@NotNull
private String addUniqueField(@NotNull String name) {
List<String> existNames = fieldNames.get(name);
if (existNames == null) {
existNames = new LinkedList<String>();
fieldNames.put(name, existNames);
}
String suffix = existNames.isEmpty() ? "" : "$" + existNames.size();
String newName = name + suffix;
existNames.add(newName);
return newName;
}
@NotNull
// process local and global returns (local substituted with goto end-label global kept unchanged)
public static List<PointForExternalFinallyBlocks> processReturns(
@NotNull MethodNode node,
@NotNull LabelOwner labelOwner,
boolean remapReturn,
Label endLabel) {
if (!remapReturn) {
return Collections.emptyList();
}
List<PointForExternalFinallyBlocks> result = new ArrayList<PointForExternalFinallyBlocks>();
InsnList instructions = node.instructions;
AbstractInsnNode insnNode = instructions.getFirst();
while (insnNode != null) {
if (InlineCodegenUtil.isReturnOpcode(insnNode.getOpcode())) {
AbstractInsnNode previous = insnNode.getPrevious();
MethodInsnNode flagNode;
boolean isLocalReturn = true;
String labelName = null;
if (previous != null
&& previous instanceof MethodInsnNode
&& InlineCodegenUtil.NON_LOCAL_RETURN.equals(((MethodInsnNode) previous).owner)) {
flagNode = (MethodInsnNode) previous;
labelName = flagNode.name;
}
if (labelName != null) {
isLocalReturn = labelOwner.isMyLabel(labelName);
// remove global return flag
if (isLocalReturn) {
instructions.remove(previous);
}
}
if (isLocalReturn && endLabel != null) {
LabelNode labelNode = (LabelNode) endLabel.info;
JumpInsnNode jumpInsnNode = new JumpInsnNode(Opcodes.GOTO, labelNode);
instructions.insert(insnNode, jumpInsnNode);
instructions.remove(insnNode);
insnNode = jumpInsnNode;
}
// genetate finally block before nonLocalReturn flag/return/goto
result.add(
new PointForExternalFinallyBlocks(
isLocalReturn ? insnNode : insnNode.getPrevious(),
getReturnType(insnNode.getOpcode())));
}
insnNode = insnNode.getNext();
}
return result;
}
@NotNull
public static List<AbstractInsnNode> getCapturedFieldAccessChain(@NotNull VarInsnNode aload0) {
List<AbstractInsnNode> fieldAccessChain = new ArrayList<AbstractInsnNode>();
fieldAccessChain.add(aload0);
AbstractInsnNode next = aload0.getNext();
while (next != null && next instanceof FieldInsnNode || next instanceof LabelNode) {
if (next instanceof LabelNode) {
next = next.getNext();
continue; // it will be delete on transformation
}
fieldAccessChain.add(next);
if ("this$0".equals(((FieldInsnNode) next).name)) {
next = next.getNext();
} else {
break;
}
}
return fieldAccessChain;
}
public static void putStackValuesIntoLocals(
List<Type> directOrder, int shift, InstructionAdapter iv, String descriptor) {
Type[] actualParams = Type.getArgumentTypes(descriptor);
assert actualParams.length == directOrder.size()
: "Number of expected and actual params should be equals!";
int size = 0;
for (Type next : directOrder) {
size += next.getSize();
}
shift += size;
int index = directOrder.size();
for (Type next : Lists.reverse(directOrder)) {
shift -= next.getSize();
Type typeOnStack = actualParams[--index];
if (!typeOnStack.equals(next)) {
StackValue.onStack(typeOnStack).put(next, iv);
}
iv.store(shift, next);
}
}
@NotNull
protected MethodNode markPlacesForInlineAndRemoveInlinable(@NotNull MethodNode node) {
node = prepareNode(node);
Analyzer<SourceValue> analyzer =
new Analyzer<SourceValue>(new SourceInterpreter()) {
@NotNull
@Override
protected Frame<SourceValue> newFrame(int nLocals, int nStack) {
return new Frame<SourceValue>(nLocals, nStack) {
@Override
public void execute(
@NotNull AbstractInsnNode insn, Interpreter<SourceValue> interpreter)
throws AnalyzerException {
if (insn.getOpcode() == Opcodes.RETURN) {
// there is exception on void non local return in frame
return;
}
super.execute(insn, interpreter);
}
};
}
};
Frame<SourceValue>[] sources;
try {
sources = analyzer.analyze("fake", node);
} catch (AnalyzerException e) {
throw wrapException(e, node, "couldn't inline method call");
}
AbstractInsnNode cur = node.instructions.getFirst();
