visual6502/macros.js

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/*
Copyright (c) 2010 Brian Silverman, Barry Silverman, Ed Spittles, Achim Breidenbach
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.
*/
var memory = Array();
var cycle = 0;
var trace = Array();
var logstream = Array();
var running = false;
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var logThese=[];
var presetLogLists=[
['cycle'],
['ab','db','rw','Fetch','pc','a','x','y','s','p'],
['Execute','State'],
['ir','tcstate','-pd'],
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['adl','adh','sb','alu'],
['alucin','alua','alub','alucout','aluvout','dasb'],
['plaOutputs','DPControl'],
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['idb','dor'],
['irq','nmi','res'],
];
function loadProgram(){
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// a moderate size of static testprogram might be loaded
if(testprogram.length!=0 && testprogramAddress != undefined)
for(var i=0;testprogram[i]!=undefined;i++){
var a=testprogramAddress+i;
mWrite(a, testprogram[i]);
if(a<0x200)
setCellValue(a, testprogram[i]);
}
// a small test program or patch might be passed in the URL
if(userCode.length!=0)
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for(var i=0;i<userCode.length;i++){
if(userCode[i] != undefined){
mWrite(i, userCode[i]);
if(i<0x200)
setCellValue(i, userCode[i]);
}
}
// default reset vector will be 0x0000 because undefined memory reads as zero
if(userResetLow!=undefined)
mWrite(0xfffc, userResetLow);
if(userResetHigh!=undefined)
mWrite(0xfffd, userResetHigh);
}
function go(){
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if(typeof userSteps != "undefined"){
if(--userSteps==0){
running=false;
userSteps=undefined;
}
}
if(running) {
step();
setTimeout(go, 0); // schedule the next poll
}
}
function goUntilSync(){
halfStep();
while(!isNodeHigh(nodenames['sync']) || isNodeHigh(nodenames['clk0']))
halfStep();
}
function goUntilSyncOrWrite(){
halfStep();
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cycle++;
while(
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!isNodeHigh(nodenames['clk0']) ||
( !isNodeHigh(nodenames['sync']) && isNodeHigh(nodenames['rw']) )
) {
halfStep();
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cycle++;
}
chipStatus();
}
function testNMI(n){
initChip();
mWrite(0x0000, 0x38); // set carry
mWrite(0x0001, 0x4c); // jump to test code
mWrite(0x0002, 0x06);
mWrite(0x0003, 0x23);
mWrite(0x22ff, 0x38); // set carry
mWrite(0x2300, 0xea);
mWrite(0x2301, 0xea);
mWrite(0x2302, 0xea);
mWrite(0x2303, 0xea);
mWrite(0x2304, 0xb0); // branch carry set to self
mWrite(0x2305, 0xfe);
mWrite(0x2306, 0xb0); // branch carry set to self
mWrite(0x2307, 0x01);
mWrite(0x2308, 0x00); // brk should be skipped
mWrite(0x2309, 0xa9); // anything
mWrite(0x230a, 0xde); // anything
mWrite(0x230b, 0xb0); // branch back with page crossing
mWrite(0x230c, 0xf2);
mWrite(0xc018, 0x40); // nmi handler
mWrite(0xfffa, 0x18); // nmi vector
mWrite(0xfffb, 0xc0);
mWrite(0xfffc, 0x00); // reset vector
mWrite(0xfffd, 0x00);
for(var i=0;i<n;i++){step();}
setLow('nmi');
chipStatus();
for(var i=0;i<8;i++){step();}
setHigh('nmi');
chipStatus();
for(var i=0;i<16;i++){step();}
}
function initChip(){
var start = now();
for(var nn in nodes) {
nodes[nn].state = false;
nodes[nn].float = true;
}
nodes[ngnd].state = false;
nodes[ngnd].float = false;
nodes[npwr].state = true;
nodes[npwr].float = false;
for(var tn in transistors) transistors[tn].on = false;
setLow('res');
setLow('clk0');
