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

 /*
  * ProGuard -- shrinking, optimization, obfuscation, and preverification
  *             of Java bytecode.
  *
  * Copyright (c) 2002-2009 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.evaluation;

 import proguard.evaluation.value.Value;

 /**
  * This Stack saves additional information with stack elements, to keep track
  * of their origins and destinations.
  * <p>
  * The stack stores a given producer Value along with each Value it stores.
  * It then generalizes a given collected Value with the producer Value
  * of each Value it loads. The producer Value and the initial collected Value
  * can be set; the generalized collected Value can be retrieved.
  *
  * @author Eric Lafortune
  */
 public class TracedStack extends Stack
 {
     private Value producerValue;
     private Stack producerStack;


     /**
      * Creates a new TracedStack with a given maximum size.
      */
     public TracedStack(int maxSize)
     {
         super(maxSize);

         producerStack = new Stack(maxSize);
     }


     /**
      * Creates a new TracedStack that is a copy of the given TracedStack.
      */
     public TracedStack(TracedStack tracedStack)
     {
         super(tracedStack);

         producerStack = new Stack(tracedStack.producerStack);
     }


     /**
      * Sets the Value that will be stored along with all push and pop
      * instructions.
      */
     public void setProducerValue(Value producerValue)
     {
         this.producerValue = producerValue;
     }


     /**
      * Gets the specified producer Value from the stack, without disturbing it.
      * @param index the index of the stack element, counting from the bottom
      *              of the stack.
      * @return the producer value at the specified position.
      */
     public Value getBottomProducerValue(int index)
     {
         return producerStack.getBottom(index);
     }


     /**
      * Sets the specified producer Value on the stack, without disturbing it.
      * @param index the index of the stack element, counting from the bottom
      *              of the stack.
      * @param value the producer value to set.
      */
     public void setBottomProducerValue(int index, Value value)
     {
         producerStack.setBottom(index, value);
     }


     /**
      * Gets the specified producer Value from the stack, without disturbing it.
      * @param index the index of the stack element, counting from the top
      *              of the stack.
      * @return the producer value at the specified position.
      */
     public Value getTopProducerValue(int index)
     {
         return producerStack.getTop(index);
     }


     /**
      * Sets the specified producer Value on the stack, without disturbing it.
      * @param index the index of the stack element, counting from the top
      *              of the stack.
      * @param value the producer value to set.
      */
     public void setTopProducerValue(int index, Value value)
     {
         producerStack.setTop(index, value);
     }


     // Implementations for Stack.

     public void reset(int size)
     {
         super.reset(size);

         producerStack.reset(size);
     }

     public void copy(TracedStack other)
     {
         super.copy(other);

         producerStack.copy(other.producerStack);
     }

     public boolean generalize(TracedStack other)
     {
         return
             super.generalize(other) |
             producerStack.generalize(other.producerStack);
     }

     public void clear()
     {
         super.clear();

         producerStack.clear();
     }

     public void removeTop(int index)
     {
         super.removeTop(index);

         producerStack.removeTop(index);
     }

     public void push(Value value)
     {
         super.push(value);

         producerPush();

         // Account for the extra space required by Category 2 values.
         if (value.isCategory2())
         {
             producerPush();
         }
     }

     public Value pop()
     {
         Value value = super.pop();

         producerPop();

         // Account for the extra space required by Category 2 values.
         if (value.isCategory2())
         {
             producerPop();
         }

         return value;
     }

     public void pop1()
     {
         super.pop1();

         producerPop();
     }

     public void pop2()
     {
         super.pop2();

         producerPop();
         producerPop();
     }

     public void dup()
     {
         super.dup();

         producerPop();
         producerPush();
         producerPush();
     }

     public void dup_x1()
     {
         super.dup_x1();

         producerPop();
         producerPop();
         producerPush();
         producerPush();
         producerPush();
     }

     public void dup_x2()
     {
         super.dup_x2();

         producerPop();
         producerPop();
         producerPop();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
     }

     public void dup2()
     {
         super.dup2();

         producerPop();
         producerPop();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
     }

     public void dup2_x1()
     {
         super.dup2_x1();

         producerPop();
         producerPop();
         producerPop();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
     }

     public void dup2_x2()
     {
         super.dup2_x2();

         producerPop();
         producerPop();
         producerPop();
         producerPop();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
         producerPush();
     }

     public void swap()
     {
         super.swap();

         producerPop();
         producerPop();
         producerPush();
         producerPush();
     }


     // Implementations for Object.

     public boolean equals(Object object)
     {
         if (object == null ||
             this.getClass() != object.getClass())
         {
             return false;
         }

         TracedStack other = (TracedStack)object;

         return super.equals(object) &&
                this.producerStack.equals(other.producerStack);
     }


     public int hashCode()
     {
         return super.hashCode() ^
                producerStack.hashCode();
     }


     public String toString()
     {
         StringBuffer buffer = new StringBuffer();

         for (int index = 0; index < this.size(); index++)
         {
             Value value         = this.values[index];
             Value producerValue = producerStack.getBottom(index);
             buffer = buffer.append('[')
                            .append(producerValue == null ? "empty:" : producerValue.toString())
                            .append(value         == null ? "empty"  : value.toString())
                            .append(']');
         }

         return buffer.toString();
     }


     // Small utility methods.

