemReporter;
import com.google.gwt.dev.javac.typemodel.TypeOracle;
import com.google.gwt.dev.jdt.RebindPermutationOracle;
import com.google.gwt.dev.jjs.UnifiedAst.AST;
import com.google.gwt.dev.jjs.ast.Context;
import com.google.gwt.dev.jjs.ast.JBinaryOperation;
import com.google.gwt.dev.jjs.ast.JBinaryOperator;
import com.google.gwt.dev.jjs.ast.JBlock;
import com.google.gwt.dev.jjs.ast.JClassType;
import com.google.gwt.dev.jjs.ast.JDeclaredType;
import com.google.gwt.dev.jjs.ast.JExpression;
import com.google.gwt.dev.jjs.ast.JGwtCreate;
import com.google.gwt.dev.jjs.ast.JMethod;
import com.google.gwt.dev.jjs.ast.JMethodBody;
import com.google.gwt.dev.jjs.ast.JMethodCall;
import com.google.gwt.dev.jjs.ast.JNode;
import com.google.gwt.dev.jjs.ast.JProgram;
import com.google.gwt.dev.jjs.ast.JReboundEntryPoint;
import com.google.gwt.dev.jjs.ast.JStatement;
import com.google.gwt.dev.jjs.ast.JVisitor;
import com.google.gwt.dev.jjs.impl.ArrayNormalizer;
import com.google.gwt.dev.jjs.impl.AssertionNormalizer;
import com.google.gwt.dev.jjs.impl.AssertionRemover;
import com.google.gwt.dev.jjs.impl.AstDumper;
import com.google.gwt.dev.jjs.impl.CastNormalizer;
import com.google.gwt.dev.jjs.impl.CatchBlockNormalizer;
import com.google.gwt.dev.jjs.impl.CodeSplitter.MultipleDependencyGraphRecorder;
import com.google.gwt.dev.jjs.impl.CodeSplitter;
import com.google.gwt.dev.jjs.impl.CodeSplitter2;
import com.google.gwt.dev.jjs.impl.ControlFlowAnalyzer;
import com.google.gwt.dev.jjs.impl.DeadCodeElimination;
import com.google.gwt.dev.jjs.impl.EnumOrdinalizer;
import com.google.gwt.dev.jjs.impl.EqualityNormalizer;
import com.google.gwt.dev.jjs.impl.Finalizer;
import com.google.gwt.dev.jjs.impl.FixAssignmentToUnbox;
import com.google.gwt.dev.jjs.impl.GenerateJavaScriptAST;
import com.google.gwt.dev.jjs.impl.HandleCrossFragmentReferences;
import com.google.gwt.dev.jjs.impl.ImplementClassLiteralsAsFields;
import com.google.gwt.dev.jjs.impl.JavaToJavaScriptMap;
import com.google.gwt.dev.jjs.impl.JsAbstractTextTransformer;
import com.google.gwt.dev.jjs.impl.JsFunctionClusterer;
import com.google.gwt.dev.jjs.impl.JsIEBlockTextTransformer;
import com.google.gwt.dev.jjs.impl.JsoDevirtualizer;
import com.google.gwt.dev.jjs.impl.LongCastNormalizer;
import com.google.gwt.dev.jjs.impl.LongEmulationNormalizer;
import com.google.gwt.dev.jjs.impl.MakeCallsStatic;
import com.google.gwt.dev.jjs.impl.MethodCallTightener;
import com.google.gwt.dev.jjs.impl.MethodInliner;
import com.google.gwt.dev.jjs.impl.OptimizerStats;
import com.google.gwt.dev.jjs.impl.PostOptimizationCompoundAssignmentNormalizer;
import com.google.gwt.dev.jjs.impl.Pruner;
import com.google.gwt.dev.jjs.impl.RecordRebinds;
import com.google.gwt.dev.jjs.impl.RemoveEmptySuperCalls;
import com.google.gwt.dev.jjs.impl.ReplaceGetClassOverrides;
import com.google.gwt.dev.jjs.impl.ReplaceRunAsyncs;
import com.google.gwt.dev.jjs.impl.ResolveRebinds;
import com.google.gwt.dev.jjs.impl.SameParameterValueOptimizer;
import com.google.gwt.dev.jjs.impl.SourceInfoCorrelator;
import com.google.gwt.dev.jjs.impl.TypeTightener;
import com.google.gwt.dev.jjs.impl.UnifyAst;
import com.google.gwt.dev.jjs.impl.gflow.DataflowOptimizer;
import com.google.gwt.dev.js.ClosureJsRunner;
import com.google.gwt.dev.js.EvalFunctionsAtTopScope;
import com.google.gwt.dev.js.JsBreakUpLargeVarStatements;
import com.google.gwt.dev.js.JsCoerceIntShift;
import com.google.gwt.dev.js.JsDuplicateCaseFolder;
import com.google.gwt.dev.js.JsDuplicateFunctionRemover;
import com.google.gwt.dev.js.JsIEBlockSizeVisitor;
import com.google.gwt.dev.js.JsInliner;
import com.google.gwt.dev.js.JsNormalizer;
import com.google.gwt.dev.js.JsObfuscateNamer;
import com.google.gwt.dev.js.JsPrettyNamer;
import com.google.gwt.dev.js.JsReportGenerationVisitor;
import com.google.gwt.dev.js.JsSourceGenerationVisitorWithSizeBreakdown;
import com.google.gwt.dev.js.JsStackEmulator;
import com.google.gwt.dev.js.JsStaticEval;
import com.google.gwt.dev.js.JsStringInterner;
import com.google.gwt.dev.js.JsSymbolResolver;
import com.google.gwt.dev.js.JsUnusedFunctionRemover;
import com.google.gwt.dev.js.JsVerboseNamer;
import com.google.gwt.dev.js.SizeBreakdown;
import com.google.gwt.dev.js.ast.JsBlock;
import com.google.gwt.dev.js.ast.JsContext;
import com.google.gwt.dev.js.ast.JsFunction;
import com.google.gwt.dev.js.ast.JsName;
import com.google.gwt.dev.js.ast.JsProgram;
import com.google.gwt.dev.js.ast.JsVisitor;
import com.google.gwt.dev.util.DefaultTextOutput;
import com.google.gwt.dev.util.Empty;
import com.google.gwt.dev.util.Memory;
import com.google.gwt.dev.util.Util;
import com.google.gwt.dev.util.arg.OptionOptimize;
import com.google.gwt.dev.util.collect.Lists;
import com.google.gwt.dev.util.collect.Maps;
import com.google.gwt.dev.util.log.speedtracer.CompilerEventType;
import com.google.gwt.dev.util.log.speedtracer.SpeedTracerLogger;
import com.google.gwt.dev.util.log.speedtracer.SpeedTracerLogger.Event;
import com.google.gwt.soyc.SoycDashboard;
import com.google.gwt.soyc.io.ArtifactsOutputDirectory;
import org.xml.sax.SAXException;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.lang.management.ManagementFactory;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.zip.GZIPInputStream;
import javax.xml.parsers.ParserConfigurationException;
/**
* Compiles the Java <code>JProgram</code> representation into its corresponding
* JavaScript source.