int index = 0;
boolean awaitClassReification = false;
Set<LabelNode> possibleDeadLabels = new HashSet<LabelNode>();
while (cur != null) {
Frame<SourceValue> frame = sources[index];
if (frame != null) {
if (ReifiedTypeInliner.isNeedClassReificationMarker(cur)) {
awaitClassReification = true;
} else if (cur.getType() == AbstractInsnNode.METHOD_INSN) {
MethodInsnNode methodInsnNode = (MethodInsnNode) cur;
String owner = methodInsnNode.owner;
String desc = methodInsnNode.desc;
String name = methodInsnNode.name;
// TODO check closure
int paramLength = Type.getArgumentTypes(desc).length + 1; // non static
if (isInvokeOnLambda(owner, name) /*&& methodInsnNode.owner.equals(INLINE_RUNTIME)*/) {
SourceValue sourceValue = frame.getStack(frame.getStackSize() - paramLength);
LambdaInfo lambdaInfo = null;
int varIndex = -1;
if (sourceValue.insns.size() == 1) {
AbstractInsnNode insnNode = sourceValue.insns.iterator().next();
lambdaInfo = getLambdaIfExists(insnNode);
if (lambdaInfo != null) {
// remove inlinable access
node.instructions.remove(insnNode);
}
}
invokeCalls.add(new InvokeCall(varIndex, lambdaInfo));
} else if (isAnonymousConstructorCall(owner, name)) {
Map<Integer, LambdaInfo> lambdaMapping = new HashMap<Integer, LambdaInfo>();
int paramStart = frame.getStackSize() - paramLength;
for (int i = 0; i < paramLength; i++) {
SourceValue sourceValue = frame.getStack(paramStart + i);
if (sourceValue.insns.size() == 1) {
AbstractInsnNode insnNode = sourceValue.insns.iterator().next();
LambdaInfo lambdaInfo = getLambdaIfExists(insnNode);
if (lambdaInfo != null) {
lambdaMapping.put(i, lambdaInfo);
node.instructions.remove(insnNode);
}
}
}
anonymousObjectGenerations.add(
buildConstructorInvocation(owner, desc, lambdaMapping, awaitClassReification));
awaitClassReification = false;
}
} else if (cur.getOpcode() == Opcodes.GETSTATIC) {
FieldInsnNode fieldInsnNode = (FieldInsnNode) cur;
String owner = fieldInsnNode.owner;
if (isAnonymousSingletonLoad(owner, fieldInsnNode.name)) {
anonymousObjectGenerations.add(
new AnonymousObjectGeneration(
owner, isSameModule, awaitClassReification, isAlreadyRegenerated(owner), true));
awaitClassReification = false;
}
}
}
AbstractInsnNode prevNode = cur;
cur = cur.getNext();
index++;
// given frame is <tt>null</tt> if and only if the corresponding instruction cannot be reached
// (dead code).
if (frame == null) {
// clean dead code otherwise there is problems in unreachable finally block, don't touch
// label it cause try/catch/finally problems
if (prevNode.getType() == AbstractInsnNode.LABEL) {
// NB: Cause we generate exception table for default handler using gaps (see
// ExpressionCodegen.visitTryExpression)
// it may occurs that interval for default handler starts before catch start label, so
// this label seems as dead,
// but as result all this labels will be merged into one (see KT-5863)
} else {
node.instructions.remove(prevNode);
}
}
}
// clean dead try/catch blocks
List<TryCatchBlockNode> blocks = node.tryCatchBlocks;
for (Iterator<TryCatchBlockNode> iterator = blocks.iterator(); iterator.hasNext(); ) {
TryCatchBlockNode block = iterator.next();
if (isEmptyTryInterval(block)) {
iterator.remove();
}
}
return node;
}
private MethodNode doInline(MethodNode node) {
final Deque<InvokeCall> currentInvokes = new LinkedList<InvokeCall>(invokeCalls);
final MethodNode resultNode =
new MethodNode(node.access, node.name, node.desc, node.signature, null);
final Iterator<AnonymousObjectGeneration> iterator = anonymousObjectGenerations.iterator();
RemappingMethodAdapter remappingMethodAdapter =
new RemappingMethodAdapter(
resultNode.access, resultNode.desc, resultNode, new TypeRemapper(currentTypeMapping));
InlineAdapter lambdaInliner =
new InlineAdapter(remappingMethodAdapter, parameters.totalSize()) {
private AnonymousObjectGeneration anonymousObjectGen;
private void handleAnonymousObjectGeneration() {
anonymousObjectGen = iterator.next();
if (anonymousObjectGen.shouldRegenerate()) {
// TODO: need poping of type but what to do with local funs???
