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org.jetbrains.kotlin.codegen.FunctionCodegen Maven / Gradle / Ivy
/*
* Copyright 2010-2019 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
package org.jetbrains.kotlin.codegen;
import com.intellij.openapi.progress.ProcessCanceledException;
import com.intellij.psi.PsiElement;
import com.intellij.util.ArrayUtil;
import kotlin.collections.CollectionsKt;
import kotlin.text.StringsKt;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import org.jetbrains.kotlin.backend.common.CodegenUtil;
import org.jetbrains.kotlin.backend.common.bridges.Bridge;
import org.jetbrains.kotlin.codegen.binding.CalculatedClosure;
import org.jetbrains.kotlin.codegen.binding.CodegenBinding;
import org.jetbrains.kotlin.codegen.context.*;
import org.jetbrains.kotlin.codegen.coroutines.CoroutineCodegenUtilKt;
import org.jetbrains.kotlin.codegen.coroutines.SuspendFunctionGenerationStrategy;
import org.jetbrains.kotlin.codegen.state.GenerationState;
import org.jetbrains.kotlin.codegen.state.KotlinTypeMapper;
import org.jetbrains.kotlin.codegen.state.TypeMapperUtilsKt;
import org.jetbrains.kotlin.config.JvmDefaultMode;
import org.jetbrains.kotlin.config.LanguageFeature;
import org.jetbrains.kotlin.config.LanguageVersionSettings;
import org.jetbrains.kotlin.descriptors.*;
import org.jetbrains.kotlin.descriptors.annotations.AnnotationDescriptor;
import org.jetbrains.kotlin.descriptors.impl.AnonymousFunctionDescriptor;
import org.jetbrains.kotlin.load.java.BuiltinMethodsWithSpecialGenericSignature;
import org.jetbrains.kotlin.load.java.JvmAbi;
import org.jetbrains.kotlin.load.java.SpecialBuiltinMembers;
import org.jetbrains.kotlin.load.java.descriptors.JavaClassDescriptor;
import org.jetbrains.kotlin.psi.*;
import org.jetbrains.kotlin.resolve.*;
import org.jetbrains.kotlin.resolve.annotations.ThrowUtilKt;
import org.jetbrains.kotlin.resolve.calls.util.UnderscoreUtilKt;
import org.jetbrains.kotlin.resolve.constants.ArrayValue;
import org.jetbrains.kotlin.resolve.constants.ConstantValue;
import org.jetbrains.kotlin.resolve.constants.KClassValue;
import org.jetbrains.kotlin.resolve.descriptorUtil.DescriptorUtilsKt;
import org.jetbrains.kotlin.resolve.inline.InlineOnlyKt;
import org.jetbrains.kotlin.resolve.inline.InlineUtil;
import org.jetbrains.kotlin.resolve.jvm.AsmTypes;
import org.jetbrains.kotlin.resolve.jvm.RuntimeAssertionInfo;
import org.jetbrains.kotlin.resolve.jvm.annotations.JvmAnnotationUtilKt;
import org.jetbrains.kotlin.resolve.jvm.diagnostics.JvmDeclarationOrigin;
import org.jetbrains.kotlin.resolve.jvm.diagnostics.JvmDeclarationOriginKind;
import org.jetbrains.kotlin.resolve.jvm.diagnostics.JvmDeclarationOriginKt;
import org.jetbrains.kotlin.resolve.jvm.jvmSignature.JvmMethodGenericSignature;
import org.jetbrains.kotlin.resolve.jvm.jvmSignature.JvmMethodParameterKind;
import org.jetbrains.kotlin.resolve.jvm.jvmSignature.JvmMethodParameterSignature;
import org.jetbrains.kotlin.resolve.jvm.jvmSignature.JvmMethodSignature;
import org.jetbrains.kotlin.types.KotlinType;
import org.jetbrains.kotlin.types.SimpleType;
import org.jetbrains.kotlin.types.TypeUtils;
import org.jetbrains.org.objectweb.asm.Label;
import org.jetbrains.org.objectweb.asm.MethodVisitor;
import org.jetbrains.org.objectweb.asm.Opcodes;
import org.jetbrains.org.objectweb.asm.Type;
import org.jetbrains.org.objectweb.asm.commons.InstructionAdapter;
import org.jetbrains.org.objectweb.asm.commons.Method;
import org.jetbrains.org.objectweb.asm.util.TraceMethodVisitor;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.util.*;
import java.util.stream.Collectors;
import static org.jetbrains.kotlin.codegen.AsmUtil.CAPTURED_THIS_FIELD;
import static org.jetbrains.kotlin.codegen.AsmUtil.boxType;
import static org.jetbrains.kotlin.codegen.CodegenUtilKt.generateBridgeForMainFunctionIfNecessary;
import static org.jetbrains.kotlin.codegen.DescriptorAsmUtil.*;
import static org.jetbrains.kotlin.codegen.serialization.JvmSerializationBindings.METHOD_FOR_FUNCTION;
import static org.jetbrains.kotlin.codegen.state.KotlinTypeMapper.isAccessor;
import static org.jetbrains.kotlin.descriptors.CallableMemberDescriptor.Kind.DECLARATION;
import static org.jetbrains.kotlin.descriptors.CallableMemberDescriptor.Kind.DELEGATION;
import static org.jetbrains.kotlin.descriptors.ModalityUtilsKt.isOverridable;
import static org.jetbrains.kotlin.resolve.DescriptorToSourceUtils.getSourceFromDescriptor;
import static org.jetbrains.kotlin.resolve.DescriptorUtils.*;
import static org.jetbrains.kotlin.resolve.descriptorUtil.DescriptorUtilsKt.getInlineClassRepresentation;
import static org.jetbrains.kotlin.resolve.inline.InlineOnlyKt.isInlineOnlyPrivateInBytecode;
import static org.jetbrains.kotlin.resolve.jvm.AsmTypes.OBJECT_TYPE;
import static org.jetbrains.kotlin.resolve.jvm.InlineClassManglingRulesKt.shouldHideConstructorDueToInlineClassTypeValueParameters;
import static org.jetbrains.kotlin.types.expressions.ExpressionTypingUtils.*;
import static org.jetbrains.org.objectweb.asm.Opcodes.*;
public class FunctionCodegen {
public final GenerationState state;
private final KotlinTypeMapper typeMapper;
private final BindingContext bindingContext;
private final CodegenContext owner;
private final ClassBuilder v;
private final MemberCodegen memberCodegen;
public FunctionCodegen(
@NotNull CodegenContext owner,
@NotNull ClassBuilder v,
@NotNull GenerationState state,
@NotNull MemberCodegen memberCodegen
) {
this.owner = owner;
this.v = v;
this.state = state;
this.typeMapper = state.getTypeMapper();
this.bindingContext = state.getBindingContext();
this.memberCodegen = memberCodegen;
}
public void gen(@NotNull KtNamedFunction function) {
SimpleFunctionDescriptor functionDescriptor = bindingContext.get(BindingContext.FUNCTION, function);
if (bindingContext.get(CodegenBinding.SUSPEND_FUNCTION_TO_JVM_VIEW, functionDescriptor) != null) {
functionDescriptor =
(SimpleFunctionDescriptor) bindingContext.get(CodegenBinding.SUSPEND_FUNCTION_TO_JVM_VIEW, functionDescriptor);
}
if (functionDescriptor == null) {
throw ExceptionLogger.logDescriptorNotFound("No descriptor for function " + function.getName(), function);
}
if (owner.getContextKind() != OwnerKind.DEFAULT_IMPLS || function.hasBody()) {
FunctionGenerationStrategy strategy;
if (functionDescriptor.isSuspend()) {
strategy = new SuspendFunctionGenerationStrategy(
state,
CoroutineCodegenUtilKt.unwrapInitialDescriptorForSuspendFunction(functionDescriptor),
function,
v.getThisName(),
this
);
} else {
strategy = new FunctionGenerationStrategy.FunctionDefault(state, function);
}
generateMethod(JvmDeclarationOriginKt.OtherOrigin(function, functionDescriptor), functionDescriptor, strategy);
}
generateDefaultIfNeeded(owner.intoFunction(functionDescriptor, true), functionDescriptor, owner.getContextKind(),
DefaultParameterValueLoader.DEFAULT, function);
generateOverloadsWithDefaultValues(function, functionDescriptor, functionDescriptor);
}
public void generateOverloadsWithDefaultValues(
@Nullable KtNamedFunction function,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull FunctionDescriptor delegateFunctionDescriptor
) {
new DefaultParameterValueSubstitutor(state).generateOverloadsIfNeeded(
function, functionDescriptor, delegateFunctionDescriptor, owner.getContextKind(), v, memberCodegen
);
}
public void generateMethod(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor descriptor,
@NotNull FunctionGenerationStrategy strategy
) {
if (CoroutineCodegenUtilKt.isSuspendFunctionNotSuspensionView(descriptor)) {
generateMethod(origin, CoroutineCodegenUtilKt.getOrCreateJvmSuspendFunctionView(descriptor, state), strategy);
return;
}
generateMethod(origin, descriptor, owner.intoFunction(descriptor), strategy);
}
