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asmtomach.js
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import {updateMachineCode, ctx, labels, errorMessage} from './code.js'
let digits = ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "a", "b", "c", "d", "e", "f"];
// A array of pairs where first item is regname and second item is regcode
let regs16 = [["ax", "000"], ["bx", "011"], ["cx", "001"], ["dx", "010"],
["sp", "100"], ["bp", "101"], ["si", "110"], ["di", "111"]];
let regs8 = [["ah", "000"], ["al", "000"], ["bh", "011"], ["bl", "011"],
["ch", "001"], ["cl", "001"], ["dh", "010"], ["dl", "010"]];
const ClockTimePeriod = 1000;
// Generic R/M class
class Register {
constructor(reg_name) {
this.reg_name = reg_name;
}
setReg(value) {
let bin = value.toString(2); // convert binary string
bin = bin.padStart(16, "0"); // append with zeros
for (let i = 0; i < 16; i++) {
const tagID = this.reg_name + "_" + i;
document.getElementById(tagID).innerHTML = bin[bin.length - i - 1];
}
}
setLowerByte(value) {
let bin = value.toString(2); // convert binary string
bin = bin.padStart(8, "0"); // append with zeros
for (let i = 0; i < 8; i++) {
const tagID = this.reg_name[0] + "X" + "_" + i;
document.getElementById(tagID).innerHTML = bin[bin.length - i - 1];
}
}
setHigherByte(value) {
let bin = value.toString(2); // convert binary string
bin = bin.padStart(8, "0"); // append with zeros
for (let i = 8; i < 16; i++) {
const tagID = this.reg_name[0] + "X" + "_" + i;
document.getElementById(tagID).innerHTML = bin[15 - i];
}
}
getReg() {
let value = "";
for (let i = 0; i < 16; i++) {
const tagID = this.reg_name + "_" + i;
value += document.getElementById(tagID).innerText;
}
return reverseString(value);
}
getLowerByte() {
let value = "";
for (let i = 0; i < 16; i++) {
const tagID = this.reg_name[0] + "X" + "_" + i;
value += document.getElementById(tagID).innerText;
}
value = reverseString(value);
return value.substring(8)
}
getHigherByte() {
let value = "";
for (let i = 0; i < 16; i++) {
const tagID = this.reg_name[0] + "X" + "_" + i;
value += document.getElementById(tagID).innerText;
}
value = reverseString(value);
return value.substring(0, 8)
}
}
function isregister(val) {
for (let i = 0; i < regs16.length; i++) {
if (val === regs16[i][0] || val === regs8[i][0]) {
return true;
}
}
return false;
}
function is8byteregister(val) {
for (let i = 0; i < regs16.length; i++) {
if (val === regs8[i][0]) {
return true;
}
}
return false;
}
function getRegCode(name) {
for (let i = 0; i < regs16.length; i++) {
if (name === regs16[i][0]) {
return regs16[i][1];
}
}
for (let i = 0; i < regs8.length; i++) {
if (name === regs8[i][0]) {
return regs8[i][1];
}
}
console.log("ERROR: getRegCode called on non-reg name");
return "";
}
function ismemory(val) {
if (val.charAt(0) == "[" && val.charAt(val.length - 1 == "]")) {
return true;
}
if (val.charAt(0) == "[" && val.charAt(val.length - 1 !== "]")) {
console.log("Error!");
return false;
}
return false;
}
function getLabelLine(name) {
for (let i = 0; i < labels.length; i++) {
if (name === labels[i][0]) {
return labels[i][1];
}
}
return -1;
}
function isnumber(val) {
let count = 0;
let start = 0;
if(val[0] === '-'){
start = 1;
count++;
}
for (let i = start; i < val.length; i++) {
for (let j = 0; j < digits.length; j++) {
if (val[i] === digits[j]) {
count++;
}
