private void endCall(@NotNull InlineResult result) {
leaveTemps();
codegen.propagateChildReifiedTypeParametersUsages(result.getReifiedTypeParametersUsages());
state.getFactory().removeInlinedClasses(result.getClassesToRemove());
codegen.markLineNumberAfterInlineIfNeeded();
}
@NotNull
private InlineResult inlineMethod(
@NotNull AnonymousObjectGeneration anonymousObjectGen,
@NotNull FieldRemapper parentRemapper,
@NotNull MethodVisitor deferringVisitor,
@NotNull MethodNode sourceNode,
@NotNull ParametersBuilder capturedBuilder,
boolean isConstructor) {
ReifiedTypeParametersUsages typeParametersToReify =
inliningContext.reifedTypeInliner.reifyInstructions(sourceNode);
Parameters parameters =
isConstructor
? capturedBuilder.buildParameters()
: getMethodParametersWithCaptured(capturedBuilder, sourceNode);
RegeneratedLambdaFieldRemapper remapper =
new RegeneratedLambdaFieldRemapper(
oldObjectType.getInternalName(),
newLambdaType.getInternalName(),
parameters,
anonymousObjectGen.getCapturedLambdasToInline(),
parentRemapper,
isConstructor);
MethodInliner inliner =
new MethodInliner(
sourceNode,
parameters,
inliningContext.subInline(inliningContext.nameGenerator.subGenerator("lambda")),
remapper,
isSameModule,
"Transformer for " + anonymousObjectGen.getOwnerInternalName(),
sourceMapper,
new InlineCallSiteInfo(
anonymousObjectGen.getOwnerInternalName(),
sourceNode.name,
isConstructor
? anonymousObjectGen.getNewConstructorDescriptor()
: sourceNode.desc));
InlineResult result =
inliner.doInline(
deferringVisitor,
new LocalVarRemapper(parameters, 0),
false,
LabelOwner.NOT_APPLICABLE);
result.getReifiedTypeParametersUsages().mergeAll(typeParametersToReify);
deferringVisitor.visitMaxs(-1, -1);
return result;
}
@NotNull
private InlineResult inlineMethodAndUpdateGlobalResult(
@NotNull AnonymousObjectGeneration anonymousObjectGen,
@NotNull FieldRemapper parentRemapper,
@NotNull MethodVisitor deferringVisitor,
@NotNull MethodNode next,
@NotNull ParametersBuilder allCapturedParamBuilder,
boolean isConstructor) {
InlineResult funResult =
inlineMethod(
anonymousObjectGen,
parentRemapper,
deferringVisitor,
next,
allCapturedParamBuilder,
isConstructor);
transformationResult.addAllClassesToRemove(funResult);
transformationResult
.getReifiedTypeParametersUsages()
.mergeAll(funResult.getReifiedTypeParametersUsages());
return funResult;
}
public AnonymousObjectTransformer(
@NotNull String objectInternalName,
@NotNull InliningContext inliningContext,
boolean isSameModule,
@NotNull Type newLambdaType) {
this.isSameModule = isSameModule;
this.state = inliningContext.state;
this.typeMapper = state.getTypeMapper();
this.inliningContext = inliningContext;
this.oldObjectType = Type.getObjectType(objectInternalName);
this.newLambdaType = newLambdaType;
reader = InlineCodegenUtil.buildClassReaderByInternalName(state, objectInternalName);
transformationResult = InlineResult.create();
}
/*
*
* @param node
* @param parameters
* @param inliningContext
* @param lambdaType - in case on lambda 'invoke' inlining
*/
public MethodInliner(
@NotNull MethodNode node,
@NotNull Parameters parameters,
@NotNull InliningContext parent,
@NotNull FieldRemapper nodeRemapper,
boolean isSameModule,
@NotNull String errorPrefix) {
this.node = node;
this.parameters = parameters;
this.inliningContext = parent;
this.nodeRemapper = nodeRemapper;
this.isSameModule = isSameModule;
this.errorPrefix = errorPrefix;
this.typeMapper = parent.state.getTypeMapper();
this.result = InlineResult.create();
}
private InlineResult inlineCall(SMAPAndMethodNode nodeAndSmap) {
MethodNode node = nodeAndSmap.getNode();
ReifiedTypeParametersUsages reificationResult =
reifiedTypeInliner.reifyInstructions(node.instructions);
generateClosuresBodies();
// through generation captured parameters will be added to invocationParamBuilder
putClosureParametersOnStack();
addInlineMarker(codegen.v, true);
Parameters parameters = invocationParamBuilder.buildParameters();
InliningContext info =
new RootInliningContext(
expressionMap,
state,
codegen.getInlineNameGenerator().subGenerator(functionDescriptor.getName().asString()),
codegen.getContext(),
callElement,
codegen.getParentCodegen().getClassName(),
reifiedTypeInliner);
MethodInliner inliner =
new MethodInliner(
node,
parameters,
info,
new FieldRemapper(null, null, parameters),
isSameModule,
"Method inlining " + callElement.getText(),
createNestedSourceMapper(nodeAndSmap)); // with captured
LocalVarRemapper remapper = new LocalVarRemapper(parameters, initialFrameSize);
MethodNode adapter = InlineCodegenUtil.createEmptyMethodNode();
// hack to keep linenumber info, otherwise jdi will skip begin of linenumber chain
adapter.visitInsn(Opcodes.NOP);
InlineResult result = inliner.doInline(adapter, remapper, true, LabelOwner.SKIP_ALL);
result.getReifiedTypeParametersUsages().mergeAll(reificationResult);
CallableMemberDescriptor descriptor = codegen.getContext().getContextDescriptor();
final Set<String> labels =
getDeclarationLabels(
DescriptorToSourceUtils.descriptorToDeclaration(descriptor), descriptor);
LabelOwner labelOwner =
new LabelOwner() {
@Override
public boolean isMyLabel(@NotNull String name) {
return labels.contains(name);
}
};
List<MethodInliner.PointForExternalFinallyBlocks> infos =
MethodInliner.processReturns(adapter, labelOwner, true, null);
generateAndInsertFinallyBlocks(
adapter,
infos,
((StackValue.Local) remapper.remap(parameters.totalSize() + 1).value).index);
removeFinallyMarkers(adapter);
adapter.accept(new InliningInstructionAdapter(codegen.v));
addInlineMarker(codegen.v, false);
return result;
}
@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;
}