*/
public class JavaToJavaScriptCompiler {
private static class PermutationResultImpl implements PermutationResult {
private final ArtifactSet artifacts = new ArtifactSet();
private final byte[][] js;
private final Permutation permutation;
private final byte[] serializedSymbolMap;
private final StatementRanges[] statementRanges;
public PermutationResultImpl(String[] js, Permutation permutation, SymbolData[] symbolMap,
StatementRanges[] statementRanges) {
byte[][] bytes = new byte[js.length][];
for (int i = 0; i < js.length; ++i) {
bytes[i] = Util.getBytes(js[i]);
}
this.js = bytes;
this.permutation = permutation;
try {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
Util.writeObjectToStream(baos, (Object) symbolMap);
this.serializedSymbolMap = baos.toByteArray();
} catch (IOException e) {
throw new RuntimeException("Should never happen with in-memory stream", e);
}
this.statementRanges = statementRanges;
}
@Override
public void addArtifacts(Collection<? extends Artifact<?>> newArtifacts) {
this.artifacts.addAll(newArtifacts);
}
@Override
public ArtifactSet getArtifacts() {
return artifacts;
}
@Override
public byte[][] getJs() {
return js;
}
@Override
public Permutation getPermutation() {
return permutation;
}
@Override
public byte[] getSerializedSymbolMap() {
return serializedSymbolMap;
}
@Override
public StatementRanges[] getStatementRanges() {
return statementRanges;
}
}
private static class TreeStatistics extends JVisitor {
private int nodeCount = 0;
public int getNodeCount() {
return nodeCount;
}
@Override
public boolean visit(JNode x, Context ctx) {
nodeCount++;
return true;
}
}
private static final String ENUM_NAME_OBFUSCATION_PROPERTY = "compiler.enum.obfuscate.names";
/**
* Compiles a particular permutation, based on a precompiled unified AST.
*
* @param logger the logger to use
* @param unifiedAst the result of a
* {@link #precompile(TreeLogger, ModuleDef, RebindPermutationOracle, String[], String[], JJSOptions, boolean, PrecompilationMetricsArtifact)}
* @param permutation the permutation to compile
* @return the output JavaScript
* @throws UnableToCompleteException if an error other than
* {@link OutOfMemoryError} occurs
*/
public static PermutationResult compilePermutation(TreeLogger logger, UnifiedAst unifiedAst,
Permutation permutation) throws UnableToCompleteException {
JJSOptions options = unifiedAst.getOptions();
long startTimeMilliseconds = System.currentTimeMillis();
Event jjsCompilePermutationEvent =
SpeedTracerLogger.start(CompilerEventType.JJS_COMPILE_PERMUTATION, "name", permutation
.prettyPrint());
InternalCompilerException.preload();
PropertyOracle[] propertyOracles = permutation.getPropertyOracles();
int permutationId = permutation.getId();
if (logger.isLoggable(TreeLogger.INFO)) {
logger.log(TreeLogger.INFO, "Compiling permutation " + permutationId + "...");
}
long permStart = System.currentTimeMillis();
try {
if (JProgram.isTracingEnabled()) {
System.out.println("------------------------------------------------------------");
System.out.println("| (new permuation) |");
System.out.println("------------------------------------------------------------");
System.out.println("Properties: " + permutation.prettyPrint());
}
AST ast = unifiedAst.getFreshAst();
JProgram jprogram = ast.getJProgram();
JsProgram jsProgram = ast.getJsProgram();
Map<StandardSymbolData, JsName> symbolTable =
new TreeMap<StandardSymbolData, JsName>(new SymbolData.ClassIdentComparator());
ResolveRebinds.exec(jprogram, permutation.getOrderedRebindAnswers());
// (4) Optimize the normalized Java AST for each permutation.
int optimizationLevel = options.getOptimizationLevel();
if (optimizationLevel == OptionOptimize.OPTIMIZE_LEVEL_DRAFT) {
draftOptimize(jprogram);
} else {
optimize(options, jprogram);
}
RemoveEmptySuperCalls.exec(jprogram);
// (5) "Normalize" the high-level Java tree into a lower-level tree more
// suited for JavaScript code generation. Don't go reordering these
// willy-nilly because there are some subtle interdependencies.
JsoDevirtualizer.exec(jprogram);
CatchBlockNormalizer.exec(jprogram);
PostOptimizationCompoundAssignmentNormalizer.exec(jprogram);
LongCastNormalizer.exec(jprogram);
LongEmulationNormalizer.exec(jprogram);
CastNormalizer.exec(jprogram, options.isCastCheckingDisabled());
ArrayNormalizer.exec(jprogram);
EqualityNormalizer.exec(jprogram);
// (6) Perform further post-normalization optimizations
// Prune everything
Pruner.exec(jprogram, false);
// prune all Object.getClass() overrides and replace with inline field ref
ReplaceGetClassOverrides.exec(jprogram);
// (7) Generate a JavaScript code DOM from the Java type declarations
jprogram.typeOracle.recomputeAfterOptimizations();
JavaToJavaScriptMap jjsmap =
GenerateJavaScriptAST.exec(jprogram, jsProgram, options.getOutput(), symbolTable,
propertyOracles);
// (8) Normalize the JS AST.
