| // Copyright (c) 2018, the R8 project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| package com.android.tools.r8.ir.desugar; |
| |
| import com.android.tools.r8.dex.Constants; |
| import com.android.tools.r8.errors.Unreachable; |
| import com.android.tools.r8.graph.AppView; |
| import com.android.tools.r8.graph.ClassAccessFlags; |
| import com.android.tools.r8.graph.Code; |
| import com.android.tools.r8.graph.DexAnnotationSet; |
| import com.android.tools.r8.graph.DexApplication.Builder; |
| import com.android.tools.r8.graph.DexClass; |
| import com.android.tools.r8.graph.DexEncodedField; |
| import com.android.tools.r8.graph.DexEncodedMethod; |
| import com.android.tools.r8.graph.DexItemFactory; |
| import com.android.tools.r8.graph.DexMethod; |
| import com.android.tools.r8.graph.DexProgramClass; |
| import com.android.tools.r8.graph.DexProto; |
| import com.android.tools.r8.graph.DexString; |
| import com.android.tools.r8.graph.DexType; |
| import com.android.tools.r8.graph.DexTypeList; |
| import com.android.tools.r8.graph.MethodAccessFlags; |
| import com.android.tools.r8.graph.ParameterAnnotationsList; |
| import com.android.tools.r8.ir.code.IRCode; |
| import com.android.tools.r8.ir.code.Instruction; |
| import com.android.tools.r8.ir.code.InstructionListIterator; |
| import com.android.tools.r8.ir.code.InvokeMethod; |
| import com.android.tools.r8.ir.code.InvokeStatic; |
| import com.android.tools.r8.ir.conversion.IRConverter; |
| import com.android.tools.r8.ir.desugar.backports.BackportedMethods; |
| import com.android.tools.r8.ir.desugar.backports.BooleanMethodRewrites; |
| import com.android.tools.r8.ir.desugar.backports.CollectionMethodGenerators; |
| import com.android.tools.r8.ir.desugar.backports.CollectionMethodRewrites; |
| import com.android.tools.r8.ir.desugar.backports.FloatMethodRewrites; |
| import com.android.tools.r8.ir.desugar.backports.LongMethodRewrites; |
| import com.android.tools.r8.ir.desugar.backports.NumericMethodRewrites; |
| import com.android.tools.r8.ir.desugar.backports.ObjectsMethodRewrites; |
| import com.android.tools.r8.origin.SynthesizedOrigin; |
| import com.android.tools.r8.utils.AndroidApiLevel; |
| import com.android.tools.r8.utils.InternalOptions; |
| import com.android.tools.r8.utils.StringDiagnostic; |
| import com.google.common.collect.Sets; |
| import java.util.ArrayList; |
| import java.util.Collection; |
| import java.util.Collections; |
| import java.util.IdentityHashMap; |
| import java.util.List; |
| import java.util.Map; |
| import java.util.Set; |
| import java.util.concurrent.ConcurrentHashMap; |
| import java.util.concurrent.ExecutionException; |
| import java.util.concurrent.ExecutorService; |
| import java.util.function.Consumer; |
| |
| public final class BackportedMethodRewriter { |
| |
| public static final String UTILITY_CLASS_NAME_PREFIX = "$r8$backportedMethods$utility"; |
| private static final String UTILITY_CLASS_DESCRIPTOR_PREFIX = "L" + UTILITY_CLASS_NAME_PREFIX; |
| |
| private final AppView<?> appView; |
| private final IRConverter converter; |
| private final DexItemFactory factory; |
| private final RewritableMethods rewritableMethods; |
| |
| private final Set<DexType> holders = Sets.newConcurrentHashSet(); |
| private final Map<DexMethod, MethodProvider> methodProviders = new ConcurrentHashMap<>(); |
| |
| public BackportedMethodRewriter(AppView<?> appView, IRConverter converter) { |
| this.appView = appView; |
| this.converter = converter; |
| this.factory = appView.dexItemFactory(); |
| this.rewritableMethods = new RewritableMethods(appView.options(), appView); |
| } |
| |
| public static List<DexMethod> generateListOfBackportedMethods(AndroidApiLevel apiLevel) { |
| List<DexMethod> methods = new ArrayList<>(); |
| InternalOptions options = new InternalOptions(); |
| options.minApiLevel = apiLevel.getLevel(); |
| AppView<?> appView = AppView.createForD8(null, options); |
| BackportedMethodRewriter.RewritableMethods rewritableMethods = |
| new BackportedMethodRewriter.RewritableMethods(options, appView); |
| rewritableMethods.visit(methods::add); |
| return methods; |
| } |
| |
| public void desugar(IRCode code) { |
| if (rewritableMethods.isEmpty()) { |
| return; // Nothing to do! |
| } |
| |
| InstructionListIterator iterator = code.instructionListIterator(); |
| while (iterator.hasNext()) { |
| Instruction instruction = iterator.next(); |
| if (!instruction.isInvokeMethod()) { |
| continue; |
| } |
| |
| InvokeMethod invoke = instruction.asInvokeMethod(); |
| MethodProvider provider = getMethodProviderOrNull(invoke.getInvokedMethod()); |
| if (provider == null) { |
| continue; |
| } |
| |
| provider.rewriteInvoke(invoke, iterator, code, appView); |
| |
| if (provider.requiresGenerationOfCode()) { |
| DexMethod newMethod = provider.provideMethod(appView); |
| methodProviders.putIfAbsent(newMethod, provider); |
| holders.add(code.method.method.holder); |
| } |
| } |
| } |
| |
| private Collection<DexProgramClass> findSynthesizedFrom(Builder<?> builder, DexType holder) { |
| for (DexProgramClass synthesizedClass : builder.getSynthesizedClasses()) { |
| if (holder == synthesizedClass.getType()) { |
| return synthesizedClass.getSynthesizedFrom(); |
| } |
| } |
| return null; |
| } |
| |
| public static boolean hasRewrittenMethodPrefix(DexType clazz) { |
| return clazz.descriptor.toString().startsWith(UTILITY_CLASS_DESCRIPTOR_PREFIX); |
| } |
| |
| public void synthesizeUtilityClass( |
| Builder<?> builder, ExecutorService executorService, InternalOptions options) |
| throws ExecutionException { |
| if (holders.isEmpty()) { |
| return; |
| } |
| // Compute referencing classes ignoring references in-between utility classes. |
| Set<DexProgramClass> referencingClasses = Sets.newConcurrentHashSet(); |
| for (DexType holder : holders) { |
| DexClass definitionFor = appView.definitionFor(holder); |
| if (definitionFor == null) { |
| Collection<DexProgramClass> synthesizedFrom = findSynthesizedFrom(builder, holder); |