setHigh('rdy'); setLow('so');
setHigh('irq'); setHigh('nmi');
recalcNodeList(allNodes());
for(var i=0;i<8;i++){setHigh('clk0'), setLow('clk0');}
setHigh('res');
for(var i=0;i<18;i++){halfStep();} // avoid updating graphics and trace buffer before user code
refresh();
cycle = 0;
trace = Array();
if(typeof expertMode != "undefined")
updateLogList();
chipStatus();
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if(ctrace)console.log('initChip done after', now()-start);
}
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function signalSet(n){
var signals=[];
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for (var i=0; (i<=n)&&(i<presetLogLists.length) ; i++){
for (var j=0; j<presetLogLists[i].length; j++){
signals.push(presetLogLists[i][j]);
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}
}
return signals;
}
function updateLogList(names){
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// user supplied a list of signals, which we append to the set defined by loglevel
logThese = signalSet(loglevel);
if(typeof names == "undefined")
// this is a UI call - read the text input
names = document.getElementById('LogThese').value;
else
// this is an URL call - update the text input box
document.getElementById('LogThese').value = names;
names = names.split(/[\s,]+/);
for(var i=0;i<names.length;i++){
// could be a signal name, a node number, or a special name
if(typeof busToString(names[i]) != "undefined")
logThese.push(names[i]);
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}
initLogbox(logThese);
}
var traceChecksum='';
var goldenChecksum;
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// simulate a single clock phase, updating trace and highlighting layout
function step(){
var s=stateString();
var m=getMem();
trace[cycle]= {chip: s, mem: m};
if(goldenChecksum != undefined)
traceChecksum=adler32(traceChecksum+s+m.slice(0,511).toString(16));
halfStep();
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if(animateChipLayout)
refresh();
cycle++;
chipStatus();
}
// triggers for breakpoints, watchpoints, input pin events
// almost always are undefined when tested, so minimal impact on performance
clockTriggers={};
writeTriggers={};
readTriggers={};
fetchTriggers={};
// example instruction tracing triggers
// fetchTriggers[0x20]="console.log('0x'+readAddressBus().toString(16)+': JSR');";
// fetchTriggers[0x60]="console.log('0x'+readAddressBus().toString(16)+': RTS');";
// fetchTriggers[0x4c]="console.log('0x'+readAddressBus().toString(16)+': JMP');";
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// simulate a single clock phase with no update to graphics or trace
function halfStep(){
var clk = isNodeHigh(nodenames['clk0']);
eval(clockTriggers[cycle]);
if (clk) {setLow('clk0'); handleBusRead(); }
else {setHigh('clk0'); handleBusWrite();}
}
function handleBusRead(){
if(isNodeHigh(nodenames['rw'])){
var a = readAddressBus();
var d = eval(readTriggers[a]);
if(d == undefined)
d = mRead(readAddressBus());
if(isNodeHigh(nodenames['sync']))
eval(fetchTriggers[d]);
writeDataBus(d);
}
}
function handleBusWrite(){
if(!isNodeHigh(nodenames['rw'])){
var a = readAddressBus();
var d = readDataBus();
eval(writeTriggers[a]);
mWrite(a,d);
if(a<0x200) setCellValue(a,d);
}
}
function readAddressBus(){return readBits('ab', 16);}
function readDataBus(){return readBits('db', 8);}
function readA(){return readBits('a', 8);}
function readY(){return readBits('y', 8);}
function readX(){return readBits('x', 8);}
function readP(){return readBits('p', 8);}
function readPstring(){
