src/proguard/optimize/evaluation/LivenessAnalyzer.java - platform/external/proguard - Git at Google

 /*
  * ProGuard -- shrinking, optimization, obfuscation, and preverification
  *             of Java bytecode.
  *
  * Copyright (c) 2002-2014 Eric Lafortune (eric@graphics.cornell.edu)
  *
  * This program is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License as published by the Free
  * Software Foundation; either version 2 of the License, or (at your option)
  * any later version.
  *
  * This program 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 General Public License for
  * more details.
  *
  * You should have received a copy of the GNU General Public License along
  * with this program; if not, write to the Free Software Foundation, Inc.,
  * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
  */
 package proguard.optimize.evaluation;

 import proguard.classfile.*;
 import proguard.classfile.attribute.*;
 import proguard.classfile.attribute.visitor.*;
 import proguard.classfile.instruction.*;
 import proguard.classfile.instruction.visitor.InstructionVisitor;
 import proguard.classfile.util.SimplifiedVisitor;
 import proguard.evaluation.value.*;

 /**
  * This AttributeVisitor analyzes the liveness of the variables in the code
  * attributes that it visits, based on partial evaluation.
  *
  * @author Eric Lafortune
  */
 public class LivenessAnalyzer
 extends      SimplifiedVisitor
 implements   AttributeVisitor,
              InstructionVisitor,
              ExceptionInfoVisitor
 {
     //*
     private static final boolean DEBUG = false;
     /*/
     private static       boolean DEBUG = true;
     //*/

     private static final int MAX_VARIABLES_SIZE = 64;

     private final PartialEvaluator partialEvaluator;

     private long[] isAliveBefore = new long[ClassConstants.TYPICAL_CODE_LENGTH];
     private long[] isAliveAfter  = new long[ClassConstants.TYPICAL_CODE_LENGTH];
     private long[] isCategory2   = new long[ClassConstants.TYPICAL_CODE_LENGTH];

     // Fields acting as global temporary variables.
     private boolean checkAgain;
     private long    alive;


     /**
      * Creates a new LivenessAnalyzer.
      */
     public LivenessAnalyzer()
     {
         this(new PartialEvaluator());
     }


     /**
      * Creates a new LivenessAnalyzer that will use the given partial evaluator.
      * It will run this evaluator on every code attribute that it visits.
      */
     public LivenessAnalyzer(PartialEvaluator partialEvaluator)
     {
         this.partialEvaluator = partialEvaluator;
     }


     /**
      * Returns whether the instruction at the given offset has ever been
      * executed during the partial evaluation.
      */
     public boolean isTraced(int instructionOffset)
     {
         return partialEvaluator.isTraced(instructionOffset);
     }


     /**
      * Returns whether the specified variable is alive before the instruction
      * at the given offset.
      */
     public boolean isAliveBefore(int instructionOffset, int variableIndex)
     {
         return variableIndex >= MAX_VARIABLES_SIZE ||
                (isAliveBefore[instructionOffset] & (1L << variableIndex)) != 0;
     }


     /**
      * Sets whether the specified variable is alive before the instruction
      * at the given offset.
      */
     public void setAliveBefore(int instructionOffset, int variableIndex, boolean alive)
     {
         if (variableIndex < MAX_VARIABLES_SIZE)
         {
             if (alive)
             {
                 isAliveBefore[instructionOffset] |= 1L << variableIndex;
             }
             else
             {
                 isAliveBefore[instructionOffset] &= ~(1L << variableIndex);
             }
         }
     }


     /**
      * Returns whether the specified variable is alive after the instruction
      * at the given offset.
      */
     public boolean isAliveAfter(int instructionOffset, int variableIndex)
     {
         return variableIndex >= MAX_VARIABLES_SIZE ||
                (isAliveAfter[instructionOffset] & (1L << variableIndex)) != 0;
     }


     /**
      * Sets whether the specified variable is alive after the instruction
      * at the given offset.
      */
     public void setAliveAfter(int instructionOffset, int variableIndex, boolean alive)
     {
         if (variableIndex < MAX_VARIABLES_SIZE)
         {
             if (alive)
             {
                 isAliveAfter[instructionOffset] |= 1L << variableIndex;
             }
             else
             {
                 isAliveAfter[instructionOffset] &= ~(1L << variableIndex);
             }
         }
     }