}
}
if (val[val.length-1] === 'b' || val[val.length-1] === 'h') {
count++;
}
if (count >= val.length) {
return true;
}
return false;
}
function setnumber(secondop){
if(secondop.charAt(secondop.length-1) === 'b'){
secondop = parseInt(secondop.substring(0, secondop.length-1), 2).toString();
}
else if(secondop.charAt(secondop.length-1) === 'h'){
secondop = parseInt(secondop.substring(0, secondop.length-1), 16).toString();
}
return secondop;
}
function reverseString(str) {
if (str === "") // This is the terminal case that will end the recursion
return "";
else
return reverseString(str.substr(1)) + str.charAt(0);
}
function getLittleEndian(binstr) {
if (binstr.length == 16) {
return binstr.substr(8) + binstr.substr(0, 8);
}
console.log("ERROR: getLittleEndian called on non-word");
return binstr;
}
function getFlagState(flagTag) {
return document.getElementById(flagTag).innerHTML === "1";
}
function setFlagState(flagTag, bit) {
document.getElementById(flagTag).innerHTML = bit;
}
function draw8086(){
drawBox("BIU", "", 50, 50);
drawBox("Decoder", "", 250, 50);
drawBox("ALU", "", 250, 250);
drawBox("Memory", "", 50, 250);
drawBox("Control Unit","", 150, 150);
drawLine(150, 80, 250, 80);
drawLine(300, 120, 300, 180);
drawLine(300, 180, 250, 180);
drawLine(300, 190, 250, 190);
drawLine(300, 250, 300, 190);
drawLine(100, 190, 150, 190);
drawLine(100, 250, 100, 190);
drawLine(150, 280, 250, 280);
}
function sleep(ms) {
return new Promise(resolve => setTimeout(resolve, ms));
}
function drawBox(name, inst, x, y, clr = '#061731'){
ctx.fillStyle = clr;
ctx.fillRect(x, y, 100, 70);
ctx.font = "10px Comic Sans MS";
ctx.fillStyle = "white";
ctx.textAlign = "center";
ctx.fillText(name, x+50, y+20);
if(inst.length > 16){
ctx.fillText(inst.substring(0, 16), x+50, y+40);
ctx.fillText(inst.substring(16), x+50, y+60);
}
else{
ctx.fillText(inst, x+50, y+40);
}
ctx.stroke();
}
function drawLine(x1, y1, x2, y2){
ctx.beginPath();
ctx.moveTo(x1, y1);
ctx.lineTo(x2, y2);
ctx.stroke();
}
function changeColor(name, inst, x, y){
drawBox(name, inst, x, y, '#198618')
}
async function fetchdecode(inst, machcode){
await sleep(ClockTimePeriod);
changeColor("BIU", inst, 50, 50);
await sleep(ClockTimePeriod);
drawBox("BIU", "", 50, 50);
changeColor("Decoder", machcode, 250, 50);
await sleep(ClockTimePeriod);
drawBox("Decoder", "", 250, 50);
}
async function alu(inst, machcode, process){
await fetchdecode(inst, machcode)
changeColor("ALU", process, 250, 250);
await sleep(ClockTimePeriod);
drawBox("ALU", "", 250, 250);
}
async function animatemem(inst, machcode, mem){
await fetchdecode(inst, machcode);
changeColor("Memory", mem, 50, 250);
await sleep(ClockTimePeriod);
drawBox("Memory", "", 50, 250);
}
async function memalumem(inst, machcode, mem1, process, mem2){
await fetchdecode(inst, machcode);
changeColor("Memory", mem1, 50, 250);
await sleep(ClockTimePeriod);
drawBox("Memory", "", 50, 250);
changeColor("ALU", process, 250, 250);
await sleep(ClockTimePeriod);
drawBox("ALU", "", 250, 250);
changeColor("Memory", mem2, 50, 250);
await sleep(ClockTimePeriod);
drawBox("Memory", "", 50, 250);
}
async function memalu(inst, machcode, mem, process){
await fetchdecode(inst, machcode);
changeColor("Memory", mem, 50, 250);
await sleep(ClockTimePeriod);
drawBox("Memory", "", 50, 250);
changeColor("ALU", process, 250, 250);