var result;
result = (isNodeHigh(nodenames['p7'])?'N':'n') +
(isNodeHigh(nodenames['p6'])?'V':'v') +
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'&#8209' + // non-breaking hyphen
(isNodeHigh(nodenames['p3'])?'B':'b') +
(isNodeHigh(nodenames['p3'])?'D':'d') +
(isNodeHigh(nodenames['p2'])?'I':'i') +
(isNodeHigh(nodenames['p1'])?'Z':'z') +
(isNodeHigh(nodenames['p0'])?'C':'c');
return result;
}
function readSP(){return readBits('s', 8);}
function readPC(){return (readBits('pch', 8)<<8) + readBits('pcl', 8);}
function readPCL(){return readBits('pcl', 8);}
function readPCH(){return readBits('pch', 8);}
// for one-hot or few-hot signal collections we want to list the active ones
// and for brevity we remove the common prefix
function listActiveSignals(pattern){
var r=new RegExp(pattern);
var list=[];
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for(var i in nodenamelist){
if(r.test(nodenamelist[i])) {
if(isNodeHigh(nodenames[nodenamelist[i]]))
// also map hyphen to a non-breaking version
list.push(nodenamelist[i].replace(r,'').replace(/-/g,'&#8209'));
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}
}
return list;
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}
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// The 6502 TCState is almost but not quite an inverted one-hot shift register
function listActiveTCStates() {
var s=[];
if(!isNodeHigh(nodenames['clock1'])) s.push("T0");
if(!isNodeHigh(nodenames['clock2'])) s.push("T1");
if(!isNodeHigh(nodenames['t2'])) s.push("T2");
if(!isNodeHigh(nodenames['t3'])) s.push("T3");
if(!isNodeHigh(nodenames['t4'])) s.push("T4");
if(!isNodeHigh(nodenames['t5'])) s.push("T5");
return s.join("+");
}
function readBit(name){
return isNodeHigh(nodenames[name])?1:0;
}
function readBits(name, n){
var res = 0;
for(var i=0;i<n;i++){
var nn = nodenames[name+i];
res+=((isNodeHigh(nn))?1:0)<<i;
}
return res;
}
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function busToString(busname){
// takes a signal name or prefix
// returns an appropriate string representation
// some 'signal names' are CPU-specific aliases to user-friendly string output
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if(busname=='cycle')
return cycle>>1;
if(busname=='pc')
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return busToHex('pch') + busToHex('pcl');
if(busname=='p')
return readPstring();
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if(busname=='tcstate')
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return ['clock1','clock2','t2','t3','t4','t5'].map(busToHex).join("");
if(busname=='State')
return listActiveTCStates();
if(busname=='Execute')
return dis6502toHTML(readBits('ir',8));
if(busname=='Fetch')
return isNodeHigh(nodenames['sync'])?dis6502toHTML(readDataBus()):"";
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if(busname=='plaOutputs')
// PLA outputs are mostly ^op- but some have a prefix too
// - we'll allow the x and xx prefix but ignore the #
return listActiveSignals('^([x]?x-)?op-');
if(busname=='DPControl')
return listActiveSignals('^dpc[0-9]+_');
if(busname[0]=="-"){
// invert the value of the bus for display
var value=busToHex(busname.slice(1))
if(typeof value != "undefined")
return value.replace(/./g,function(x){return (15-parseInt(x,16)).toString(16)});
else
return undefined;;
} else {
return busToHex(busname);
}
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}
function busToHex(busname){
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// may be passed a bus or a signal, so allow multiple signals