     /**
      * Returns whether the specified variable takes up two entries after the
      * instruction at the given offset.
      */
     public boolean isCategory2(int instructionOffset, int variableIndex)
     {
         return variableIndex < MAX_VARIABLES_SIZE &&
                (isCategory2[instructionOffset] & (1L << variableIndex)) != 0;
     }


     /**
      * Sets whether the specified variable takes up two entries after the
      * instruction at the given offset.
      */
     public void setCategory2(int instructionOffset, int variableIndex, boolean category2)
     {
         if (variableIndex < MAX_VARIABLES_SIZE)
         {
             if (category2)
             {
                 isCategory2[instructionOffset] |= 1L << variableIndex;
             }
             else
             {
                 isCategory2[instructionOffset] &= ~(1L << variableIndex);
             }
         }
     }


     // Implementations for AttributeVisitor.

     public void visitAnyAttribute(Clazz clazz, Attribute attribute) {}


     public void visitCodeAttribute(Clazz clazz, Method method, CodeAttribute codeAttribute)
     {
 //        DEBUG =
 //            clazz.getName().equals("abc/Def") &&
 //            method.getName(clazz).equals("abc");

         if (DEBUG)
         {
             System.out.println();
             System.out.println("Liveness analysis: "+clazz.getName()+"."+method.getName(clazz)+method.getDescriptor(clazz));
         }

         // Initialize the global arrays.
         initializeArrays(codeAttribute);

         // Evaluate the method.
         partialEvaluator.visitCodeAttribute(clazz, method, codeAttribute);

         int codeLength    = codeAttribute.u4codeLength;
         int variablesSize = codeAttribute.u2maxLocals;

         // We'll only really analyze the first 64 variables.
         if (variablesSize > MAX_VARIABLES_SIZE)
         {
             variablesSize = MAX_VARIABLES_SIZE;
         }

         // Mark liveness blocks, as many times as necessary.
         do
         {
             checkAgain = false;
             alive      = 0L;

             // Loop over all traced instructions, backward.
             for (int offset = codeLength - 1; offset >= 0; offset--)
             {
                 if (partialEvaluator.isTraced(offset))
                 {
                     // Update the liveness based on the branch targets.
                     InstructionOffsetValue branchTargets = partialEvaluator.branchTargets(offset);
                     if (branchTargets != null)
                     {
                         // Update the liveness right after the branch instruction.
                         alive = combinedLiveness(branchTargets);
                     }

                     // Merge the current liveness.
                     alive |= isAliveAfter[offset];

                     // Update the liveness after the instruction.
                     isAliveAfter[offset] = alive;

                     // Update the current liveness based on the instruction.
                     codeAttribute.instructionAccept(clazz, method, offset, this);

                     // Merge the current liveness.
                     alive |= isAliveBefore[offset];

                     // Update the liveness before the instruction.
                     if ((~isAliveBefore[offset] & alive) != 0L)
                     {
                         isAliveBefore[offset] = alive;

                         // Do we have to check again after this loop?
                         checkAgain |= offset < maxOffset(partialEvaluator.branchOrigins(offset));
                     }
                 }
             }

             // Account for the liveness at the start of the exception handlers.
             codeAttribute.exceptionsAccept(clazz, method, this);
         }
         while (checkAgain);

         // Loop over all instructions, to mark variables that take up two entries.
         for (int offset = 0; offset < codeLength; offset++)
         {
             if (partialEvaluator.isTraced(offset))
             {
                 // Loop over all variables.
                 for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
                 {
                     // Is the variable alive and a category 2 type?
                     if (isAliveBefore(offset, variableIndex))
                     {
                         Value value = partialEvaluator.getVariablesBefore(offset).getValue(variableIndex);
                         if (value != null && value.isCategory2())
                         {
                             // Mark it as such.
                             setCategory2(offset, variableIndex, true);

                             // Mark the next variable as well.
                             setAliveBefore(offset, variableIndex + 1, true);
                             setCategory2(  offset, variableIndex + 1, true);
                         }
                     }