// Fix invalid constructs created during JS AST gen.
JsNormalizer.exec(jsProgram);
// Resolve all unresolved JsNameRefs.
JsSymbolResolver.exec(jsProgram);
// Move all function definitions to a top-level scope, to reduce weirdness
EvalFunctionsAtTopScope.exec(jsProgram, jjsmap);
// (9) Optimize the JS AST.
if (optimizationLevel > OptionOptimize.OPTIMIZE_LEVEL_DRAFT) {
optimizeJs(options, jsProgram);
/*
* Coalesce redundant labels in switch statements.
*/
JsDuplicateCaseFolder.exec(jsProgram);
}
/*
* Creates new variables, must run before code splitter and namer.
*/
JsStackEmulator.exec(jprogram, jsProgram, propertyOracles, jjsmap);
/*
* Work around Safari 5 bug by rewriting a >> b as ~~a >> b.
*
* No shifts may be generated after this point.
*/
JsCoerceIntShift.exec(jsProgram, logger, propertyOracles);
// (10) Split up the program into fragments
SyntheticArtifact dependencies = null;
if (options.isRunAsyncEnabled()) {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
int fragmentsMerge = options.getFragmentsMerge();
// Pick and choose which code splitter to use. Only use the experimental
// one when the user explicitly decides the project needs fragment
// merging.
if (fragmentsMerge > 0) {
CodeSplitter2.exec(logger, jprogram, jsProgram, jjsmap, fragmentsMerge,
chooseDependencyRecorder(options.isSoycEnabled(), baos));
} else {
CodeSplitter.exec(logger, jprogram, jsProgram, jjsmap, chooseDependencyRecorder(options
.isSoycEnabled(), baos));
}
if (baos.size() == 0 && options.isSoycEnabled()) {
recordNonSplitDependencies(jprogram, baos);
}
if (baos.size() > 0) {
dependencies =
new SyntheticArtifact(SoycReportLinker.class, "dependencies" + permutationId
+ ".xml.gz", baos.toByteArray());
}
}
// detect if browser is ie6 or not known
boolean isIE6orUnknown = findBooleanProperty(propertyOracles, logger, "user.agent", "ie6",
true, false, true);
boolean isSourceMapsEnabled = findBooleanProperty(propertyOracles, logger,
"compiler.useSourceMaps", "true", true, false, false);
// (10.5) Obfuscate
Map<JsName, String> obfuscateMap = Maps.create();
switch (options.getOutput()) {
case OBFUSCATED:
obfuscateMap = JsStringInterner.exec(jprogram, jsProgram, isIE6orUnknown);
JsObfuscateNamer.exec(jsProgram);
if (options.isAggressivelyOptimize()) {
if (JsStackEmulator.getStackMode(propertyOracles) == JsStackEmulator.StackMode.STRIP) {
boolean changed = false;
for (int i = 0; i < jsProgram.getFragmentCount(); i++) {
JsBlock fragment = jsProgram.getFragmentBlock(i);
changed = JsDuplicateFunctionRemover.exec(jsProgram, fragment) || changed;
}
if (changed) {
JsUnusedFunctionRemover.exec(jsProgram);
}
}
}
break;
case PRETTY:
// We don't intern strings in pretty mode to imprmakeSouove readability
JsPrettyNamer.exec(jsProgram);
break;
case DETAILED:
obfuscateMap = JsStringInterner.exec(jprogram, jsProgram, isIE6orUnknown);
JsVerboseNamer.exec(jsProgram);
break;
default:
throw new InternalCompilerException("Unknown output mode");
}
// (10.8) Handle cross-island references.
// No new JsNames or references to JSNames can be introduced after this
// point.
HandleCrossFragmentReferences.exec(logger, jsProgram, propertyOracles);
// (11) Perform any post-obfuscation normalizations.
// Work around an IE7 bug,
// http://code.google.com/p/google-web-toolkit/issues/detail?id=1440
// note, JsIEBlockTextTransformer now handles restructuring top level
// blocks, this class now handles non-top level blocks only.
boolean splitBlocks = isIE6orUnknown;
if (splitBlocks) {
JsIEBlockSizeVisitor.exec(jsProgram);
}
JsBreakUpLargeVarStatements.exec(jsProgram, propertyOracles);
// (12) Generate the final output text.
String[] js = new String[jsProgram.getFragmentCount()];
StatementRanges[] ranges = new StatementRanges[js.length];
SizeBreakdown[] sizeBreakdowns =
options.isSoycEnabled() || options.isCompilerMetricsEnabled()
? new SizeBreakdown[js.length] : null;
List<Map<Range, SourceInfo>> sourceInfoMaps = new ArrayList<Map<Range, SourceInfo>>();
generateJavaScriptCode(options, jprogram, jsProgram, jjsmap, js, ranges,
sizeBreakdowns, sourceInfoMaps, splitBlocks, isSourceMapsEnabled);
PermutationResult toReturn =
new PermutationResultImpl(js, permutation, makeSymbolMap(symbolTable, jsProgram), ranges);
CompilationMetricsArtifact compilationMetrics = null;
// TODO: enable this when ClosureCompiler is enabled
if (!options.isClosureCompilerEnabled() && options.isCompilerMetricsEnabled()) {
compilationMetrics = new CompilationMetricsArtifact(permutation.getId());
compilationMetrics.setCompileElapsedMilliseconds(System.currentTimeMillis()
- startTimeMilliseconds);
compilationMetrics.setElapsedMilliseconds(System.currentTimeMillis()
- ManagementFactory.getRuntimeMXBean().getStartTime());
compilationMetrics.setJsSize(sizeBreakdowns);
compilationMetrics.setPermutationDescription(permutation.prettyPrint());
toReturn.addArtifacts(Lists.create(unifiedAst.getModuleMetrics(), unifiedAst
.getPrecompilationMetrics(), compilationMetrics));
}
// TODO: enable this when ClosureCompiler is enabled
if (!options.isClosureCompilerEnabled()) {
toReturn.addArtifacts(makeSoycArtifacts(logger, permutationId, jprogram, js, sizeBreakdowns,
options.isSoycExtra() ? sourceInfoMaps : null, dependencies, jjsmap, obfuscateMap,
unifiedAst.getModuleMetrics(), unifiedAst.getPrecompilationMetrics(), compilationMetrics,
options.isSoycHtmlDisabled()));
}
// TODO: enable this when ClosureCompiler is enabled
if (!options.isClosureCompilerEnabled() && isSourceMapsEnabled) {
logger.log(TreeLogger.INFO, "Source Maps Enabled");
toReturn.addArtifacts(SourceMapRecorder.makeSourceMapArtifacts(sourceInfoMaps,
permutationId));
}
logTrackingStats(logger);
if (logger.isLoggable(TreeLogger.TRACE)) {
logger.log(TreeLogger.TRACE, "Permutation took " + (System.currentTimeMillis() - permStart)
+ " ms");
}
return toReturn;
} catch (Throwable e) {
throw CompilationProblemReporter.logAndTranslateException(logger, e);
} finally {
jjsCompilePermutationEvent.end();
}
}
/**
* Look for a selection property in all property oracles.
