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Java example source code file (InstructionFinder.java)

This example Java source code file (InstructionFinder.java) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

arraylist, classgenexception, codeconstraint, create, hashmap, instructionfinder, instructionhandle, instructionlist, iterator, no_opcodes, offset, string, stringbuffer, util

The InstructionFinder.java Java example source code

/*
 * reserved comment block
 * DO NOT REMOVE OR ALTER!
 */
package com.sun.org.apache.bcel.internal.util;

/* ====================================================================
 * The Apache Software License, Version 1.1
 *
 * Copyright (c) 2001 The Apache Software Foundation.  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. The end-user documentation included with the redistribution,
 *    if any, must include the following acknowledgment:
 *       "This product includes software developed by the
 *        Apache Software Foundation (http://www.apache.org/)."
 *    Alternately, this acknowledgment may appear in the software itself,
 *    if and wherever such third-party acknowledgments normally appear.
 *
 * 4. The names "Apache" and "Apache Software Foundation" and
 *    "Apache BCEL" must not be used to endorse or promote products
 *    derived from this software without prior written permission. For
 *    written permission, please contact apache@apache.org.
 *
 * 5. Products derived from this software may not be called "Apache",
 *    "Apache BCEL", nor may "Apache" appear in their name, without
 *    prior written permission of the Apache Software Foundation.
 *
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED.  IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
 * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
 * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 * ====================================================================
 *
 * This software consists of voluntary contributions made by many
 * individuals on behalf of the Apache Software Foundation.  For more
 * information on the Apache Software Foundation, please see
 * <http://www.apache.org/>.
 */

import java.util.*;
import com.sun.org.apache.bcel.internal.Constants;
import com.sun.org.apache.bcel.internal.generic.*;
import com.sun.org.apache.regexp.internal.*;

/**
 * InstructionFinder is a tool to search for given instructions patterns,
 * i.e., match sequences of instructions in an instruction list via
 * regular expressions. This can be used, e.g., in order to implement
 * a peep hole optimizer that looks for code patterns and replaces
 * them with faster equivalents.
 *
 * <p>This class internally uses the 
 * Regexp</a> package to search for regular expressions.
 *
 * A typical application would look like this:
<pre>
    InstructionFinder f   = new InstructionFinder(il);
    String            pat = "IfInstruction ICONST_0 GOTO ICONST_1 NOP (IFEQ|IFNE)";

    for(Iterator i = f.search(pat, constraint); i.hasNext(); ) {
      InstructionHandle[] match = (InstructionHandle[])i.next();
      ...
      il.delete(match[1], match[5]);
      ...
    }
</pre>
 * @author  <A HREF="http://www.berlin.de/~markus.dahm/">M. Dahm
 * @see Instruction
 * @see InstructionList
 */
public class InstructionFinder {
  private static final int OFFSET     = 32767; // char + OFFSET is outside of LATIN-1
  private static final int NO_OPCODES = 256;   // Potential number, some are not used

  private static final HashMap map = new HashMap(); // Map<String,Pattern>

  private InstructionList     il;
  private String              il_string;    // instruction list as string
  private InstructionHandle[] handles;      // map instruction list to array

  /**
   * @param il instruction list to search for given patterns
   */
  public InstructionFinder(InstructionList il) {
    this.il = il;
    reread();
  }

  /**
   * Reread the instruction list, e.g., after you've altered the list upon a match.
   */
  public final void reread() {
    int    size  = il.getLength();
    char[] buf   = new char[size]; // Create a string with length equal to il length
    handles      = il.getInstructionHandles();

    // Map opcodes to characters
    for(int i=0; i < size; i++)
      buf[i] = makeChar(handles[i].getInstruction().getOpcode());

    il_string = new String(buf);
  }

  /**
   * Map symbolic instruction names like "getfield" to a single character.
   *
   * @param pattern instruction pattern in lower case
   * @return encoded string for a pattern such as "BranchInstruction".
   */
  private static final String mapName(String pattern) {
    String result = (String)map.get(pattern);

    if(result != null)
      return result;

    for(short i=0; i < NO_OPCODES; i++)
      if(pattern.equals(Constants.OPCODE_NAMES[i]))
        return "" + makeChar(i);