                     // Is the variable alive and a category 2 type?
                     if (isAliveAfter(offset, variableIndex))
                     {
                         Value value = partialEvaluator.getVariablesAfter(offset).getValue(variableIndex);
                         if (value != null && value.isCategory2())
                         {
                             // Mark it as such.
                             setCategory2(offset, variableIndex, true);

                             // Mark the next variable as well.
                             setAliveAfter(offset, variableIndex + 1, true);
                             setCategory2( offset, variableIndex + 1, true);
                         }
                     }
                 }
             }
         }

         if (DEBUG)
         {
             // Loop over all instructions.
             for (int offset = 0; offset < codeLength; offset++)
             {
                 if (partialEvaluator.isTraced(offset))
                 {
                     long aliveBefore = isAliveBefore[offset];
                     long aliveAfter  = isAliveAfter[offset];
                     long category2   = isCategory2[offset];

                     // Print out the liveness of all variables before the instruction.
                     for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
                     {
                         long variableMask = (1L << variableIndex);
                         System.out.print((aliveBefore & variableMask) == 0L ? '.' :
                                          (category2   & variableMask) == 0L ? 'x' :
                                                                               '*');
                     }

                     // Print out the instruction itself.
                     System.out.println(" "+ InstructionFactory.create(codeAttribute.code, offset).toString(offset));

                     // Print out the liveness of all variables after the instruction.
                     for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
                     {
                         long variableMask = (1L << variableIndex);
                         System.out.print((aliveAfter & variableMask) == 0L ? '.' :
                                          (category2  & variableMask) == 0L ? 'x' :
                                                                              '=');
                     }

                     System.out.println();
                 }
             }
         }
     }


     // Implementations for InstructionVisitor.

     public void visitAnyInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, Instruction instruction) {}


     public void visitVariableInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, VariableInstruction variableInstruction)
     {
         int variableIndex = variableInstruction.variableIndex;
         if (variableIndex < MAX_VARIABLES_SIZE)
         {
             long livenessMask = 1L << variableIndex;

             // Is it a load instruction or a store instruction?
             if (variableInstruction.isLoad())
             {
                 // Start marking the variable before the load instruction.
                 alive |= livenessMask;
             }
             else
             {
                 // Stop marking the variable before the store instruction.
                 alive &= ~livenessMask;

                 // But do mark the variable right after the store instruction.
                 isAliveAfter[offset] |= livenessMask;
             }
         }
     }


     public void visitConstantInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, ConstantInstruction constantInstruction)
     {
         // Special case: variable 0 ('this') in an initializer has to be alive
         // as long as it hasn't been initialized.
          if (offset == partialEvaluator.superInitializationOffset())
         {
             alive |= 1L;
         }
     }


     // Implementations for ExceptionInfoVisitor.

     public void visitExceptionInfo(Clazz clazz, Method method, CodeAttribute codeAttribute, ExceptionInfo exceptionInfo)
     {
         // Are any variables alive at the start of the handler?
         long alive = isAliveBefore[exceptionInfo.u2handlerPC];
         if (alive != 0L)
         {
             // Set the same liveness flags for the entire try block.
             int startOffset = exceptionInfo.u2startPC;
             int endOffset   = exceptionInfo.u2endPC;

             for (int offset = startOffset; offset < endOffset; offset++)
             {
                 if (partialEvaluator.isTraced(offset))
                 {
                     if ((~(isAliveBefore[offset] & isAliveAfter[offset]) & alive) != 0L)
                     {
                         isAliveBefore[offset] |= alive;
                         isAliveAfter[offset]  |= alive;

                         // Check again after having marked this try block.
                         checkAgain = true;
                     }
                 }
             }
         }
     }


     // Small utility methods.