public void generateMethod(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext methodContext,
@NotNull FunctionGenerationStrategy strategy
) {
OwnerKind contextKind = TypeMapperUtilsKt.isInlineClassConstructorAccessor(functionDescriptor)
? OwnerKind.ERASED_INLINE_CLASS
: methodContext.getContextKind();
DeclarationDescriptor containingDeclaration = functionDescriptor.getContainingDeclaration();
if (isInterface(containingDeclaration) &&
!processInterfaceMethod(functionDescriptor, contextKind, false, false, state.getJvmDefaultMode())) {
return;
}
if (!shouldGenerateMethodInsideInlineClass(origin, functionDescriptor, contextKind, containingDeclaration)) {
return;
}
boolean hasSpecialBridge = hasSpecialBridgeMethod(functionDescriptor);
JvmMethodGenericSignature jvmSignature = strategy.mapMethodSignature(functionDescriptor, typeMapper, contextKind, hasSpecialBridge);
Method asmMethod = jvmSignature.getAsmMethod();
int flags = getMethodAsmFlags(functionDescriptor, contextKind, state);
if (origin.getOriginKind() == JvmDeclarationOriginKind.SAM_DELEGATION) {
flags |= ACC_SYNTHETIC;
}
boolean isCompatibilityStubInDefaultImpls = isCompatibilityStubInDefaultImpls(functionDescriptor, methodContext, state.getJvmDefaultMode());
if (isCompatibilityStubInDefaultImpls) {
flags |= ACC_DEPRECATED;
}
if (functionDescriptor.isExternal() && owner instanceof MultifileClassFacadeContext) {
// Native methods are only defined in facades and do not need package part implementations
return;
}
MethodVisitor mv =
strategy.wrapMethodVisitor(
newMethod(
origin,
flags,
asmMethod.getName(),
asmMethod.getDescriptor(),
strategy.skipGenericSignature() ? null : jvmSignature.getGenericsSignature(),
getThrownExceptions(functionDescriptor, typeMapper)
),
flags, asmMethod.getName(),
asmMethod.getDescriptor()
);
recordMethodForFunctionIfAppropriate(functionDescriptor, asmMethod);
boolean skipNullabilityAnnotations =
(flags & ACC_PRIVATE) != 0 || (flags & ACC_SYNTHETIC) != 0 ||
InlineClassDescriptorResolver.isSpecializedEqualsMethod(functionDescriptor);
generateMethodAnnotationsIfRequired(
functionDescriptor, asmMethod, jvmSignature, mv,
isCompatibilityStubInDefaultImpls ? Collections.singletonList(CodegenUtilKt.JAVA_LANG_DEPRECATED) : Collections.emptyList(),
skipNullabilityAnnotations
);
GenerateJava8ParameterNamesKt.generateParameterNames(functionDescriptor, mv, jvmSignature, state, (flags & ACC_SYNTHETIC) != 0);
if (contextKind != OwnerKind.ERASED_INLINE_CLASS) {
generateBridges(functionDescriptor);
}
boolean staticInCompanionObject = CodegenUtilKt.isJvmStaticInCompanionObject(functionDescriptor);
if (staticInCompanionObject) {
ImplementationBodyCodegen parentBodyCodegen = (ImplementationBodyCodegen) memberCodegen.getParentCodegen();
parentBodyCodegen.addAdditionalTask(new JvmStaticInCompanionObjectGenerator(functionDescriptor, origin, state, parentBodyCodegen));
}
generateBridgeForMainFunctionIfNecessary(state, v, functionDescriptor, jvmSignature, origin, methodContext.getParentContext());
boolean isOpenSuspendInClass =
functionDescriptor.isSuspend() &&
functionDescriptor.getModality() != Modality.ABSTRACT && isOverridable(functionDescriptor) &&
!isInterface(containingDeclaration) &&
!(containingDeclaration instanceof PackageFragmentDescriptor) &&
origin.getOriginKind() != JvmDeclarationOriginKind.CLASS_MEMBER_DELEGATION_TO_DEFAULT_IMPL;
if (isOpenSuspendInClass) {
generateOpenMethodInSuspendClass(
origin, functionDescriptor, methodContext, strategy, mv, jvmSignature, asmMethod, flags, staticInCompanionObject
);
}
else if (canDelegateMethodBodyToInlineClass(origin, functionDescriptor, contextKind, containingDeclaration)) {
generateMethodInsideInlineClassWrapper(origin, functionDescriptor, (ClassDescriptor) containingDeclaration, mv, typeMapper);
}
else {
generateMethodBody(
origin, functionDescriptor, methodContext, strategy, mv, jvmSignature, staticInCompanionObject
);
}
}
private void recordMethodForFunctionIfAppropriate(
@NotNull FunctionDescriptor functionDescriptor,
Method asmMethod
) {
if (functionDescriptor instanceof AccessorForConstructorDescriptor) {
ConstructorDescriptor originalConstructor = ((AccessorForConstructorDescriptor) functionDescriptor).getCalleeDescriptor();
if (shouldHideConstructorDueToInlineClassTypeValueParameters(originalConstructor)) {
functionDescriptor = originalConstructor;
}
}
else if (shouldHideConstructorDueToInlineClassTypeValueParameters(functionDescriptor)) {
return;
}
functionDescriptor = CodegenUtilKt.unwrapFrontendVersion(functionDescriptor);
if (!CodegenContextUtil.isImplementationOwner(owner, functionDescriptor)) return;
v.getSerializationBindings().put(METHOD_FOR_FUNCTION, functionDescriptor, asmMethod);
}
private void generateMethodAnnotationsIfRequired(
@NotNull FunctionDescriptor functionDescriptor,
@NotNull Method asmMethod,
@NotNull JvmMethodGenericSignature jvmSignature,
@NotNull MethodVisitor mv,
@NotNull List additionalVisibleAnnotations,
boolean skipNullabilityAnnotations
) {
FunctionDescriptor annotationsOwner;
if (shouldHideConstructorDueToInlineClassTypeValueParameters(functionDescriptor)) {
if (functionDescriptor instanceof AccessorForConstructorDescriptor) {
annotationsOwner = ((AccessorForConstructorDescriptor) functionDescriptor).getCalleeDescriptor();
}
else {
return;
}
}
else {
annotationsOwner = functionDescriptor;
}
AnnotationCodegen.forMethod(mv, memberCodegen, state, skipNullabilityAnnotations)
.genAnnotations(annotationsOwner, asmMethod.getReturnType(), functionDescriptor.getReturnType(), null, additionalVisibleAnnotations);
generateParameterAnnotations(
annotationsOwner, mv, jvmSignature,
annotationsOwner.getValueParameters(),
memberCodegen, state, skipNullabilityAnnotations
);
}
@NotNull
public MethodVisitor newMethod(
@NotNull JvmDeclarationOrigin origin,
int access,
@NotNull String name,
@NotNull String desc,
@Nullable String signature,
@Nullable String[] exceptions
) {
return v.newMethod(origin, access, name, desc, signature, exceptions);
}
private static boolean shouldGenerateMethodInsideInlineClass(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull OwnerKind contextKind,
@NotNull DeclarationDescriptor containingDeclaration
) {
return !canDelegateMethodBodyToInlineClass(origin, functionDescriptor, contextKind, containingDeclaration) ||
!functionDescriptor.getOverriddenDescriptors().isEmpty() ||
CodegenUtilKt.isJvmStaticInInlineClass(functionDescriptor);
}
private static boolean canDelegateMethodBodyToInlineClass(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull OwnerKind contextKind,
@NotNull DeclarationDescriptor containingDeclaration
) {
// special kind / function
if (contextKind == OwnerKind.ERASED_INLINE_CLASS) return false;
if (origin.getOriginKind() == JvmDeclarationOriginKind.UNBOX_METHOD_OF_INLINE_CLASS) return false;
// Synthesized class member descriptors corresponding to JvmStatic members of companion object
if (CodegenUtilKt.isJvmStaticInInlineClass(functionDescriptor)) return false;
// descriptor corresponds to the underlying value
if (functionDescriptor instanceof PropertyAccessorDescriptor) {
PropertyDescriptor property = ((PropertyAccessorDescriptor) functionDescriptor).getCorrespondingProperty();
if (InlineClassesUtilsKt.isUnderlyingPropertyOfInlineClass(property)) {
return false;
}
}
// base check
boolean isInlineClass = InlineClassesUtilsKt.isInlineClass(containingDeclaration);
boolean simpleFunctionOrProperty =
!(functionDescriptor instanceof ConstructorDescriptor) && !isAccessor(functionDescriptor);
return isInlineClass && simpleFunctionOrProperty;
}
public static void generateMethodInsideInlineClassWrapper(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull ClassDescriptor inlineClass,
@NotNull MethodVisitor mv,
@NotNull KotlinTypeMapper typeMapper