    throw new RuntimeException("Instruction unknown: " + pattern);
  }

  /**
   * Replace symbolic names of instructions with the appropiate character and remove
   * all white space from string. Meta characters such as +, * are ignored.
   *
   * @param pattern The pattern to compile
   * @return translated regular expression string
   */
  private static final String compilePattern(String pattern) {
    String       lower      = pattern.toLowerCase();
    StringBuffer buf        = new StringBuffer();
    int          size       = pattern.length();

    for(int i=0; i < size; i++) {
      char ch = lower.charAt(i);

      if(Character.isLetterOrDigit(ch)) {
        StringBuffer name = new StringBuffer();

        while((Character.isLetterOrDigit(ch) || ch == '_') && i < size) {
          name.append(ch);

          if(++i < size)
            ch = lower.charAt(i);
          else
            break;
        }

        i--;

        buf.append(mapName(name.toString()));
      } else if(!Character.isWhitespace(ch))
        buf.append(ch);
    }

    return buf.toString();
  }

  /**
   * @return the matched piece of code as an array of instruction (handles)
   */
  private InstructionHandle[] getMatch(int matched_from, int match_length) {
    InstructionHandle[] match = new InstructionHandle[match_length];
    System.arraycopy(handles, matched_from, match, 0, match_length);

    return match;
  }

  /**
   * Search for the given pattern in the instruction list. You can search for any valid
   * opcode via its symbolic name, e.g. "istore". You can also use a super class or
   * an interface name to match a whole set of instructions, e.g. "BranchInstruction" or
   * "LoadInstruction". "istore" is also an alias for all "istore_x" instructions. Additional
   * aliases are "if" for "ifxx", "if_icmp" for "if_icmpxx", "if_acmp" for "if_acmpxx".
   *
   * Consecutive instruction names must be separated by white space which will be removed
   * during the compilation of the pattern.
   *
   * For the rest the usual pattern matching rules for regular expressions apply.<P>
   * Example pattern:
   * <pre>
     search("BranchInstruction NOP ((IfInstruction|GOTO)+ ISTORE Instruction)*");
   * </pre>
   *
   * <p>If you alter the instruction list upon a match such that other
   * matching areas are affected, you should call reread() to update
   * the finder and call search() again, because the matches are cached.
   *
   * @param pattern the instruction pattern to search for, where case is ignored
   * @param from where to start the search in the instruction list
   * @param constraint optional CodeConstraint to check the found code pattern for
   * user-defined constraints
   * @return iterator of matches where e.nextElement() returns an array of instruction handles
   * describing the matched area
   */
  public final Iterator search(String pattern, InstructionHandle from,
                               CodeConstraint constraint)
  {
    String search = compilePattern(pattern);
    int  start    = -1;

    for(int i=0; i < handles.length; i++) {
      if(handles[i] == from) {
        start = i; // Where to start search from (index)
        break;
      }
    }

    if(start == -1)
      throw new ClassGenException("Instruction handle " + from +
                                  " not found in instruction list.");
    try {
      RE regex = new RE(search);
      ArrayList matches = new ArrayList();

      while(start < il_string.length() && regex.match(il_string, start)) {
        int startExpr = regex.getParenStart(0);
        int endExpr   = regex.getParenEnd(0);
        int lenExpr   = regex.getParenLength(0);

        InstructionHandle[] match = getMatch(startExpr, lenExpr);

        if((constraint == null) || constraint.checkCode(match))
          matches.add(match);
        start = endExpr;
      }

      return matches.iterator();
    } catch(RESyntaxException e) {
      System.err.println(e);
    }

    return null;
  }

  /**
   * Start search beginning from the start of the given instruction list.
   *
   * @param pattern the instruction pattern to search for, where case is ignored
   * @return iterator of matches where e.nextElement()
   * returns an array of instruction handles describing the matched
   * area
   */
  public final Iterator search(String pattern) {
    return search(pattern, il.getStart(), null);
  }

  /**
   * Start search beginning from `from'.
   *
   * @param pattern the instruction pattern to search for, where case is ignored
   * @param from where to start the search in the instruction list
   * @return  iterator of matches where e.nextElement() returns an array of instruction handles
   * describing the matched area
   */
  public final Iterator search(String pattern, InstructionHandle from) {
    return search(pattern, from, null);
  }