     /**
      * Initializes the global arrays.
      */
     private void initializeArrays(CodeAttribute codeAttribute)
     {
         int codeLength = codeAttribute.u4codeLength;

         // Create new arrays for storing information at each instruction offset.
         if (isAliveBefore.length < codeLength)
         {
             isAliveBefore = new long[codeLength];
             isAliveAfter  = new long[codeLength];
             isCategory2   = new long[codeLength];
         }
         else
         {
             for (int index = 0; index < codeLength; index++)
             {
                 isAliveBefore[index] = 0L;
                 isAliveAfter[index]  = 0L;
                 isCategory2[index]   = 0L;
             }
         }
     }


     /**
      * Returns the combined liveness mask of the variables right before the
      * specified instruction offsets.
      */
     private long combinedLiveness(InstructionOffsetValue instructionOffsetValue)
     {
         long alive = 0L;

         int count = instructionOffsetValue.instructionOffsetCount();
         for (int index = 0; index < count; index++)
         {
             alive |= isAliveBefore[instructionOffsetValue.instructionOffset(index)];
         }

         return alive;
     }


     /**
      * Returns the minimum offset from the given instruction offsets.
      */
     private int minOffset(Value instructionOffsets)
     {
         return minOffset(instructionOffsets, Integer.MAX_VALUE);
     }


     /**
      * Returns the minimum offset from the given instruction offsets.
      */
     private int minOffset(Value instructionOffsets, int minOffset)
     {
         if (instructionOffsets != null)
         {
             InstructionOffsetValue instructionOffsetValue =
                 instructionOffsets.instructionOffsetValue();

             int count = instructionOffsetValue.instructionOffsetCount();
             for (int index = 0; index < count; index++)
             {
                 int offset = instructionOffsetValue.instructionOffset(index);
                 if (minOffset > offset)
                 {
                     minOffset = offset;
                 }
             }
         }

         return minOffset;
     }


     /**
      * Returns the maximum offset from the given instruction offsets.
      */
     private int maxOffset(Value instructionOffsets)
     {
         return maxOffset(instructionOffsets, Integer.MIN_VALUE);
     }


     /**
      * Returns the maximum offset from the given instruction offsets.
      */
     private int maxOffset(Value instructionOffsets, int maxOffset)
     {
         if (instructionOffsets != null)
         {
             InstructionOffsetValue instructionOffsetValue =
                 instructionOffsets.instructionOffsetValue();

             int count = instructionOffsetValue.instructionOffsetCount();
             for (int index = 0; index < count; index++)
             {
                 int offset = instructionOffsetValue.instructionOffset(index);
                 if (maxOffset < offset)
                 {
                     maxOffset = offset;
                 }
             }
         }

         return maxOffset;
     }
 }
	/*
	* ProGuard -- shrinking, optimization, obfuscation, and preverification
	* of Java bytecode.
	*
	* Copyright (c) 2002-2014 Eric Lafortune (eric@graphics.cornell.edu)
	*
	* This program is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License as published by the Free
	* Software Foundation; either version 2 of the License, or (at your option)
	* any later version.
	*
	* This program 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 General Public License for
	* more details.
	*
	* You should have received a copy of the GNU General Public License along
	* with this program; if not, write to the Free Software Foundation, Inc.,
	* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*/
	package proguard.optimize.evaluation;

	import proguard.classfile.*;
	import proguard.classfile.attribute.*;
	import proguard.classfile.attribute.visitor.*;
	import proguard.classfile.instruction.*;
	import proguard.classfile.instruction.visitor.InstructionVisitor;
	import proguard.classfile.util.SimplifiedVisitor;
	import proguard.evaluation.value.*;

	/**
	* This AttributeVisitor analyzes the liveness of the variables in the code
	* attributes that it visits, based on partial evaluation.
	*
	* @author Eric Lafortune
	*/
	public class LivenessAnalyzer
	extends SimplifiedVisitor
	implements AttributeVisitor,
	InstructionVisitor,
	ExceptionInfoVisitor
	{
	//*
	private static final boolean DEBUG = false;
	/*/
	private static boolean DEBUG = true;
	//*/

	private static final int MAX_VARIABLES_SIZE = 64;

	private final PartialEvaluator partialEvaluator;

	private long[] isAliveBefore = new long[ClassConstants.TYPICAL_CODE_LENGTH];
	private long[] isAliveAfter = new long[ClassConstants.TYPICAL_CODE_LENGTH];
	private long[] isCategory2 = new long[ClassConstants.TYPICAL_CODE_LENGTH];

	// Fields acting as global temporary variables.
	private boolean checkAgain;
	private long alive;