Type newLambdaType =
Type.getObjectType(inliningContext.nameGenerator.genLambdaClassName());
currentTypeMapping.put(
anonymousObjectGen.getOwnerInternalName(), newLambdaType.getInternalName());
AnonymousObjectTransformer transformer =
new AnonymousObjectTransformer(
anonymousObjectGen.getOwnerInternalName(),
inliningContext.subInlineWithClassRegeneration(
inliningContext.nameGenerator, currentTypeMapping, anonymousObjectGen),
isSameModule,
newLambdaType);
InlineResult transformResult =
transformer.doTransform(anonymousObjectGen, nodeRemapper);
result.addAllClassesToRemove(transformResult);
if (inliningContext.isInliningLambda && !anonymousObjectGen.isStaticOrigin()) {
// this class is transformed and original not used so we should remove original one
// after inlining
// Note: It is unsafe to remove anonymous class that is referenced by GETSTATIC
// within lambda
// because it can be local function from outer scope
result.addClassToRemove(anonymousObjectGen.getOwnerInternalName());
}
if (transformResult.getReifiedTypeParametersUsages().wereUsedReifiedParameters()) {
ReifiedTypeInliner.putNeedClassReificationMarker(mv);
result
.getReifiedTypeParametersUsages()
.mergeAll(transformResult.getReifiedTypeParametersUsages());
}
}
}
@Override
public void anew(@NotNull Type type) {
if (isAnonymousConstructorCall(type.getInternalName(), "<init>")) {
handleAnonymousObjectGeneration();
}
// in case of regenerated anonymousObjectGen type would be remapped to new one via
// remappingMethodAdapter
super.anew(type);
}
@Override
public void visitMethodInsn(
int opcode, String owner, String name, String desc, boolean itf) {
if (
/*INLINE_RUNTIME.equals(owner) &&*/ isInvokeOnLambda(owner, name)) { // TODO add method
assert !currentInvokes.isEmpty();
InvokeCall invokeCall = currentInvokes.remove();
LambdaInfo info = invokeCall.lambdaInfo;
if (info == null) {
// noninlinable lambda
super.visitMethodInsn(opcode, owner, name, desc, itf);
return;
}
int valueParamShift = getNextLocalIndex(); // NB: don't inline cause it changes
putStackValuesIntoLocals(
info.getInvokeParamsWithoutCaptured(), valueParamShift, this, desc);
addInlineMarker(this, true);
Parameters lambdaParameters = info.addAllParameters(nodeRemapper);
InlinedLambdaRemapper newCapturedRemapper =
new InlinedLambdaRemapper(
info.getLambdaClassType().getInternalName(), nodeRemapper, lambdaParameters);
setLambdaInlining(true);
MethodInliner inliner =
new MethodInliner(
info.getNode(),
lambdaParameters,
inliningContext.subInlineLambda(info),
newCapturedRemapper,
true /*cause all calls in same module as lambda*/,
"Lambda inlining " + info.getLambdaClassType().getInternalName());
LocalVarRemapper remapper = new LocalVarRemapper(lambdaParameters, valueParamShift);
InlineResult lambdaResult =
inliner.doInline(
this.mv, remapper, true, info); // TODO add skipped this and receiver
result.addAllClassesToRemove(lambdaResult);
// return value boxing/unboxing
Method bridge =
typeMapper
.mapSignature(
ClosureCodegen.getErasedInvokeFunction(info.getFunctionDescriptor()))
.getAsmMethod();
Method delegate =
typeMapper.mapSignature(info.getFunctionDescriptor()).getAsmMethod();
StackValue.onStack(delegate.getReturnType()).put(bridge.getReturnType(), this);
setLambdaInlining(false);
addInlineMarker(this, false);
} else if (isAnonymousConstructorCall(owner, name)) { // TODO add method
assert anonymousObjectGen != null
: "<init> call not corresponds to new call" + owner + " " + name;
if (anonymousObjectGen.shouldRegenerate()) {
// put additional captured parameters on stack
for (CapturedParamDesc capturedParamDesc :