) {
mv.visitCode();
Type fieldOwnerType = typeMapper.mapClass(inlineClass);
Method erasedMethodImpl = typeMapper.mapAsmMethod(functionDescriptor.getOriginal(), OwnerKind.ERASED_INLINE_CLASS);
InlineClassRepresentation representation = getInlineClassRepresentation(inlineClass);
assert representation != null : "Not an inline class: " + inlineClass;
generateDelegateToStaticErasedVersion(
mv, erasedMethodImpl, fieldOwnerType,
representation.getUnderlyingPropertyName().asString(),
typeMapper.mapType(representation.getUnderlyingType())
);
endVisit(mv, null, origin.getElement());
}
private void generateOpenMethodInSuspendClass(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext methodContext,
@NotNull FunctionGenerationStrategy strategy,
@NotNull MethodVisitor mv,
@NotNull JvmMethodSignature jvmSignature,
@NotNull Method asmMethod,
int flags,
boolean staticInCompanionObject
) {
mv.visitCode();
mv.visitVarInsn(Opcodes.ALOAD, 0);
int index = 1;
for (Type type : asmMethod.getArgumentTypes()) {
mv.visitVarInsn(type.getOpcode(Opcodes.ILOAD), index);
index += type.getSize();
}
Method asmMethodForOpenSuspendImpl = CoroutineCodegenUtilKt.getImplForOpenMethod(asmMethod, v.getThisName());
// remove generic signature as it's unnecessary for synthetic methods
JvmMethodSignature jvmSignatureForOpenSuspendImpl =
new JvmMethodGenericSignature(
asmMethodForOpenSuspendImpl,
jvmSignature.getValueParameters(),
null
);
mv.visitMethodInsn(
Opcodes.INVOKESTATIC,
v.getThisName(), asmMethodForOpenSuspendImpl.getName(), asmMethodForOpenSuspendImpl.getDescriptor(),
false
);
mv.visitInsn(Opcodes.ARETURN);
mv.visitEnd();
int flagsForOpenSuspendImpl = flags;
flagsForOpenSuspendImpl |= Opcodes.ACC_STATIC | Opcodes.ACC_SYNTHETIC;
flagsForOpenSuspendImpl &= ~getVisibilityAccessFlag(functionDescriptor);
flagsForOpenSuspendImpl |= AsmUtil.NO_FLAG_PACKAGE_PRIVATE;
MethodVisitor mvForOpenSuspendImpl = strategy.wrapMethodVisitor(
v.newMethod(origin,
flagsForOpenSuspendImpl,
asmMethodForOpenSuspendImpl.getName(),
asmMethodForOpenSuspendImpl.getDescriptor(),
null,
getThrownExceptions(functionDescriptor, typeMapper)
),
flagsForOpenSuspendImpl, asmMethodForOpenSuspendImpl.getName(),
asmMethodForOpenSuspendImpl.getDescriptor()
);
generateMethodBody(
origin, functionDescriptor, methodContext, strategy, mvForOpenSuspendImpl, jvmSignatureForOpenSuspendImpl,
staticInCompanionObject
);
}
private void generateMethodBody(
@NotNull JvmDeclarationOrigin origin,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext methodContext,
@NotNull FunctionGenerationStrategy strategy,
@NotNull MethodVisitor mv,
@NotNull JvmMethodSignature jvmSignature,
boolean staticInCompanionObject
) {
OwnerKind contextKind = methodContext.getContextKind();
if (!state.getClassBuilderMode().generateBodies
|| isAbstractMethod(functionDescriptor, contextKind, state.getJvmDefaultMode())
|| shouldSkipMethodBodyInAbiMode(state.getClassBuilderMode(), origin)
) {
generateLocalVariableTable(
mv,
jvmSignature,
functionDescriptor,
getThisTypeForFunction(functionDescriptor, methodContext, typeMapper),
new Label(),
new Label(),
contextKind,
state,
0);
mv.visitEnd();
return;
}
if (!functionDescriptor.isExternal()) {
generateMethodBody(mv, functionDescriptor, methodContext, jvmSignature, strategy, memberCodegen, state.getJvmDefaultMode());
}
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 = JvmStaticInCompanionObjectGenerator
.createStaticFunctionDescriptor(functionDescriptor);
Method accessorMethod =
typeMapper.mapAsmMethod(memberCodegen.getContext().accessibleDescriptor(staticFunctionDescriptor, null));
Type owningType = typeMapper.mapClass((ClassifierDescriptor) staticFunctionDescriptor.getContainingDeclaration());
generateDelegateToStaticMethodBody(false, mv, accessorMethod, owningType.getInternalName(), false);
}
endVisit(mv, null, origin.getElement());
}
private static boolean shouldSkipMethodBodyInAbiMode(@NotNull ClassBuilderMode classBuilderMode, @NotNull JvmDeclarationOrigin origin) {
if (classBuilderMode != ClassBuilderMode.ABI) return false;
DeclarationDescriptor descriptor = origin.getDescriptor();
return descriptor != null && !InlineUtil.isInlineOrContainingInline(descriptor);
}
public static void generateParameterAnnotations(
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodVisitor mv,
@NotNull JvmMethodSignature jvmSignature,
@NotNull List valueParameters,
@NotNull MemberCodegen memberCodegen,
@NotNull GenerationState state,
boolean skipNullabilityAnnotations
) {
if (isAccessor(functionDescriptor)) return;
Iterator iterator = valueParameters.iterator();
List kotlinParameterTypes = jvmSignature.getValueParameters();
int syntheticParameterCount = CollectionsKt.count(kotlinParameterTypes, signature -> signature.getKind().isSkippedInGenericSignature());
Asm7UtilKt.visitAnnotableParameterCount(mv, kotlinParameterTypes.size() - syntheticParameterCount);
boolean isDefaultImpl = OwnerKind.DEFAULT_IMPLS == memberCodegen.context.getContextKind();
for (int i = 0; i < kotlinParameterTypes.size(); i++) {
JvmMethodParameterSignature parameterSignature = kotlinParameterTypes.get(i);
JvmMethodParameterKind kind = parameterSignature.getKind();
if (kind.isSkippedInGenericSignature()) {
continue;
}
ParameterDescriptor annotated =
// TODO: Generate annotations for context receivers
kind == JvmMethodParameterKind.VALUE
? iterator.next()
: kind == JvmMethodParameterKind.RECEIVER
? JvmCodegenUtil.getDirectMember(functionDescriptor).getExtensionReceiverParameter()
: kind == JvmMethodParameterKind.THIS && isDefaultImpl
? JvmCodegenUtil.getDirectMember(functionDescriptor).getDispatchReceiverParameter()
: null;
if (annotated != null) {
int parameterIndex = i - syntheticParameterCount;
AnnotationCodegen
.forParameter(parameterIndex, mv, memberCodegen, state, skipNullabilityAnnotations)
.genAnnotations(
annotated, parameterSignature.getAsmType(), annotated.getReturnType(), functionDescriptor,
Collections.emptyList()
);
}
}
}
@Nullable
private static Type getThisTypeForFunction(
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext context,
@NotNull KotlinTypeMapper typeMapper
) {
ReceiverParameterDescriptor dispatchReceiver = functionDescriptor.getDispatchReceiverParameter();
// all functions inside erased version of inline class are static, so they don't have `this` as is,
// but functions inside wrapper class should use type of wrapper class, not the underlying type
if (functionDescriptor instanceof ConstructorDescriptor) {
return typeMapper.mapTypeAsDeclaration(functionDescriptor);
}
else if (dispatchReceiver != null) {
return typeMapper.mapTypeAsDeclaration(dispatchReceiver.getType());
}
else if (isFunctionLiteral(functionDescriptor) ||
isLocalFunction(functionDescriptor) ||
isFunctionExpression(functionDescriptor)) {
return typeMapper.mapClass(context.getThisDescriptor());
}
else {
return null;
}
}
public static void generateMethodBody(
@NotNull MethodVisitor mv,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext context,
@NotNull JvmMethodSignature signature,
@NotNull FunctionGenerationStrategy strategy,
@NotNull MemberCodegen parentCodegen,
@NotNull JvmDefaultMode jvmDefaultMode
) {
mv.visitCode();
Label methodBegin = new Label();
mv.visitLabel(methodBegin);
KotlinTypeMapper typeMapper = parentCodegen.typeMapper;
if (BuiltinSpecialBridgesUtil.shouldHaveTypeSafeBarrier(functionDescriptor, typeMapper::mapAsmMethod)) {
generateTypeCheckBarrierIfNeeded(
new InstructionAdapter(mv), functionDescriptor, signature.getReturnType(), null, typeMapper);
}
Label methodEntry = null;
Label methodEnd;
int functionFakeIndex = -1;
if (context.getParentContext() instanceof MultifileClassFacadeContext) {
generateFacadeDelegateMethodBody(mv, signature.getAsmMethod(), (MultifileClassFacadeContext) context.getParentContext());