await sleep(ClockTimePeriod);
drawBox("ALU", "", 250, 250);
}
async function alumem(inst, machcode, process, mem){
await fetchdecode(inst, machcode);
changeColor("ALU", process, 250, 250);
await sleep(ClockTimePeriod);
drawBox("ALU", "", 250, 250);
changeColor("Memory", mem, 50, 250);
await sleep(ClockTimePeriod);
drawBox("Memory", "", 50, 250);
}
async function animate_controlunit(inst, machcode, process){
await fetchdecode(inst, machcode)
changeColor("Control Unit", process, 150, 150);
await sleep(ClockTimePeriod);
drawBox("Control Unit", "", 150, 150);
}
function mov(code, words){
const firstop = words[1].substring(0, words[1].length - 1).toLowerCase();
let secondop = words[2].toLowerCase();
let machCode = "";
// Register to Register
if (isregister(firstop) && isregister(secondop)) {
let reg1 = new Register(firstop.toUpperCase());
let reg2 = new Register(secondop.toUpperCase());
if (is8byteregister(firstop) && is8byteregister(secondop)) {
if (reg1.reg_name[1].toLowerCase() === "l" && reg2.reg_name[1].toLowerCase() === "l") {
reg1.setLowerByte(reg2.getLowerByte().padStart(8, "0"));
}
else if (reg1.reg_name[1].toLowerCase() === "h" && reg2.reg_name[1].toLowerCase() === "h") {
reg1.setHigherByte(reg2.getHigherByte().padStart(8, "0"));
}
else if (reg1.reg_name[1].toLowerCase() === "l" && reg2.reg_name[1].toLowerCase() === "h") {
reg1.setLowerByte(reg2.getHigherByte().padStart(8, "0"));
}
else if (reg1.reg_name[1].toLowerCase() === "h" && reg2.reg_name[1].toLowerCase() === "l") {
reg1.setHigherByte(reg2.getLowerByte().padStart(8, "0"));
}
else {
console.log("Error!")
}
}
else {
reg1.setReg(reg2.getReg().padStart(16, "0"));
}
machCode += "100010"; //opcode
machCode += "1"; //dir
if (is8byteregister(firstop) && is8byteregister(secondop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "11"; //mod
machCode += getRegCode(firstop); //reg
machCode += getRegCode(secondop); //r/m
alu(code, machCode, secondop + " -> " + firstop);
}
// Immidate data to register
else if (isregister(firstop) && isnumber(secondop)) {
let reg = new Register(firstop.toUpperCase());
secondop = setnumber(secondop);
if (is8byteregister(firstop)) {
if (reg.reg_name[1].toLowerCase() === "l") {
reg.setLowerByte(parseInt(secondop));
}
else if (reg.reg_name[1].toLowerCase() === "h") {
reg.setHigherByte(parseInt(secondop));
}
else {
console.log("Error!");
}
}
else {
reg.setReg(parseInt(secondop));
}
machCode += "1100011"; //opcode
if (is8byteregister(firstop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "11"; //mod
machCode += "000"; //fixed
machCode += getRegCode(firstop); //r/m
machCode += getLittleEndian(parseInt(secondop).toString(2).padStart(16, "0")); //data
alu(code, machCode, secondop + " -> " + firstop);
}
// Immidate data to memory
else if (ismemory(firstop) && isnumber(secondop)) {
const memloc = firstop.substring(1, firstop.length - 1); //remove []
secondop = setnumber(secondop);
// Direct memory
if (isnumber(memloc)) {
let hexmem = parseInt(memloc, 10).toString(16); // converts int num inside brackets to hex
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
mem.setReg(parseInt(secondop));
machCode += "1100011"; //opcode
machCode += "1"; //w-bit
machCode += "00"; //mod
machCode += "000"; //fixed
machCode += "110"; //r/m
machCode += getLittleEndian(parseInt(memloc).toString(2).padStart(16, "0")); //address
