// ASM: a very small and fast Java bytecode manipulation framework
// Copyright (c) 2000-2011 INRIA, France Telecom
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//
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package org.objectweb.asm.tree;

import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import org.objectweb.asm.MethodVisitor;
import 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 Opcodes.V1_6. 
Author:
Eric Bruneton/**
 * 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 <i>just before</i> any
 * instruction node <b>i</b> 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 <i>just before</i> <b>i</b> is executed. <br>
 * <br>
 * (*) 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 Opcodes.F_NEW for expanded frames, or Opcodes.F_FULL, Opcodes.F_APPEND, Opcodes.F_CHOP, Opcodes.F_SAME or Opcodes.F_APPEND, Opcodes.F_SAME1 for compressed frames. /**
   * 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 MethodVisitor). /**
   * 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<Object> 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 MethodVisitor). /**
   * 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<Object> stack;

  private FrameNode() {
    super(-1);
  }

  
Constructs a new FrameNode. 
Params:
type – the type of this frame. Must be Opcodes.F_NEW for expanded frames, or Opcodes.F_FULL, Opcodes.F_APPEND, Opcodes.F_CHOP, Opcodes.F_SAME or Opcodes.F_APPEND, Opcodes.F_SAME1 for compressed frames.
nLocal – number of local variables of this stack map frame.
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 MethodVisitor).
nStack – number of operand stack elements of this stack map frame.
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 MethodVisitor)./**
   * 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 nLocal number of local variables of this stack map frame.
   * @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}).
   * @param nStack number of operand stack elements of this stack map frame.
   * @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}).
   */
  public FrameNode(
      final int type,
      final int nLocal,
      final Object[] local,
      final int nStack,
      final Object[] stack) {
    super(-1);
    this.type = type;
    switch (type) {
      case Opcodes.F_NEW:
      case Opcodes.F_FULL:
        this.local = Util.asArrayList(nLocal, local);
        this.stack = Util.asArrayList(nStack, stack);
        break;
      case Opcodes.F_APPEND:
        this.local = Util.asArrayList(nLocal, local);
        break;
      case Opcodes.F_CHOP:
        this.local = Util.asArrayList(nLocal);
        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<LabelNode, LabelNode> clonedLabels) {
    FrameNode clone = new FrameNode();
    clone.type = type;
    if (local != null) {
      clone.local = new ArrayList<Object>();
      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<Object>();
      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<Object> 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;
  }
}