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// ASM: a very small and fast Java bytecode manipulation framework
// Copyright (c) 2000-2011 INRIA, France Telecom
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// 1. Redistributions of source code must retain the above copyright
//    notice, this list of conditions and the following disclaimer.
// 2. Redistributions in binary form must reproduce the above copyright
//    notice, this list of conditions and the following disclaimer in the
//    documentation and/or other materials provided with the distribution.
// 3. Neither the name of the copyright holders nor the names of its
//    contributors may be used to endorse or promote products derived from
//    this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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package com.alibaba.deps.org.objectweb.asm.tree;

import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import com.alibaba.deps.org.objectweb.asm.MethodVisitor;
import com.alibaba.deps.org.objectweb.asm.Opcodes;

/**
 * A node that represents a stack map frame. These nodes are pseudo instruction nodes in order to be
 * inserted in an instruction list. In fact these nodes must(*) be inserted just before any
 * instruction node i that follows an unconditionnal branch instruction such as GOTO or
 * THROW, that is the target of a jump instruction, or that starts an exception handler block. The
 * stack map frame types must describe the values of the local variables and of the operand stack
 * elements just before i is executed. 
*
* (*) this is mandatory only for classes whose version is greater than or equal to {@link * Opcodes#V1_6}. * * @author Eric Bruneton */ public class FrameNode extends AbstractInsnNode { /** * The type of this frame. Must be {@link Opcodes#F_NEW} for expanded frames, or {@link * Opcodes#F_FULL}, {@link Opcodes#F_APPEND}, {@link Opcodes#F_CHOP}, {@link Opcodes#F_SAME} or * {@link Opcodes#F_APPEND}, {@link Opcodes#F_SAME1} for compressed frames. */ public int type; /** * The types of the local variables of this stack map frame. Elements of this list can be Integer, * String or LabelNode objects (for primitive, reference and uninitialized types respectively - * see {@link MethodVisitor}). */ public List local; /** * The types of the operand stack elements of this stack map frame. Elements of this list can be * Integer, String or LabelNode objects (for primitive, reference and uninitialized types * respectively - see {@link MethodVisitor}). */ public List stack; private FrameNode() { super(-1); } /** * Constructs a new {@link FrameNode}. * * @param type the type of this frame. Must be {@link Opcodes#F_NEW} for expanded frames, or * {@link Opcodes#F_FULL}, {@link Opcodes#F_APPEND}, {@link Opcodes#F_CHOP}, {@link * Opcodes#F_SAME} or {@link Opcodes#F_APPEND}, {@link Opcodes#F_SAME1} for compressed frames. * @param numLocal number of local variables of this stack map frame. Long and double values count * for one variable. * @param local the types of the local variables of this stack map frame. Elements of this list * can be Integer, String or LabelNode objects (for primitive, reference and uninitialized * types respectively - see {@link MethodVisitor}). Long and double values are represented by * a single element. * @param numStack number of operand stack elements of this stack map frame. Long and double * values count for one stack element. * @param stack the types of the operand stack elements of this stack map frame. Elements of this * list can be Integer, String or LabelNode objects (for primitive, reference and * uninitialized types respectively - see {@link MethodVisitor}). Long and double values are * represented by a single element. */ public FrameNode( final int type, final int numLocal, final Object[] local, final int numStack, final Object[] stack) { super(-1); this.type = type; switch (type) { case Opcodes.F_NEW: case Opcodes.F_FULL: this.local = Util.asArrayList(numLocal, local); this.stack = Util.asArrayList(numStack, stack); break; case Opcodes.F_APPEND: this.local = Util.asArrayList(numLocal, local); break; case Opcodes.F_CHOP: this.local = Util.asArrayList(numLocal); break; case Opcodes.F_SAME: break; case Opcodes.F_SAME1: this.stack = Util.asArrayList(1, stack); break; default: throw new IllegalArgumentException(); } } @Override public int getType() { return FRAME; } @Override public void accept(final MethodVisitor methodVisitor) { switch (type) { case Opcodes.F_NEW: case Opcodes.F_FULL: methodVisitor.visitFrame(type, local.size(), asArray(local), stack.size(), asArray(stack)); break; case Opcodes.F_APPEND: methodVisitor.visitFrame(type, local.size(), asArray(local), 0, null); break; case Opcodes.F_CHOP: methodVisitor.visitFrame(type, local.size(), null, 0, null); break; case Opcodes.F_SAME: methodVisitor.visitFrame(type, 0, null, 0, null); break; case Opcodes.F_SAME1: methodVisitor.visitFrame(type, 0, null, 1, asArray(stack)); break; default: throw new IllegalArgumentException(); } } @Override public AbstractInsnNode clone(final Map clonedLabels) { FrameNode clone = new FrameNode(); clone.type = type; if (local != null) { clone.local = new ArrayList<>(); for (int i = 0, n = local.size(); i < n; ++i) { Object localElement = local.get(i); if (localElement instanceof LabelNode) { localElement = clonedLabels.get(localElement); } clone.local.add(localElement); } } if (stack != null) { clone.stack = new ArrayList<>(); for (int i = 0, n = stack.size(); i < n; ++i) { Object stackElement = stack.get(i); if (stackElement instanceof LabelNode) { stackElement = clonedLabels.get(stackElement); } clone.stack.add(stackElement); } } return clone; } private static Object[] asArray(final List list) { Object[] array = new Object[list.size()]; for (int i = 0, n = array.length; i < n; ++i) { Object o = list.get(i); if (o instanceof LabelNode) { o = ((LabelNode) o).getLabel(); } array[i] = o; } return array; } }