  /**
   * Start search beginning from the start of the given instruction list.
   * Check found matches with the constraint object.
   *
   * @param pattern the instruction pattern to search for, case is ignored
   * @param constraint constraints to be checked on matching code
   * @return instruction handle or `null' if the match failed
   */
  public final Iterator search(String pattern, CodeConstraint constraint) {
    return search(pattern, il.getStart(), constraint);
  }

  /**
   * Convert opcode number to char.
   */
  private static final char makeChar(short opcode) {
    return (char)(opcode + OFFSET);
  }

  /**
   * @return the inquired instruction list
   */
  public final InstructionList getInstructionList() { return il; }

  /**
   * Code patterns found may be checked using an additional
   * user-defined constraint object whether they really match the needed criterion.
   * I.e., check constraints that can not expressed with regular expressions.
   *
   */
  public interface CodeConstraint {
    /**
     * @param match array of instructions matching the requested pattern
     * @return true if the matched area is really useful
     */
    public boolean checkCode(InstructionHandle[] match);
  }

  // Initialize pattern map

  static {
    map.put("arithmeticinstruction", "(irem|lrem|iand|ior|ineg|isub|lneg|fneg|fmul|ldiv|fadd|lxor|frem|idiv|land|ixor|ishr|fsub|lshl|fdiv|iadd|lor|dmul|lsub|ishl|imul|lmul|lushr|dneg|iushr|lshr|ddiv|drem|dadd|ladd|dsub)");
    map.put("invokeinstruction", "(invokevirtual|invokeinterface|invokestatic|invokespecial)");
    map.put("arrayinstruction", "(baload|aastore|saload|caload|fastore|lastore|iaload|castore|iastore|aaload|bastore|sastore|faload|laload|daload|dastore)");
    map.put("gotoinstruction", "(goto|goto_w)");
    map.put("conversioninstruction", "(d2l|l2d|i2s|d2i|l2i|i2b|l2f|d2f|f2i|i2d|i2l|f2d|i2c|f2l|i2f)");
    map.put("localvariableinstruction", "(fstore|iinc|lload|dstore|dload|iload|aload|astore|istore|fload|lstore)");
    map.put("loadinstruction", "(fload|dload|lload|iload|aload)");
    map.put("fieldinstruction", "(getfield|putstatic|getstatic|putfield)");
    map.put("cpinstruction", "(ldc2_w|invokeinterface|multianewarray|putstatic|instanceof|getstatic|checkcast|getfield|invokespecial|ldc_w|invokestatic|invokevirtual|putfield|ldc|new|anewarray)");
    map.put("stackinstruction", "(dup2|swap|dup2_x2|pop|pop2|dup|dup2_x1|dup_x2|dup_x1)");
    map.put("branchinstruction", "(ifle|if_acmpne|if_icmpeq|if_acmpeq|ifnonnull|goto_w|iflt|ifnull|if_icmpne|tableswitch|if_icmple|ifeq|if_icmplt|jsr_w|if_icmpgt|ifgt|jsr|goto|ifne|ifge|lookupswitch|if_icmpge)");
    map.put("returninstruction", "(lreturn|ireturn|freturn|dreturn|areturn|return)");
    map.put("storeinstruction", "(istore|fstore|dstore|astore|lstore)");
    map.put("select", "(tableswitch|lookupswitch)");
    map.put("ifinstruction", "(ifeq|ifgt|if_icmpne|if_icmpeq|ifge|ifnull|ifne|if_icmple|if_icmpge|if_acmpeq|if_icmplt|if_acmpne|ifnonnull|iflt|if_icmpgt|ifle)");
    map.put("jsrinstruction", "(jsr|jsr_w)");
    map.put("variablelengthinstruction", "(tableswitch|jsr|goto|lookupswitch)");
    map.put("unconditionalbranch", "(goto|jsr|jsr_w|athrow|goto_w)");
    map.put("constantpushinstruction", "(dconst|bipush|sipush|fconst|iconst|lconst)");