*/
public static boolean findBooleanProperty(PropertyOracle[] propertyOracles, TreeLogger logger,
String name, String valueToFind, boolean valueIfFound, boolean valueIfNotFound,
boolean valueIfError) {
boolean toReturn = valueIfNotFound;
for (PropertyOracle oracle : propertyOracles) {
try {
SelectionProperty property = oracle.getSelectionProperty(logger, name);
if (valueToFind.equals(property.getCurrentValue())) {
toReturn = valueIfFound;
break;
}
} catch (BadPropertyValueException e) {
// unknown value play it safe
toReturn = valueIfError;
break;
}
}
return toReturn;
}
public static UnifiedAst precompile(TreeLogger logger, ModuleDef module,
RebindPermutationOracle rpo, String[] declEntryPts, String[] additionalRootTypes,
JJSOptions options, boolean singlePermutation) throws UnableToCompleteException {
return precompile(logger, module, rpo, declEntryPts, additionalRootTypes, options,
singlePermutation, null);
}
/**
* Performs a precompilation, returning a unified AST.
*
* @param logger the logger to use
* @param module the module to compile
* @param rpo the RebindPermutationOracle
* @param declEntryPts the set of entry classes declared in a GWT module;
* these will be automatically rebound
* @param additionalRootTypes additional classes that should serve as code
* roots; will not be rebound; may be <code>null</code>
* @param options the compiler options
* @param singlePermutation if true, do not pre-optimize the resulting AST or
* allow serialization of the result
* @param precompilationMetrics if not null, gather diagnostic information
* from this build for a report.
* @return the unified AST used to drive permutation compiles
* @throws UnableToCompleteException if an error other than
* {@link OutOfMemoryError} occurs
*/
public static UnifiedAst precompile(TreeLogger logger, ModuleDef module,
RebindPermutationOracle rpo, String[] declEntryPts, String[] additionalRootTypes,
JJSOptions options, boolean singlePermutation,
PrecompilationMetricsArtifact precompilationMetrics) throws UnableToCompleteException {
InternalCompilerException.preload();
if (additionalRootTypes == null) {
additionalRootTypes = Empty.STRINGS;
}
if (declEntryPts.length + additionalRootTypes.length == 0) {
throw new IllegalArgumentException("entry point(s) required");
}
Set<String> allRootTypes = new TreeSet<String>();
// Find all the possible rebinds for declared entry point types.
for (String element : declEntryPts) {
String[] all = rpo.getAllPossibleRebindAnswers(logger, element);
Collections.addAll(allRootTypes, all);
}
rpo.getGeneratorContext().finish(logger);
Collections.addAll(allRootTypes, additionalRootTypes);
allRootTypes.addAll(JProgram.CODEGEN_TYPES_SET);
allRootTypes.addAll(JProgram.INDEX_TYPES_SET);
/*
* Add all SingleJsoImpl types that we know about. It's likely that the
* concrete types are never explicitly referenced.
*/
TypeOracle typeOracle = rpo.getCompilationState().getTypeOracle();
for (com.google.gwt.core.ext.typeinfo.JClassType singleJsoIntf : typeOracle
.getSingleJsoImplInterfaces()) {
allRootTypes.add(typeOracle.getSingleJsoImpl(singleJsoIntf).getQualifiedSourceName());
}
Memory.maybeDumpMemory("CompStateBuilt");
JProgram jprogram = new JProgram();
JsProgram jsProgram = new JsProgram();
try {
// (2) Assemble the Java AST.
UnifyAst unifyAst = new UnifyAst(jprogram, jsProgram, options, rpo);
unifyAst.addRootTypes(allRootTypes);
// TODO: move this into UnifyAst?
findEntryPoints(logger, rpo, declEntryPts, jprogram);
unifyAst.exec(logger);
List<String> finalTypeOracleTypes = Lists.create();
if (precompilationMetrics != null) {
for (com.google.gwt.core.ext.typeinfo.JClassType type : typeOracle.getTypes()) {
finalTypeOracleTypes =
Lists.add(finalTypeOracleTypes, type.getPackage().getName() + "." + type.getName());
}
precompilationMetrics.setFinalTypeOracleTypes(finalTypeOracleTypes);
}
// Free up memory.
rpo.clear();
if (options.isSoycEnabled()) {
SourceInfoCorrelator.exec(jprogram);
}
// Compute all super type/sub type info
jprogram.typeOracle.computeBeforeAST();
Memory.maybeDumpMemory("AstOnly");
AstDumper.maybeDumpAST(jprogram);
// See if we should run the EnumNameObfuscator
if (module != null) {
ConfigurationProperty enumNameObfuscationProp =
(ConfigurationProperty) module.getProperties().find(ENUM_NAME_OBFUSCATION_PROPERTY);
if (enumNameObfuscationProp != null
&& Boolean.parseBoolean(enumNameObfuscationProp.getValue())) {
EnumNameObfuscator.exec(jprogram, logger);
}
}
// (3) Perform Java AST normalizations.
FixAssignmentToUnbox.exec(jprogram);
/*
* TODO: If we defer this until later, we could maybe use the results of
* the assertions to enable more optimizations.