| assert synthesizedFrom != null; |
| referencingClasses.addAll(synthesizedFrom); |
| } else { |
| referencingClasses.add(definitionFor.asProgramClass()); |
| } |
| } |
| |
| MethodAccessFlags flags = MethodAccessFlags.fromSharedAccessFlags( |
| Constants.ACC_PUBLIC | Constants.ACC_STATIC | Constants.ACC_SYNTHETIC, false); |
| ClassAccessFlags classAccessFlags = |
| ClassAccessFlags.fromSharedAccessFlags(Constants.ACC_PUBLIC | Constants.ACC_SYNTHETIC); |
| // Generate the utility classes in a loop since utility classes can require the |
| // the creation of other utility classes. |
| // Function multiplyExact(long, int) calls multiplyExact(long, long) for example. |
| while (!methodProviders.isEmpty()) { |
| DexMethod method = methodProviders.keySet().iterator().next(); |
| MethodProvider provider = methodProviders.remove(method); |
| assert provider.requiresGenerationOfCode(); |
| // The utility class could have been synthesized, e.g., running R8 then D8, |
| // or if already processed in this while loop. |
| if (appView.definitionFor(method.holder) != null) { |
| continue; |
| } |
| Code code = provider.generateTemplateMethod(options, method); |
| DexEncodedMethod dexEncodedMethod = |
| new DexEncodedMethod( |
| method, flags, DexAnnotationSet.empty(), ParameterAnnotationsList.empty(), code); |
| DexProgramClass utilityClass = |
| new DexProgramClass( |
| method.holder, |
| null, |
| new SynthesizedOrigin("java8 methods utility class", getClass()), |
| classAccessFlags, |
| factory.objectType, |
| DexTypeList.empty(), |
| null, |
| null, |
| Collections.emptyList(), |
| null, |
| Collections.emptyList(), |
| DexAnnotationSet.empty(), |
| DexEncodedField.EMPTY_ARRAY, |
| DexEncodedField.EMPTY_ARRAY, |
| new DexEncodedMethod[] {dexEncodedMethod}, |
| DexEncodedMethod.EMPTY_ARRAY, |
| factory.getSkipNameValidationForTesting(), |
| referencingClasses); |
| boolean addToMainDexList = |
| referencingClasses.stream() |
| .anyMatch(clazz -> appView.appInfo().isInMainDexList(clazz.type)); |
| appView.appInfo().addSynthesizedClass(utilityClass); |
| builder.addSynthesizedClass(utilityClass, addToMainDexList); |
| // The following may add elements to methodsProviders. |
| converter.optimizeSynthesizedClass(utilityClass, executorService); |
| } |
| } |
| |
| private MethodProvider getMethodProviderOrNull(DexMethod method) { |
| DexMethod original = appView.graphLense().getOriginalMethodSignature(method); |
| assert original != null; |
| Map<DexType, DexType> backportCoreLibraryMembers = |
| appView.options().desugaredLibraryConfiguration.getBackportCoreLibraryMember(); |
| if (backportCoreLibraryMembers.containsKey(original.holder)) { |
| DexType newHolder = backportCoreLibraryMembers.get(original.holder); |
| DexMethod newMethod = |
| appView.dexItemFactory().createMethod(newHolder, original.proto, original.name); |
| MethodProvider provider = rewritableMethods.getProvider(newMethod); |
| if (provider != null) { |
| return provider; |
| } |
| RetargetCoreLibraryMethodProvider extraProvider = |
| new RetargetCoreLibraryMethodProvider(newHolder, original, true); |
| // TODO(b/139788786): cache this entry, but without writing into a lock free structure. |
| // rewritableMethods.addProvider(extraProvider); |
| return extraProvider; |
| } |
| return rewritableMethods.getProvider(original); |
| } |
| |
| private static final class RewritableMethods { |
| |
| // Map backported method to a provider for creating the actual target method (with code). |
| private final Map<DexMethod, MethodProvider> rewritable = new IdentityHashMap<>(); |
| |
| RewritableMethods(InternalOptions options, AppView<?> appView) { |
| DexItemFactory factory = options.itemFactory; |
| |
| if (options.minApiLevel < AndroidApiLevel.K.getLevel()) { |
| initializeAndroidKMethodProviders(factory); |
| } |
| if (options.minApiLevel < AndroidApiLevel.N.getLevel()) { |
| initializeAndroidNMethodProviders(factory); |
| } |
| if (options.minApiLevel < AndroidApiLevel.O.getLevel()) { |
| initializeAndroidOMethodProviders(factory); |
| } |
| |
| if (appView.rewritePrefix.hasRewrittenType(factory.optionalType) |
| || options.minApiLevel >= AndroidApiLevel.N.getLevel()) { |
| // These are currently not implemented at any API level in Android. |
| // They however require the Optional class to be present, either through |
| // desugared libraries or natively. If Optional class is not present, |
| // we do not desugar to avoid confusion in error messages. |
| initializeOptionalMethodProviders(factory); |
| } |
| |
| // These are currently not implemented at any API level in Android. |
| initializeJava9MethodProviders(factory); |
| initializeJava11MethodProviders(factory); |
| |
| if (!options.desugaredLibraryConfiguration.getRetargetCoreLibMember().isEmpty()) { |
| initializeRetargetCoreLibraryMembers(appView); |
| } |
| } |
| |
| boolean isEmpty() { |
| return rewritable.isEmpty(); |
| } |
| |
| public void visit(Consumer<DexMethod> consumer) { |
| rewritable.keySet().forEach(consumer); |
| } |
| |
| private void initializeAndroidKMethodProviders(DexItemFactory factory) { |
| // Byte |
| DexType type = factory.boxedByteType; |
| // int Byte.compare(byte a, byte b) |
| DexString name = factory.createString("compare"); |
| DexProto proto = factory.createProto(factory.intType, factory.byteType, factory.byteType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ByteMethods_compare)); |
| |
| // Short |
| type = factory.boxedShortType; |
| // int Short.compare(short a, short b) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.shortType, factory.shortType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ShortMethods_compare)); |
| |
| // Integer |
| type = factory.boxedIntType; |
| // int Integer.compare(int a, int b) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_compare)); |
| |
| // Long |
| type = factory.boxedLongType; |
| // int Long.compare(long a, long b) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, LongMethodRewrites::rewriteCompare)); |