    map.put("typedinstruction", "(imul|lsub|aload|fload|lor|new|aaload|fcmpg|iand|iaload|lrem|idiv|d2l|isub|dcmpg|dastore|ret|f2d|f2i|drem|iinc|i2c|checkcast|frem|lreturn|astore|lushr|daload|dneg|fastore|istore|lshl|ldiv|lstore|areturn|ishr|ldc_w|invokeinterface|aastore|lxor|ishl|l2d|i2f|return|faload|sipush|iushr|caload|instanceof|invokespecial|putfield|fmul|ireturn|laload|d2f|lneg|ixor|i2l|fdiv|lastore|multianewarray|i2b|getstatic|i2d|putstatic|fcmpl|saload|ladd|irem|dload|jsr_w|dconst|dcmpl|fsub|freturn|ldc|aconst_null|castore|lmul|ldc2_w|dadd|iconst|f2l|ddiv|dstore|land|jsr|anewarray|dmul|bipush|dsub|sastore|d2i|i2s|lshr|iadd|l2i|lload|bastore|fstore|fneg|iload|fadd|baload|fconst|ior|ineg|dreturn|l2f|lconst|getfield|invokevirtual|invokestatic|iastore)");
    map.put("popinstruction", "(fstore|dstore|pop|pop2|astore|putstatic|istore|lstore)");
    map.put("allocationinstruction", "(multianewarray|new|anewarray|newarray)");
    map.put("indexedinstruction", "(lload|lstore|fload|ldc2_w|invokeinterface|multianewarray|astore|dload|putstatic|instanceof|getstatic|checkcast|getfield|invokespecial|dstore|istore|iinc|ldc_w|ret|fstore|invokestatic|iload|putfield|invokevirtual|ldc|new|aload|anewarray)");
    map.put("pushinstruction", "(dup|lload|dup2|bipush|fload|ldc2_w|sipush|lconst|fconst|dload|getstatic|ldc_w|aconst_null|dconst|iload|ldc|iconst|aload)");
    map.put("stackproducer", "(imul|lsub|aload|fload|lor|new|aaload|fcmpg|iand|iaload|lrem|idiv|d2l|isub|dcmpg|dup|f2d|f2i|drem|i2c|checkcast|frem|lushr|daload|dneg|lshl|ldiv|ishr|ldc_w|invokeinterface|lxor|ishl|l2d|i2f|faload|sipush|iushr|caload|instanceof|invokespecial|fmul|laload|d2f|lneg|ixor|i2l|fdiv|getstatic|i2b|swap|i2d|dup2|fcmpl|saload|ladd|irem|dload|jsr_w|dconst|dcmpl|fsub|ldc|arraylength|aconst_null|tableswitch|lmul|ldc2_w|iconst|dadd|f2l|ddiv|land|jsr|anewarray|dmul|bipush|dsub|d2i|newarray|i2s|lshr|iadd|lload|l2i|fneg|iload|fadd|baload|fconst|lookupswitch|ior|ineg|lconst|l2f|getfield|invokevirtual|invokestatic)");
    map.put("stackconsumer", "(imul|lsub|lor|iflt|fcmpg|if_icmpgt|iand|ifeq|if_icmplt|lrem|ifnonnull|idiv|d2l|isub|dcmpg|dastore|if_icmpeq|f2d|f2i|drem|i2c|checkcast|frem|lreturn|astore|lushr|pop2|monitorexit|dneg|fastore|istore|lshl|ldiv|lstore|areturn|if_icmpge|ishr|monitorenter|invokeinterface|aastore|lxor|ishl|l2d|i2f|return|iushr|instanceof|invokespecial|fmul|ireturn|d2f|lneg|ixor|pop|i2l|ifnull|fdiv|lastore|i2b|if_acmpeq|ifge|swap|i2d|putstatic|fcmpl|ladd|irem|dcmpl|fsub|freturn|ifgt|castore|lmul|dadd|f2l|ddiv|dstore|land|if_icmpne|if_acmpne|dmul|dsub|sastore|ifle|d2i|i2s|lshr|iadd|l2i|bastore|fstore|fneg|fadd|ior|ineg|ifne|dreturn|l2f|if_icmple|getfield|invokevirtual|invokestatic|iastore)");
    map.put("exceptionthrower", "(irem|lrem|laload|putstatic|baload|dastore|areturn|getstatic|ldiv|anewarray|iastore|castore|idiv|saload|lastore|fastore|putfield|lreturn|caload|getfield|return|aastore|freturn|newarray|instanceof|multianewarray|athrow|faload|iaload|aaload|dreturn|monitorenter|checkcast|bastore|arraylength|new|invokevirtual|sastore|ldc_w|ireturn|invokespecial|monitorexit|invokeinterface|ldc|invokestatic|daload)");
    map.put("loadclass", "(multianewarray|invokeinterface|instanceof|invokespecial|putfield|checkcast|putstatic|invokevirtual|new|getstatic|invokestatic|getfield|anewarray)");
    map.put("instructiontargeter", "(ifle|if_acmpne|if_icmpeq|if_acmpeq|ifnonnull|goto_w|iflt|ifnull|if_icmpne|tableswitch|if_icmple|ifeq|if_icmplt|jsr_w|if_icmpgt|ifgt|jsr|goto|ifne|ifge|lookupswitch|if_icmpge)");