*/
if (options.isEnableAssertions()) {
// Turn into assertion checking calls.
AssertionNormalizer.exec(jprogram);
} else {
// Remove all assert statements.
AssertionRemover.exec(jprogram);
}
// Fix up GWT.runAsync()
if (module != null && options.isRunAsyncEnabled()) {
ReplaceRunAsyncs.exec(logger, jprogram);
CodeSplitter2.pickInitialLoadSequence(logger, jprogram, module.getProperties());
}
ImplementClassLiteralsAsFields.exec(jprogram);
/*
* 4) Possibly optimize some.
*
* Don't optimize early if this is a draft compile, or if there's only one
* permutation.
*/
if (options.getOptimizationLevel() > OptionOptimize.OPTIMIZE_LEVEL_DRAFT
&& !singlePermutation) {
if (options.isOptimizePrecompile()) {
/*
* Go ahead and optimize early, so that each permutation will run
* faster. This code path is used by the Compiler entry point. We
* assume that we will not be able to perfectly parallelize the
* permutation compiles, so let's optimize as much as possible the
* common AST. In some cases, this might also have the side benefit of
* reducing the total permutation count.
*/
optimize(options, jprogram);
} else {
/*
* Do only minimal early optimizations. This code path is used by the
* Precompile entry point. The external system might be able to
* perfectly parallelize the permutation compiles, so let's avoid
* doing potentially superlinear optimizations on the unified AST.
*/
optimizeLoop("Early Optimization", jprogram, false);
}
}
Set<String> rebindRequests = new HashSet<String>();
RecordRebinds.exec(jprogram, rebindRequests);
if (options.isCompilerMetricsEnabled()) {
precompilationMetrics.setAstTypes(getReferencedJavaClasses(jprogram));
}
logTrackingStats(logger);
Event createUnifiedAstEvent = SpeedTracerLogger.start(CompilerEventType.CREATE_UNIFIED_AST);
UnifiedAst result =
new UnifiedAst(options, new AST(jprogram, jsProgram), singlePermutation, rebindRequests);
createUnifiedAstEvent.end();
return result;
} catch (Throwable e) {
throw CompilationProblemReporter.logAndTranslateException(logger, e);
} finally {
}
}
/**
* Perform the minimal amount of optimization to make sure the compile
* succeeds.
*/
protected static void draftOptimize(JProgram jprogram) {
Event draftOptimizeEvent = SpeedTracerLogger.start(CompilerEventType.DRAFT_OPTIMIZE);
Finalizer.exec(jprogram);
MakeCallsStatic.exec(jprogram);
jprogram.typeOracle.recomputeAfterOptimizations();
// needed for certain libraries that depend on dead stripping to work
DeadCodeElimination.exec(jprogram);
Pruner.exec(jprogram, true);
jprogram.typeOracle.recomputeAfterOptimizations();
draftOptimizeEvent.end();
}
protected static void optimize(JJSOptions options, JProgram jprogram) throws InterruptedException {
Event optimizeEvent = SpeedTracerLogger.start(CompilerEventType.OPTIMIZE);
List<OptimizerStats> allOptimizerStats = new ArrayList<OptimizerStats>();
int counter = 0;
int optimizationLevel = options.getOptimizationLevel();
while (true) {
counter++;
if (optimizationLevel < OptionOptimize.OPTIMIZE_LEVEL_MAX && counter > optimizationLevel) {
break;
}
if (Thread.interrupted()) {
optimizeEvent.end();
throw new InterruptedException();
}
AstDumper.maybeDumpAST(jprogram);
OptimizerStats stats =
optimizeLoop("Pass " + counter, jprogram, options.isAggressivelyOptimize());
allOptimizerStats.add(stats);
if (!stats.didChange()) {
break;
}
}
if (options.isAggressivelyOptimize()) {
// Just run it once, because it is very time consuming
allOptimizerStats.add(DataflowOptimizer.exec(jprogram));
}
if (JProgram.isTracingEnabled()) {
System.out.println("");
System.out.println(" Java Optimization Stats");
System.out.println("");
for (OptimizerStats stats : allOptimizerStats) {
System.out.println(stats.prettyPrint());
}
}
optimizeEvent.end();
}
protected static void optimizeJs(JJSOptions options, JsProgram jsProgram)
throws InterruptedException {
List<OptimizerStats> allOptimizerStats = new ArrayList<OptimizerStats>();
int counter = 0;
while (true) {
counter++;
if (Thread.interrupted()) {
throw new InterruptedException();
}
Event optimizeJsEvent = SpeedTracerLogger.start(CompilerEventType.OPTIMIZE_JS);
OptimizerStats stats = new OptimizerStats("Pass " + counter);
// Remove unused functions, possible
stats.add(JsStaticEval.exec(jsProgram));
// Inline JavaScript function invocations
stats.add(JsInliner.exec(jsProgram));
// Remove unused functions, possible
stats.add(JsUnusedFunctionRemover.exec(jsProgram));
// Save the stats to print out after optimizers finish.
allOptimizerStats.add(stats);
optimizeJsEvent.end();
int optimizationLevel = options.getOptimizationLevel();
if ((optimizationLevel < OptionOptimize.OPTIMIZE_LEVEL_MAX && counter > optimizationLevel)
|| !stats.didChange()) {
break;
}
}
if (JProgram.isTracingEnabled()) {
System.out.println("");
System.out.println(" JavaScript Optimization Stats");
System.out.println("");
for (OptimizerStats stats : allOptimizerStats) {
System.out.println(stats.prettyPrint());
}
}
}
protected static OptimizerStats optimizeLoop(String passName, JProgram jprogram,
boolean isAggressivelyOptimize) {
Event optimizeEvent = SpeedTracerLogger.start(CompilerEventType.OPTIMIZE, "phase", "loop");
// Count the number of nodes in the AST so we can measure the efficiency of
// the optimizers.
