/*
* MULTU.java
*
* 18th may 2007
* Instruction MULTU of the MIPS64 Instruction Set
* (c) 2006 EduMips64 project - Giorgio Scibilia - Erik Urzi'- Sciuto Lorenzo
*
* This file is part of the EduMIPS64 project, and is released under the GNU
* General Public License.
*
* 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 org.edumips64.core.is;
import org.edumips64.core.*;
import org.edumips64.utils.*;
import java.math.BigInteger;
//per diagnostica
/**
* <pre>
* Syntax: MULTU rs, rt
* Description: (LO,HI) = rs * rt
* To multiply 32-bit unsigned integers
* The 32-bit word value in GPR rt is multiplied by the 32-bit
* value in GPR rs, treating both operands as unsigned values.
* The low-order 32-bit word of the result is sign-extended and placed into special register
* LO, and the high-order 32-bit word is sign-extended and placed into special register HI.
* </pre>
*
* @author Giorgio Scibilia - Lorenzo Sciuto - Erik Urzi'
*/
class MULTU extends ALU_RType {
final int RS_FIELD = 0;
final int RT_FIELD = 1;
final String OPCODE_VALUE = "011001";
String lo;
String hi;
MULTU() {
super.OPCODE_VALUE = OPCODE_VALUE;
syntax = "%R,%R";
name = "MULTU";
}
public void ID() throws RAWException, IrregularWriteOperationException, IrregularStringOfBitsException {
//if source registers are valid passing their own values into temporary registers
Register rs = cpu.getRegister(params.get(RS_FIELD));
Register rt = cpu.getRegister(params.get(RT_FIELD));
if (rs.getWriteSemaphore() > 0 || rt.getWriteSemaphore() > 0) {
throw new RAWException();
}
TR[RS_FIELD] = rs;
TR[RT_FIELD] = rt;
//locking the destination register
cpu.getLO().incrWriteSemaphore();
cpu.getHI().incrWriteSemaphore();
}
public void EX() throws IrregularStringOfBitsException, IntegerOverflowException, TwosComplementSumException {
//getting registers' values and cutting the first 32-bits
String str_rs = TR[RS_FIELD].getBinString();
String str_rt = TR[RT_FIELD].getBinString();
//cutting the high part of registers
str_rs = str_rs.substring(32, 64);
str_rt = str_rt.substring(32, 64);
BigInteger rs = new BigInteger(str_rs, 2);
BigInteger rt = new BigInteger(str_rt, 2);
BigInteger result = rs.multiply(rt);
// Convert result to a String of 64-bit
String tmp = result.toString(2);
while (tmp.length() < 64) {
tmp = "0" + tmp;
}
hi = tmp.substring(0, 32);
lo = tmp.substring(32);
//filling the first 32-bits
for (int i = hi.length(); i < 64; i++) {
hi = '0' + hi;
}
for (int i = lo.length(); i < 64; i++) {
lo = '0' + lo;
}
if (cpu.isEnableForwarding()) {
doWB();
}
}
public void WB() throws IrregularStringOfBitsException {
if (!cpu.isEnableForwarding()) {
doWB();
}
}
public void doWB() throws IrregularStringOfBitsException {
//passing results from temporary registers to destination registers and unlocking them
Register lo = cpu.getLO();
Register hi = cpu.getHI();
lo.setBits(this.lo, 0);
hi.setBits(this.hi, 0);
lo.decrWriteSemaphore();
hi.decrWriteSemaphore();
}
public void pack() throws IrregularStringOfBitsException {
//conversion of instruction parameters of "params" list to the "repr" form (32 binary value)
repr.setBits(OPCODE_VALUE, OPCODE_VALUE_INIT);
repr.setBits(Converter.intToBin(RS_FIELD_LENGTH, params.get(RS_FIELD)), RS_FIELD_INIT);
repr.setBits(Converter.intToBin(RT_FIELD_LENGTH, params.get(RT_FIELD)), RT_FIELD_INIT);
}
}