private void generateBridge( @Nullable PsiElement origin, @NotNull FunctionDescriptor descriptor, @NotNull Method bridge, @NotNull Method delegateTo, boolean isSpecialBridge, boolean isStubDeclarationWithDelegationToSuper) { boolean isSpecialOrDelegationToSuper = isSpecialBridge || isStubDeclarationWithDelegationToSuper; int flags = ACC_PUBLIC | ACC_BRIDGE | (!isSpecialOrDelegationToSuper ? ACC_SYNTHETIC : 0) | (isSpecialBridge ? ACC_FINAL : 0); // TODO. MethodVisitor mv = v.newMethod( JvmDeclarationOriginKt.Bridge(descriptor, origin), flags, bridge.getName(), bridge.getDescriptor(), null, null); if (state.getClassBuilderMode() != ClassBuilderMode.FULL) return; mv.visitCode(); Type[] argTypes = bridge.getArgumentTypes(); Type[] originalArgTypes = delegateTo.getArgumentTypes(); InstructionAdapter iv = new InstructionAdapter(mv); MemberCodegen.markLineNumberForDescriptor(owner.getThisDescriptor(), iv); if (delegateTo.getArgumentTypes().length == 1 && isSpecialBridge) { generateTypeCheckBarrierIfNeeded( iv, descriptor, bridge.getReturnType(), delegateTo.getArgumentTypes()[0]); } iv.load(0, OBJECT_TYPE); for (int i = 0, reg = 1; i < argTypes.length; i++) { StackValue.local(reg, argTypes[i]).put(originalArgTypes[i], iv); //noinspection AssignmentToForLoopParameter reg += argTypes[i].getSize(); } if (isStubDeclarationWithDelegationToSuper) { ClassDescriptor parentClass = getSuperClassDescriptor((ClassDescriptor) descriptor.getContainingDeclaration()); assert parentClass != null; String parentInternalName = typeMapper.mapClass(parentClass).getInternalName(); iv.invokespecial(parentInternalName, delegateTo.getName(), delegateTo.getDescriptor()); } else { iv.invokevirtual(v.getThisName(), delegateTo.getName(), delegateTo.getDescriptor()); } StackValue.coerce(delegateTo.getReturnType(), bridge.getReturnType(), iv); iv.areturn(bridge.getReturnType()); endVisit(mv, "bridge method", origin); }
void generateDefaultIfNeeded( @NotNull MethodContext owner, @NotNull FunctionDescriptor functionDescriptor, @NotNull OwnerKind kind, @NotNull DefaultParameterValueLoader loadStrategy, @Nullable KtNamedFunction function) { DeclarationDescriptor contextClass = owner.getContextDescriptor().getContainingDeclaration(); if (kind != OwnerKind.DEFAULT_IMPLS && isInterface(contextClass)) { return; } if (!isDefaultNeeded(functionDescriptor)) { return; } int flags = getVisibilityAccessFlag(functionDescriptor) | getDeprecatedAccessFlag(functionDescriptor) | ACC_SYNTHETIC; if (!(functionDescriptor instanceof ConstructorDescriptor)) { flags |= ACC_STATIC | ACC_BRIDGE; } // $default methods are never private to be accessible from other class files (e.g. inner) // without the need of synthetic accessors flags &= ~ACC_PRIVATE; Method defaultMethod = typeMapper.mapDefaultMethod(functionDescriptor, kind); MethodVisitor mv = v.newMethod( JvmDeclarationOriginKt.Synthetic(function, functionDescriptor), flags, defaultMethod.getName(), defaultMethod.getDescriptor(), null, getThrownExceptions(functionDescriptor, typeMapper)); // Only method annotations are copied to the $default method. Parameter annotations are not // copied until there are valid use cases; // enum constructors have two additional synthetic parameters which somewhat complicate this // task AnnotationCodegen.forMethod(mv, typeMapper) .genAnnotations(functionDescriptor, defaultMethod.getReturnType()); if (state.getClassBuilderMode() == ClassBuilderMode.FULL) { if (this.owner instanceof MultifileClassFacadeContext) { mv.visitCode(); generateFacadeDelegateMethodBody( mv, defaultMethod, (MultifileClassFacadeContext) this.owner); endVisit(mv, "default method delegation", getSourceFromDescriptor(functionDescriptor)); } else { mv.visitCode(); generateDefaultImplBody( owner, functionDescriptor, mv, loadStrategy, function, memberCodegen, defaultMethod); endVisit(mv, "default method", getSourceFromDescriptor(functionDescriptor)); } } }