anonymousObjectGen.getAllRecapturedParameters()) {
visitFieldInsn(
Opcodes.GETSTATIC,
capturedParamDesc.getContainingLambdaName(),
"$$$" + capturedParamDesc.getFieldName(),
capturedParamDesc.getType().getDescriptor());
}
super.visitMethodInsn(
opcode,
anonymousObjectGen.getNewLambdaType().getInternalName(),
name,
anonymousObjectGen.getNewConstructorDescriptor(),
itf);
anonymousObjectGen = null;
} else {
super.visitMethodInsn(
opcode, changeOwnerForExternalPackage(owner, opcode), name, desc, itf);
}
} else if (ReifiedTypeInliner.isNeedClassReificationMarker(
new MethodInsnNode(opcode, owner, name, desc, false))) {
// we will put it if needed in anew processing
} else {
super.visitMethodInsn(
opcode, changeOwnerForExternalPackage(owner, opcode), name, desc, itf);
}
}
@Override
public void visitFieldInsn(
int opcode, @NotNull String owner, @NotNull String name, @NotNull String desc) {
if (opcode == Opcodes.GETSTATIC && isAnonymousSingletonLoad(owner, name)) {
handleAnonymousObjectGeneration();
}
super.visitFieldInsn(opcode, owner, name, desc);
}
@Override
public void visitMaxs(int stack, int locals) {
lambdasFinallyBlocks = resultNode.tryCatchBlocks.size();
super.visitMaxs(stack, locals);
}
};
node.accept(lambdaInliner);
return resultNode;
}
@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 List<CapturedParamInfo> extractParametersMappingAndPatchConstructor(
@NotNull MethodNode constructor,
@NotNull ParametersBuilder capturedParamBuilder,
@NotNull ParametersBuilder constructorParamBuilder,
@NotNull final AnonymousObjectGeneration anonymousObjectGen,
@NotNull FieldRemapper parentFieldRemapper) {
CapturedParamOwner owner =
new CapturedParamOwner() {
@Override
public Type getType() {
return Type.getObjectType(anonymousObjectGen.getOwnerInternalName());
}
};
Set<LambdaInfo> capturedLambdas =
new LinkedHashSet<LambdaInfo>(); // captured var of inlined parameter
List<CapturedParamInfo> constructorAdditionalFakeParams = new ArrayList<CapturedParamInfo>();
Map<Integer, LambdaInfo> indexToLambda = anonymousObjectGen.getLambdasToInline();
Set<Integer> capturedParams = new HashSet<Integer>();
// load captured parameters and patch instruction list (NB: there is also could be object
// fields)
AbstractInsnNode cur = constructor.instructions.getFirst();
while (cur != null) {
if (cur instanceof FieldInsnNode) {
FieldInsnNode fieldNode = (FieldInsnNode) cur;
String fieldName = fieldNode.name;
if (fieldNode.getOpcode() == Opcodes.PUTFIELD
&& InlineCodegenUtil.isCapturedFieldName(fieldName)) {
boolean isPrevVarNode = fieldNode.getPrevious() instanceof VarInsnNode;
boolean isPrevPrevVarNode =
isPrevVarNode && fieldNode.getPrevious().getPrevious() instanceof VarInsnNode;
if (isPrevPrevVarNode) {
VarInsnNode node = (VarInsnNode) fieldNode.getPrevious().getPrevious();
if (node.var == 0) {
VarInsnNode previous = (VarInsnNode) fieldNode.getPrevious();
int varIndex = previous.var;
LambdaInfo lambdaInfo = indexToLambda.get(varIndex);
String newFieldName =
isThis0(fieldName)
&& shouldRenameThis0(parentFieldRemapper, indexToLambda.values())
? getNewFieldName(fieldName, true)
: fieldName;
CapturedParamInfo info =
capturedParamBuilder.addCapturedParam(
owner,
fieldName,
newFieldName,
Type.getType(fieldNode.desc),
lambdaInfo != null,
null);
if (lambdaInfo != null) {
info.setLambda(lambdaInfo);
capturedLambdas.add(lambdaInfo);
}
constructorAdditionalFakeParams.add(info);
capturedParams.add(varIndex);
constructor.instructions.remove(previous.getPrevious());
constructor.instructions.remove(previous);
AbstractInsnNode temp = cur;
cur = cur.getNext();
constructor.instructions.remove(temp);