machCode += getLittleEndian(parseInt(secondop).toString(2).padStart(16, "0")); //data
animatemem(code, machCode, secondop + " -> " + firstop);
}
// memory in register (NEED TO CHECK MACHINE CODE FOR THIS)
if (isregister(memloc)) {
let reg1 = new Register(memloc.toUpperCase());
let hexmem = parseInt(reg1.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
mem.setReg(parseInt(secondop));
machCode += "1100011"; //opcode
machCode += "1"; //w-bit (CHANGE THIS CODE WHEN BYTE MOV FUNCTIONALITY ADDED)
machCode += "00"; //mod
machCode += "000"; //fixed
machCode += "111"; //r/m <- NOT SURE ABOUT THIS
machCode += getLittleEndian(parseInt(secondop).toString(2).padStart(16, "0")); //data
animatemem(code, machCode, secondop + " -> " + firstop);
}
}
// Memory to register
else if (isregister(firstop) && ismemory(secondop)) {
let reg1 = new Register(firstop.toUpperCase());
const memloc = secondop.substring(1, secondop.length - 1);
// Direct memory
if (isnumber(memloc)) {
let hexmem = parseInt(memloc, 10).toString(16); // converts int num inside brackets to hex
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
if (is8byteregister(firstop)) {
if (reg1.reg_name[1].toLowerCase() === "l") {
reg1.setLowerByte(mem.getLowerByte().padStart(16, "0"));
}
else if (reg1.reg_name[1].toLowerCase() === "h") {
reg1.setHigherByte(mem.getLowerByte().padStart(16, "0"));
}
else {
console.log("Error!")
}
}
else {
reg1.setReg(mem.getReg().padStart(16, "0"));
}
machCode += "100010"; //opcode
if (is8byteregister(firstop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "00"; //mod
machCode += getRegCode(firstop); //reg
machCode += "110"; //r/m
machCode += getLittleEndian(parseInt(memloc).toString(2).padStart(16, "0")); //address
animatemem(code, machCode, secondop + " -> " + firstop);
}
// Memory location in register (NEED TO CHECK MACHINE CODE FOR THIS)
if (isregister(memloc)) {
let reg2 = new Register(memloc.toUpperCase());
let hexmem = parseInt(reg2.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg2 data.
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
if (is8byteregister(firstop)) {
if (reg1.reg_name[1].toLowerCase() === "l") {
reg1.setLowerByte(mem.getLowerByte().padStart(16, "0"));
}
else if (reg1.reg_name[1].toLowerCase() === "h") {
reg1.setHigherByte(mem.getLowerByte().padStart(16, "0"));
}
else {
console.log("Error!")
}
}
else {
reg1.setReg(mem.getReg().padStart(16, "0"));
}
machCode += "100010"; //opcode
machCode += "1"; //dir
if (is8byteregister(firstop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "00"; //mod
machCode += getRegCode(firstop); //reg
machCode += "111"; //r/m <- NOT SURE ABOUT THIS
animatemem(code, machCode, secondop + " -> " + firstop);
}
}
// register to memory
else if (ismemory(firstop) && isregister(secondop)) {
let reg2 = new Register(secondop.toUpperCase());
const memloc = firstop.substring(1, firstop.length - 1); //remove []
// Direct memory
if (isnumber(memloc)) {
let hexmem = parseInt(memloc, 10).toString(16); // converts int num inside brackets to hex
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
if (is8byteregister(secondop)) {
if (reg2.reg_name[1].toLowerCase() === "l") {
mem.setLowerByte(reg2.getLowerByte().padStart(16, "0"));
}
else if (reg2.reg_name[1].toLowerCase() === "h") {
mem.setLowerByte(reg2.getHigherByte().padStart(16, "0"));
}
else {
console.log("Error!")