Event countEvent = SpeedTracerLogger.start(CompilerEventType.OPTIMIZE, "phase", "countNodes");
TreeStatistics treeStats = new TreeStatistics();
treeStats.accept(jprogram);
int numNodes = treeStats.getNodeCount();
countEvent.end();
// Recompute clinits each time, they can become empty.
jprogram.typeOracle.recomputeAfterOptimizations();
// jprogram.methodOracle =
// MethodOracleBuilder.buildMethodOracle(jprogram);
OptimizerStats stats = new OptimizerStats(passName);
// Remove unreferenced types, fields, methods, [params, locals]
stats.add(Pruner.exec(jprogram, true).recordVisits(numNodes));
// finalize locals, params, fields, methods, classes
stats.add(Finalizer.exec(jprogram).recordVisits(numNodes));
// rewrite non-polymorphic calls as static calls; update all call sites
stats.add(MakeCallsStatic.exec(jprogram).recordVisits(numNodes));
// type flow tightening
// - fields, locals based on assignment
// - params based on assignment and call sites
// - method bodies based on return statements
// - polymorphic methods based on return types of all implementors
// - optimize casts and instance of
stats.add(TypeTightener.exec(jprogram).recordVisits(numNodes));
// tighten method call bindings
stats.add(MethodCallTightener.exec(jprogram).recordVisits(numNodes));
// dead code removal??
stats.add(DeadCodeElimination.exec(jprogram).recordVisits(numNodes));
// inlining
stats.add(MethodInliner.exec(jprogram).recordVisits(numNodes));
if (isAggressivelyOptimize) {
// remove same parameters value
stats.add(SameParameterValueOptimizer.exec(jprogram).recordVisits(numNodes));
/*
* Enum ordinalization.
*
* TODO(jbrosenberg): graduate this out of the 'isAggressivelyOptimize'
* block, over time.
*/
stats.add(EnumOrdinalizer.exec(jprogram).recordVisits(numNodes));
}
// prove that any types that have been culled from the main tree are
// unreferenced due to type tightening?
optimizeEvent.end();
return stats;
}
private static MultipleDependencyGraphRecorder chooseDependencyRecorder(boolean soycEnabled,
OutputStream out) {
MultipleDependencyGraphRecorder dependencyRecorder = CodeSplitter.NULL_RECORDER;
if (soycEnabled) {
dependencyRecorder = new DependencyRecorder(out);
}
return dependencyRecorder;
}
private static JMethodCall createReboundModuleLoad(TreeLogger logger, SourceInfo info,
JDeclaredType reboundEntryType, String originalMainClassName, JDeclaredType enclosingType)
throws UnableToCompleteException {
if (!(reboundEntryType instanceof JClassType)) {
logger.log(TreeLogger.ERROR, "Module entry point class '" + originalMainClassName
+ "' must be a class", null);
throw new UnableToCompleteException();
}
JClassType entryClass = (JClassType) reboundEntryType;
if (entryClass.isAbstract()) {
logger.log(TreeLogger.ERROR, "Module entry point class '" + originalMainClassName
+ "' must not be abstract", null);
throw new UnableToCompleteException();
}
JMethod entryMethod = findMainMethodRecurse(entryClass);
if (entryMethod == null) {
logger.log(TreeLogger.ERROR,
"Could not find entry method 'onModuleLoad()' method in entry point class '"
+ originalMainClassName + "'", null);
throw new UnableToCompleteException();
}
if (entryMethod.isAbstract()) {
logger.log(TreeLogger.ERROR, "Entry method 'onModuleLoad' in entry point class '"
+ originalMainClassName + "' must not be abstract", null);
throw new UnableToCompleteException();
}
JExpression qualifier = null;
if (!entryMethod.isStatic()) {
qualifier = JGwtCreate.createInstantiationExpression(info, entryClass, enclosingType);
if (qualifier == null) {
logger.log(TreeLogger.ERROR,
"No default (zero argument) constructor could be found in entry point class '"
+ originalMainClassName
+ "' to qualify a call to non-static entry method 'onModuleLoad'", null);
throw new UnableToCompleteException();
}
}
return new JMethodCall(info, qualifier, entryMethod);
}
private static void findEntryPoints(TreeLogger logger, RebindPermutationOracle rpo,
String[] mainClassNames, JProgram program) throws UnableToCompleteException {
Event findEntryPointsEvent = SpeedTracerLogger.start(CompilerEventType.FIND_ENTRY_POINTS);
JMethod bootStrapMethod = program.getIndexedMethod("EntryMethodHolder.init");
JMethodBody body = (JMethodBody) bootStrapMethod.getBody();
JBlock block = body.getBlock();
SourceInfo info = block.getSourceInfo().makeChild();
// Also remember $entry, which we'll handle specially in GenerateJsAst
JMethod registerEntry = program.getIndexedMethod("Impl.registerEntry");
program.addEntryMethod(registerEntry);
for (String mainClassName : mainClassNames) {
block.addStmt(makeStatsCalls(info, program, mainClassName));
JDeclaredType mainType = program.getFromTypeMap(mainClassName);
if (mainType == null) {
logger.log(TreeLogger.ERROR, "Could not find module entry point class '" + mainClassName
+ "'", null);
throw new UnableToCompleteException();
}
JMethod mainMethod = findMainMethod(mainType);
if (mainMethod != null && mainMethod.isStatic()) {
JMethodCall onModuleLoadCall = new JMethodCall(info, null, mainMethod);
block.addStmt(onModuleLoadCall.makeStatement());
continue;
}
// Couldn't find a static main method; must rebind the class
String[] resultTypeNames = rpo.getAllPossibleRebindAnswers(logger, mainClassName);
List<JClassType> resultTypes = new ArrayList<JClassType>();
List<JExpression> entryCalls = new ArrayList<JExpression>();
for (String resultTypeName : resultTypeNames) {
JDeclaredType resultType = program.getFromTypeMap(resultTypeName);
if (resultType == null) {
logger.log(TreeLogger.ERROR, "Could not find module entry point class '" + resultTypeName
+ "' after rebinding from '" + mainClassName + "'", null);
throw new UnableToCompleteException();
}
JMethodCall onModuleLoadCall =
createReboundModuleLoad(logger, info, resultType, mainClassName, bootStrapMethod
.getEnclosingType());
resultTypes.add((JClassType) resultType);
entryCalls.add(onModuleLoadCall);
}
if (resultTypes.size() == 1) {
block.addStmt(entryCalls.get(0).makeStatement());
} else {
JReboundEntryPoint reboundEntryPoint =
new JReboundEntryPoint(info, mainType, resultTypes, entryCalls);
block.addStmt(reboundEntryPoint);
}
}
program.addEntryMethod(bootStrapMethod);
findEntryPointsEvent.end();
}
private static JMethod findMainMethod(JDeclaredType declaredType) {
for (JMethod method : declaredType.getMethods()) {
if (method.getName().equals("onModuleLoad")) {
if (method.getParams().size() == 0) {
return method;
}
}
}
return null;
}
private static JMethod findMainMethodRecurse(JDeclaredType declaredType) {
for (JDeclaredType it = declaredType; it != null; it = it.getSuperClass()) {
JMethod result = findMainMethod(it);
if (result != null) {
return result;
}
}
return null;
}
/**
* Generate JavaScript code from the given JavaScript ASTs. Also produces
* information about that transformation.
