/* * ProGuard -- shrinking, optimization, obfuscation, and preverification * of Java bytecode. * * Copyright (c) 2002-2013 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; import proguard.classfile.ClassConstants; /** * This class represents a partially evaluated float value. * * @author Eric Lafortune */ public abstract class FloatValue extends Category1Value { /** * Returns the specific float value, if applicable. */ public float value() { return 0f; } // Basic unary methods. /** * Returns the negated value of this FloatValue. */ public abstract FloatValue negate(); /** * Converts this FloatValue to an IntegerValue. */ public abstract IntegerValue convertToInteger(); /** * Converts this FloatValue to a LongValue. */ public abstract LongValue convertToLong(); /** * Converts this FloatValue to a DoubleValue. */ public abstract DoubleValue convertToDouble(); // Basic binary methods. /** * Returns the generalization of this FloatValue and the given other * FloatValue. */ public abstract FloatValue generalize(FloatValue other); /** * Returns the sum of this FloatValue and the given FloatValue. */ public abstract FloatValue add(FloatValue other); /** * Returns the difference of this FloatValue and the given FloatValue. */ public abstract FloatValue subtract(FloatValue other); /** * Returns the difference of the given FloatValue and this FloatValue. */ public abstract FloatValue subtractFrom(FloatValue other); /** * Returns the product of this FloatValue and the given FloatValue. */ public abstract FloatValue multiply(FloatValue other); /** * Returns the quotient of this FloatValue and the given FloatValue. */ public abstract FloatValue divide(FloatValue other); /** * Returns the quotient of the given FloatValue and this FloatValue. */ public abstract FloatValue divideOf(FloatValue other); /** * Returns the remainder of this FloatValue divided by the given FloatValue. */ public abstract FloatValue remainder(FloatValue other); /** * Returns the remainder of the given FloatValue divided by this FloatValue. */ public abstract FloatValue remainderOf(FloatValue other); /** * Returns an IntegerValue with value -1, 0, or 1, if this FloatValue is * less than, equal to, or greater than the given FloatValue, respectively. */ public abstract IntegerValue compare(FloatValue other); // Derived binary methods. /** * Returns an IntegerValue with value 1, 0, or -1, if this FloatValue is * less than, equal to, or greater than the given FloatValue, respectively. */ public final IntegerValue compareReverse(FloatValue other) { return compare(other).negate(); } // Similar binary methods, but this time with more specific arguments. /** * Returns the generalization of this FloatValue and the given other * SpecificFloatValue. */ public FloatValue generalize(SpecificFloatValue other) { return generalize((FloatValue)other); } /** * Returns the sum of this FloatValue and the given SpecificFloatValue. */ public FloatValue add(SpecificFloatValue other) { return add((FloatValue)other); } /** * Returns the difference of this FloatValue and the given SpecificFloatValue. */ public FloatValue subtract(SpecificFloatValue other) { return subtract((FloatValue)other); } /** * Returns the difference of the given SpecificFloatValue and this FloatValue. */ public FloatValue subtractFrom(SpecificFloatValue other) { return subtractFrom((FloatValue)other); } /** * Returns the product of this FloatValue and the given SpecificFloatValue. */ public FloatValue multiply(SpecificFloatValue other) { return multiply((FloatValue)other); } /** * Returns the quotient of this FloatValue and the given SpecificFloatValue. */ public FloatValue divide(SpecificFloatValue other) { return divide((FloatValue)other); } /** * Returns the quotient of the given SpecificFloatValue and this * FloatValue. */ public FloatValue divideOf(SpecificFloatValue other) { return divideOf((FloatValue)other); } /** * Returns the remainder of this FloatValue divided by the given * SpecificFloatValue. */ public FloatValue remainder(SpecificFloatValue other) { return remainder((FloatValue)other); } /** * Returns the remainder of the given SpecificFloatValue and this * FloatValue. */ public FloatValue remainderOf(SpecificFloatValue other) { return remainderOf((FloatValue)other); } /** * Returns an IntegerValue with value -1, 0, or 1, if this FloatValue is * less than, equal to, or greater than the given SpecificFloatValue, * respectively. */ public IntegerValue compare(SpecificFloatValue other) { return compare((FloatValue)other); } // Derived binary methods. /** * Returns an IntegerValue with value 1, 0, or -1, if this FloatValue is * less than, equal to, or greater than the given SpecificFloatValue, * respectively. */ public final IntegerValue compareReverse(SpecificFloatValue other) { return compare(other).negate(); } // Similar binary methods, but this time with particular arguments. /** * Returns the generalization of this FloatValue and the given other * ParticularFloatValue. */ public FloatValue generalize(ParticularFloatValue other) { return generalize((SpecificFloatValue)other); } /** * Returns the sum of this FloatValue and the given ParticularFloatValue. */ public FloatValue add(ParticularFloatValue other) { return add((SpecificFloatValue)other); } /** * Returns the difference of this FloatValue and the given ParticularFloatValue. */ public FloatValue subtract(ParticularFloatValue other) { return subtract((SpecificFloatValue)other); } /** * Returns the difference of the given ParticularFloatValue and this FloatValue. */ public FloatValue subtractFrom(ParticularFloatValue other) { return subtractFrom((SpecificFloatValue)other); } /** * Returns the product of this FloatValue and the given ParticularFloatValue. */ public FloatValue multiply(ParticularFloatValue other) { return multiply((SpecificFloatValue)other); } /** * Returns the quotient of this FloatValue and the given ParticularFloatValue. */ public FloatValue divide(ParticularFloatValue other) { return divide((SpecificFloatValue)other); } /** * Returns the quotient of the given ParticularFloatValue and this * FloatValue. */ public FloatValue divideOf(ParticularFloatValue other) { return divideOf((SpecificFloatValue)other); } /** * Returns the remainder of this FloatValue divided by the given * ParticularFloatValue. */ public FloatValue remainder(ParticularFloatValue other) { return remainder((SpecificFloatValue)other); } /** * Returns the remainder of the given ParticularFloatValue and this * FloatValue. */ public FloatValue remainderOf(ParticularFloatValue other) { return remainderOf((SpecificFloatValue)other); } /** * Returns an IntegerValue with value -1, 0, or 1, if this FloatValue is * less than, equal to, or greater than the given ParticularFloatValue, * respectively. */ public IntegerValue compare(ParticularFloatValue other) { return compare((SpecificFloatValue)other); } // Derived binary methods. /** * Returns an IntegerValue with value 1, 0, or -1, if this FloatValue is * less than, equal to, or greater than the given ParticularFloatValue, * respectively. */ public final IntegerValue compareReverse(ParticularFloatValue other) { return compare(other).negate(); } // Implementations for Value. public final FloatValue floatValue() { return this; } public final Value generalize(Value other) { return this.generalize(other.floatValue()); } public final int computationalType() { return TYPE_FLOAT; } public final String internalType() { return String.valueOf(ClassConstants.INTERNAL_TYPE_FLOAT); } }