}
}
else {
mem.setReg(reg2.getReg().padStart(16, "0"));
}
machCode += "100010"; //opcode
machCode += "0"; //dir
if (is8byteregister(firstop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "00"; //mod
machCode += getRegCode(secondop); //reg
machCode += "110"; //r/m
machCode += getLittleEndian(parseInt(memloc).toString(2).padStart(16, "0")); //address
animatemem(code, machCode, secondop + " -> " + firstop);
}
// memory in register (NEED TO CHECK MACHINE CODE FOR THIS)
if (isregister(memloc)) {
let reg1 = new Register(memloc.toUpperCase());
let hexmem = parseInt(reg1.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
if (is8byteregister(secondop)) {
if (reg2.reg_name[1].toLowerCase() === "l") {
mem.setLowerByte(reg2.getLowerByte().padStart(16, "0"));
}
else if (reg2.reg_name[1].toLowerCase() === "h") {
mem.setLowerByte(reg2.getHigherByte().padStart(16, "0"));
}
else {
console.log("Error!")
}
}
else {
mem.setReg(reg2.getReg().padStart(16, "0"));
}
machCode += "100010"; //opcode
machCode += "1"; //dir
if (is8byteregister(firstop)) {
machCode += "0";
}
else {
machCode += "1";
}
machCode += "00"; //mod
machCode += getRegCode(secondop); //reg
machCode += "111"; //r/m <- NOT SURE ABOUT THIS
animatemem(code, machCode, secondop + " -> " + firstop);
}
}
else{
errorMessage("Invalid mode");
}
return machCode;
}
function xchg(code, words){
const firstop = words[1].substring(0, words[1].length - 1).toLowerCase();
const secondop = words[2].toLowerCase();
let machCode = "";
if (isregister(firstop)) // First operand is a register
{
let reg1 = new Register(firstop.toUpperCase());
let val1;
let val2;
if (is8byteregister(firstop))
{
if(firstop[1] == "l") val1 = parseInt(reg1.getLowerByte(), 2);
else val1 = parseInt(reg1.getHigherByte(), 2);
}
else
val1 = parseInt(reg1.getReg(), 2);
if (isregister(secondop))// Second operand is also a register.
{
let reg2 = new Register(secondop.toUpperCase());
if (is8byteregister(secondop))
{
if(secondop[1] == "l")
{
val2 = parseInt(reg2.getLowerByte(), 2);
reg2.setLowerByte(val1);
}
else
{
val2 = parseInt(reg2.getHigherByte(), 2);
reg2.setHigherByte(val1);
}
}
else
{
val2 = parseInt(reg2.getReg(), 2);
reg2.setReg(val1);
}
machCode += "1000011"; //opcode
// w-bit added at end
machCode += "11"; // mod
machCode += getRegCode(firstop); // reg
machCode += getRegCode(secondop); // r/m
alu(code, machCode, firstop + "<->" + secondop);
}
if (ismemory(secondop))// Second operand is memory.
{
const memloc = secondop.substring(1, secondop.length - 1); //remove []
let hexmem;
machCode += "1000011"; //opcode
// w-bit added at end
machCode += "00"; // mod
machCode += getRegCode(firstop); // reg
if (isregister(memloc))//case1. Memory is inside reg.
{
let reg2 = new Register(memloc.toUpperCase());
hexmem = parseInt(reg2.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
machCode += "111" // r/m <- NOT USRE ABOUT THIS
}
if (isnumber(memloc))//case 2. Memory is given directly.
{
hexmem = parseInt(memloc, 10).toString(16); // converts int num inside brackets to hex
machCode += "110" // r/m
machCode += getLittleEndian(parseInt(memloc).toString(2).padStart("1", 16)); //address
}
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
val2 = parseInt(mem.getReg(), 2);
mem.setReg(val1);
memalu(code, machCode, secondop+" -> ALU", firstop + "<->" + secondop);
}
if (is8byteregister(firstop))
{
if(firstop[1] == "l") reg1.setLowerByte(val2);
else reg1.setHigherByte(val2);
machCode = machCode.substr(0,7) + "0" + machCode.substr(7);
}
else
{
reg1.setReg(val2);
machCode = machCode.substr(0,7) + "1" + machCode.substr(7);
}
}
else if (ismemory(firstop))//First operand is memory
{
const memloc = firstop.substring(1, firstop.length - 1); //remove []
let hexmem;
let val1;
let reg1;
let val2;
let rmCode;
if (isregister(memloc))//case1. memory is inside a register
{
reg1 = new Register(memloc.toUpperCase());
hexmem = parseInt(reg1.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
rmCode = "111";
}
if (isnumber(memloc))//case2. Memory available directly
{
hexmem = parseInt(memloc).toString(16); // converts int num inside brackets to hex
rmCode = "110"
rmCode += getLittleEndian(parseInt(memloc).toString(2).padStart("1", 16)); //address
}
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
val1 = parseInt(mem.getReg(), 2);
if (isregister(secondop))//Second operand is a register.