private static void generateLocalVariableTable( @NotNull MethodVisitor mv, @NotNull JvmMethodSignature jvmMethodSignature, @NotNull FunctionDescriptor functionDescriptor, @Nullable Type thisType, @NotNull Label methodBegin, @NotNull Label methodEnd, @NotNull OwnerKind ownerKind) { Iterator<ValueParameterDescriptor> valueParameters = functionDescriptor.getValueParameters().iterator(); List<JvmMethodParameterSignature> params = jvmMethodSignature.getValueParameters(); int shift = 0; boolean isStatic = AsmUtil.isStaticMethod(ownerKind, functionDescriptor); if (!isStatic) { // add this if (thisType != null) { mv.visitLocalVariable( "this", thisType.getDescriptor(), null, methodBegin, methodEnd, shift); } else { // TODO: provide thisType for callable reference } shift++; } for (int i = 0; i < params.size(); i++) { JvmMethodParameterSignature param = params.get(i); JvmMethodParameterKind kind = param.getKind(); String parameterName; if (kind == JvmMethodParameterKind.VALUE) { ValueParameterDescriptor parameter = valueParameters.next(); parameterName = parameter.getName().asString(); } else { String lowercaseKind = kind.name().toLowerCase(); parameterName = needIndexForVar(kind) ? "$" + lowercaseKind + "$" + i : "$" + lowercaseKind; } Type type = param.getAsmType(); mv.visitLocalVariable( parameterName, type.getDescriptor(), null, methodBegin, methodEnd, shift); shift += type.getSize(); } }
public static void endVisit( MethodVisitor mv, @Nullable String description, @Nullable PsiElement method) { try { mv.visitMaxs(-1, -1); mv.visitEnd(); } catch (ProcessCanceledException e) { throw e; } catch (Throwable t) { String bytecode = renderByteCodeIfAvailable(mv); throw new CompilationException( "wrong code generated" + (description != null ? " for " + description : "") + t.getClass().getName() + " " + t.getMessage() + (bytecode != null ? "\nbytecode:\n" + bytecode : ""), t, method); } }
private void markEnumOrInnerConstructorParameterAsSynthetic(MethodVisitor mv, int i) { // IDEA's ClsPsi builder fails to annotate synthetic parameters if (state.getClassBuilderMode() == ClassBuilderMode.LIGHT_CLASSES) return; // This is needed to avoid RuntimeInvisibleParameterAnnotations error in javac: // see MethodWriter.visitParameterAnnotation() AnnotationVisitor av = mv.visitParameterAnnotation(i, "Ljava/lang/Synthetic;", true); if (av != null) { av.visitEnd(); } }
public static void generateMethodBody( @NotNull MethodVisitor mv, @NotNull FunctionDescriptor functionDescriptor, @NotNull MethodContext context, @NotNull JvmMethodSignature signature, @NotNull FunctionGenerationStrategy strategy, @NotNull MemberCodegen<?> parentCodegen) { mv.visitCode(); Label methodBegin = new Label(); mv.visitLabel(methodBegin); JetTypeMapper typeMapper = parentCodegen.typeMapper; if (BuiltinSpecialBridgesUtil.shouldHaveTypeSafeBarrier( functionDescriptor, getSignatureMapper(typeMapper))) { generateTypeCheckBarrierIfNeeded( new InstructionAdapter(mv), functionDescriptor, signature.getReturnType(), /* delegateParameterType = */ null); } Label methodEnd; int functionFakeIndex = -1; int lambdaFakeIndex = -1; if (context.getParentContext() instanceof MultifileClassFacadeContext) { generateFacadeDelegateMethodBody( mv, signature.getAsmMethod(), (MultifileClassFacadeContext) context.getParentContext()); methodEnd = new Label(); } else { FrameMap frameMap = createFrameMap( parentCodegen.state, functionDescriptor, signature, isStaticMethod(context.getContextKind(), functionDescriptor)); if (context.isInlineMethodContext()) { functionFakeIndex = frameMap.enterTemp(Type.INT_TYPE); } if (context instanceof InlineLambdaContext) { lambdaFakeIndex = frameMap.enterTemp(Type.INT_TYPE); } Label methodEntry = new Label(); mv.visitLabel(methodEntry); context.setMethodStartLabel(methodEntry); if (!JetTypeMapper.isAccessor(functionDescriptor)) { genNotNullAssertionsForParameters( new InstructionAdapter(mv), parentCodegen.state, functionDescriptor, frameMap); } methodEnd = new