methodEnd = new Label();
}
else if (isCompatibilityStubInDefaultImpls(functionDescriptor, context, jvmDefaultMode)) {
FunctionDescriptor compatibility = ((DefaultImplsClassContext) context.getParentContext()).getInterfaceContext()
.getAccessorForJvmDefaultCompatibility(functionDescriptor);
int flags = DescriptorAsmUtil.getMethodAsmFlags(functionDescriptor, OwnerKind.DEFAULT_IMPLS, context.getState());
assert (flags & Opcodes.ACC_ABSTRACT) == 0 : "Interface method with body should be non-abstract" + functionDescriptor;
CallableMethod method = typeMapper.mapToCallableMethod(compatibility, false);
generateDelegateToStaticMethodBody(
true, mv,
method.getAsmMethod(),
method.getOwner().getInternalName(),
true, signature.getReturnType());
methodEnd = new Label();
}
else {
FrameMap frameMap = createFrameMap(
parentCodegen.state, signature, functionDescriptor.getExtensionReceiverParameter(),
functionDescriptor.getValueParameters(), isStaticMethod(context.getContextKind(), functionDescriptor)
);
// Manually add `continuation` parameter to frame map, thus it will not overlap with fake indices
if (functionDescriptor.isSuspend() && CoroutineCodegenUtilKt.isSuspendFunctionNotSuspensionView(functionDescriptor)) {
FunctionDescriptor view = CoroutineCodegenUtilKt.getOrCreateJvmSuspendFunctionView(functionDescriptor, parentCodegen.state);
ValueParameterDescriptor continuationValueDescriptor = view.getValueParameters().get(view.getValueParameters().size() - 1);
frameMap.enter(continuationValueDescriptor, typeMapper.mapType(continuationValueDescriptor));
}
if (context.isInlineMethodContext() || context instanceof InlineLambdaContext) {
functionFakeIndex = newFakeTempIndex(mv, frameMap);
}
methodEntry = new Label();
mv.visitLabel(methodEntry);
context.setMethodStartLabel(methodEntry);
if (!strategy.skipNotNullAssertionsForParameters()) {
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);
if (functionDescriptor instanceof AnonymousFunctionDescriptor && functionDescriptor.isSuspend()) {
functionDescriptor = CoroutineCodegenUtilKt.getOrCreateJvmSuspendFunctionView(
functionDescriptor,
parentCodegen.state
);
}
generateLocalVariableTable(
mv, signature, functionDescriptor, thisType, methodBegin, methodEnd, context.getContextKind(), parentCodegen.state,
(functionFakeIndex >= 0 ? 1 : 0)
);
//TODO: it's best to move all below logic to 'generateLocalVariableTable' method
if (context.isInlineMethodContext() && functionFakeIndex != -1) {
assert methodEntry != null : "methodEntry is not initialized";
mv.visitLocalVariable(
JvmAbi.LOCAL_VARIABLE_NAME_PREFIX_INLINE_FUNCTION + typeMapper.mapAsmMethod(functionDescriptor).getName(),
Type.INT_TYPE.getDescriptor(), null,
methodEntry, methodEnd,
functionFakeIndex);
} else if (context instanceof InlineLambdaContext && thisType != null && functionFakeIndex != -1) {
String internalName = thisType.getInternalName();
String lambdaLocalName = StringsKt.substringAfterLast(internalName, '/', internalName);
KtPureElement functionArgument = parentCodegen.element;
String functionName = "unknown";
if (functionArgument instanceof KtFunction) {
ValueParameterDescriptor inlineArgumentDescriptor =
InlineUtil.getInlineArgumentDescriptor((KtFunction) functionArgument, parentCodegen.bindingContext);
if (inlineArgumentDescriptor != null) {
functionName = inlineArgumentDescriptor.getContainingDeclaration().getName().asString();
}
}
assert methodEntry != null : "methodEntry is not initialized";
mv.visitLocalVariable(
JvmAbi.LOCAL_VARIABLE_NAME_PREFIX_INLINE_ARGUMENT + "-" + functionName + "-" + lambdaLocalName,
Type.INT_TYPE.getDescriptor(), null,
methodEntry, methodEnd,
functionFakeIndex);
}
}
private static boolean isLambdaPassedToInlineOnly(KtFunction lambda, BindingContext bindingContext) {
ValueParameterDescriptor parameterDescriptor = InlineUtil.getInlineArgumentDescriptor(lambda, bindingContext);
if (parameterDescriptor == null) {
return false;
}
CallableDescriptor containingCallable = parameterDescriptor.getContainingDeclaration();
if (containingCallable instanceof FunctionDescriptor) {
return InlineOnlyKt.isInlineOnly((MemberDescriptor) containingCallable);
}
return false;
}
private static int newFakeTempIndex(@NotNull MethodVisitor mv, @NotNull FrameMap frameMap) {
int fakeIndex = frameMap.enterTemp(Type.INT_TYPE);
mv.visitLdcInsn(0);
mv.visitVarInsn(ISTORE, fakeIndex);
return fakeIndex;
}
private static boolean isCompatibilityStubInDefaultImpls(
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodContext context,
@NotNull JvmDefaultMode jvmDefaultMode
) {
return OwnerKind.DEFAULT_IMPLS == context.getContextKind() &&
isCompiledInCompatibilityMode(jvmDefaultMode, functionDescriptor) &&
JvmAnnotationUtilKt.checkIsImplementationCompiledToJvmDefault(functionDescriptor, jvmDefaultMode);
}
private static boolean isCompiledInCompatibilityMode(JvmDefaultMode mode, CallableMemberDescriptor descriptor) {
return mode.isCompatibility() ||
(mode == JvmDefaultMode.ALL_INCOMPATIBLE &&
JvmAnnotationUtilKt.hasJvmDefaultWithCompatibilityAnnotation(descriptor.getContainingDeclaration()));
}
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,
@NotNull GenerationState state,
int shiftForDestructuringVariables
) {
if (functionDescriptor.isSuspend() && !(functionDescriptor instanceof AnonymousFunctionDescriptor)) {
FunctionDescriptor unwrapped = CoroutineCodegenUtilKt.unwrapInitialDescriptorForSuspendFunction(
functionDescriptor
);
if (unwrapped != functionDescriptor) {
generateLocalVariableTable(
mv,
new JvmMethodSignature(
jvmMethodSignature.getAsmMethod(),
jvmMethodSignature.getValueParameters().subList(
0,
jvmMethodSignature.getValueParameters().size() - 1
)
),
unwrapped,
thisType, methodBegin, methodEnd, ownerKind, state, shiftForDestructuringVariables
);
return;
}
}
generateLocalVariablesForParameters(mv,
jvmMethodSignature, functionDescriptor,
thisType, methodBegin, methodEnd, functionDescriptor.getValueParameters(),
DescriptorAsmUtil.isStaticMethod(ownerKind, functionDescriptor), state
);
}
public static void generateLocalVariablesForParameters(
@NotNull MethodVisitor mv,
@NotNull JvmMethodSignature jvmMethodSignature,
@NotNull FunctionDescriptor functionDescriptor,
@Nullable Type thisType,
@NotNull Label methodBegin,
@NotNull Label methodEnd,
Collection valueParameters,
boolean isStatic,
@NotNull GenerationState state
) {
Iterator valueParameterIterator = valueParameters.iterator();
List params = jvmMethodSignature.getValueParameters();
int shift = 0;
if (!isStatic) {
//add this
if (thisType != null) {
mv.visitLocalVariable("this", thisType.getDescriptor(), null, methodBegin, methodEnd, shift);
}
else {
//TODO: provide thisType for callable reference
}
shift++;
}
boolean isEnumName = true;
KotlinTypeMapper typeMapper = state.getTypeMapper();
for (int i = 0; i < params.size(); i++) {
JvmMethodParameterSignature param = params.get(i);
JvmMethodParameterKind kind = param.getKind();
String parameterName;
switch (kind) {
case VALUE:
ValueParameterDescriptor parameter = valueParameterIterator.next();
String nameForDestructuredParameter = VariableAsmNameManglingUtils.getNameForDestructuredParameterOrNull(parameter);
parameterName =
nameForDestructuredParameter == null
? computeParameterName(i, parameter)
: nameForDestructuredParameter;
break;
case RECEIVER:
case CONTEXT_RECEIVER:
parameterName = DescriptorAsmUtil.getNameForReceiverParameter(
functionDescriptor, typeMapper.getBindingContext(), state.getLanguageVersionSettings());
break;
case OUTER:
parameterName = CAPTURED_THIS_FIELD; //should be 'this$X' depending on inner class nesting
break;
case ENUM_NAME_OR_ORDINAL:
parameterName = isEnumName ? "$enum$name" : "$enum$ordinal";
isEnumName = !isEnumName;
break;
default:
