src/proguard/evaluation/value/SpecificFloatValue.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.value;

 /**
  * This FloatValue represents a specific float value.
  *
  * @author Eric Lafortune
  */
 abstract class SpecificFloatValue extends FloatValue
 {
     // Implementations of unary methods of FloatValue.

     public FloatValue negate()
     {
         return new NegatedFloatValue(this);
     }

     public IntegerValue convertToInteger()
     {
         return new ConvertedIntegerValue(this);
     }

     public LongValue convertToLong()
     {
         return new ConvertedLongValue(this);
     }

     public DoubleValue convertToDouble()
     {
         return new ConvertedDoubleValue(this);
     }


     // Implementations of binary methods of FloatValue.

     public FloatValue generalize(FloatValue other)
     {
         return other.generalize(this);
     }

     public FloatValue add(FloatValue other)
     {
         return other.add(this);
     }

     public FloatValue subtract(FloatValue other)
     {
         return other.subtractFrom(this);
     }

     public FloatValue subtractFrom(FloatValue other)
     {
         return other.subtract(this);
     }

     public FloatValue multiply(FloatValue other)
     {
         return other.multiply(this);
     }

     public FloatValue divide(FloatValue other)
     {
         return other.divideOf(this);
     }

     public FloatValue divideOf(FloatValue other)
     {
         return other.divide(this);
     }

     public FloatValue remainder(FloatValue other)
     {
         return other.remainderOf(this);
     }

     public FloatValue remainderOf(FloatValue other)
     {
         return other.remainder(this);
     }

     public IntegerValue compare(FloatValue other)
     {
         return other.compareReverse(this);
     }


     // Implementations of binary FloatValue methods with SpecificFloatValue
     // arguments.

     public FloatValue generalize(SpecificFloatValue other)
     {
         return this.equals(other) ? this : ValueFactory.FLOAT_VALUE;
     }

     public FloatValue add(SpecificFloatValue other)
     {
         return new CompositeFloatValue(this, CompositeFloatValue.ADD, other);
     }

     public FloatValue subtract(SpecificFloatValue other)
     {
         return new CompositeFloatValue(this, CompositeFloatValue.SUBTRACT, other);
     }

     public FloatValue subtractFrom(SpecificFloatValue other)
     {
         return new CompositeFloatValue(other, CompositeFloatValue.SUBTRACT, this);
     }

     public FloatValue multiply(SpecificFloatValue other)
     {
         return new CompositeFloatValue(this, CompositeFloatValue.MULTIPLY, other);
     }

     public FloatValue divide(SpecificFloatValue other)
     {
         return new CompositeFloatValue(this, CompositeFloatValue.DIVIDE, other);
     }

     public FloatValue divideOf(SpecificFloatValue other)
     {
         return new CompositeFloatValue(other, CompositeFloatValue.DIVIDE, this);
     }

     public FloatValue remainder(SpecificFloatValue other)
     {
         return new CompositeFloatValue(this, CompositeFloatValue.REMAINDER, other);
     }

     public FloatValue remainderOf(SpecificFloatValue other)
     {
         return new CompositeFloatValue(other, CompositeFloatValue.REMAINDER, this);
     }

     public IntegerValue compare(SpecificFloatValue other)
     {
         return this.equals(other) ?
             SpecificValueFactory.INTEGER_VALUE_0 :
             new ComparisonValue(this, other);
     }


     // Implementations for Value.

     public boolean isSpecific()
     {
         return true;
     }


     // Implementations for Object.

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


     public int hashCode()
     {
         return this.getClass().hashCode();
     }
 }
	/*
	* 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.value;

	/**
	* This FloatValue represents a specific float value.
	*
	* @author Eric Lafortune
	*/
	abstract class SpecificFloatValue extends FloatValue
	{
	// Implementations of unary methods of FloatValue.

	public FloatValue negate()
	{
	return new NegatedFloatValue(this);
	}

	public IntegerValue convertToInteger()
	{
	return new ConvertedIntegerValue(this);
	}

	public LongValue convertToLong()
	{
	return new ConvertedLongValue(this);
	}

	public DoubleValue convertToDouble()
	{
	return new ConvertedDoubleValue(this);
	}


	// Implementations of binary methods of FloatValue.

	public FloatValue generalize(FloatValue other)
	{
	return other.generalize(this);
	}

	public FloatValue add(FloatValue other)
	{
	return other.add(this);
	}

	public FloatValue subtract(FloatValue other)
	{
	return other.subtractFrom(this);
	}

	public FloatValue subtractFrom(FloatValue other)
	{
	return other.subtract(this);
	}

	public FloatValue multiply(FloatValue other)
	{
	return other.multiply(this);
	}

	public FloatValue divide(FloatValue other)
	{
	return other.divideOf(this);
	}

	public FloatValue divideOf(FloatValue other)
	{
	return other.divide(this);
	}

	public FloatValue remainder(FloatValue other)
	{
	return other.remainderOf(this);
	}

	public FloatValue remainderOf(FloatValue other)
	{
	return other.remainder(this);
	}

	public IntegerValue compare(FloatValue other)
	{
	return other.compareReverse(this);
	}


	// Implementations of binary FloatValue methods with SpecificFloatValue
	// arguments.

	public FloatValue generalize(SpecificFloatValue other)
	{
	return this.equals(other) ? this : ValueFactory.FLOAT_VALUE;
	}

	public FloatValue add(SpecificFloatValue other)
	{
	return new CompositeFloatValue(this, CompositeFloatValue.ADD, other);
	}

	public FloatValue subtract(SpecificFloatValue other)
	{
	return new CompositeFloatValue(this, CompositeFloatValue.SUBTRACT, other);
	}

	public FloatValue subtractFrom(SpecificFloatValue other)
	{
	return new CompositeFloatValue(other, CompositeFloatValue.SUBTRACT, this);
	}

	public FloatValue multiply(SpecificFloatValue other)
	{
	return new CompositeFloatValue(this, CompositeFloatValue.MULTIPLY, other);
	}

	public FloatValue divide(SpecificFloatValue other)
	{
	return new CompositeFloatValue(this, CompositeFloatValue.DIVIDE, other);
	}

	public FloatValue divideOf(SpecificFloatValue other)
	{
	return new CompositeFloatValue(other, CompositeFloatValue.DIVIDE, this);
	}

	public FloatValue remainder(SpecificFloatValue other)
	{
	return new CompositeFloatValue(this, CompositeFloatValue.REMAINDER, other);
	}

	public FloatValue remainderOf(SpecificFloatValue other)
	{
	return new CompositeFloatValue(other, CompositeFloatValue.REMAINDER, this);
	}

	public IntegerValue compare(SpecificFloatValue other)
	{
	return this.equals(other) ?
	SpecificValueFactory.INTEGER_VALUE_0 :
	new ComparisonValue(this, other);
	}


	// Implementations for Value.

	public boolean isSpecific()
	{
	return true;
	}


	// Implementations for Object.

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


	public int hashCode()
	{
	return this.getClass().hashCode();
	}
	}