| |
| // Boolean |
| type = factory.boxedBooleanType; |
| // int Boolean.compare(boolean a, boolean b) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.booleanType, factory.booleanType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::BooleanMethods_compare)); |
| |
| // Character |
| type = factory.boxedCharType; |
| // int Character.compare(char a, char b) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.charType, factory.charType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::CharacterMethods_compare)); |
| |
| // Objects |
| type = factory.objectsType; |
| |
| // int Objects.compare(T a, T b, Comparator<? super T> c) |
| name = factory.createString("compare"); |
| proto = factory.createProto(factory.intType, factory.objectType, factory.objectType, |
| factory.comparatorType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_compare)); |
| |
| // boolean Objects.deepEquals(Object a, Object b) |
| name = factory.createString("deepEquals"); |
| proto = factory.createProto(factory.booleanType, factory.objectType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_deepEquals)); |
| |
| // boolean Objects.equals(Object a, Object b) |
| name = factory.createString("equals"); |
| proto = factory.createProto(factory.booleanType, factory.objectType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_equals)); |
| |
| // int Objects.hash(Object... o) |
| name = factory.createString("hash"); |
| proto = factory.createProto(factory.intType, factory.objectArrayType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, ObjectsMethodRewrites::rewriteToArraysHashCode)); |
| |
| // int Objects.hashCode(Object o) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_hashCode)); |
| |
| // T Objects.requireNonNull(T obj) |
| method = factory.objectsMethods.requireNonNull; |
| addProvider(new InvokeRewriter(method, ObjectsMethodRewrites::rewriteRequireNonNull)); |
| |
| // T Objects.requireNonNull(T obj, String message) |
| name = factory.createString("requireNonNull"); |
| proto = factory.createProto(factory.objectType, factory.objectType, factory.stringType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::ObjectsMethods_requireNonNullMessage, |
| "requireNonNullMessage")); |
| |
| // String Objects.toString(Object o) |
| name = factory.createString("toString"); |
| proto = factory.createProto(factory.stringType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_toString)); |
| |
| // String Objects.toString(Object o, String nullDefault); |
| name = factory.createString("toString"); |
| proto = factory.createProto(factory.stringType, factory.objectType, factory.stringType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::ObjectsMethods_toStringDefault, "toStringDefault")); |
| |
| // Collections |
| type = factory.collectionsType; |
| |
| // Enumeration<T> Collections.emptyEnumeration(); |
| name = factory.createString("emptyEnumeration"); |
| proto = factory.createProto(factory.enumerationType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::CollectionsMethods_emptyEnumeration)); |
| |
| // Iterator<T> Collections.emptyIterator(); |
| name = factory.createString("emptyIterator"); |
| proto = factory.createProto(factory.iteratorType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::CollectionsMethods_emptyIterator)); |
| |
| // ListIterator<T> Collections.emptyListIterator(); |
| name = factory.createString("emptyListIterator"); |
| proto = factory.createProto(factory.listIteratorType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::CollectionsMethods_emptyListIterator)); |
| } |
| |
| private void initializeAndroidNMethodProviders(DexItemFactory factory) { |
| // Byte |
| DexType type = factory.boxedByteType; |
| // int Byte.hashCode(byte i) |
| DexString name = factory.createString("hashCode"); |
| DexProto proto = factory.createProto(factory.intType, factory.byteType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteAsIdentity)); |
| |
| // Short |
| type = factory.boxedShortType; |
| // int Short.hashCode(short i) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.shortType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteAsIdentity)); |
| |
| // Integer |
| type = factory.boxedIntType; |
| |
| // int Integer.hashCode(int i) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteAsIdentity)); |
| |
| // int Integer.max(int a, int b) |
| name = factory.createString("max"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // int Integer.min(int a, int b) |
| name = factory.createString("min"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // int Integer.sum(int a, int b) |
| name = factory.createString("sum"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToAddInstruction)); |
| |
| // Double |
| type = factory.boxedDoubleType; |
| |
| // int Double.hashCode(double d) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::DoubleMethods_hashCode)); |
| |
| // double Double.max(double a, double b) |
| name = factory.createString("max"); |
| proto = factory.createProto(factory.doubleType, factory.doubleType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // double Double.min(double a, double b) |
| name = factory.createString("min"); |
| proto = factory.createProto(factory.doubleType, factory.doubleType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // double Double.sum(double a, double b) |
| name = factory.createString("sum"); |
| proto = factory.createProto(factory.doubleType, factory.doubleType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToAddInstruction)); |
| |
| // boolean Double.isFinite(double a) |
| name = factory.createString("isFinite"); |
| proto = factory.createProto(factory.booleanType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::DoubleMethods_isFinite)); |
| |
| // Float |
| type = factory.boxedFloatType; |
| |
| // int Float.hashCode(float d) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, FloatMethodRewrites::rewriteHashCode)); |