String lowercaseKind = kind.name().toLowerCase();
parameterName = needIndexForVar(kind)
? "$" + lowercaseKind + "$" + i
: "$" + lowercaseKind;
break;
}
Type type = param.getAsmType();
mv.visitLocalVariable(parameterName, type.getDescriptor(), null, methodBegin, methodEnd, shift);
shift += type.getSize();
}
}
private static String computeParameterName(int i, ValueParameterDescriptor parameter) {
PsiElement element = DescriptorToSourceUtils.descriptorToDeclaration(parameter);
if (element instanceof KtParameter && UnderscoreUtilKt.isSingleUnderscore((KtParameter) element)) {
return "$noName_" + i;
}
return parameter.getName().asString();
}
public static void generateFacadeDelegateMethodBody(
@NotNull MethodVisitor mv,
@NotNull Method asmMethod,
@NotNull MultifileClassFacadeContext context
) {
generateDelegateToStaticMethodBody(true, mv, asmMethod, context.getFilePartType().getInternalName(), false);
}
private static void generateDelegateToMethodBody(
// -1 means to add additional this parameter on stack
int firstParamIndex,
@NotNull MethodVisitor mv,
@NotNull Method asmMethod,
@NotNull String classToDelegateTo,
int opcode,
boolean isInterface,
@NotNull Type returnType
) {
InstructionAdapter iv = new InstructionAdapter(mv);
Type[] argTypes = asmMethod.getArgumentTypes();
// The first line of some package file is written to the line number attribute of a static delegate to allow to 'step into' it
// This is similar to what javac does with bridge methods
Label label = new Label();
iv.visitLabel(label);
iv.visitLineNumber(1, label);
int paramIndex = firstParamIndex;
if (paramIndex == -1) {
iv.load(0, AsmTypes.OBJECT_TYPE);
paramIndex = 1;
}
for (Type argType : argTypes) {
iv.load(paramIndex, argType);
paramIndex += argType.getSize();
}
iv.visitMethodInsn(opcode, classToDelegateTo, asmMethod.getName(), asmMethod.getDescriptor(), isInterface);
StackValue.onStack(asmMethod.getReturnType()).coerceTo(returnType, null, iv);
iv.areturn(returnType);
}
private static void generateDelegateToStaticErasedVersion(
@NotNull MethodVisitor mv,
@NotNull Method erasedStaticAsmMethod,
@NotNull Type fieldOwnerType,
@NotNull String fieldName,
@NotNull Type fieldType
) {
String internalName = fieldOwnerType.getInternalName();
InstructionAdapter iv = new InstructionAdapter(mv);
Type[] argTypes = erasedStaticAsmMethod.getArgumentTypes();
Label label = new Label();
iv.visitLabel(label);
iv.visitLineNumber(1, label);
iv.load(0, AsmTypes.OBJECT_TYPE);
iv.visitFieldInsn(Opcodes.GETFIELD, internalName, fieldName, fieldType.getDescriptor());
int k = 1;
for (int i = 1; i < argTypes.length; i++) {
Type argType = argTypes[i];
iv.load(k, argType);
k += argType.getSize();
}
iv.invokestatic(internalName, erasedStaticAsmMethod.getName(), erasedStaticAsmMethod.getDescriptor(), false);
iv.areturn(erasedStaticAsmMethod.getReturnType());
}
private static void generateDelegateToStaticMethodBody(
boolean isStatic,
@NotNull MethodVisitor mv,
@NotNull Method asmMethod,
@NotNull String classToDelegateTo,
boolean isInterfaceMethodCall
) {
generateDelegateToStaticMethodBody(isStatic, mv, asmMethod, classToDelegateTo, isInterfaceMethodCall, asmMethod.getReturnType());
}
private static void generateDelegateToStaticMethodBody(
boolean isStatic,
@NotNull MethodVisitor mv,
@NotNull Method asmMethod,
@NotNull String classToDelegateTo,
boolean isInterfaceMethodCall,
@NotNull Type returnType
) {
generateDelegateToMethodBody(isStatic ? 0 : 1, mv, asmMethod, classToDelegateTo, Opcodes.INVOKESTATIC, isInterfaceMethodCall, returnType);
}
private static boolean needIndexForVar(JvmMethodParameterKind kind) {
return kind == JvmMethodParameterKind.CAPTURED_LOCAL_VARIABLE ||
kind == JvmMethodParameterKind.ENUM_NAME_OR_ORDINAL ||
kind == JvmMethodParameterKind.SUPER_CALL_PARAM;
}
public static void endVisit(MethodVisitor mv, @Nullable String description) {
endVisit(mv, description, (PsiElement)null);
}
public static void endVisit(MethodVisitor mv, @Nullable String description, @Nullable KtPureElement method) {
endVisit(mv, description, (PsiElement)(method == null ? null : method.getPsiOrParent()));
}
public static void endVisit(MethodVisitor mv, @Nullable String description, @NotNull KtElement method) {
endVisit(mv, description, (PsiElement)method);
}
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 e) {
String bytecode = renderByteCodeIfAvailable(mv);
throw new CompilationException(
"wrong bytecode generated" +
(description != null ? " for " + description : "") + "\n" +
(bytecode != null ? bytecode : ""),
e, method
);
}
}
@SuppressWarnings("WeakerAccess") // Useful in debug
@Nullable
public static String renderByteCodeIfAvailable(@NotNull MethodVisitor mv) {
String bytecode = null;
if (mv instanceof TransformationMethodVisitor) {
mv = ((TransformationMethodVisitor) mv).getTraceMethodVisitorIfPossible();
}
if (mv instanceof TraceMethodVisitor) {
TraceMethodVisitor traceMethodVisitor = (TraceMethodVisitor) mv;
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
traceMethodVisitor.p.print(pw);
pw.close();
bytecode = sw.toString();
}
return bytecode;
}
private boolean hasSpecialBridgeMethod(@NotNull FunctionDescriptor descriptor) {
if (SpecialBuiltinMembers.getOverriddenBuiltinReflectingJvmDescriptor(descriptor) == null) return false;
return !BuiltinSpecialBridgesUtil.generateBridgesForBuiltinSpecial(
descriptor, typeMapper::mapAsmMethod, state
).isEmpty();
}
public void generateBridges(@NotNull FunctionDescriptor descriptor) {
if (descriptor instanceof ConstructorDescriptor) return;
if (owner.getContextKind() == OwnerKind.DEFAULT_IMPLS) return;
if (JvmBridgesImplKt.isAbstractOnJvmIgnoringActualModality(descriptor, state.getJvmDefaultMode())) return;
// equals(Any?), hashCode(), toString() never need bridges
if (isMethodOfAny(descriptor)) return;
boolean isSpecial = SpecialBuiltinMembers.getOverriddenBuiltinReflectingJvmDescriptor(descriptor) != null;
Set> bridgesToGenerate;
if (!isSpecial) {
bridgesToGenerate =
JvmBridgesImplKt.generateBridgesForFunctionDescriptorForJvm(descriptor, typeMapper::mapAsmMethod, state);
if (!bridgesToGenerate.isEmpty()) {
PsiElement origin = descriptor.getKind() == DECLARATION ? getSourceFromDescriptor(descriptor) : null;
boolean isSpecialBridge =
BuiltinMethodsWithSpecialGenericSignature.getOverriddenBuiltinFunctionWithErasedValueParametersInJava(descriptor) != null;
for (Bridge bridge : bridgesToGenerate) {
generateBridge(origin, descriptor, bridge.getFrom(), bridge.getTo(), getBridgeReturnType(bridge), isSpecialBridge, false);
}
}
}
else {
Set> specials =
BuiltinSpecialBridgesUtil.generateBridgesForBuiltinSpecial(descriptor, typeMapper::mapAsmMethod, state);
if (!specials.isEmpty()) {
PsiElement origin = descriptor.getKind() == DECLARATION ? getSourceFromDescriptor(descriptor) : null;
for (BridgeForBuiltinSpecial bridge : specials) {
generateBridge(
origin, descriptor, bridge.getFrom(), bridge.getTo(),
descriptor.getReturnType(), // TODO
bridge.isSpecial(), bridge.isDelegateToSuper()
);
}
}
if (!descriptor.getKind().isReal() && isAbstractMethod(descriptor, OwnerKind.IMPLEMENTATION, state.getJvmDefaultMode())) {
CallableDescriptor overridden = SpecialBuiltinMembers.getOverriddenBuiltinReflectingJvmDescriptor(descriptor);
assert overridden != null;
if (!isThereOverriddenInKotlinClass(descriptor)) {
Method method = typeMapper.mapAsmMethod(descriptor);
int flags = ACC_ABSTRACT | getVisibilityAccessFlag(descriptor);
v.newMethod(JvmDeclarationOriginKt.AugmentedBuiltInApi(overridden), flags, method.getName(), method.getDescriptor(), null, null);
}
}
}
}
private KotlinType getBridgeReturnType(Bridge bridge) {
// Return type for the bridge affects inline class values boxing/unboxing in bridge.
// Here we take 1st available return type for the bridge.