	/**
	* Creates a new LivenessAnalyzer.
	*/
	public LivenessAnalyzer()
	{
	this(new PartialEvaluator());
	}


	/**
	* Creates a new LivenessAnalyzer that will use the given partial evaluator.
	* It will run this evaluator on every code attribute that it visits.
	*/
	public LivenessAnalyzer(PartialEvaluator partialEvaluator)
	{
	this.partialEvaluator = partialEvaluator;
	}


	/**
	* Returns whether the instruction at the given offset has ever been
	* executed during the partial evaluation.
	*/
	public boolean isTraced(int instructionOffset)
	{
	return partialEvaluator.isTraced(instructionOffset);
	}


	/**
	* Returns whether the specified variable is alive before the instruction
	* at the given offset.
	*/
	public boolean isAliveBefore(int instructionOffset, int variableIndex)
	{
	return variableIndex >= MAX_VARIABLES_SIZE \|\|
	(isAliveBefore[instructionOffset] & (1L << variableIndex)) != 0;
	}


	/**
	* Sets whether the specified variable is alive before the instruction
	* at the given offset.
	*/
	public void setAliveBefore(int instructionOffset, int variableIndex, boolean alive)
	{
	if (variableIndex < MAX_VARIABLES_SIZE)
	{
	if (alive)
	{
	isAliveBefore[instructionOffset] \|= 1L << variableIndex;
	}
	else
	{
	isAliveBefore[instructionOffset] &= ~(1L << variableIndex);
	}
	}
	}


	/**
	* Returns whether the specified variable is alive after the instruction
	* at the given offset.
	*/
	public boolean isAliveAfter(int instructionOffset, int variableIndex)
	{
	return variableIndex >= MAX_VARIABLES_SIZE \|\|
	(isAliveAfter[instructionOffset] & (1L << variableIndex)) != 0;
	}


	/**
	* Sets whether the specified variable is alive after the instruction
	* at the given offset.
	*/
	public void setAliveAfter(int instructionOffset, int variableIndex, boolean alive)
	{
	if (variableIndex < MAX_VARIABLES_SIZE)
	{
	if (alive)
	{
	isAliveAfter[instructionOffset] \|= 1L << variableIndex;
	}
	else
	{
	isAliveAfter[instructionOffset] &= ~(1L << variableIndex);
	}
	}
	}


	/**
	* Returns whether the specified variable takes up two entries after the
	* instruction at the given offset.
	*/
	public boolean isCategory2(int instructionOffset, int variableIndex)
	{
	return variableIndex < MAX_VARIABLES_SIZE &&
	(isCategory2[instructionOffset] & (1L << variableIndex)) != 0;
	}


	/**
	* Sets whether the specified variable takes up two entries after the
	* instruction at the given offset.
	*/
	public void setCategory2(int instructionOffset, int variableIndex, boolean category2)
	{
	if (variableIndex < MAX_VARIABLES_SIZE)
	{
	if (category2)
	{
	isCategory2[instructionOffset] \|= 1L << variableIndex;
	}
	else
	{
	isCategory2[instructionOffset] &= ~(1L << variableIndex);
	}
	}
	}


	// Implementations for AttributeVisitor.

	public void visitAnyAttribute(Clazz clazz, Attribute attribute) {}


	public void visitCodeAttribute(Clazz clazz, Method method, CodeAttribute codeAttribute)
	{
	// DEBUG =
	// clazz.getName().equals("abc/Def") &&
	// method.getName(clazz).equals("abc");

	if (DEBUG)
	{
	System.out.println();
	System.out.println("Liveness analysis: "+clazz.getName()+"."+method.getName(clazz)+method.getDescriptor(clazz));
	}

	// Initialize the global arrays.
	initializeArrays(codeAttribute);

	// Evaluate the method.
	partialEvaluator.visitCodeAttribute(clazz, method, codeAttribute);

	int codeLength = codeAttribute.u4codeLength;
	int variablesSize = codeAttribute.u2maxLocals;

	// We'll only really analyze the first 64 variables.
	if (variablesSize > MAX_VARIABLES_SIZE)
	{
	variablesSize = MAX_VARIABLES_SIZE;
	}