var width=0;
var r=new RegExp('^' + busname + '[0-9]+$');
for(var i in nodenamelist){
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if(r.test(nodenamelist[i])) {
width++;
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}
}
if(width==0) {
// not a bus, so could be a signal, a nodenumber or a mistake
if(typeof nodenames[busname] != "undefined")
return isNodeHigh(nodenames[busname])?"1":"0";
if((parseInt(busname)!=NaN) && (typeof nodes[busname] != "undefined"))
return isNodeHigh(busname)?"1":"0";
return undefined;
}
if(width>16)
return undefined;
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// finally, convert from logic values to hex
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return (0x10000+readBits(busname,width)).toString(16).slice(-(width-1)/4-1);
}
function writeDataBus(x){
var recalcs = Array();
for(var i=0;i<8;i++){
var nn = nodenames['db'+i];
var n = nodes[nn];
if((x%2)==0) {n.pulldown=true; n.pullup=false;}
else {n.pulldown=false; n.pullup=true;}
recalcs.push(nn);
x>>=1;
}
recalcNodeList(recalcs);
}
function mRead(a){
if(memory[a]==undefined) return 0;
else return memory[a];
}
function mWrite(a, d){memory[a]=d;}
function clkNodes(){
var res = Array();
res.push(943);
for(var i in nodes[943].gates){
var t = nodes[943].gates[i];
if(t.c1==npwr) res.push(t.c2);
if(t.c2==npwr) res.push(t.c1);
}
hiliteNode(res);
}
function runChip(){
var start = document.getElementById('start');
var stop = document.getElementById('stop');
start.style.visibility = 'hidden';
stop.style.visibility = 'visible';
if(typeof running == "undefined")
initChip();
running = true;
go();
}
function stopChip(){
var start = document.getElementById('start');
var stop = document.getElementById('stop');
start.style.visibility = 'visible';
stop.style.visibility = 'hidden';
running = false;
}
function resetChip(){
stopChip();
setStatus('resetting 6502...');
setTimeout(initChip,0);
}
function stepForward(){
if(typeof running == "undefined")
initChip();
stopChip();
step();
}
function stepBack(){
if(cycle==0) return;
showState(trace[--cycle].chip);
setMem(trace[cycle].mem);
var clk = isNodeHigh(nodenames['clk0']);
if(!clk) writeDataBus(mRead(readAddressBus()));
chipStatus();
}
function chipStatus(){
var ab = readAddressBus();
var machine1 =
' halfcyc:' + cycle +
' phi0:' + readBit('clk0') +
' AB:' + hexWord(ab) +
' D:' + hexByte(readDataBus()) +
' RnW:' + readBit('rw');
var machine2 =
' PC:' + hexWord(readPC()) +
' A:' + hexByte(readA()) +
' X:' + hexByte(readX()) +
' Y:' + hexByte(readY()) +
' SP:' + hexByte(readSP()) +
' ' + readPstring();
var machine3 =
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'Hz: ' + estimatedHz().toFixed(1);
if(typeof expertMode != "undefined") {
machine3 += ' Exec: ' + busToString('Execute') + '(' + busToString('State') + ')';
if(isNodeHigh(nodenames['sync']))
machine3 += ' (Fetch: ' + busToString('Fetch') + ')';
if(goldenChecksum != undefined)
machine3 += " Chk:" + traceChecksum + ((traceChecksum==goldenChecksum)?" OK":" no match");
}
setStatus(machine1, machine2, machine3);
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if (loglevel>0) {
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updateLogbox(logThese);
}
selectCell(ab);
}
// run for an extended number of cycles, with low overhead, for interactive programs or for benchmarking
// note: to run an interactive program, use an URL like
// http://visual6502.org/JSSim/expert.html?graphics=f&loglevel=-1&headlesssteps=-500
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function goFor(){
