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apple2js/js/debugger.ts
Ian Flanigan 04ae0327c2
Add the recommended eslint plugins for TypeScript (#121) 
This adds both the recommended TypeScript checks, plus the recommended
TypeScript checks that require type checking.  This latter addition
means that eslint essentially has to compile all of the TypeScript in
the project, causing it to be slower. This isn't much of a problem in
VS Code because there's a lot of caching being done, but it's clearly
slower when run on the commandline.

All of the errors are either fixed or suppressed.  Some errors are
suppressed because fixing them would be too laborious for the little
value gained.

The eslint config is also slightly refactored to separate the strictly
TypeScript checks from the JavaScript checks.
2022-05-31 08:38:40 -07:00

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import { debug, toHex } from './util';
import { byte, word } from './types';
import CPU6502, { DebugInfo, flags, sizes } from './cpu6502';
export interface DebuggerContainer {
run: () => void;
stop: () => void;
getCPU: () => CPU6502;
}
type symbols = { [key: number]: string };
type breakpointFn = (info: DebugInfo) => boolean;
const alwaysBreak = (_info: DebugInfo) => { return true; };
export const dumpStatusRegister = (sr: byte) =>
[
(sr & flags.N) ? 'N' : '-',
(sr & flags.V) ? 'V' : '-',
(sr & flags.X) ? 'X' : '-',
(sr & flags.B) ? 'B' : '-',
(sr & flags.D) ? 'D' : '-',
(sr & flags.I) ? 'I' : '-',
(sr & flags.Z) ? 'Z' : '-',
(sr & flags.C) ? 'C' : '-',
].join('');
export default class Debugger {
private cpu: CPU6502;
private verbose = false;
private maxTrace = 256;
private trace: DebugInfo[] = [];
private breakpoints: Map<word, breakpointFn> = new Map();
private symbols: symbols = {};
constructor(private container: DebuggerContainer) {
this.cpu = container.getCPU();
}
stepCycles(cycles: number) {
this.cpu.stepCyclesDebug(this.verbose ? 1 : cycles, () => {
const info = this.cpu.getDebugInfo();
if (this.breakpoints.get(info.pc)?.(info)) {
debug('breakpoint', this.printDebugInfo(info));
this.container.stop();
return true;
}
if (this.verbose) {
debug(this.printDebugInfo(info));
} else {
this.updateTrace(info);
}
});
}
break = () => {
this.container.stop();
};
step = () => {
this.cpu.step(() => {
const info = this.cpu.getDebugInfo();
debug(this.printDebugInfo(info));
this.updateTrace(info);
});
};
continue = () => {
this.container.run();
};
setVerbose = (verbose: boolean) => {
this.verbose = verbose;
};
setMaxTrace = (maxTrace: number) => {
this.maxTrace = maxTrace;
};
getTrace = () => {
return this.trace.map(this.printDebugInfo).join('\n');
};
printTrace = () => {
debug(this.getTrace());
};
setBreakpoint = (addr: word, exp?: breakpointFn) => {
this.breakpoints.set(addr, exp || alwaysBreak);
};
clearBreakpoint = (addr: word) => {
this.breakpoints.delete(addr);
};
listBreakpoints = () => {
for(const [addr, fn] of this.breakpoints.entries()) {
debug(toHex(addr, 4), fn);
}
};
addSymbols = (symbols: symbols) => {
this.symbols = { ...this.symbols, ...symbols };
};
printDebugInfo = (info: DebugInfo) => {
const { pc, cmd } = info;
const symbol = this.padWithSymbol(pc);
return [
toHex(pc, 4),
'- ', symbol,
this.dumpRegisters(info),
' ',
this.dumpRawOp(cmd),
' ',
this.dumpOp(pc, cmd)
].join('');
};
dumpPC = (pc: word) => {
const b = this.cpu.read(pc);