Label(); context.setMethodEndLabel(methodEnd); strategy.generateBody(mv, frameMap, signature, context, parentCodegen); } mv.visitLabel(methodEnd); Type thisType = getThisTypeForFunction(functionDescriptor, context, typeMapper); generateLocalVariableTable( mv, signature, functionDescriptor, thisType, methodBegin, methodEnd, context.getContextKind()); if (context.isInlineMethodContext() && functionFakeIndex != -1) { mv.visitLocalVariable( JvmAbi.LOCAL_VARIABLE_NAME_PREFIX_INLINE_FUNCTION + functionDescriptor.getName().asString(), Type.INT_TYPE.getDescriptor(), null, methodBegin, methodEnd, functionFakeIndex); } if (context instanceof InlineLambdaContext && thisType != null && lambdaFakeIndex != -1) { String name = thisType.getClassName(); int indexOfLambdaOrdinal = name.lastIndexOf("$"); if (indexOfLambdaOrdinal > 0) { int lambdaOrdinal = Integer.parseInt(name.substring(indexOfLambdaOrdinal + 1)); mv.visitLocalVariable( JvmAbi.LOCAL_VARIABLE_NAME_PREFIX_INLINE_ARGUMENT + lambdaOrdinal, Type.INT_TYPE.getDescriptor(), null, methodBegin, methodEnd, lambdaFakeIndex); } } }
public void generateMethod( @NotNull JvmDeclarationOrigin origin, @NotNull FunctionDescriptor functionDescriptor, @NotNull MethodContext methodContext, @NotNull FunctionGenerationStrategy strategy) { OwnerKind contextKind = methodContext.getContextKind(); if (isInterface(functionDescriptor.getContainingDeclaration()) && functionDescriptor.getVisibility() == Visibilities.PRIVATE && contextKind != OwnerKind.DEFAULT_IMPLS) { return; } JvmMethodSignature jvmSignature = typeMapper.mapSignature(functionDescriptor, contextKind); Method asmMethod = jvmSignature.getAsmMethod(); int flags = getMethodAsmFlags(functionDescriptor, contextKind); boolean isNative = NativeKt.hasNativeAnnotation(functionDescriptor); if (isNative && owner instanceof MultifileClassFacadeContext) { // Native methods are only defined in facades and do not need package part implementations return; } MethodVisitor mv = v.newMethod( origin, flags, asmMethod.getName(), asmMethod.getDescriptor(), jvmSignature.getGenericsSignature(), getThrownExceptions(functionDescriptor, typeMapper)); if (CodegenContextUtil.isImplClassOwner(owner)) { v.getSerializationBindings().put(METHOD_FOR_FUNCTION, functionDescriptor, asmMethod); } generateMethodAnnotations(functionDescriptor, asmMethod, mv); generateParameterAnnotations( functionDescriptor, mv, typeMapper.mapSignature(functionDescriptor)); generateBridges(functionDescriptor); boolean staticInCompanionObject = AnnotationUtilKt.isPlatformStaticInCompanionObject(functionDescriptor); if (staticInCompanionObject) { ImplementationBodyCodegen parentBodyCodegen = (ImplementationBodyCodegen) memberCodegen.getParentCodegen(); parentBodyCodegen.addAdditionalTask( new JvmStaticGenerator(functionDescriptor, origin, state)); } if (state.getClassBuilderMode() == ClassBuilderMode.LIGHT_CLASSES || isAbstractMethod(functionDescriptor, contextKind)) { generateLocalVariableTable( mv, jvmSignature, functionDescriptor, getThisTypeForFunction(functionDescriptor, methodContext, typeMapper), new Label(), new Label(), contextKind); mv.visitEnd(); return; } if (!isNative) { generateMethodBody( mv, functionDescriptor, methodContext, jvmSignature, strategy, memberCodegen); } else if (staticInCompanionObject) { // native @JvmStatic foo() in companion object should delegate to the static native function // moved to the outer class mv.visitCode(); FunctionDescriptor staticFunctionDescriptor = JvmStaticGenerator.createStaticFunctionDescriptor(functionDescriptor); JvmMethodSignature jvmMethodSignature = typeMapper.mapSignature( memberCodegen.getContext().accessibleDescriptor(staticFunctionDescriptor, null)); Type owningType = typeMapper.mapClass( (ClassifierDescriptor) staticFunctionDescriptor.getContainingDeclaration()); generateDelegateToMethodBody( false, mv, jvmMethodSignature.getAsmMethod(), owningType.getInternalName()); } endVisit(mv, null, origin.getElement()); }