var n = headlessSteps; // a negative value is a request to free-run
if(headlessSteps<0)
n=-n;
var start = document.getElementById('start');
var stop = document.getElementById('stop');
start.style.visibility = 'hidden';
stop.style.visibility = 'visible';
if(typeof running == "undefined") {
initChip();
}
running = true;
setTimeout("instantaneousHz(); goForN("+n+")",0);
}
// helper function: allows us to poll 'running' without resetting it when we're re-scheduled
function goForN(n){
var n2=n; // save our parameter so we can re-submit ourselves
while(n--){
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halfStep();
cycle++;
}
instantaneousHz();
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chipStatus();
if((headlessSteps<0) && running){
setTimeout("goForN("+n2+")",0); // re-submit ourselves if we are meant to free-run
return;
}
running = false;
start.style.visibility = 'visible';
stop.style.visibility = 'hidden';
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}
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var prevHzTimeStamp=0;
var prevHzCycleCount=0;
var prevHzEstimate1=1;
var prevHzEstimate2=1;
var HzSamplingRate=10;
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// return an averaged speed: called periodically during normal running
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function estimatedHz(){
if(cycle%HzSamplingRate!=3)
return prevHzEstimate1;
var HzTimeStamp = now();
var HzEstimate = (cycle-prevHzCycleCount+.01)/(HzTimeStamp-prevHzTimeStamp+.01);
HzEstimate=HzEstimate*1000/2; // convert from phases per millisecond to Hz
if(HzEstimate<5)
HzSamplingRate=5; // quicker
if(HzEstimate>10)
HzSamplingRate=10; // smoother
prevHzEstimate2=prevHzEstimate1;
prevHzEstimate1=(HzEstimate+prevHzEstimate1+prevHzEstimate2)/3; // wrong way to average speeds
prevHzTimeStamp=HzTimeStamp;
prevHzCycleCount=cycle;
return prevHzEstimate1
}
// return instantaneous speed: called twice, before and after a timed run using goFor()
function instantaneousHz(){
var HzTimeStamp = now();
var HzEstimate = (cycle-prevHzCycleCount+.01)/(HzTimeStamp-prevHzTimeStamp+.01);
HzEstimate=HzEstimate*1000/2; // convert from phases per millisecond to Hz
prevHzEstimate1=HzEstimate;
prevHzEstimate2=prevHzEstimate1;
prevHzTimeStamp=HzTimeStamp;
prevHzCycleCount=cycle;
return prevHzEstimate1
}
var logbox;
function initLogbox(names){
logbox=document.getElementById('logstream');
if(logbox==null)return;
names=names.map(function(x){return x.replace(/^-/,'')});
logStream = [];
logStream.push("<td class=header>" + names.join("</td><td class=header>") + "</td>");
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logbox.innerHTML = "<tr>"+logStream.join("</tr><tr>")+"</tr>";
}
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var logboxAppend=true;
// can append or prepend new states to the log table
// when we reverse direction we need to reorder the log stream
function updateLogDirection(){
var loglines=[];
logboxAppend=!logboxAppend;
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// the first element is the header so we can't reverse()
for (var i=1;i<logStream.length;i++) {
loglines.unshift(logStream[i]);
}
loglines.unshift(logStream[0]);
logStream=loglines;
logbox.innerHTML = "<tr>"+logStream.join("</tr><tr>")+"</tr>";
}
// update the table of signal values, by prepending or appending
function updateLogbox(names){
var signals=[];
var odd=true;
var bg;
var row;
for(var i in names){
if(cycle % 4 < 2){
bg = odd ? " class=oddcol":"";
} else {