// In correct cases it doesn't matter what particular return type to use,
// since either all return types are inline class itself,
// or all return types are supertypes of inline class (and can't be inline classes).
for (DescriptorBasedFunctionHandleForJvm handle : bridge.getOriginalFunctions()) {
return handle.getDescriptor().getReturnType();
}
if (state.getClassBuilderMode().mightBeIncorrectCode) {
// Don't care, 'Any?' would suffice.
return state.getModule().getBuiltIns().getNullableAnyType();
} else if (bridge.getOriginalFunctions().isEmpty()) {
throw new AssertionError("No overridden functions for the bridge method '" + bridge.getTo() + "'");
} else {
throw new AssertionError(
"No return type for the bridge method '" + bridge.getTo() + "' found in the following overridden functions:\n" +
bridge.getOriginalFunctions().stream()
.map(handle -> handle.getDescriptor().toString())
.collect(Collectors.joining("\n"))
);
}
}
public static boolean isThereOverriddenInKotlinClass(@NotNull CallableMemberDescriptor descriptor) {
return CollectionsKt.any(
getAllOverriddenDescriptors(descriptor),
overridden -> !(overridden.getContainingDeclaration() instanceof JavaClassDescriptor) &&
isClass(overridden.getContainingDeclaration())
);
}
@NotNull
public static String[] getThrownExceptions(@NotNull FunctionDescriptor function, @NotNull KotlinTypeMapper typeMapper) {
return ArrayUtil.toStringArray(CollectionsKt.map(
getThrownExceptions(function, typeMapper.getLanguageVersionSettings()),
d -> typeMapper.mapClass(d).getInternalName()
));
}
@NotNull
public static List getThrownExceptions(
@NotNull FunctionDescriptor function,
@NotNull LanguageVersionSettings languageVersionSettings
) {
if (function.getKind() == DELEGATION &&
languageVersionSettings.supportsFeature(LanguageFeature.DoNotGenerateThrowsForDelegatedKotlinMembers)) {
return Collections.emptyList();
}
AnnotationDescriptor annotation = function.getAnnotations().findAnnotation(ThrowUtilKt.JVM_THROWS_ANNOTATION_FQ_NAME);
if (annotation == null) return Collections.emptyList();
Collection> values = annotation.getAllValueArguments().values();
if (values.isEmpty()) return Collections.emptyList();
Object value = values.iterator().next();
if (!(value instanceof ArrayValue)) return Collections.emptyList();
ArrayValue arrayValue = (ArrayValue) value;
return CollectionsKt.mapNotNull(
arrayValue.getValue(),
(ConstantValue constant) -> {
if (constant instanceof KClassValue) {
return DescriptorUtils.getClassDescriptorForType(
((KClassValue) constant).getArgumentType(DescriptorUtilsKt.getModule(function))
);
}
return null;
}
);
}
void generateDefaultIfNeeded(
@NotNull MethodContext owner,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull OwnerKind kind,
@NotNull DefaultParameterValueLoader loadStrategy,
@Nullable KtNamedFunction function
) {
DeclarationDescriptor contextClass = owner.getContextDescriptor().getContainingDeclaration();
if (isInterface(contextClass) &&
!processInterfaceMethod(functionDescriptor, kind, true, false, state.getJvmDefaultMode())) {
return;
}
if (InlineClassesUtilsKt.isInlineClass(contextClass) && kind != OwnerKind.ERASED_INLINE_CLASS) {
return;
}
if (!isDefaultNeeded(functionDescriptor, function)) {
return;
}
// $default methods are never private to be accessible from other class files (e.g. inner) without the need of synthetic accessors
// $default methods are never protected to be accessible from subclass nested classes
// TODO: maybe best to generate private default in interface as private
int visibilityFlag =
(!isInterface(functionDescriptor.getContainingDeclaration()) || kind == OwnerKind.DEFAULT_IMPLS) &&
(DescriptorVisibilities.isPrivate(functionDescriptor.getVisibility()) || isInlineOnlyPrivateInBytecode(functionDescriptor))
? AsmUtil.NO_FLAG_PACKAGE_PRIVATE : Opcodes.ACC_PUBLIC;
int flags = visibilityFlag | getDeprecatedAccessFlag(functionDescriptor) | ACC_SYNTHETIC;
if (!(functionDescriptor instanceof ConstructorDescriptor &&
!InlineClassesUtilsKt.isInlineClass(functionDescriptor.getContainingDeclaration()))
) {
flags |= ACC_STATIC;
}
Method defaultMethod = typeMapper.mapDefaultMethod(functionDescriptor, kind);
MethodVisitor mv = v.newMethod(
JvmDeclarationOriginKt.Synthetic(function, functionDescriptor),
flags,
defaultMethod.getName(),
defaultMethod.getDescriptor(), null,
getThrownExceptions(functionDescriptor, typeMapper)
);
if (!state.getClassBuilderMode().generateBodies) {
if (this.owner instanceof MultifileClassFacadeContext)
endVisit(mv, "default method delegation", getSourceFromDescriptor(functionDescriptor));
else
endVisit(mv, "default method", getSourceFromDescriptor(functionDescriptor));
return;
}
if (this.owner instanceof MultifileClassFacadeContext) {
mv.visitCode();
generateFacadeDelegateMethodBody(mv, defaultMethod, (MultifileClassFacadeContext) this.owner);
endVisit(mv, "default method delegation", getSourceFromDescriptor(functionDescriptor));
}
else if (isCompatibilityStubInDefaultImpls(functionDescriptor, owner, state.getJvmDefaultMode())) {
mv.visitCode();
Method interfaceDefaultMethod = typeMapper.mapDefaultMethod(functionDescriptor, OwnerKind.IMPLEMENTATION);
generateDelegateToStaticMethodBody(
true, mv,
interfaceDefaultMethod,
typeMapper.mapOwner(functionDescriptor).getInternalName(),
true
);
endVisit(mv, "default method delegation to interface one", getSourceFromDescriptor(functionDescriptor));
}
else {
mv.visitCode();
generateDefaultImplBody(owner, functionDescriptor, mv, loadStrategy, function, memberCodegen, defaultMethod);
endVisit(mv, "default method", getSourceFromDescriptor(functionDescriptor));
}
}
public static void generateDefaultImplBody(
@NotNull MethodContext methodContext,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull MethodVisitor mv,
@NotNull DefaultParameterValueLoader loadStrategy,
@Nullable KtNamedFunction function,
@NotNull MemberCodegen parentCodegen,
@NotNull Method defaultMethod
) {
if (methodContext instanceof ConstructorContext) {
((ConstructorContext) methodContext).setThisInitialized(false);
}
GenerationState state = parentCodegen.state;
JvmMethodSignature signature = state.getTypeMapper().mapSignatureWithGeneric(functionDescriptor, methodContext.getContextKind());
// 'null' because the "could not find expected declaration" error has been already reported in isDefaultNeeded earlier
List valueParameters =
functionDescriptor.isSuspend()
? CollectionsKt.plus(
CodegenUtil.getFunctionParametersForDefaultValueGeneration(
CoroutineCodegenUtilKt.unwrapInitialDescriptorForSuspendFunction(functionDescriptor), null),
CollectionsKt.last(functionDescriptor.getValueParameters()))
: CodegenUtil.getFunctionParametersForDefaultValueGeneration(functionDescriptor, null);
boolean isStatic = isStaticMethod(methodContext.getContextKind(), functionDescriptor);
FrameMap frameMap = createFrameMap(state, signature, functionDescriptor.getExtensionReceiverParameter(), valueParameters, isStatic);
ExpressionCodegen codegen = new ExpressionCodegen(mv, frameMap, signature.getReturnType(), methodContext, state, parentCodegen);
CallGenerator generator = codegen.getOrCreateCallGeneratorForDefaultImplBody(functionDescriptor, function);
InstructionAdapter iv = new InstructionAdapter(mv);
genDefaultSuperCallCheckIfNeeded(iv, functionDescriptor, defaultMethod);
List mappedParameters = signature.getValueParameters();
int capturedArgumentsCount = 0;
while (capturedArgumentsCount < mappedParameters.size() &&
mappedParameters.get(capturedArgumentsCount).getKind() != JvmMethodParameterKind.VALUE) {
capturedArgumentsCount++;
}
assert valueParameters.size() > 0 : "Expecting value parameters to generate default function " + functionDescriptor;
int firstMaskIndex = frameMap.enterTemp(Type.INT_TYPE);
for (int index = 1; index < valueParameters.size(); index++) {
if (index % Integer.SIZE == 0) {
frameMap.enterTemp(Type.INT_TYPE);
}
}
//default handler or constructor marker
frameMap.enterTemp(AsmTypes.OBJECT_TYPE);
for (int index = 0; index < valueParameters.size(); index++) {
int maskIndex = firstMaskIndex + index / Integer.SIZE;
ValueParameterDescriptor parameterDescriptor = valueParameters.get(index);
Type type = mappedParameters.get(capturedArgumentsCount + index).getAsmType();
int parameterIndex = frameMap.getIndex(parameterDescriptor);
if (parameterDescriptor.declaresDefaultValue()) {
iv.load(maskIndex, Type.INT_TYPE);
iv.iconst(1 << (index % Integer.SIZE));
iv.and(Type.INT_TYPE);
Label loadArg = new Label();
iv.ifeq(loadArg);
CallableDescriptor containingDeclaration = parameterDescriptor.getContainingDeclaration();
codegen.runWithShouldMarkLineNumbers(
!(containingDeclaration instanceof MemberDescriptor) || !((MemberDescriptor) containingDeclaration).isExpect(),
() -> {
StackValue.local(parameterIndex, type, parameterDescriptor.getType())
.store(loadStrategy.genValue(parameterDescriptor, codegen), iv);
return null;
});
iv.mark(loadArg);
}
}
// load arguments after defaults generation to avoid redundant stack normalization operations
loadExplicitArgumentsOnStack(OBJECT_TYPE, isStatic, signature, generator);
for (int index = 0; index < valueParameters.size(); index++) {
ValueParameterDescriptor parameterDescriptor = valueParameters.get(index);
Type type = mappedParameters.get(capturedArgumentsCount + index).getAsmType();
int parameterIndex = frameMap.getIndex(parameterDescriptor);
generator.putValueIfNeeded(new JvmKotlinType(type, null), StackValue.local(parameterIndex, type));