| |
| // float Float.max(float a, float b) |
| name = factory.createString("max"); |
| proto = factory.createProto(factory.floatType, factory.floatType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // float Float.min(float a, float b) |
| name = factory.createString("min"); |
| proto = factory.createProto(factory.floatType, factory.floatType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // float Float.sum(float a, float b) |
| name = factory.createString("sum"); |
| proto = factory.createProto(factory.floatType, factory.floatType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToAddInstruction)); |
| |
| // boolean Float.isFinite(float a) |
| name = factory.createString("isFinite"); |
| proto = factory.createProto(factory.booleanType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::FloatMethods_isFinite)); |
| |
| // Boolean |
| type = factory.boxedBooleanType; |
| |
| // int Boolean.hashCode(boolean b) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.booleanType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::BooleanMethods_hashCode)); |
| |
| // boolean Boolean.logicalAnd(boolean a, boolean b) |
| name = factory.createString("logicalAnd"); |
| proto = factory.createProto(factory.booleanType, factory.booleanType, factory.booleanType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, BooleanMethodRewrites::rewriteLogicalAnd)); |
| |
| // boolean Boolean.logicalOr(boolean a, boolean b) |
| name = factory.createString("logicalOr"); |
| proto = factory.createProto(factory.booleanType, factory.booleanType, factory.booleanType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, BooleanMethodRewrites::rewriteLogicalOr)); |
| |
| // boolean Boolean.logicalXor(boolean a, boolean b) |
| name = factory.createString("logicalXor"); |
| proto = factory.createProto(factory.booleanType, factory.booleanType, factory.booleanType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, BooleanMethodRewrites::rewriteLogicalXor)); |
| |
| // Long |
| type = factory.boxedLongType; |
| |
| // int Long.hashCode(long i) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_hashCode)); |
| |
| // long Long.max(long a, long b) |
| name = factory.createString("max"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // long Long.min(long a, long b) |
| name = factory.createString("min"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToInvokeMath)); |
| |
| // long Long.sum(long a, long b) |
| name = factory.createString("sum"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteToAddInstruction)); |
| |
| // Character |
| type = factory.boxedCharType; |
| |
| // int Character.hashCode(char i) |
| name = factory.createString("hashCode"); |
| proto = factory.createProto(factory.intType, factory.charType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new InvokeRewriter(method, NumericMethodRewrites::rewriteAsIdentity)); |
| |
| // Objects |
| type = factory.objectsType; |
| |
| // boolean Objects.isNull(Object o) |
| name = factory.createString("isNull"); |
| proto = factory.createProto(factory.booleanType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_isNull)); |
| |
| // boolean Objects.nonNull(Object a) |
| name = factory.createString("nonNull"); |
| proto = factory.createProto(factory.booleanType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_nonNull)); |
| |
| // Math & StrictMath, which have some symmetric, binary-compatible APIs |
| DexType[] mathTypes = {factory.mathType, factory.strictMathType}; |
| for (int i = 0; i < mathTypes.length; i++) { |
| type = mathTypes[i]; |
| |
| // int {Math,StrictMath}.addExact(int, int) |
| name = factory.createString("addExact"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::MathMethods_addExactInt, "addExactInt")); |
| |
| // long {Math,StrictMath}.addExact(long, long) |
| name = factory.createString("addExact"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_addExactLong, "addExactLong")); |
| |
| // int {Math,StrictMath}.floorDiv(int, int) |
| name = factory.createString("floorDiv"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::MathMethods_floorDivInt, "floorDivInt")); |
| |
| // long {Math,StrictMath}.floorDiv(long, long) |
| name = factory.createString("floorDiv"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_floorDivLong, "floorDivLong")); |
| |
| // int {Math,StrictMath}.floorMod(int, int) |
| name = factory.createString("floorMod"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::MathMethods_floorModInt, "floorModInt")); |
| |
| // long {Math,StrictMath}.floorMod(long, long) |
| name = factory.createString("floorMod"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_floorModLong, "floorModLong")); |
| |
| // int {Math,StrictMath}.multiplyExact(int, int) |
| name = factory.createString("multiplyExact"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_multiplyExactInt, "multiplyExactInt")); |
| |
| // long {Math,StrictMath}.multiplyExact(long, long) |
| name = factory.createString("multiplyExact"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_multiplyExactLong, "multiplyExactLong")); |
| |
| // double {Math,StrictMath}.nextDown(double) |
| name = factory.createString("nextDown"); |
| proto = factory.createProto(factory.doubleType, factory.doubleType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_nextDownDouble, "nextDownDouble")); |
| |
| // float {Math,StrictMath}.nextDown(float) |
| name = factory.createString("nextDown"); |
| proto = factory.createProto(factory.floatType, factory.floatType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_nextDownFloat, "nextDownFloat")); |
| |
| // int {Math,StrictMath}.subtractExact(int, int) |
| name = factory.createString("subtractExact"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_subtractExactInt, "subtractExactInt")); |
| |
| // long {Math,StrictMath}.subtractExact(long, long) |
| name = factory.createString("subtractExact"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_subtractExactLong, "subtractExactLong")); |