     private void producerPush()
     {
         producerStack.push(producerValue);
     }


     private void producerPop()
     {
         producerStack.pop();
     }
 }
	/*
	* ProGuard -- shrinking, optimization, obfuscation, and preverification
	* of Java bytecode.
	*
	* Copyright (c) 2002-2009 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.evaluation;

	import proguard.evaluation.value.Value;

	/**
	* This Stack saves additional information with stack elements, to keep track
	* of their origins and destinations.
	* <p>
	* The stack stores a given producer Value along with each Value it stores.
	* It then generalizes a given collected Value with the producer Value
	* of each Value it loads. The producer Value and the initial collected Value
	* can be set; the generalized collected Value can be retrieved.
	*
	* @author Eric Lafortune
	*/
	public class TracedStack extends Stack
	{
	private Value producerValue;
	private Stack producerStack;


	/**
	* Creates a new TracedStack with a given maximum size.
	*/
	public TracedStack(int maxSize)
	{
	super(maxSize);

	producerStack = new Stack(maxSize);
	}


	/**
	* Creates a new TracedStack that is a copy of the given TracedStack.
	*/
	public TracedStack(TracedStack tracedStack)
	{
	super(tracedStack);

	producerStack = new Stack(tracedStack.producerStack);
	}


	/**
	* Sets the Value that will be stored along with all push and pop
	* instructions.
	*/
	public void setProducerValue(Value producerValue)
	{
	this.producerValue = producerValue;
	}


	/**
	* Gets the specified producer Value from the stack, without disturbing it.
	* @param index the index of the stack element, counting from the bottom
	* of the stack.
	* @return the producer value at the specified position.
	*/
	public Value getBottomProducerValue(int index)
	{
	return producerStack.getBottom(index);
	}


	/**
	* Sets the specified producer Value on the stack, without disturbing it.
	* @param index the index of the stack element, counting from the bottom
	* of the stack.
	* @param value the producer value to set.
	*/
	public void setBottomProducerValue(int index, Value value)
	{
	producerStack.setBottom(index, value);
	}


	/**
	* Gets the specified producer Value from the stack, without disturbing it.
	* @param index the index of the stack element, counting from the top
	* of the stack.
	* @return the producer value at the specified position.
	*/
	public Value getTopProducerValue(int index)
	{
	return producerStack.getTop(index);
	}


	/**
	* Sets the specified producer Value on the stack, without disturbing it.
	* @param index the index of the stack element, counting from the top
	* of the stack.
	* @param value the producer value to set.
	*/
	public void setTopProducerValue(int index, Value value)
	{
	producerStack.setTop(index, value);
	}


	// Implementations for Stack.

	public void reset(int size)
	{
	super.reset(size);

	producerStack.reset(size);
	}

	public void copy(TracedStack other)
	{
	super.copy(other);

	producerStack.copy(other.producerStack);
	}

	public boolean generalize(TracedStack other)
	{
	return
	super.generalize(other) \|
	producerStack.generalize(other.producerStack);
	}

	public void clear()
	{
	super.clear();

	producerStack.clear();
	}

	public void removeTop(int index)
	{
	super.removeTop(index);

	producerStack.removeTop(index);
	}

	public void push(Value value)
	{
	super.push(value);

	producerPush();

	// Account for the extra space required by Category 2 values.
	if (value.isCategory2())
	{
	producerPush();
	}
	}

	public Value pop()
	{
	Value value = super.pop();

	producerPop();

	// Account for the extra space required by Category 2 values.
	if (value.isCategory2())
	{
	producerPop();
	}

	return value;
	}

	public void pop1()
	{
	super.pop1();

	producerPop();
	}

	public void pop2()
	{
	super.pop2();

	producerPop();
	producerPop();
	}

	public void dup()
	{
	super.dup();

	producerPop();
	producerPush();
	producerPush();
	}

	public void dup_x1()
	{
	super.dup_x1();

	producerPop();
	producerPop();
	producerPush();
	producerPush();
	producerPush();
	}

	public void dup_x2()
	{
	super.dup_x2();

	producerPop();
	producerPop();
	producerPop();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	}

	public void dup2()
	{
	super.dup2();

	producerPop();
	producerPop();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	}

	public void dup2_x1()
	{
	super.dup2_x1();

	producerPop();
	producerPop();
	producerPop();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	}

	public void dup2_x2()
	{
	super.dup2_x2();

	producerPop();
	producerPop();
	producerPop();
	producerPop();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	producerPush();
	}

	public void swap()
	{
	super.swap();

	producerPop();
	producerPop();
	producerPush();
	producerPush();
	}


	// Implementations for Object.

	public boolean equals(Object object)
	{
	if (object == null \|\|
	this.getClass() != object.getClass())
	{
	return false;
	}

	TracedStack other = (TracedStack)object;

	return super.equals(object) &&
	this.producerStack.equals(other.producerStack);
	}


	public int hashCode()
	{
	return super.hashCode() ^
	producerStack.hashCode();
	}


	public String toString()
	{
	StringBuffer buffer = new StringBuffer();

	for (int index = 0; index < this.size(); index++)
	{
	Value value = this.values[index];
	Value producerValue = producerStack.getBottom(index);
	buffer = buffer.append('[')
	.append(producerValue == null ? "empty:" : producerValue.toString())
	.append(value == null ? "empty" : value.toString())
	.append(']');
	}

	return buffer.toString();
	}


	// Small utility methods.

	private void producerPush()
	{
	producerStack.push(producerValue);
	}


	private void producerPop()
	{
	producerStack.pop();
	}
	}