continue;
}
}
}
}
cur = cur.getNext();
}
constructorParamBuilder.addThis(oldObjectType, false);
String constructorDesc = anonymousObjectGen.getConstructorDesc();
if (constructorDesc == null) {
// in case of anonymous object with empty closure
constructorDesc = Type.getMethodDescriptor(Type.VOID_TYPE);
}
Type[] types = Type.getArgumentTypes(constructorDesc);
for (Type type : types) {
LambdaInfo info = indexToLambda.get(constructorParamBuilder.getNextValueParameterIndex());
ParameterInfo parameterInfo =
constructorParamBuilder.addNextParameter(type, info != null, null);
parameterInfo.setLambda(info);
if (capturedParams.contains(parameterInfo.getIndex())) {
parameterInfo.setCaptured(true);
} else {
// otherwise it's super constructor parameter
}
}
// For all inlined lambdas add their captured parameters
// TODO: some of such parameters could be skipped - we should perform additional analysis
Map<String, LambdaInfo> capturedLambdasToInline =
new HashMap<String, LambdaInfo>(); // captured var of inlined parameter
List<CapturedParamDesc> allRecapturedParameters = new ArrayList<CapturedParamDesc>();
boolean addCapturedNotAddOuter =
parentFieldRemapper.isRoot()
|| (parentFieldRemapper instanceof InlinedLambdaRemapper
&& parentFieldRemapper.getParent().isRoot());
Map<String, CapturedParamInfo> alreadyAdded = new HashMap<String, CapturedParamInfo>();
for (LambdaInfo info : capturedLambdas) {
if (addCapturedNotAddOuter) {
for (CapturedParamDesc desc : info.getCapturedVars()) {
String key = desc.getFieldName() + "$$$" + desc.getType().getClassName();
CapturedParamInfo alreadyAddedParam = alreadyAdded.get(key);
CapturedParamInfo recapturedParamInfo =
capturedParamBuilder.addCapturedParam(
desc,
alreadyAddedParam != null
? alreadyAddedParam.getNewFieldName()
: getNewFieldName(desc.getFieldName(), false));
StackValue composed =
StackValue.field(
desc.getType(),
oldObjectType, /*TODO owner type*/
recapturedParamInfo.getNewFieldName(),
false,
StackValue.LOCAL_0);
recapturedParamInfo.setRemapValue(composed);
allRecapturedParameters.add(desc);
constructorParamBuilder
.addCapturedParam(recapturedParamInfo, recapturedParamInfo.getNewFieldName())
.setRemapValue(composed);
if (alreadyAddedParam != null) {
recapturedParamInfo.setSkipInConstructor(true);
}
if (isThis0(desc.getFieldName())) {
alreadyAdded.put(key, recapturedParamInfo);
}
}
}
capturedLambdasToInline.put(info.getLambdaClassType().getInternalName(), info);
}
if (parentFieldRemapper instanceof InlinedLambdaRemapper
&& !capturedLambdas.isEmpty()
&& !addCapturedNotAddOuter) {
// lambda with non InlinedLambdaRemapper already have outer
FieldRemapper parent = parentFieldRemapper.getParent();
assert parent instanceof RegeneratedLambdaFieldRemapper;
final Type ownerType = Type.getObjectType(parent.getLambdaInternalName());
CapturedParamDesc desc =
new CapturedParamDesc(
new CapturedParamOwner() {
@Override
public Type getType() {
return ownerType;
}
},
InlineCodegenUtil.THIS,
ownerType);
CapturedParamInfo recapturedParamInfo =
capturedParamBuilder.addCapturedParam(
desc, InlineCodegenUtil.THIS$0 /*outer lambda/object*/);
StackValue composed = StackValue.LOCAL_0;
recapturedParamInfo.setRemapValue(composed);
allRecapturedParameters.add(desc);
constructorParamBuilder
.addCapturedParam(recapturedParamInfo, recapturedParamInfo.getNewFieldName())
.setRemapValue(composed);
}
anonymousObjectGen.setAllRecapturedParameters(allRecapturedParameters);
anonymousObjectGen.setCapturedLambdasToInline(capturedLambdasToInline);
return constructorAdditionalFakeParams;
}
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);
}