| |
| // int {Math,StrictMath}.toIntExact(long) |
| name = factory.createString("toIntExact"); |
| proto = factory.createProto(factory.intType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::MathMethods_toIntExact)); |
| } |
| |
| // Math (APIs which are not mirrored by StrictMath) |
| type = factory.mathType; |
| |
| // int Math.decrementExact(int) |
| name = factory.createString("decrementExact"); |
| proto = factory.createProto(factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_decrementExactInt, "decrementExactInt")); |
| |
| // long Math.decrementExact(long) |
| name = factory.createString("decrementExact"); |
| proto = factory.createProto(factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_decrementExactLong, "decrementExactLong")); |
| |
| // int Math.incrementExact(int) |
| name = factory.createString("incrementExact"); |
| proto = factory.createProto(factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_incrementExactInt, "incrementExactInt")); |
| |
| // long Math.incrementExact(long) |
| name = factory.createString("incrementExact"); |
| proto = factory.createProto(factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_incrementExactLong, "incrementExactLong")); |
| |
| // int Math.negateExact(int) |
| name = factory.createString("negateExact"); |
| proto = factory.createProto(factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_negateExactInt, "negateExactInt")); |
| |
| // long Math.negateExact(long) |
| name = factory.createString("negateExact"); |
| proto = factory.createProto(factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_negateExactLong, "negateExactLong")); |
| } |
| |
| private void initializeAndroidOMethodProviders(DexItemFactory factory) { |
| // Byte |
| DexType type = factory.boxedByteType; |
| |
| // int Byte.toUnsignedInt(byte value) |
| DexString name = factory.createString("toUnsignedInt"); |
| DexProto proto = factory.createProto(factory.intType, factory.byteType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ByteMethods_toUnsignedInt)); |
| |
| // long Byte.toUnsignedLong(byte value) |
| name = factory.createString("toUnsignedLong"); |
| proto = factory.createProto(factory.longType, factory.byteType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ByteMethods_toUnsignedLong)); |
| |
| // Short |
| type = factory.boxedShortType; |
| |
| // int Short.toUnsignedInt(short value) |
| name = factory.createString("toUnsignedInt"); |
| proto = factory.createProto(factory.intType, factory.shortType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ShortMethods_toUnsignedInt)); |
| |
| // long Short.toUnsignedLong(short value) |
| name = factory.createString("toUnsignedLong"); |
| proto = factory.createProto(factory.longType, factory.shortType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ShortMethods_toUnsignedLong)); |
| |
| // Integer |
| type = factory.boxedIntType; |
| |
| // int Integer.divideUnsigned(int a, int b) |
| name = factory.createString("divideUnsigned"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_divideUnsigned)); |
| |
| // int Integer.remainderUnsigned(int a, int b) |
| name = factory.createString("remainderUnsigned"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_remainderUnsigned)); |
| |
| // int Integer.compareUnsigned(int a, int b) |
| name = factory.createString("compareUnsigned"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_compareUnsigned)); |
| |
| // long Integer.toUnsignedLong(int value) |
| name = factory.createString("toUnsignedLong"); |
| proto = factory.createProto(factory.longType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_toUnsignedLong)); |
| |
| // int Integer.parseUnsignedInt(String value) |
| name = factory.createString("parseUnsignedInt"); |
| proto = factory.createProto(factory.intType, factory.stringType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_parseUnsignedInt)); |
| |
| // int Integer.parseUnsignedInt(String value, int radix) |
| name = factory.createString("parseUnsignedInt"); |
| proto = factory.createProto(factory.intType, factory.stringType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::IntegerMethods_parseUnsignedIntWithRadix, |
| "parseUnsignedIntWithRadix")); |
| |
| // String Integer.toUnsignedString(int value) |
| name = factory.createString("toUnsignedString"); |
| proto = factory.createProto(factory.stringType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::IntegerMethods_toUnsignedString)); |
| |
| // String Integer.toUnsignedString(int value, int radix) |
| name = factory.createString("toUnsignedString"); |
| proto = factory.createProto(factory.stringType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::IntegerMethods_toUnsignedStringWithRadix, |
| "toUnsignedStringWithRadix")); |
| |
| // Long |
| type = factory.boxedLongType; |
| |
| // long Long.divideUnsigned(long a, long b) |
| name = factory.createString("divideUnsigned"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_divideUnsigned)); |
| |
| // long Long.remainderUnsigned(long a, long b) |
| name = factory.createString("remainderUnsigned"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_remainderUnsigned)); |
| |
| // int Long.compareUnsigned(long a, long b) |
| name = factory.createString("compareUnsigned"); |
| proto = factory.createProto(factory.intType, factory.longType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_compareUnsigned)); |
| |
| // long Long.parseUnsignedLong(String value) |
| name = factory.createString("parseUnsignedLong"); |
| proto = factory.createProto(factory.longType, factory.stringType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_parseUnsignedLong)); |
| |
| // long Long.parseUnsignedLong(String value, int radix) |
| name = factory.createString("parseUnsignedLong"); |
| proto = factory.createProto(factory.longType, factory.stringType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::LongMethods_parseUnsignedLongWithRadix, |
