protected void generateStub( @Nullable ResolvedCall<?> resolvedCall, @NotNull ExpressionCodegen codegen) { leaveTemps(); assert resolvedCall != null; String message = "Call is part of inline cycle: " + resolvedCall.getCall().getCallElement().getText(); AsmUtil.genThrow(codegen.v, "java/lang/UnsupportedOperationException", message); }
private String packagePartClass(String moduleName, String fileName, String packageClassFqName) { File file = new File(workDir, fileName); LightVirtualFile fakeVirtualFile = new LightVirtualFile(file.getPath()) { @NotNull @Override public String getPath() { // strip extra "/" from the beginning return super.getPath().substring(1); } }; FqName packagePartFqName = PackagePartClassUtils.getPackagePartFqName(new FqName(packageClassFqName), fakeVirtualFile); return klass(moduleName, AsmUtil.internalNameByFqNameWithoutInnerClasses(packagePartFqName)); }
@NotNull public InlineResult doTransform( @NotNull AnonymousObjectGeneration anonymousObjectGen, @NotNull FieldRemapper parentRemapper) { final List<InnerClassNode> innerClassNodes = new ArrayList<InnerClassNode>(); ClassBuilder classBuilder = createClassBuilder(); final List<MethodNode> methodsToTransform = new ArrayList<MethodNode>(); reader.accept( new ClassVisitor(InlineCodegenUtil.API, classBuilder.getVisitor()) { @Override public void visit( int version, int access, @NotNull String name, String signature, String superName, String[] interfaces) { InlineCodegenUtil.assertVersionNotGreaterThanJava6(version, name); super.visit(version, access, name, signature, superName, interfaces); } @Override public void visitInnerClass( @NotNull String name, String outerName, String innerName, int access) { innerClassNodes.add(new InnerClassNode(name, outerName, innerName, access)); } @Override public MethodVisitor visitMethod( int access, @NotNull String name, @NotNull String desc, String signature, String[] exceptions) { MethodNode node = new MethodNode(access, name, desc, signature, exceptions); if (name.equals("<init>")) { if (constructor != null) throw new RuntimeException( "Lambda, SAM or anonymous object should have only one constructor"); constructor = node; } else { methodsToTransform.add(node); } return node; } @Override public FieldVisitor visitField( int access, @NotNull String name, @NotNull String desc, String signature, Object value) { addUniqueField(name); if (InlineCodegenUtil.isCapturedFieldName(name)) { return null; } else { return super.visitField(access, name, desc, signature, value); } } @Override public void visitSource(String source, String debug) { sourceInfo = source; debugInfo = debug; } @Override public void visitEnd() {} }, ClassReader.SKIP_FRAMES); if (!inliningContext.isInliningLambda) { if (debugInfo != null && !debugInfo.isEmpty()) { sourceMapper = SourceMapper.Companion.createFromSmap(SMAPParser.parse(debugInfo)); } else { // seems we can't do any clever mapping cause we don't know any about original class name sourceMapper = IdenticalSourceMapper.INSTANCE; } if (sourceInfo != null && !InlineCodegenUtil.GENERATE_SMAP) { classBuilder.visitSource(sourceInfo, debugInfo); } } else { if (sourceInfo != null) { classBuilder.visitSource(sourceInfo, debugInfo); } sourceMapper = IdenticalSourceMapper.INSTANCE; } ParametersBuilder allCapturedParamBuilder = ParametersBuilder.newBuilder(); ParametersBuilder constructorParamBuilder = ParametersBuilder.newBuilder(); List<CapturedParamInfo> additionalFakeParams = extractParametersMappingAndPatchConstructor( constructor, allCapturedParamBuilder, constructorParamBuilder, anonymousObjectGen, parentRemapper); List<MethodVisitor> deferringMethods = new ArrayList<MethodVisitor>(); for (MethodNode next : methodsToTransform) { MethodVisitor deferringVisitor = newMethod(classBuilder, next); InlineResult funResult = inlineMethodAndUpdateGlobalResult( anonymousObjectGen, parentRemapper, deferringVisitor, next, allCapturedParamBuilder, false); Type returnType = Type.getReturnType(next.desc); if (!AsmUtil.isPrimitive(returnType)) { String oldFunReturnType = returnType.getInternalName(); String newFunReturnType = funResult.getChangedTypes().get(oldFunReturnType); if (newFunReturnType != null) { inliningContext.typeRemapper.addAdditionalMappings(oldFunReturnType, newFunReturnType); } } deferringMethods.add(deferringVisitor); } for (MethodVisitor method : deferringMethods) { method.visitEnd(); } generateConstructorAndFields( classBuilder, allCapturedParamBuilder, constructorParamBuilder, anonymousObjectGen, parentRemapper, additionalFakeParams); SourceMapper.Companion.flushToClassBuilder(sourceMapper, classBuilder); ClassVisitor visitor = classBuilder.getVisitor(); for (InnerClassNode node : innerClassNodes) { visitor.visitInnerClass(node.name, node.outerName, node.innerName, node.access); } writeOuterInfo(visitor); classBuilder.done(); anonymousObjectGen.setNewLambdaType(newLambdaType); return transformationResult; }
private void generateConstructorAndFields( @NotNull ClassBuilder classBuilder, @NotNull ParametersBuilder allCapturedBuilder, @NotNull ParametersBuilder constructorInlineBuilder, @NotNull AnonymousObjectGeneration anonymousObjectGen, @NotNull FieldRemapper parentRemapper, @NotNull List<CapturedParamInfo> constructorAdditionalFakeParams) { List<Type> descTypes = new ArrayList<Type>(); Parameters constructorParams = constructorInlineBuilder.buildParameters(); int[] capturedIndexes = new int[constructorParams.getReal().size() + constructorParams.getCaptured().size()]; int index = 0; int size = 0; // complex processing cause it could have super constructor call params for (ParameterInfo info : constructorParams) { if (!info.isSkipped()) { // not inlined if (info.isCaptured() || info instanceof CapturedParamInfo) { capturedIndexes[index] = size; index++; } if (size != 0) { // skip this descTypes.add(info.getType()); } size += info.getType().getSize(); } } String constructorDescriptor = Type.getMethodDescriptor(Type.VOID_TYPE, descTypes.toArray(new Type[descTypes.size()])); // TODO for inline method make public class anonymousObjectGen.setNewConstructorDescriptor(constructorDescriptor); MethodVisitor constructorVisitor = classBuilder.newMethod( NO_ORIGIN, AsmUtil.NO_FLAG_PACKAGE_PRIVATE, "<init>", constructorDescriptor, null, ArrayUtil.EMPTY_STRING_ARRAY); // initialize captured fields List<NewJavaField> newFieldsWithSkipped = TransformationUtilsKt.getNewFieldsToGenerate(allCapturedBuilder.listCaptured()); List<FieldInfo> fieldInfoWithSkipped = TransformationUtilsKt.transformToFieldInfo(newLambdaType, newFieldsWithSkipped); int paramIndex = 0; InstructionAdapter capturedFieldInitializer = new InstructionAdapter(constructorVisitor); for (int i = 0; i < fieldInfoWithSkipped.size(); i++) { FieldInfo fieldInfo = fieldInfoWithSkipped.get(i); if (!newFieldsWithSkipped.get(i).getSkip()) { AsmUtil.genAssignInstanceFieldFromParam( fieldInfo, capturedIndexes[paramIndex], capturedFieldInitializer); } paramIndex++; } // then transform constructor // HACK: in inlinining into constructor we access original captured fields with field access not // local var // but this fields added to general params (this assumes local var access) not captured one, // so we need to add them to captured params for (CapturedParamInfo info : constructorAdditionalFakeParams) { CapturedParamInfo fake = constructorInlineBuilder.addCapturedParamCopy(info); if (fake.getLambda() != null) { // set remap value to skip this fake (captured with lambda already skipped) StackValue composed = StackValue.field( fake.getType(), oldObjectType, fake.getNewFieldName(), false, StackValue.LOCAL_0); fake.setRemapValue(composed); } } inlineMethodAndUpdateGlobalResult( anonymousObjectGen, parentRemapper, capturedFieldInitializer, constructor, constructorInlineBuilder, true); constructorVisitor.visitEnd(); AsmUtil.genClosureFields( TransformationUtilsKt.toNameTypePair( TransformationUtilsKt.filterSkipped(newFieldsWithSkipped)), classBuilder); }