*
* @param options The options this compiler instance is running with
* @param jprogram The original Java program AST
* @param jsProgram The AST to convert to source code
* @param jjsMap A map between the JavaScript AST and the Java AST it came
* from
* @param js An array to hold the output JavaScript
* @param ranges An array to hold the statement ranges for that JavaScript
* @param sizeBreakdowns An array to hold the size breakdowns for that
* JavaScript
* @param sourceInfoMaps An array to hold the source info maps for that
* JavaScript
* @param splitBlocks true if current permutation is for IE6 or unknown
* @param sourceMapsEnabled
*/
private static void generateJavaScriptCode(JJSOptions options,
JProgram jprogram, JsProgram jsProgram,
JavaToJavaScriptMap jjsMap, String[] js, StatementRanges[] ranges,
SizeBreakdown[] sizeBreakdowns,
List<Map<Range, SourceInfo>> sourceInfoMaps,
boolean splitBlocks, boolean sourceMapsEnabled) {
boolean useClosureCompiler = options.isClosureCompilerEnabled();
if (useClosureCompiler) {
ClosureJsRunner runner = new ClosureJsRunner();
runner.compile(jprogram, jsProgram, js, options.getOutput());
return;
}
for (int i = 0; i < js.length; i++) {
DefaultTextOutput out = new DefaultTextOutput(options.getOutput().shouldMinimize());
JsSourceGenerationVisitorWithSizeBreakdown v;
if (sourceInfoMaps != null) {
v = new JsReportGenerationVisitor(out, jjsMap);
} else {
v = new JsSourceGenerationVisitorWithSizeBreakdown(out, jjsMap);
}
v.accept(jsProgram.getFragmentBlock(i));
StatementRanges statementRanges = v.getStatementRanges();
String code = out.toString();
Map<Range, SourceInfo> infoMap = (sourceInfoMaps != null) ? v.getSourceInfoMap() : null;
JsAbstractTextTransformer transformer =
new JsAbstractTextTransformer(code, statementRanges, infoMap) {
@Override
public void exec() {
}
@Override
protected void updateSourceInfoMap() {
}
};
/**
* Reorder function decls to improve compression ratios. Also restructures
* the top level blocks into sub-blocks if they exceed 32767 statements.
*/
Event functionClusterEvent = SpeedTracerLogger.start(CompilerEventType.FUNCTION_CLUSTER);
// TODO(cromwellian) move to the Js AST, re-enable sourcemaps + clustering
if (!sourceMapsEnabled
&& options.isAggressivelyOptimize()
// only cluster for obfuscated mode
&& options.getOutput() == JsOutputOption.OBFUSCATED) {
transformer = new JsFunctionClusterer(transformer);
transformer.exec();
}
functionClusterEvent.end();
// rewrite top-level blocks to limit the number of statements
if (!sourceMapsEnabled && splitBlocks) {
transformer = new JsIEBlockTextTransformer(transformer);
transformer.exec();
}
js[i] = transformer.getJs();
ranges[i] = transformer.getStatementRanges();
if (sizeBreakdowns != null) {
sizeBreakdowns[i] = v.getSizeBreakdown();
}
if (sourceInfoMaps != null) {
sourceInfoMaps.add(transformer.getSourceInfoMap());
}
}
}
/**
* This method can be used to fetch the list of referenced classs.
*
* This method is intended to support compiler metrics in the precompile
* phase.
*/
private static String[] getReferencedJavaClasses(JProgram jprogram) {
class ClassNameVisitor extends JVisitor {
List<String> classNames = new ArrayList<String>();
@Override
public boolean visit(JClassType x, Context ctx) {
classNames.add(x.getName());
return true;
}
}
ClassNameVisitor v = new ClassNameVisitor();
v.accept(jprogram);
return v.classNames.toArray(new String[v.classNames.size()]);
}
/*
* This method is intended as a central location for producing optional
* tracking output. This will be called after all optimization/normalization
* passes have completed.