	// Mark liveness blocks, as many times as necessary.
	do
	{
	checkAgain = false;
	alive = 0L;

	// Loop over all traced instructions, backward.
	for (int offset = codeLength - 1; offset >= 0; offset--)
	{
	if (partialEvaluator.isTraced(offset))
	{
	// Update the liveness based on the branch targets.
	InstructionOffsetValue branchTargets = partialEvaluator.branchTargets(offset);
	if (branchTargets != null)
	{
	// Update the liveness right after the branch instruction.
	alive = combinedLiveness(branchTargets);
	}

	// Merge the current liveness.
	alive \|= isAliveAfter[offset];

	// Update the liveness after the instruction.
	isAliveAfter[offset] = alive;

	// Update the current liveness based on the instruction.
	codeAttribute.instructionAccept(clazz, method, offset, this);

	// Merge the current liveness.
	alive \|= isAliveBefore[offset];

	// Update the liveness before the instruction.
	if ((~isAliveBefore[offset] & alive) != 0L)
	{
	isAliveBefore[offset] = alive;

	// Do we have to check again after this loop?
	checkAgain \|= offset < maxOffset(partialEvaluator.branchOrigins(offset));
	}
	}
	}

	// Account for the liveness at the start of the exception handlers.
	codeAttribute.exceptionsAccept(clazz, method, this);
	}
	while (checkAgain);

	// Loop over all instructions, to mark variables that take up two entries.
	for (int offset = 0; offset < codeLength; offset++)
	{
	if (partialEvaluator.isTraced(offset))
	{
	// Loop over all variables.
	for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
	{
	// Is the variable alive and a category 2 type?
	if (isAliveBefore(offset, variableIndex))
	{
	Value value = partialEvaluator.getVariablesBefore(offset).getValue(variableIndex);
	if (value != null && value.isCategory2())
	{
	// Mark it as such.
	setCategory2(offset, variableIndex, true);

	// Mark the next variable as well.
	setAliveBefore(offset, variableIndex + 1, true);
	setCategory2( offset, variableIndex + 1, true);
	}
	}

	// Is the variable alive and a category 2 type?
	if (isAliveAfter(offset, variableIndex))
	{
	Value value = partialEvaluator.getVariablesAfter(offset).getValue(variableIndex);
	if (value != null && value.isCategory2())
	{
	// Mark it as such.
	setCategory2(offset, variableIndex, true);

	// Mark the next variable as well.
	setAliveAfter(offset, variableIndex + 1, true);
	setCategory2( offset, variableIndex + 1, true);
	}
	}
	}
	}
	}

	if (DEBUG)
	{
	// Loop over all instructions.
	for (int offset = 0; offset < codeLength; offset++)
	{
	if (partialEvaluator.isTraced(offset))
	{
	long aliveBefore = isAliveBefore[offset];
	long aliveAfter = isAliveAfter[offset];
	long category2 = isCategory2[offset];

	// Print out the liveness of all variables before the instruction.
	for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
	{
	long variableMask = (1L << variableIndex);
	System.out.print((aliveBefore & variableMask) == 0L ? '.' :
	(category2 & variableMask) == 0L ? 'x' :
	'*');
	}

	// Print out the instruction itself.
	System.out.println(" "+ InstructionFactory.create(codeAttribute.code, offset).toString(offset));

	// Print out the liveness of all variables after the instruction.
	for (int variableIndex = 0; variableIndex < variablesSize; variableIndex++)
	{
	long variableMask = (1L << variableIndex);
	System.out.print((aliveAfter & variableMask) == 0L ? '.' :
	(category2 & variableMask) == 0L ? 'x' :
	'=');
	}

	System.out.println();
	}
	}
	}
	}


	// Implementations for InstructionVisitor.

	public void visitAnyInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, Instruction instruction) {}


	public void visitVariableInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, VariableInstruction variableInstruction)
	{
	int variableIndex = variableInstruction.variableIndex;
	if (variableIndex < MAX_VARIABLES_SIZE)
	{
	long livenessMask = 1L << variableIndex;

	// Is it a load instruction or a store instruction?
	if (variableInstruction.isLoad())
	{
	// Start marking the variable before the load instruction.
	alive \|= livenessMask;
	}
	else
	{
	// Stop marking the variable before the store instruction.
	alive &= ~livenessMask;