    // Some aliases
    map.put("if_icmp", "(if_icmpne|if_icmpeq|if_icmple|if_icmpge|if_icmplt|if_icmpgt)");
    map.put("if_acmp", "(if_acmpeq|if_acmpne)");
    map.put("if", "(ifeq|ifne|iflt|ifge|ifgt|ifle)");

    // Precompile some aliases first
    map.put("iconst", precompile(Constants.ICONST_0, Constants.ICONST_5, Constants.ICONST_M1));
    map.put("lconst", new String(new char[] { '(', makeChar(Constants.LCONST_0), '|',
                                              makeChar(Constants.LCONST_1), ')' }));
    map.put("dconst", new String(new char[] { '(', makeChar(Constants.DCONST_0), '|',
                                              makeChar(Constants.DCONST_1), ')' }));
    map.put("fconst", new String(new char[] { '(', makeChar(Constants.FCONST_0), '|',
                                              makeChar(Constants.FCONST_1), ')' }));

    map.put("iload", precompile(Constants.ILOAD_0, Constants.ILOAD_3, Constants.ILOAD));
    map.put("dload", precompile(Constants.DLOAD_0, Constants.DLOAD_3, Constants.DLOAD));
    map.put("fload", precompile(Constants.FLOAD_0, Constants.FLOAD_3, Constants.FLOAD));
    map.put("aload", precompile(Constants.ALOAD_0, Constants.ALOAD_3, Constants.ALOAD));

    map.put("istore", precompile(Constants.ISTORE_0, Constants.ISTORE_3, Constants.ISTORE));
    map.put("dstore", precompile(Constants.DSTORE_0, Constants.DSTORE_3, Constants.DSTORE));
    map.put("fstore", precompile(Constants.FSTORE_0, Constants.FSTORE_3, Constants.FSTORE));
    map.put("astore", precompile(Constants.ASTORE_0, Constants.ASTORE_3, Constants.ASTORE));

    // Compile strings

    for(Iterator i = map.keySet().iterator(); i.hasNext(); ) {
      String key   = (String)i.next();
      String value = (String)map.get(key);

      char ch = value.charAt(1); // Omit already precompiled patterns
      if(ch < OFFSET) {
        map.put(key, compilePattern(value)); // precompile all patterns
      }
    }

    // Add instruction alias to match anything

    StringBuffer buf = new StringBuffer("(");

    for(short i=0; i < NO_OPCODES; i++) {
      if(Constants.NO_OF_OPERANDS[i] != Constants.UNDEFINED) { // Not an invalid opcode
        buf.append(makeChar(i));

        if(i < NO_OPCODES - 1)
          buf.append('|');
      }
    }
    buf.append(')');

    map.put("instruction", buf.toString());
  }

  private static String precompile(short from, short to, short extra) {
    StringBuffer buf = new StringBuffer("(");

    for(short i=from; i <= to; i++) {
      buf.append(makeChar(i));
      buf.append('|');
    }

    buf.append(makeChar(extra));
    buf.append(")");
    return buf.toString();
  }

  /*
   * Internal debugging routines.
   */
  private static final String pattern2string(String pattern) {
    return pattern2string(pattern, true);
  }

  private static final String pattern2string(String pattern, boolean make_string) {
    StringBuffer buf = new StringBuffer();

    for(int i=0; i < pattern.length(); i++) {
      char ch = pattern.charAt(i);

      if(ch >= OFFSET) {
        if(make_string)
          buf.append(Constants.OPCODE_NAMES[ch - OFFSET]);
        else
          buf.append((int)(ch - OFFSET));
      } else
        buf.append(ch);
    }

    return buf.toString();
  }
}

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