}
CallableMethod method = state.getTypeMapper().mapToCallableMethod(functionDescriptor, false, methodContext.getContextKind());
generator.genCall(method, null, false, codegen);
iv.areturn(signature.getReturnType());
}
private static void genDefaultSuperCallCheckIfNeeded(
@NotNull InstructionAdapter iv, @NotNull FunctionDescriptor descriptor, @NotNull Method defaultMethod
) {
if (descriptor instanceof ConstructorDescriptor) return;
DeclarationDescriptor container = descriptor.getContainingDeclaration();
if (!(container instanceof ClassDescriptor)) return;
if (((ClassDescriptor) container).getModality() == Modality.FINAL) return;
Label end = new Label();
int handleIndex = (Type.getArgumentsAndReturnSizes(defaultMethod.getDescriptor()) >> 2) - 2; /*-1 for this, and -1 for handle*/
iv.load(handleIndex, OBJECT_TYPE);
iv.ifnull(end);
AsmUtil.genThrow(
iv, "java/lang/UnsupportedOperationException",
"Super calls with default arguments not supported in this target, function: " + descriptor.getName().asString()
);
iv.visitLabel(end);
}
@NotNull
private static FrameMap createFrameMap(
@NotNull GenerationState state,
@NotNull JvmMethodSignature signature,
@Nullable ReceiverParameterDescriptor extensionReceiverParameter,
@NotNull List valueParameters,
boolean isStatic
) {
FrameMap frameMap = new FrameMapWithExpectActualSupport(state.getModule());
if (!isStatic) {
frameMap.enterTemp(OBJECT_TYPE);
}
for (JvmMethodParameterSignature parameter : signature.getValueParameters()) {
if (parameter.getKind() == JvmMethodParameterKind.RECEIVER || parameter.getKind() == JvmMethodParameterKind.CONTEXT_RECEIVER) {
if (extensionReceiverParameter != null) {
frameMap.enter(extensionReceiverParameter, state.getTypeMapper().mapType(extensionReceiverParameter));
}
else {
frameMap.enterTemp(parameter.getAsmType());
}
}
else if (parameter.getKind() != JvmMethodParameterKind.VALUE) {
frameMap.enterTemp(parameter.getAsmType());
}
}
for (ValueParameterDescriptor parameter : valueParameters) {
frameMap.enter(parameter, state.getTypeMapper().mapType(parameter));
}
return frameMap;
}
private static void loadExplicitArgumentsOnStack(
@NotNull Type ownerType,
boolean isStatic,
@NotNull JvmMethodSignature signature,
@NotNull CallGenerator callGenerator
) {
int var = 0;
if (!isStatic) {
callGenerator.putValueIfNeeded(new JvmKotlinType(ownerType, null), StackValue.local(var, ownerType));
var += ownerType.getSize();
}
for (JvmMethodParameterSignature parameterSignature : signature.getValueParameters()) {
if (parameterSignature.getKind() != JvmMethodParameterKind.VALUE) {
Type type = parameterSignature.getAsmType();
callGenerator.putValueIfNeeded(new JvmKotlinType(type, null), StackValue.local(var, type));
var += type.getSize();
}
}
}
private boolean isDefaultNeeded(@NotNull FunctionDescriptor descriptor, @Nullable KtNamedFunction function) {
List parameters =
CodegenUtil.getFunctionParametersForDefaultValueGeneration(
descriptor.isSuspend() ? CoroutineCodegenUtilKt.unwrapInitialDescriptorForSuspendFunction(descriptor) : descriptor,
state.getDiagnostics());
return CollectionsKt.any(parameters, ValueParameterDescriptor::declaresDefaultValue);
}
private void generateBridge(
@Nullable PsiElement origin,
@NotNull FunctionDescriptor descriptor,
@NotNull Method bridge,
@NotNull Method delegateTo,
@NotNull KotlinType bridgeReturnType,
boolean isSpecialBridge,
boolean isStubDeclarationWithDelegationToSuper
) {
boolean isSpecialOrDelegationToSuper = isSpecialBridge || isStubDeclarationWithDelegationToSuper;
int flags = ACC_PUBLIC | ACC_BRIDGE | (!isSpecialOrDelegationToSuper ? ACC_SYNTHETIC : 0) | (isSpecialBridge ? ACC_FINAL : 0); // TODO.
String bridgeSignature =
isSpecialBridge ? typeMapper.mapSignatureWithGeneric(descriptor, OwnerKind.IMPLEMENTATION).getGenericsSignature()
: null;
MethodVisitor mv = v.newMethod(JvmDeclarationOriginKt.Bridge(descriptor, origin), flags,
bridge.getName(), bridge.getDescriptor(), bridgeSignature, null);
if (!state.getClassBuilderMode().generateBodies) return;
mv.visitCode();
InstructionAdapter iv = new InstructionAdapter(mv);
Type[] argTypes = bridge.getArgumentTypes();
Type[] originalArgTypes = delegateTo.getArgumentTypes();
List allKotlinParameters = new ArrayList<>(originalArgTypes.length);
if (descriptor.getExtensionReceiverParameter() != null) allKotlinParameters.add(descriptor.getExtensionReceiverParameter());
allKotlinParameters.addAll(descriptor.getValueParameters());
boolean safeToUseKotlinTypes = allKotlinParameters.size() == originalArgTypes.length;
boolean isVarargInvoke = JvmCodegenUtil.isOverrideOfBigArityFunctionInvoke(descriptor);
if (isVarargInvoke) {
assert argTypes.length == 1 && argTypes[0].equals(AsmUtil.getArrayType(OBJECT_TYPE)) :
"Vararg invoke must have one parameter of type [Ljava/lang/Object;: " + bridge;
DescriptorAsmUtil.generateVarargInvokeArityAssert(iv, originalArgTypes.length);
}
else {
assert argTypes.length == originalArgTypes.length :
"Number of parameters of the bridge and delegate must be the same.\n" +
"Descriptor: " + descriptor + "\nBridge: " + bridge + "\nDelegate: " + delegateTo;
}
MemberCodegen.markLineNumberForDescriptor(owner.getThisDescriptor(), iv);
if (delegateTo.getArgumentTypes().length > 0 && isSpecialBridge) {
generateTypeCheckBarrierIfNeeded(iv, descriptor, bridge.getReturnType(), delegateTo.getArgumentTypes(), typeMapper);
}
iv.load(0, OBJECT_TYPE);
for (int i = 0, reg = 1; i < originalArgTypes.length; i++) {
KotlinType kotlinType = safeToUseKotlinTypes ? allKotlinParameters.get(i).getType() : null;
StackValue value;
if (isVarargInvoke) {
value = StackValue.arrayElement(OBJECT_TYPE, null, StackValue.local(1, argTypes[0]), StackValue.constant(i));
}
else {
value = StackValue.local(reg, argTypes[i], kotlinType);
//noinspection AssignmentToForLoopParameter
reg += argTypes[i].getSize();
}
value.put(originalArgTypes[i], kotlinType, iv);
}
if (isStubDeclarationWithDelegationToSuper) {
ClassDescriptor parentClass = getSuperClassDescriptor((ClassDescriptor) descriptor.getContainingDeclaration());
assert parentClass != null;
String parentInternalName = typeMapper.mapClass(parentClass).getInternalName();
iv.invokespecial(parentInternalName, delegateTo.getName(), delegateTo.getDescriptor(), false);
}
else {
if (isInterface(descriptor.getContainingDeclaration()) &&
JvmAnnotationUtilKt.isCompiledToJvmDefault(descriptor, state.getJvmDefaultMode())) {
iv.invokeinterface(v.getThisName(), delegateTo.getName(), delegateTo.getDescriptor());
}
else {
iv.invokevirtual(v.getThisName(), delegateTo.getName(), delegateTo.getDescriptor(), false);
}
}
KotlinType returnValueType = descriptor.getReturnType();
StackValue.coerce(delegateTo.getReturnType(), returnValueType, bridge.getReturnType(), bridgeReturnType, iv);
iv.areturn(bridge.getReturnType());
endVisit(mv, "bridge method", origin);
}
private static void generateTypeCheckBarrierIfNeeded(
@NotNull InstructionAdapter iv,
@NotNull FunctionDescriptor descriptor,
@NotNull Type returnType,
@Nullable Type[] delegateParameterTypes,
@NotNull KotlinTypeMapper typeMapper
) {
BuiltinMethodsWithSpecialGenericSignature.TypeSafeBarrierDescription typeSafeBarrierDescription =
BuiltinMethodsWithSpecialGenericSignature.getDefaultValueForOverriddenBuiltinFunction(descriptor);
if (typeSafeBarrierDescription == null) return;
FunctionDescriptor overriddenBuiltin =
BuiltinMethodsWithSpecialGenericSignature.getOverriddenBuiltinFunctionWithErasedValueParametersInJava(descriptor);
assert overriddenBuiltin != null : "Overridden built-in method should not be null for " + descriptor;
Label defaultBranch = new Label();
for (int i = 0; i < descriptor.getValueParameters().size(); i++) {
if (!typeSafeBarrierDescription.checkParameter(i)) continue;
boolean isCheckForAny = delegateParameterTypes == null || OBJECT_TYPE.equals(delegateParameterTypes[i]);
KotlinType kotlinType = descriptor.getValueParameters().get(i).getType();
if (isCheckForAny && TypeUtils.isNullableType(kotlinType)) continue;
iv.load(1 + i, OBJECT_TYPE);
if (isCheckForAny) {
assert !TypeUtils.isNullableType(kotlinType) : "Only bridges for not-nullable types are necessary";
iv.ifnull(defaultBranch);
}
else {
Type targetBoxedType;
if (InlineClassesUtilsKt.isInlineClassType(kotlinType)) {
targetBoxedType = typeMapper.mapTypeAsDeclaration(kotlinType);
} else {
targetBoxedType = boxType(delegateParameterTypes[i]);
}
CodegenUtilKt.generateIsCheck(iv, kotlinType, targetBoxedType);
iv.ifeq(defaultBranch);
}
}
Label afterDefaultBranch = new Label();
iv.goTo(afterDefaultBranch);
iv.visitLabel(defaultBranch);
if (typeSafeBarrierDescription.equals(BuiltinMethodsWithSpecialGenericSignature.TypeSafeBarrierDescription.MAP_GET_OR_DEFAULT)) {
iv.load(2, returnType);
}
else {
StackValue.constant(typeSafeBarrierDescription.getDefaultValue(), returnType).put(iv);
}
iv.areturn(returnType);
iv.visitLabel(afterDefaultBranch);
}
public void genSamDelegate(@NotNull FunctionDescriptor functionDescriptor, FunctionDescriptor overriddenDescriptor, StackValue field) {
FunctionDescriptor delegatedTo = overriddenDescriptor.getOriginal();
JvmDeclarationOrigin declarationOrigin = JvmDeclarationOriginKt.SamDelegation(functionDescriptor);
// Skip writing generic signature for the SAM wrapper class method because it may reference type parameters from the SAM interface
// which would make little sense outside of that interface and may break Java reflection.
