public static void insertNodeBefore(
     @NotNull MethodNode from, @NotNull MethodNode to, @NotNull AbstractInsnNode beforeNode) {
   InsnList instructions = to.instructions;
   ListIterator<AbstractInsnNode> iterator = from.instructions.iterator();
   while (iterator.hasNext()) {
     AbstractInsnNode next = iterator.next();
     instructions.insertBefore(beforeNode, next);
   }
 }
Esempio n. 2
0
  @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;
  }
Esempio n. 3
0
  public void removeFinallyMarkers(@NotNull MethodNode intoNode) {
    if (InlineCodegenUtil.isFinallyMarkerRequired(codegen.getContext())) return;

    InsnList instructions = intoNode.instructions;
    AbstractInsnNode curInstr = instructions.getFirst();
    while (curInstr != null) {
      if (InlineCodegenUtil.isFinallyMarker(curInstr)) {
        AbstractInsnNode marker = curInstr;
        // just to assert
        getConstant(marker.getPrevious());
        curInstr = curInstr.getNext();
        instructions.remove(marker.getPrevious());
        instructions.remove(marker);
        continue;
      }
      curInstr = curInstr.getNext();
    }
  }
Esempio n. 4
0
  public InlineResult doInline(
      @NotNull MethodVisitor adapter,
      @NotNull LocalVarRemapper remapper,
      boolean remapReturn,
      @NotNull LabelOwner labelOwner) {
    // analyze body
    MethodNode transformedNode = markPlacesForInlineAndRemoveInlinable(node);

    // substitute returns with "goto end" instruction to keep non local returns in lambdas
    Label end = new Label();
    transformedNode = doInline(transformedNode);
    removeClosureAssertions(transformedNode);
    InsnList instructions = transformedNode.instructions;
    instructions.resetLabels();

    MethodNode resultNode =
        new MethodNode(
            InlineCodegenUtil.API,
            transformedNode.access,
            transformedNode.name,
            transformedNode.desc,
            transformedNode.signature,
            ArrayUtil.toStringArray(transformedNode.exceptions));
    RemapVisitor visitor = new RemapVisitor(resultNode, remapper, nodeRemapper);
    try {
      transformedNode.accept(visitor);
    } catch (Exception e) {
      throw wrapException(e, transformedNode, "couldn't inline method call");
    }

    resultNode.visitLabel(end);

    if (inliningContext.isRoot()) {
      InternalFinallyBlockInliner.processInlineFunFinallyBlocks(resultNode, lambdasFinallyBlocks);
    }

    processReturns(resultNode, labelOwner, remapReturn, end);
    // flush transformed node to output
    resultNode.accept(new InliningInstructionAdapter(adapter));

    return result;
  }