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; }