{
machCode += "1000011"; //opcode
let reg2 = new Register(secondop.toUpperCase());
if (is8byteregister(secondop))
{
if(secondop[1] == "l")
{
val2 = parseInt(reg2.getLowerByte(), 2);
reg2.setLowerByte(val1);
}
else
{
val2 = parseInt(reg2.getHigherByte(), 2);
reg2.setHigherByte(val1);
}
machCode += "0" // w-bit
}
else
{
val2 = parseInt(reg2.getReg(), 2);
reg2.setReg(val1);
machCode += "1" // w-bit
}
machCode += "00"; // mod
machCode += getRegCode(secondop); // reg
machCode += rmCode; // r/m
}
mem.setReg(val2);
memalumem(code, machCode, firstop + " -> ALU", firstop + "<->" + secondop, "ALU -> "+ firstop );
}
else{
errorMessage("Invalid mode");
}
return machCode;
}
// Give binary string for 2nd to 5th bit of opcode for third param
// Give binary string for the "three fixed reg-bits" (when immediate data is secOp) for fourth param
// Func_w_2params should be the operation performed on the values of both operands, should return int
function AsmToMchForAddLikeInstr(firstop, secondop, opcode, valOfRegWhenImm, func_w_2params) {
let machCode = "";
let result;
if (isregister(firstop)) // First operand is a register. This has three cases.
{
let reg1 = new Register(firstop.toUpperCase());
let val1;
let val2;
let sbit = 0;
let dbit = 0;
if (is8byteregister(firstop))
{
if(firstop[1] == "l") val1 = parseInt(reg1.getLowerByte(), 2);
else val1 = parseInt(reg1.getHigherByte(), 2);
}
else
val1 = parseInt(reg1.getReg(), 2);
if (isnumber(secondop)) // case1. Second operand is immediete.
{
val2 = parseInt(secondop);
machCode += "1" + opcode;
// s-bit added at end
// w-bit added at end
machCode += "11"; // mod
machCode += valOfRegWhenImm; // fixed
machCode += getRegCode(firstop); // r/m
if (is8byteregister(firstop))
{
machCode += parseInt(secondop).toString(2).padStart(8, "0").substr(0,8); //data
}
else
{
if( val2 < 256 ) sbit = 1;
machCode += getLittleEndian(parseInt(secondop).toString(2).padStart(16, "0")); //data
}
}
if (isregister(secondop))// case2. Second operand is also a register.
{
let reg2 = new Register(secondop.toUpperCase());
if (is8byteregister(secondop))
{
if(secondop[1] == "l") val2 = parseInt(reg2.getLowerByte(), 2);
else val2 = parseInt(reg2.getHigherByte(), 2);
}
else val2 = parseInt(reg2.getReg(), 2);
machCode += "0" + opcode;
// d-bit added at end
// w-bit added at end
machCode += "11"; // mod
machCode += getRegCode(firstop); // reg
machCode += getRegCode(secondop); // r/m
}
if (ismemory(secondop))// case3. Second operand is memory.
{
const memloc = secondop.substring(1, secondop.length - 1); //remove []
let hexmem;
dbit = 1;
machCode += "0" + opcode;
// d-bit added at end
// w-bit added at end
machCode += "00"; // mod
machCode += getRegCode(firstop); // reg
if (isregister(memloc))//case1. Memory is inside reg.