| "parseUnsignedLongWithRadix")); |
| |
| // String Long.toUnsignedString(long value) |
| name = factory.createString("toUnsignedString"); |
| proto = factory.createProto(factory.stringType, factory.longType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::LongMethods_toUnsignedString)); |
| |
| // String Long.toUnsignedString(long value, int radix) |
| name = factory.createString("toUnsignedString"); |
| proto = factory.createProto(factory.stringType, factory.longType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::LongMethods_toUnsignedStringWithRadix, |
| "toUnsignedStringWithRadix")); |
| |
| // String |
| type = factory.stringType; |
| |
| // String String.join(CharSequence, CharSequence...) |
| name = factory.createString("join"); |
| proto = factory.createProto(factory.stringType, factory.charSequenceType, |
| factory.charSequenceArrayType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::StringMethods_joinArray, "joinArray")); |
| |
| // String String.join(CharSequence, Iterable<? extends CharSequence>) |
| name = factory.createString("join"); |
| proto = |
| factory.createProto(factory.stringType, factory.charSequenceType, factory.iterableType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::StringMethods_joinIterable, "joinIterable")); |
| } |
| |
| private void initializeJava9MethodProviders(DexItemFactory factory) { |
| // Math & StrictMath, which have some symmetric, binary-compatible APIs |
| DexType[] mathTypes = {factory.mathType, factory.strictMathType}; |
| for (int i = 0; i < mathTypes.length; i++) { |
| DexType type = mathTypes[i]; |
| |
| // long {Math,StrictMath}.multiplyExact(long, int) |
| DexString name = factory.createString("multiplyExact"); |
| DexProto proto = factory.createProto(factory.longType, factory.longType, factory.intType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, |
| BackportedMethods::MathMethods_multiplyExactLongInt, |
| "multiplyExactLongInt")); |
| |
| // long {Math,StrictMath}.floorDiv(long, int) |
| name = factory.createString("floorDiv"); |
| proto = factory.createProto(factory.longType, factory.longType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_floorDivLongInt, "floorDivLongInt")); |
| |
| // int {Math,StrictMath}.floorMod(long, int) |
| name = factory.createString("floorMod"); |
| proto = factory.createProto(factory.intType, factory.longType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::MathMethods_floorModLongInt, "floorModLongInt")); |
| } |
| |
| // Byte |
| DexType type = factory.boxedByteType; |
| |
| // int Byte.compareUnsigned(byte, byte) |
| DexString name = factory.createString("compareUnsigned"); |
| DexProto proto = factory.createProto(factory.intType, factory.byteType, factory.byteType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ByteMethods_compareUnsigned)); |
| |
| // Short |
| type = factory.boxedShortType; |
| |
| // int Short.compareUnsigned(short, short) |
| name = factory.createString("compareUnsigned"); |
| proto = factory.createProto(factory.intType, factory.shortType, factory.shortType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ShortMethods_compareUnsigned)); |
| |
| // Objects |
| type = factory.objectsType; |
| |
| // T Objects.requireNonNullElse(T, T) |
| name = factory.createString("requireNonNullElse"); |
| proto = factory.createProto(factory.objectType, factory.objectType, factory.objectType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::ObjectsMethods_requireNonNullElse)); |
| |
| // T Objects.requireNonNullElseGet(T, Supplier<? extends T>) |
| name = factory.createString("requireNonNullElseGet"); |
| proto = factory.createProto(factory.objectType, factory.objectType, factory.supplierType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::ObjectsMethods_requireNonNullElseGet)); |
| |
| // int Objects.checkIndex(int, int) |
| name = factory.createString("checkIndex"); |
| proto = factory.createProto(factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_checkIndex)); |
| |
| // int Objects.checkFromToIndex(int, int, int) |
| name = factory.createString("checkFromToIndex"); |
| proto = |
| factory.createProto(factory.intType, factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider(new MethodGenerator(method, BackportedMethods::ObjectsMethods_checkFromToIndex)); |
| |
| // int Objects.checkFromIndexSize(int, int, int) |
| name = factory.createString("checkFromIndexSize"); |
| proto = |
| factory.createProto(factory.intType, factory.intType, factory.intType, factory.intType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator(method, BackportedMethods::ObjectsMethods_checkFromIndexSize)); |
| |
| // List<E> List.of(<args>) for 0 to 10 arguments and List.of(E[]) |
| type = factory.listType; |
| name = factory.createString("of"); |
| for (int i = 0; i <= 10; i++) { |
| final int formalCount = i; |
| proto = factory.createProto(type, Collections.nCopies(i, factory.objectType)); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| i == 0 |
| ? new InvokeRewriter(method, CollectionMethodRewrites::rewriteListOfEmpty) |
| : new MethodGenerator( |
| method, |
| (options, methodArg) -> |
| CollectionMethodGenerators.generateListOf(options, methodArg, formalCount))); |
| } |
| proto = factory.createProto(type, factory.objectArrayType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::CollectionMethods_listOfArray, "ofArray")); |
| |
| // Set<E> Set.of(<args>) for 0 to 10 arguments and Set.of(E[]) |
| type = factory.setType; |
| name = factory.createString("of"); |
| for (int i = 0; i <= 10; i++) { |
| final int formalCount = i; |
| proto = factory.createProto(type, Collections.nCopies(i, factory.objectType)); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| i == 0 |
| ? new InvokeRewriter(method, CollectionMethodRewrites::rewriteSetOfEmpty) |
| : new MethodGenerator( |
| method, |
| (options, methodArg) -> |
| CollectionMethodGenerators.generateSetOf(options, methodArg, formalCount))); |
| } |