// E.g. functionDescriptor for a SAM wrapper for java.util.function.Predicate is the method `test` with signature "(T) -> Boolean"
genDelegate(
functionDescriptor, delegatedTo, declarationOrigin,
(ClassDescriptor) overriddenDescriptor.getContainingDeclaration(),
field, true
);
}
public void genDelegate(@NotNull FunctionDescriptor functionDescriptor, FunctionDescriptor overriddenDescriptor, StackValue field) {
genDelegate(functionDescriptor, overriddenDescriptor.getOriginal(),
(ClassDescriptor) overriddenDescriptor.getContainingDeclaration(), field);
}
public void genDelegate(
@NotNull FunctionDescriptor delegateFunction,
FunctionDescriptor delegatedTo,
ClassDescriptor toClass,
StackValue field
) {
JvmDeclarationOrigin declarationOrigin =
JvmDeclarationOriginKt.Delegation(DescriptorToSourceUtils.descriptorToDeclaration(delegatedTo), delegateFunction);
genDelegate(delegateFunction, delegatedTo, declarationOrigin, toClass, field, false);
}
private void genDelegate(
@NotNull FunctionDescriptor delegateFunction,
FunctionDescriptor delegatedTo,
@NotNull JvmDeclarationOrigin declarationOrigin,
ClassDescriptor toClass,
StackValue field,
boolean skipGenericSignature
) {
generateMethod(
declarationOrigin, delegateFunction,
new FunctionGenerationStrategy() {
@Override
public void generateBody(
@NotNull MethodVisitor mv,
@NotNull FrameMap frameMap,
@NotNull JvmMethodSignature signature,
@NotNull MethodContext context,
@NotNull MemberCodegen parentCodegen
) {
Method delegateMethod = typeMapper.mapAsmMethod(delegateFunction);
Type[] argTypes = delegateMethod.getArgumentTypes();
List argKotlinTypes = getKotlinTypesForJvmParameters(delegateFunction);
Method delegateToMethod = typeMapper.mapToCallableMethod(delegatedTo, /* superCall = */ false).getAsmMethod();
Type[] originalArgTypes = delegateToMethod.getArgumentTypes();
List originalArgKotlinTypes = getKotlinTypesForJvmParameters(delegatedTo);
InstructionAdapter iv = new InstructionAdapter(mv);
iv.load(0, OBJECT_TYPE);
field.put(iv);
// When delegating to inline class, we invoke static implementation method
// that takes inline class underlying value as 1st argument.
int toArgsShift = InlineClassesUtilsKt.isInlineClass(toClass) ? 1 : 0;
int reg = 1;
for (int i = 0; i < argTypes.length; ++i) {
Type argType = argTypes[i];
KotlinType argKotlinType = argKotlinTypes.get(i);
Type toArgType = originalArgTypes[i + toArgsShift];
KotlinType toArgKotlinType = originalArgKotlinTypes.get(i);
StackValue.local(reg, argType, argKotlinType)
.put(toArgType, toArgKotlinType, iv);
reg += argType.getSize();
}
String internalName = typeMapper.mapClass(toClass).getInternalName();
if (toClass.getKind() == ClassKind.INTERFACE) {
iv.invokeinterface(internalName, delegateToMethod.getName(), delegateToMethod.getDescriptor());
}
else if (InlineClassesUtilsKt.isInlineClass(toClass)) {
iv.invokestatic(internalName, delegateToMethod.getName(), delegateToMethod.getDescriptor(), false);
}
else {
iv.invokevirtual(internalName, delegateToMethod.getName(), delegateToMethod.getDescriptor(), false);
}
//noinspection ConstantConditions
StackValue stackValue = DescriptorAsmUtil.genNotNullAssertions(
state,
StackValue.onStack(delegateToMethod.getReturnType(), delegatedTo.getReturnType()),
RuntimeAssertionInfo.create(
delegateFunction.getReturnType(),
delegatedTo.getReturnType(),
new RuntimeAssertionInfo.DataFlowExtras.OnlyMessage(delegatedTo.getName() + "(...)")
)
);
stackValue.put(delegateMethod.getReturnType(), delegateFunction.getReturnType(), iv);
iv.areturn(delegateMethod.getReturnType());
}
@Override
public boolean skipNotNullAssertionsForParameters() {
return false;
}
@Override
public boolean skipGenericSignature() {
return skipGenericSignature;
}
private List getKotlinTypesForJvmParameters(@NotNull FunctionDescriptor functionDescriptor) {
List kotlinTypes = new ArrayList<>();
ReceiverParameterDescriptor extensionReceiver = functionDescriptor.getExtensionReceiverParameter();
if (extensionReceiver != null) {
kotlinTypes.add(extensionReceiver.getType());
}
for (ValueParameterDescriptor parameter : functionDescriptor.getValueParameters()) {
kotlinTypes.add(parameter.getType());
}
if (functionDescriptor.isSuspend()) {
// Suspend functions take continuation type as last argument.
// It's not an inline class, so we don't really care about exact KotlinType here.
// Just make sure argument types are counted properly.
kotlinTypes.add(null);
}
return kotlinTypes;
}
}
);
}
public static boolean processInterfaceMethod(
@NotNull CallableMemberDescriptor memberDescriptor,
@NotNull OwnerKind kind,
boolean isDefault,
boolean isSynthetic,
JvmDefaultMode mode
) {
DeclarationDescriptor containingDeclaration = memberDescriptor.getContainingDeclaration();
assert isInterface(containingDeclaration) : "'processInterfaceMethod' method should be called only for interfaces, but: " +
containingDeclaration;
// Fake overrides in interfaces should be expanded to implementation to make proper default check
if (JvmAnnotationUtilKt.checkIsImplementationCompiledToJvmDefault(memberDescriptor, mode)) {
boolean isCompatibilityMode = isCompiledInCompatibilityMode(mode, memberDescriptor);
boolean isSyntheticInCompatibilityOrJvmDefault = isSynthetic && (isCompatibilityMode || mode == JvmDefaultMode.ENABLE);
return (kind != OwnerKind.DEFAULT_IMPLS && !isSyntheticInCompatibilityOrJvmDefault) ||
(kind == OwnerKind.DEFAULT_IMPLS &&
(isSyntheticInCompatibilityOrJvmDefault ||
(isCompatibilityMode && !JvmAnnotationUtilKt.hasJvmDefaultNoCompatibilityAnnotation(containingDeclaration))) && !DescriptorVisibilities.isPrivate(memberDescriptor.getVisibility()));
} else {
switch (kind) {
case DEFAULT_IMPLS: return true;
case IMPLEMENTATION: return !DescriptorVisibilities.isPrivate(memberDescriptor.getVisibility()) && !isDefault && !isSynthetic;
default: return false;
}
}
}
@Nullable
public CalculatedClosure getClosure() {
return owner.closure;
}
}