*/
private static void logTrackingStats(TreeLogger logger) {
EnumOrdinalizer.Tracker eot = EnumOrdinalizer.getTracker();
if (eot != null) {
eot.logResultsDetailed(logger, TreeLogger.WARN);
}
}
private static Collection<? extends Artifact<?>> makeSoycArtifacts(TreeLogger logger,
int permutationId, JProgram jprogram, String[] js, SizeBreakdown[] sizeBreakdowns,
List<Map<Range, SourceInfo>> sourceInfoMaps, SyntheticArtifact dependencies,
JavaToJavaScriptMap jjsmap, Map<JsName, String> obfuscateMap,
ModuleMetricsArtifact moduleMetricsArtifact,
PrecompilationMetricsArtifact precompilationMetricsArtifact,
CompilationMetricsArtifact compilationMetrics, boolean htmlReportsDisabled)
throws IOException, UnableToCompleteException {
Memory.maybeDumpMemory("makeSoycArtifactsStart");
List<SyntheticArtifact> soycArtifacts = new ArrayList<SyntheticArtifact>();
ByteArrayOutputStream baos = new ByteArrayOutputStream();
Event soycEvent = SpeedTracerLogger.start(CompilerEventType.MAKE_SOYC_ARTIFACTS);
Event recordSplitPoints =
SpeedTracerLogger
.start(CompilerEventType.MAKE_SOYC_ARTIFACTS, "phase", "recordSplitPoints");
SplitPointRecorder.recordSplitPoints(jprogram, baos, logger);
SyntheticArtifact splitPoints =
new SyntheticArtifact(SoycReportLinker.class, "splitPoints" + permutationId + ".xml.gz",
baos.toByteArray());
soycArtifacts.add(splitPoints);
recordSplitPoints.end();
SyntheticArtifact sizeMaps = null;
if (sizeBreakdowns != null) {
Event recordSizeMap =
SpeedTracerLogger.start(CompilerEventType.MAKE_SOYC_ARTIFACTS, "phase", "recordSizeMap");
baos.reset();
SizeMapRecorder.recordMap(logger, baos, sizeBreakdowns, jjsmap, obfuscateMap);
sizeMaps =
new SyntheticArtifact(SoycReportLinker.class, "stories" + permutationId + ".xml.gz", baos
.toByteArray());
soycArtifacts.add(sizeMaps);
recordSizeMap.end();
}
if (sourceInfoMaps != null) {
Event recordStories =
SpeedTracerLogger.start(CompilerEventType.MAKE_SOYC_ARTIFACTS, "phase", "recordStories");
baos.reset();
StoryRecorder.recordStories(logger, baos, sourceInfoMaps, js);
soycArtifacts.add(new SyntheticArtifact(SoycReportLinker.class, "detailedStories"
+ permutationId + ".xml.gz", baos.toByteArray()));
recordStories.end();
}
if (dependencies != null) {
soycArtifacts.add(dependencies);
}
// Set all of the main SOYC artifacts private.
for (SyntheticArtifact soycArtifact : soycArtifacts) {
soycArtifact.setVisibility(Visibility.Private);
}
if (!htmlReportsDisabled && sizeBreakdowns != null) {
Event generateCompileReport =
SpeedTracerLogger.start(CompilerEventType.MAKE_SOYC_ARTIFACTS, "phase",
"generateCompileReport");
ArtifactsOutputDirectory outDir = new ArtifactsOutputDirectory();
SoycDashboard dashboard = new SoycDashboard(outDir);
dashboard.startNewPermutation(Integer.toString(permutationId));
try {
dashboard.readSplitPoints(openWithGunzip(splitPoints));
if (sizeMaps != null) {
dashboard.readSizeMaps(openWithGunzip(sizeMaps));
}
if (dependencies != null) {
dashboard.readDependencies(openWithGunzip(dependencies));
}
Memory.maybeDumpMemory("soycReadDependenciesEnd");
} catch (ParserConfigurationException e) {
throw new InternalCompilerException(
"Error reading compile report information that was just generated", e);
} catch (SAXException e) {
throw new InternalCompilerException(
"Error reading compile report information that was just generated", e);
}
dashboard.generateForOnePermutation();
if (moduleMetricsArtifact != null && precompilationMetricsArtifact != null
&& compilationMetrics != null) {
dashboard.generateCompilerMetricsForOnePermuation(moduleMetricsArtifact,
precompilationMetricsArtifact, compilationMetrics);
}
soycArtifacts.addAll(outDir.getArtifacts());
generateCompileReport.end();
}
soycEvent.end();
return soycArtifacts;
}
/**
* Create a variable assignment to invoke a call to the statistics collector.
*
* <pre>
* Stats.isStatsAvailable() &&
* Stats.onModuleStart("mainClassName");
* </pre>
*/
private static JStatement makeStatsCalls(SourceInfo info, JProgram program, String mainClassName) {
JMethod isStatsAvailableMethod = program.getIndexedMethod("Stats.isStatsAvailable");
JMethod onModuleStartMethod = program.getIndexedMethod("Stats.onModuleStart");
JMethodCall availableCall = new JMethodCall(info, null, isStatsAvailableMethod);
JMethodCall onModuleStartCall = new JMethodCall(info, null, onModuleStartMethod);
onModuleStartCall.addArg(program.getLiteralString(info, mainClassName));
JBinaryOperation amp =
new JBinaryOperation(info, program.getTypePrimitiveBoolean(), JBinaryOperator.AND,
availableCall, onModuleStartCall);
return amp.makeStatement();
}
private static SymbolData[] makeSymbolMap(Map<StandardSymbolData, JsName> symbolTable,
JsProgram jsProgram) {
final Map<JsName, Integer> nameToFragment = new HashMap<JsName, Integer>();
for (int i = 0; i < jsProgram.getFragmentCount(); i++) {
final Integer fragId = i;
new JsVisitor() {
@Override
public void endVisit(JsFunction x, JsContext ctx) {
if (x.getName() != null) {
nameToFragment.put(x.getName(), fragId);
}
}
}.accept(jsProgram.getFragmentBlock(i));
}
SymbolData[] result = new SymbolData[symbolTable.size()];
int i = 0;
for (Map.Entry<StandardSymbolData, JsName> entry : symbolTable.entrySet()) {
StandardSymbolData symbolData = entry.getKey();
symbolData.setSymbolName(entry.getValue().getShortIdent());
Integer fragNum = nameToFragment.get(entry.getValue());
if (fragNum != null) {
symbolData.setFragmentNumber(fragNum);
}
result[i++] = symbolData;
}
return result;
}
/**
* Open an emitted artifact and gunzip its contents.
*/
private static GZIPInputStream openWithGunzip(EmittedArtifact artifact) throws IOException,
UnableToCompleteException {
return new GZIPInputStream(artifact.getContents(TreeLogger.NULL));
}
/**
* Dependency information is normally recorded during code splitting, and it
* results in multiple dependency graphs. If the code splitter doesn't run,
* then this method can be used instead to record a single dependency graph
* for the whole program.
*/
private static void recordNonSplitDependencies(JProgram program, OutputStream out) {
DependencyRecorder deps = new DependencyRecorder(out);
deps.open();
deps.startDependencyGraph("initial", null);
ControlFlowAnalyzer cfa = new ControlFlowAnalyzer(program);
cfa.setDependencyRecorder(deps);
cfa.traverseEntryMethods();
deps.endDependencyGraph();
deps.close();
}
}