	// But do mark the variable right after the store instruction.
	isAliveAfter[offset] \|= livenessMask;
	}
	}
	}


	public void visitConstantInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, ConstantInstruction constantInstruction)
	{
	// Special case: variable 0 ('this') in an initializer has to be alive
	// as long as it hasn't been initialized.
	if (offset == partialEvaluator.superInitializationOffset())
	{
	alive \|= 1L;
	}
	}


	// Implementations for ExceptionInfoVisitor.

	public void visitExceptionInfo(Clazz clazz, Method method, CodeAttribute codeAttribute, ExceptionInfo exceptionInfo)
	{
	// Are any variables alive at the start of the handler?
	long alive = isAliveBefore[exceptionInfo.u2handlerPC];
	if (alive != 0L)
	{
	// Set the same liveness flags for the entire try block.
	int startOffset = exceptionInfo.u2startPC;
	int endOffset = exceptionInfo.u2endPC;

	for (int offset = startOffset; offset < endOffset; offset++)
	{
	if (partialEvaluator.isTraced(offset))
	{
	if ((~(isAliveBefore[offset] & isAliveAfter[offset]) & alive) != 0L)
	{
	isAliveBefore[offset] \|= alive;
	isAliveAfter[offset] \|= alive;

	// Check again after having marked this try block.
	checkAgain = true;
	}
	}
	}
	}
	}


	// Small utility methods.

	/**
	* Initializes the global arrays.
	*/
	private void initializeArrays(CodeAttribute codeAttribute)
	{
	int codeLength = codeAttribute.u4codeLength;

	// Create new arrays for storing information at each instruction offset.
	if (isAliveBefore.length < codeLength)
	{
	isAliveBefore = new long[codeLength];
	isAliveAfter = new long[codeLength];
	isCategory2 = new long[codeLength];
	}
	else
	{
	for (int index = 0; index < codeLength; index++)
	{
	isAliveBefore[index] = 0L;
	isAliveAfter[index] = 0L;
	isCategory2[index] = 0L;
	}
	}
	}


	/**
	* Returns the combined liveness mask of the variables right before the
	* specified instruction offsets.
	*/
	private long combinedLiveness(InstructionOffsetValue instructionOffsetValue)
	{
	long alive = 0L;

	int count = instructionOffsetValue.instructionOffsetCount();
	for (int index = 0; index < count; index++)
	{
	alive \|= isAliveBefore[instructionOffsetValue.instructionOffset(index)];
	}

	return alive;
	}


	/**
	* Returns the minimum offset from the given instruction offsets.
	*/
	private int minOffset(Value instructionOffsets)
	{
	return minOffset(instructionOffsets, Integer.MAX_VALUE);
	}


	/**
	* Returns the minimum offset from the given instruction offsets.
	*/
	private int minOffset(Value instructionOffsets, int minOffset)
	{
	if (instructionOffsets != null)
	{
	InstructionOffsetValue instructionOffsetValue =
	instructionOffsets.instructionOffsetValue();

	int count = instructionOffsetValue.instructionOffsetCount();
	for (int index = 0; index < count; index++)
	{
	int offset = instructionOffsetValue.instructionOffset(index);
	if (minOffset > offset)
	{
	minOffset = offset;
	}
	}
	}

	return minOffset;
	}


	/**
	* Returns the maximum offset from the given instruction offsets.
	*/
	private int maxOffset(Value instructionOffsets)
	{
	return maxOffset(instructionOffsets, Integer.MIN_VALUE);
	}


	/**
	* Returns the maximum offset from the given instruction offsets.
	*/
	private int maxOffset(Value instructionOffsets, int maxOffset)
	{
	if (instructionOffsets != null)
	{
	InstructionOffsetValue instructionOffsetValue =
	instructionOffsets.instructionOffsetValue();

	int count = instructionOffsetValue.instructionOffsetCount();
	for (int index = 0; index < count; index++)
	{
	int offset = instructionOffsetValue.instructionOffset(index);
	if (maxOffset < offset)
	{
	maxOffset = offset;
	}
	}
	}

	return maxOffset;
	}
	}