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/* Soot - a J*va Optimization Framework
 * Copyright (C) 1997 Clark Verbrugge
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the
 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
 * Boston, MA 02111-1307, USA.
 */

/*
 * Modified by the Sable Research Group and others 1997-1999.  
 * See the 'credits' file distributed with Soot for the complete list of
 * contributors.  (Soot is distributed at http://www.sable.mcgill.ca/soot)
 */







package soot.coffi;
/** Instruction subclasses are used to represent parsed bytecode; each
 * bytecode operation has a corresponding subclass of Instruction.
 * 

* Each subclass is derived from one of *

  • Instruction
  • *
  • Instruction_noargs (an Instruction with no embedded arguments)
  • *
  • Instruction_byte (an Instruction with a single byte data argument)
  • *
  • Instruction_bytevar (a byte argument specifying a local variable)
  • *
  • Instruction_byteindex (a byte argument specifying a constant pool index)
  • *
  • Instruction_int (an Instruction with a single short data argument)
  • *
  • Instruction_intvar (a short argument specifying a local variable)
  • *
  • Instruction_intindex (a short argument specifying a constant pool index)
  • *
  • Instruction_intbranch (a short argument specifying a code offset)
  • *
  • Instruction_longbranch (an int argument specifying a code offset)
  • *
* @author Clark Verbrugge * @see Instruction * @see Instruction_noargs * @see Instruction_byte * @see Instruction_bytevar * @see Instruction_byteindex * @see Instruction_int * @see Instruction_intvar * @see Instruction_intindex * @see Instruction_intbranch * @see Instruction_longbranch * @see Instruction_Unknown */ abstract class Instruction implements Cloneable { /** String used to separate arguments in printing. */ public static final String argsep = " "; /** String used to construct names for local variables. */ public static final String LOCALPREFIX = "local_"; // public static int w; // set by the wide instr. and used by other instrs /** Actual byte code of this instruction. */ public byte code; /** Offset of this instruction from the start of code. * @see ClassFile#relabel */ public int label; /** Name of this instruction. * @see Instruction#toString */ public String name; /** Reference for chaining. */ public Instruction next; /** More convenient for chaining. */ public Instruction prev; /** Whether this instruction is the target of a branch. */ public boolean labelled; /** Whether this instruction branches. */ public boolean branches; /** Whether this instruction is a method invocation. */ public boolean calls; /** Whether this instruction is a return. */ public boolean returns; /** Successor array. It is different from the field 'next'. */ public Instruction[] succs; int originalIndex; /** Constructs a new Instruction for this bytecode. * @param c bytecode of the instruction. */ public Instruction(byte c) { code = c; next = null; branches = false; calls = false; returns = false; } protected Object clone() throws CloneNotSupportedException { return super.clone(); } public String toString() { return label +": "+name + "[" + originalIndex + "]"; } /** Assuming the actual bytecode for this instruction has been extracted already, * and index is the offset of the next byte, this method parses whatever * arguments the instruction requires and return the offset of the next * available byte. * @param bc complete array of bytecode. * @param index offset of remaining bytecode after this instruction's * bytecode was parsed. * @return offset of the next available bytecode. * @see ByteCode#disassemble_bytecode * @see Instruction#compile */ public abstract int parse(byte bc[],int index); /** Writes out the sequence of bytecodes represented by this instruction, including * any arguments. * @param bc complete array of bytecode. * @param index offset of remaining bytecode at which to start writing. * @return offset of the next available bytecode. * @see ClassFile#unparseMethod * @see Instruction#parse */ public abstract int compile(byte bc[],int index); /** Changes offset values in this instruction to Instruction references; * default behaviour is to do nothing. * @param bc complete array of bytecode. * @see ByteCode#build */ public void offsetToPointer(ByteCode bc) { } /** Returns the next available offset assuming this instruction begins * on the indicated offset; default assumes no arguments. * @param curr offset this instruction would be on. * @return next available offset. * @see ClassFile#relabel */ public int nextOffset(int curr) { return curr+1; } /** Returns an array of the instructions to which this instruction * might branch (only valid if branches==true; default action is * to return null). * @param next the instruction following this one, in case of default flow through. * @return array of instructions which may be targets of this instruction. * @see Instruction#branches */ public Instruction[] branchpoints(Instruction next) { /* Instruction[] bps= new Instruction[1]; bps[0] = next; return bps; */ return null; } /** Marks the appropriate spot if that constant_pool entry is used by this instr. * For every constant pool entry used (referenced) by this instruction, the * corresponding boolean in the given array is set to true. * @param refs array of booleans the same size as the constant pool array. * @see ClassFile#constant_pool */ public void markCPRefs(boolean[] refs) { } /** Updates all constant pool references within this instruction to use * new indices, based on the given redirection array. * @param redirect array of new indices of constant pool entries. * @see ClassFile#constant_pool */ public void redirectCPRefs(short redirect[]) { } /** For storing in a Hashtable. * @return unique hash code for this instruction, assuming labels are unique. */ public int hashCode() { return (new Integer(label)).hashCode(); } /** For storing in a Hashtable. * @param i the Instruction to which this is compared. * @return true if i is the same, false otherwise. */ public boolean equals(Instruction i) { return (this == i); /* if (label == i.label) return true; return false; */ } /** Utility routines, used mostly by the parse routines of various * Instruction subclasses; * this method converts two bytes into a short. * @param bc complete array of bytecode. * @param index offset of data in bc. * @return the short constructed from the two bytes. * @see Instruction#parse * @see Instruction#shortToBytes */ public static short getShort(byte bc[],int index) { short s,bh,bl; bh = (bc[index]); bl = (bc[index+1]); s = (short)(((bh<<8)&0xff00) | (bl&0xff)); //s = (short)((int)(bc[index])<<8 + bc[index+1]); return s; } /** Utility routines, used mostly by the parse routines of various * Instruction subclasses; * this method converts four bytes into an int. * @param bc complete array of bytecode. * @param index offset of data in bc. * @return the int constructed from the four bytes. * @see Instruction#parse * @see Instruction#intToBytes */ public static int getInt(byte bc[],int index) { int i,bhh,bhl,blh,bll; bhh = (((bc[index]))<<24)&0xff000000; bhl = (((bc[index+1]))<<16)&0xff0000; blh = (((bc[index+2]))<<8)&0xff00; bll = ((bc[index+3]))&0xff; i = bhh | bhl | blh | bll; return i; } /** Utility routines, used mostly by the compile routines of various * Instruction subclasses; * this method converts a short into two bytes. * @param bc complete array of bytecode in which to store the short. * @param index next available offset in bc. * @return the next available offset in bc * @see Instruction#compile * @see Instruction#getShort */ public static int shortToBytes(short s,byte bc[],int index) { bc[index++] = (byte)((s>>8)&0xff); bc[index++] = (byte)(s&0xff); return index; } /** Utility routines, used mostly by the compile routines of various * Instruction subclasses; * this method converts an int into four bytes. * @param bc complete array of bytecode in which to store the int. * @param index next available offset in bc. * @return the next available offset in bc * @see Instruction#compile * @see Instruction#getInt */ public static int intToBytes(int s,byte bc[],int index) { bc[index++] = (byte)((s>>24)&0xff); bc[index++] = (byte)((s>>16)&0xff); bc[index++] = (byte)((s>>8)&0xff); bc[index++] = (byte)(s&0xff); return index; } /** For displaying instructions. * @param constant_pool constant pool of associated ClassFile * @return String representation of this instruction. */ public String toString(cp_info constant_pool[]) { int i = (code)&0xff; if (name==null) name = "null???=" + Integer.toString(i); return name; } }




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