{
let reg2 = new Register(memloc.toUpperCase());
hexmem = parseInt(reg2.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
machCode += "111" // r/m <- NOT USRE ABOUT THIS
}
if (isnumber(memloc))//case 2. Memory is given directly.
{
hexmem = parseInt(memloc, 10).toString(16); // converts int num inside brackets to hex
machCode += "110" // r/m
machCode += getLittleEndian(parseInt(memloc).toString(2).padStart("1", 16)); //address
}
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
val2 = parseInt(mem.getReg(), 2);
}
result = func_w_2params(val1, val2);
let sixthbit = (sbit + dbit).toString(); // SUPER MEGA BRAIN CODE TO FIGURE OUT 6TH BIT
machCode = machCode.substr(0,6) + sixthbit + machCode.substr(6);
if (is8byteregister(firstop))
{
if(firstop[1] == "l") reg1.setLowerByte(result);
else reg1.setHigherByte(result);
machCode = machCode.substr(0,7) + "0" + machCode.substr(7);
}
else
{
reg1.setReg(result);
machCode = machCode.substr(0,7) + "1" + machCode.substr(7);
}
}
else if (ismemory(firstop))//First operand is memory. This has two cases.
{
const memloc = firstop.substring(1, firstop.length - 1); //remove []
let hexmem;
let val1;
let reg1;
let val2;
let rmCode;
if (isregister(memloc))//case1. memory is inside a register
{
reg1 = new Register(memloc.toUpperCase());
hexmem = parseInt(reg1.getReg().padStart(16, "0"), 2).toString(16); //contains hex of reg1 data.
rmCode = "111";
}
if (isnumber(memloc))//case2. Memory available directly
{
hexmem = parseInt(memloc).toString(16); // converts int num inside brackets to hex
rmCode = "110"
rmCode += getLittleEndian(parseInt(memloc).toString(2).padStart("1", 16)); //address
}
hexmem = "f" + hexmem;
let mem = new Register(hexmem.toUpperCase());
val1 = parseInt(mem.getReg(), 2);
if (isregister(secondop))//case 1. Second operand is a register.
{
machCode += "0" + opcode;
machCode += "0"; // d-bit
let reg2 = new Register(secondop.toUpperCase());
if (is8byteregister(secondop))
{
if(secondop[1] == "l") val2 = parseInt(reg2.getLowerByte(), 2);
else val2 = parseInt(reg2.getHigherByte(), 2);
machCode += "0" // w-bit
}
else
{
val2 = parseInt(reg2.getReg(), 2);
machCode += "1" // w-bit
}
machCode += "00"; // mod
machCode += getRegCode(secondop); // reg
machCode += rmCode; // r/m
}
if (isnumber(secondop))//case2. Second operand is a number.
{
val2 = parseInt(secondop);
machCode += "1" + opcode;
machCode += ( val2 <= 255 ? "1" : "0" ); // s-bit
machCode += "1"; // w-bit
machCode += "00"; // mod
machCode += valOfRegWhenImm; // fixed
machCode += rmCode; // r/m
machCode += getLittleEndian(parseInt(secondop).toString(2).padStart(16, "0")); //data
}
result = func_w_2params(val1, val2);
mem.setReg(result);
}
else{
errorMessage("Invalid mode");
return;
}
updateMachineCode(machCode);
if (result === 0) setFlagState("zero_flag", "1");
else setFlagState("zero_flag", "0");
return machCode;
}
// Give binary string for 1st to 7th bit of opcode for second param
// Give binary string for the "three fixed reg-bits" for third param
// both functions should be the operation performed on the values of the operand, and should return int
function AsmToMachForSingleOpInstr(operand, opcode, fixedValOfRegBits, funcwhen16bit, funcwhen8bit) {
let machCode = "";
let val;
if (isregister(operand)) {
let reg = new Register(operand.toUpperCase());
if(is8byteregister(operand))
{
if(reg.reg_name[1] === "H")
{