| proto = factory.createProto(type, factory.objectArrayType); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::CollectionMethods_setOfArray, "ofArray")); |
| |
| // Map<K, V> Map.of(<K, V args>) for 0 to 10 pairs and Map.ofEntries(Map.Entry<K, V>[]) |
| type = factory.mapType; |
| name = factory.createString("of"); |
| for (int i = 0; i <= 10; i++) { |
| final int formalCount = i; |
| proto = factory.createProto(type, Collections.nCopies(i * 2, factory.objectType)); |
| method = factory.createMethod(type, proto, name); |
| addProvider( |
| i == 0 |
| ? new InvokeRewriter(method, CollectionMethodRewrites::rewriteMapOfEmpty) |
| : new MethodGenerator( |
| method, |
| (options, methodArg) -> |
| CollectionMethodGenerators.generateMapOf(options, methodArg, formalCount))); |
| } |
| proto = factory.createProto(type, factory.createArrayType(1, factory.mapEntryType)); |
| method = factory.createMethod(type, proto, "ofEntries"); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::CollectionMethods_mapOfEntries, "ofEntries")); |
| |
| // Map.Entry<K, V> Map.entry(K, V) |
| type = factory.mapType; |
| proto = factory.createProto(factory.mapEntryType, factory.objectType, factory.objectType); |
| method = factory.createMethod(type, proto, "entry"); |
| addProvider(new MethodGenerator(method, BackportedMethods::CollectionMethods_mapEntry)); |
| } |
| |
| private void initializeJava11MethodProviders(DexItemFactory factory) { |
| // Character |
| DexType type = factory.boxedCharType; |
| |
| // String Character.toString(int) |
| DexString name = factory.createString("toString"); |
| DexProto proto = factory.createProto(factory.stringType, factory.intType); |
| DexMethod method = factory.createMethod(type, proto, name); |
| addProvider( |
| new MethodGenerator( |
| method, BackportedMethods::CharacterMethods_toStringCodepoint, "toStringCodepoint")); |
| } |
| |
| private void initializeOptionalMethodProviders(DexItemFactory factory) { |
| // Optional |
| DexType optionalType = factory.optionalType; |
| |
| // Optional.or(supplier) |
| DexString name = factory.createString("or"); |
| DexProto proto = factory.createProto(optionalType, factory.supplierType); |
| DexMethod method = factory.createMethod(optionalType, proto, name); |
| addProvider( |
| new StatifyingMethodGenerator( |
| method, BackportedMethods::OptionalMethods_or, "or", optionalType)); |
| |
| // Optional.stream() |
| name = factory.createString("stream"); |
| proto = factory.createProto(factory.createType("Ljava/util/stream/Stream;")); |
| method = factory.createMethod(optionalType, proto, name); |
| addProvider( |
| new StatifyingMethodGenerator( |
| method, BackportedMethods::OptionalMethods_stream, "stream", optionalType)); |
| |
| // Optional{void,Int,Long,Double}.ifPresentOrElse(consumer,runnable) |
| DexType[] optionalTypes = |
| new DexType[] { |
| optionalType, |
| factory.createType(factory.createString("Ljava/util/OptionalDouble;")), |
| factory.createType(factory.createString("Ljava/util/OptionalLong;")), |
| factory.createType(factory.createString("Ljava/util/OptionalInt;")) |
| }; |
| DexType[] consumerTypes = |
| new DexType[] { |
| factory.consumerType, |
| factory.createType("Ljava/util/function/DoubleConsumer;"), |
| factory.createType("Ljava/util/function/LongConsumer;"), |
| factory.createType("Ljava/util/function/IntConsumer;") |
| }; |
| TemplateMethodFactory[] methodFactories = |
| new TemplateMethodFactory[] { |
| BackportedMethods::OptionalMethods_ifPresentOrElse, |
| BackportedMethods::OptionalMethods_ifPresentOrElseDouble, |
| BackportedMethods::OptionalMethods_ifPresentOrElseLong, |
| BackportedMethods::OptionalMethods_ifPresentOrElseInt |
| }; |
| for (int i = 0; i < optionalTypes.length; i++) { |
| DexType optional = optionalTypes[i]; |
| DexType consumer = consumerTypes[i]; |
| name = factory.createString("ifPresentOrElse"); |
| proto = factory.createProto(factory.voidType, consumer, factory.runnableType); |
| method = factory.createMethod(optional, proto, name); |
| addProvider( |
| new StatifyingMethodGenerator(method, methodFactories[i], "ifPresentOrElse", optional)); |
| } |
| } |
| |
| private void warnMissingRetargetCoreLibraryMember(DexType type, AppView<?> appView) { |
| StringDiagnostic warning = |
| new StringDiagnostic( |
| "Cannot retarget core library member " |
| + type.getName() |
| + " because the class is missing."); |
| appView.options().reporter.warning(warning); |
| } |
| |
| private void initializeRetargetCoreLibraryMembers(AppView<?> appView) { |
| Map<DexString, Map<DexType, DexType>> retargetCoreLibMember = |
| appView.options().desugaredLibraryConfiguration.getRetargetCoreLibMember(); |
| for (DexString methodName : retargetCoreLibMember.keySet()) { |
| for (DexType inType : retargetCoreLibMember.get(methodName).keySet()) { |
| DexClass typeClass = appView.definitionFor(inType); |
| if (typeClass == null) { |
| warnMissingRetargetCoreLibraryMember(inType, appView); |
| } else { |
| DexType newHolder = retargetCoreLibMember.get(methodName).get(inType); |
| List<DexEncodedMethod> found = findDexEncodedMethodsWithName(methodName, typeClass); |
| for (DexEncodedMethod encodedMethod : found) { |
| DexProto proto = encodedMethod.method.proto; |
| DexMethod method = appView.dexItemFactory().createMethod(inType, proto, methodName); |
| addProvider( |
| new RetargetCoreLibraryMethodProvider( |
| newHolder, method, encodedMethod.isStatic())); |
| } |
| } |
| } |
| } |
| } |
| |
| private List<DexEncodedMethod> findDexEncodedMethodsWithName( |
| DexString methodName, DexClass clazz) { |
| List<DexEncodedMethod> found = new ArrayList<>(); |
| for (DexEncodedMethod encodedMethod : clazz.methods()) { |
| if (encodedMethod.method.name == methodName) { |
| found.add(encodedMethod); |
| } |
| } |
| assert found.size() > 0 : "Should have found a method (library specifications)."; |
| return found; |
| } |
| |
| private void addProvider(MethodProvider generator) { |
| MethodProvider replaced = rewritable.put(generator.method, generator); |