bg = odd ? " class=oddrow":" class=oddrowcol";
}
signals.push("<td" + bg + ">" + busToString(names[i]) + "</td>");
odd =! odd;
}
row = "<tr>" + signals.join("") + "</tr>";
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if(logboxAppend)
logStream.push(row);
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else
logStream.splice(1,0,row);
logbox.innerHTML = logStream.join("");
}
function getMem(){
var res = Array();
for(var i=0;i<0x200;i++) res.push(mRead(i));
return res;
}
function setMem(arr){
for(var i=0;i<0x200;i++){mWrite(i, arr[i]); setCellValue(i, arr[i]);}
}
function hexWord(n){return (0x10000+n).toString(16).substring(1)}
function hexByte(n){return (0x100+n).toString(16).substring(1)}
function adler32(x){
var a=1;
var b=0;
for(var i=0;i<x.length;i++){
a=(a+x.charCodeAt(i))%65521;
b=(b+a)%65521;
}
return (0x100000000+(b<<16)+a).toString(16).slice(-8);
}
// sanitised opcode for HTML output
function dis6502toHTML(byte){
var opcode=dis6502[byte];
if(typeof opcode == "undefined")
return "unknown"
return opcode.replace(/ /,'&nbsp;');
}
// opcode lookup for 6502 - not quite a disassembly
// javascript derived from Debugger.java by Achim Breidenbach
var dis6502={
0x00:"BRK",
0x01:"ORA (zp,X)",
0x05:"ORA zp",
0x06:"ASL zp",
0x08:"PHP",
0x09:"ORA #",
0x0A:"ASL ",
0x0D:"ORA Abs",
0x0E:"ASL Abs",
0x10:"BPL ",
0x11:"ORA (zp),Y",
0x15:"ORA zp,X",
0x16:"ASL zp,X",
0x18:"CLC",
0x19:"ORA Abs,Y",
0x1D:"ORA Abs,X",
0x1E:"ASL Abs,X",
0x20:"JSR Abs",
0x21:"AND (zp,X)",
0x24:"BIT zp",
0x25:"AND zp",
0x26:"ROL zp",
0x28:"PLP",
0x29:"AND #",
0x2A:"ROL ",
0x2C:"BIT Abs",
0x2D:"AND Abs",
0x2E:"ROL Abs",
0x30:"BMI ",
0x31:"AND (zp),Y",
0x35:"AND zp,X",
0x36:"ROL zp,X",
0x38:"SEC",
0x39:"AND Abs,Y",
0x3D:"AND Abs,X",
0x3E:"ROL Abs,X",
0x40:"RTI",
0x41:"EOR (zp,X)",
0x45:"EOR zp",
0x46:"LSR zp",
0x48:"PHA",
0x49:"EOR #",
0x4A:"LSR ",
0x4C:"JMP Abs",
0x4D:"EOR Abs",
0x4E:"LSR Abs",
0x50:"BVC ",
0x51:"EOR (zp),Y",
0x55:"EOR zp,X",
0x56:"LSR zp,X",
0x58:"CLI",
0x59:"EOR Abs,Y",
0x5D:"EOR Abs,X",
0x5E:"LSR Abs,X",
0x60:"RTS",
0x61:"ADC (zp,X)",
0x65:"ADC zp",
0x66:"ROR zp",
0x68:"PLA",
0x69:"ADC #",
0x6A:"ROR ",
0x6C:"JMP zp",
0x6D:"ADC Abs",
0x6E:"ROR Abs",
0x70:"BVS ",
0x71:"ADC (zp),Y",
0x75:"ADC zp,X",
0x76:"ROR zp,X",
0x78:"SEI",
0x79:"ADC Abs,Y",
0x7D:"ADC Abs,X",
0x7E:"ROR Abs,X",
0x81:"STA (zp,X)",
0x84:"STY zp",
0x85:"STA zp",
0x86:"STX zp",
0x88:"DEY",
0x8A:"TXA",
0x8C:"STY Abs",
0x8D:"STA Abs",
0x8E:"STX Abs",
0x90:"BCC ",
0x91:"STA (zp),Y",
0x94:"STY zp,X",
0x95:"STA zp,X",
0x96:"STX zp,Y",
0x98:"TYA",
0x99:"STA Abs,Y",
0x9A:"TXS",
0x9D:"STA Abs,X",
0xA0:"LDY #",
0xA1:"LDA (zp,X)",
0xA2:"LDX #",
0xA4:"LDY zp",
0xA5:"LDA zp",
0xA6:"LDX zp",
0xA8:"TAY",
0xA9:"LDA #",
0xAA:"TAX",
0xAC:"LDY Abs",
0xAD:"LDA Abs",
0xAE:"LDX Abs",
0xB0:"BCS ",
0xB1:"LDA (zp),Y",
0xB4:"LDY zp,X",
0xB5:"LDA zp,X",
0xB6:"LDX zp,Y",
0xB8:"CLV",
0xB9:"LDA Abs,Y",
0xBA:"TSX",
0xBC:"LDY Abs,X",
0xBD:"LDA Abs,X",
0xBE:"LDX Abs,Y",
0xC0:"CPY #",
0xC1:"CMP (zp,X)",
0xC4:"CPY zp",
0xC5:"CMP zp",
0xC6:"DEC zp",
0xC8:"INY",
0xC9:"CMP #",
0xCA:"DEX",
0xCC:"CPY Abs",
0xCD:"CMP Abs",
0xCE:"DEC Abs",
0xD0:"BNE ",
0xD1:"CMP (zp),Y",
0xD5:"CMP zp,X",
0xD6:"DEC zp,X",
0xD8:"CLD",
0xD9:"CMP Abs,Y",
0xDD:"CMP Abs,X",
0xDE:"DEC Abs,X",
0xE0:"CPX #",
0xE1:"SBC (zp,X)",
0xE4:"CPX zp",
0xE5:"SBC zp",
0xE6:"INC zp",
0xE8:"INX",
0xE9:"SBC #",
0xEA:"NOP",
0xEC:"CPX Abs",
0xED:"SBC Abs",
0xEE:"INC Abs",
0xF0:"BEQ ",
0xF1:"SBC (zp),Y",
0xF5:"SBC zp,X",
0xF6:"INC zp,X",
0xF8:"SED",
0xF9:"SBC Abs,Y",
0xFD:"SBC Abs,X",
0xFE:"INC Abs,X",
};