Java tutorial
/** * Copyright (c) 2015 Kyle Friz * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ package com.friz.instruction.visitor.impl; import org.objectweb.asm.Opcodes; import org.objectweb.asm.tree.InsnNode; import com.friz.instruction.tree.arith.ArithmeticInstruction; import com.friz.instruction.utility.InstructionUtil; import com.friz.instruction.visitor.InstructionVisitor; /** * @author Kyle Friz * @since Mar 12, 2016 */ public class AdditionVisitor extends InstructionVisitor { @Override public void visitArithmetic(ArithmeticInstruction arithmetic) { if (arithmetic.isAddition()) { if (InstructionUtil.isStaticPush(arithmetic.first())) { // # + var // switch -# + var to var - # // switch # + var to var + # if (arithmetic.isInt()) { int val = InstructionUtil.getNumericPush(arithmetic.first()).intValue(); int valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.ISUB)); arithmetic.flip(); arithmetic.replace(InstructionUtil.createNumericPush(valv), true); count++; } else if (InstructionUtil.isStaticPush(arithmetic.first()) && InstructionUtil.isDynamicPush(arithmetic.second())) { //arithmetic.flip(); //count++; } } else if (arithmetic.isLong()) { long val = InstructionUtil.getNumericPush(arithmetic.first()).longValue(); long valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.LSUB)); arithmetic.flip(); arithmetic.replace(InstructionUtil.createNumericPush(valv), true); count++; } else if (InstructionUtil.isDynamicPush(arithmetic.second())) { arithmetic.flip(); count++; } } else if (arithmetic.isFloat()) { float val = InstructionUtil.getNumericPush(arithmetic.first()).floatValue(); float valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.FSUB)); arithmetic.flip(); arithmetic.replace(InstructionUtil.createNumericPush(valv), true); count++; } else if (InstructionUtil.isDynamicPush(arithmetic.second())) { arithmetic.flip(); count++; } } else if (arithmetic.isDouble()) { double val = InstructionUtil.getNumericPush(arithmetic.first()).doubleValue(); double valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.DSUB)); arithmetic.flip(); arithmetic.replace(InstructionUtil.createNumericPush(valv), true); count++; } else if (InstructionUtil.isDynamicPush(arithmetic.second())) { arithmetic.flip(); count++; } } } else if (InstructionUtil.isStaticPush(arithmetic.second())) { // var + # // switch var + -# to var - # if (arithmetic.isInt()) { int val = InstructionUtil.getNumericPush(arithmetic.second()).intValue(); int valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.ISUB)); arithmetic.replace(InstructionUtil.createNumericPush(valv), false); count++; } } else if (arithmetic.isInt()) { long val = InstructionUtil.getNumericPush(arithmetic.second()).longValue(); long valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.LSUB)); arithmetic.replace(InstructionUtil.createNumericPush(valv), false); count++; } } else if (arithmetic.isFloat()) { float val = InstructionUtil.getNumericPush(arithmetic.second()).floatValue(); float valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.FSUB)); arithmetic.replace(InstructionUtil.createNumericPush(valv), false); count++; } } else if (arithmetic.isDouble()) { double val = InstructionUtil.getNumericPush(arithmetic.second()).doubleValue(); double valv = Math.abs(val); if (val != valv) { arithmetic.set(new InsnNode(Opcodes.DSUB)); arithmetic.replace(InstructionUtil.createNumericPush(valv), false); count++; } } } } } @Override public void results() { System.out.println("Adjusted " + count + " addition logic instructions."); } @Override public void reset() { count = 0; } }