| assert replaced == null; |
| } |
| |
| MethodProvider getProvider(DexMethod method) { |
| return rewritable.get(method); |
| } |
| } |
| |
| public abstract static class MethodProvider { |
| final DexMethod method; |
| |
| public MethodProvider(DexMethod method) { |
| this.method = method; |
| } |
| |
| public abstract void rewriteInvoke(InvokeMethod invoke, InstructionListIterator iterator, |
| IRCode code, AppView<?> appView); |
| |
| public abstract DexMethod provideMethod(AppView<?> appView); |
| |
| public abstract Code generateTemplateMethod(InternalOptions options, DexMethod method); |
| |
| public abstract boolean requiresGenerationOfCode(); |
| } |
| |
| private static class RetargetCoreLibraryMethodProvider extends MethodProvider { |
| |
| private final DexType newHolder; |
| private DexMethod targetMethod; |
| private boolean isStatic; |
| |
| RetargetCoreLibraryMethodProvider(DexType newHolder, DexMethod method, boolean isStatic) { |
| super(method); |
| this.newHolder = newHolder; |
| this.isStatic = isStatic; |
| } |
| |
| @Override |
| public void rewriteInvoke(InvokeMethod invoke, InstructionListIterator iterator, IRCode code, |
| AppView<?> appView) { |
| iterator.replaceCurrentInstruction( |
| new InvokeStatic(provideMethod(appView), invoke.outValue(), invoke.inValues())); |
| } |
| |
| @Override |
| public DexMethod provideMethod(AppView<?> appView) { |
| if (targetMethod != null) { |
| return targetMethod; |
| } |
| DexItemFactory factory = appView.dexItemFactory(); |
| DexProto newProto = |
| isStatic ? method.proto : factory.prependTypeToProto(method.holder, method.proto); |
| targetMethod = factory.createMethod(newHolder, newProto, method.name); |
| return targetMethod; |
| } |
| |
| @Override |
| public Code generateTemplateMethod(InternalOptions options, DexMethod method) { |
| throw new Unreachable("Does not generate any method."); |
| } |
| |
| @Override |
| public boolean requiresGenerationOfCode() { |
| return false; |
| } |
| } |
| |
| private static final class InvokeRewriter extends MethodProvider { |
| private final MethodInvokeRewriter rewriter; |
| |
| InvokeRewriter(DexMethod method, MethodInvokeRewriter rewriter) { |
| super(method); |
| this.rewriter = rewriter; |
| } |
| |
| @Override public void rewriteInvoke(InvokeMethod invoke, InstructionListIterator iterator, |
| IRCode code, AppView<?> appView) { |
| rewriter.rewrite(invoke, iterator, appView.dexItemFactory()); |
| assert code.isConsistentSSA(); |
| } |
| |
| @Override |
| public boolean requiresGenerationOfCode() { |
| return false; |
| } |
| |
| @Override |
| public DexMethod provideMethod(AppView<?> appView) { |
| throw new Unreachable(); |
| } |
| |
| @Override |
| public Code generateTemplateMethod(InternalOptions options, DexMethod method) { |
| throw new Unreachable(); |
| } |
| } |
| |
| private static class MethodGenerator extends MethodProvider { |
| |
| private final TemplateMethodFactory factory; |
| private final String methodName; |
| DexMethod generatedMethod; |
| |
| MethodGenerator(DexMethod method, TemplateMethodFactory factory) { |
| this(method, factory, method.name.toString()); |
| } |
| |
| MethodGenerator(DexMethod method, TemplateMethodFactory factory, String methodName) { |
| super(method); |
| this.factory = factory; |
| this.methodName = methodName; |
| } |
| |
| @Override |
| public void rewriteInvoke(InvokeMethod invoke, InstructionListIterator iterator, IRCode code, |
| AppView<?> appView) { |
| iterator.replaceCurrentInstruction( |
| new InvokeStatic(provideMethod(appView), invoke.outValue(), invoke.inValues())); |
| } |
| |
| @Override |
| public DexMethod provideMethod(AppView<?> appView) { |
| if (generatedMethod != null) { |
| return generatedMethod; |
| } |
| DexItemFactory factory = appView.dexItemFactory(); |
| String unqualifiedName = method.holder.getName(); |
| // Avoid duplicate class names between core lib dex file and program dex files. |
| String coreLibUtilitySuffix = |
| appView.options().isDesugaredLibraryCompilation() ? "$corelib" : ""; |
| String descriptor = |
| UTILITY_CLASS_DESCRIPTOR_PREFIX |
| + '$' |
| + unqualifiedName |
| + '$' |
| + method.proto.parameters.size() |
| + coreLibUtilitySuffix |
| + '$' |
| + methodName |
| + ';'; |
| DexType type = factory.createType(descriptor); |
| generatedMethod = factory.createMethod(type, method.proto, method.name); |
| return generatedMethod; |
| } |
| |
| @Override |
| public Code generateTemplateMethod(InternalOptions options, DexMethod method) { |
| return factory.create(options, method); |
| } |
| |
| @Override |
| public boolean requiresGenerationOfCode() { |
| return true; |
| } |
| } |
| |
| // Specific subclass to transform virtual methods into static desugared methods. |
| // To be correct, the method has to be on a final class, and be implemented directly |
| // on the class (no overrides). |
| private static class StatifyingMethodGenerator extends MethodGenerator { |
| |
| private final DexType receiverType; |
| |
| StatifyingMethodGenerator( |
| DexMethod method, TemplateMethodFactory factory, String methodName, DexType receiverType) { |
| super(method, factory, methodName); |
| this.receiverType = receiverType; |
| } |
| |
| @Override |
| public DexMethod provideMethod(AppView<?> appView) { |
| if (generatedMethod != null) { |
| return generatedMethod; |
| } |
| super.provideMethod(appView); |
| assert generatedMethod != null; |
| DexProto newProto = appView.dexItemFactory().prependTypeToProto(receiverType, method.proto); |
| generatedMethod = |
| appView.dexItemFactory().createMethod(generatedMethod.holder, newProto, method.name); |
| return generatedMethod; |
| } |
| } |
| |
| private interface TemplateMethodFactory { |
| |
| Code create(InternalOptions options, DexMethod method); |
| } |
| |
| private interface MethodInvokeRewriter { |
| void rewrite(InvokeMethod invoke, InstructionListIterator iterator, DexItemFactory factory); |
| } |
| } |