const op = this.cpu.getOpInfo(b);
const size = sizes[op.mode];
let result = toHex(pc, 4) + '- ';
result += this.padWithSymbol(pc);
const cmd = new Array<number>(size);
for (let idx = 0, jdx = pc; idx < size; idx++, jdx++) {
cmd[idx] = this.cpu.read(jdx);
}
result += this.dumpRawOp(cmd) + ' ' + this.dumpOp(pc, cmd);
return result;
};
dumpRegisters = (debugInfo?: DebugInfo) => {
if (debugInfo === undefined) {
debugInfo = this.cpu.getDebugInfo();
}
const { ar, xr, yr, sr, sp } = debugInfo;
return [
'A=' + toHex(ar),
' X=' + toHex(xr),
' Y=' + toHex(yr),
' P=' + toHex(sr),
' S=' + toHex(sp),
' ',
dumpStatusRegister(sr),
].join('');
};
dumpPage = (start: byte, end?: byte) => {
let result = '';
if (end === undefined) {
end = start;
}
for (let page = start; page <= end; page++) {
for (let idx = 0; idx < 16; idx++) {
result += toHex(page) + toHex(idx << 4) + ': ';
for (let jdx = 0; jdx < 16; jdx++) {
const b = this.cpu.read(page, idx * 16 + jdx);
result += toHex(b) + ' ';
}
result += ' ';
for (let jdx = 0; jdx < 16; jdx++) {
const b = this.cpu.read(page, idx * 16 + jdx) & 0x7f;
if (b >= 0x20 && b < 0x7f) {
result += String.fromCharCode(b);
} else {
result += '.';
}
}
result += '\n';
}
}
return result;
};
list = (pc: word) => {
const results = [];
for (let idx = 0; idx < 20; idx++) {
const b = this.cpu.read(pc);
const op = this.cpu.getOpInfo(b);
results.push(this.dumpPC(pc));
pc += sizes[op.mode];
}
return results;
};
private updateTrace(info: DebugInfo) {
this.trace.push(info);
if (this.trace.length > this.maxTrace) {
this.trace.shift();
}
}
private padWithSymbol(pc: word): string {
const padding = ' ';
const symbol = this.symbols[pc];
let result: string = padding;
if (symbol) {
result = `${symbol}${padding.substring(symbol.length)}`;
}
return result;
}
private dumpRawOp(parts: byte[]) {
const result = new Array(4);
for (let idx = 0; idx < 4; idx++) {
if (idx < parts.length) {
result[idx] = toHex(parts[idx]);
} else {
result[idx] = ' ';
}
}
return result.join(' ');
}
private dumpOp(pc: word, parts: byte[]) {
const op = this.cpu.getOpInfo(parts[0]);
const lsb = parts[1];
const msb = parts[2];
const addr = (msb << 8) | lsb;
let val;
let off;
const toHexOrSymbol = (v: word, n?: number) => (
this.symbols[v] || ('$' + toHex(v, n))
);
let result = op.name + ' ';
switch (op.mode) {
case 'implied':
break;
case 'immediate':
result += `#${toHexOrSymbol(lsb)}`;
break;
case 'absolute':
result += `${toHexOrSymbol(addr, 4)}`;
break;
case 'zeroPage':
result += `${toHexOrSymbol(lsb)}`;
break;
case 'relative':
{
off = lsb;
if (off > 127) {
off -= 256;
}
pc += off + 2;
result += `${toHexOrSymbol(pc, 4)} (${off})`;
}
break;
case 'absoluteX':
result += `${toHexOrSymbol(addr, 4)},X`;
break;
case 'absoluteY':
result += `${toHexOrSymbol(addr, 4)},Y`;
break;
case 'zeroPageX':
result += `${toHexOrSymbol(lsb)},X`;
break;
case 'zeroPageY':
result += `${toHexOrSymbol(lsb)},Y`;
break;
case 'absoluteIndirect':
result += `(${toHexOrSymbol(addr, 4)})`;
break;
case 'zeroPageXIndirect':
result += `(${toHexOrSymbol(lsb)},X)`;
break;
case 'zeroPageIndirectY':
result += `(${toHexOrSymbol(lsb)},),Y`;
break;
case 'accumulator':
result += 'A';
break;
case 'zeroPageIndirect':
result += `(${toHexOrSymbol(lsb)})`;
break;
case 'absoluteXIndirect':
result += `(${toHexOrSymbol(addr, 4)},X)`;
break;
case 'zeroPage_relative':
val = lsb;
off = msb;
if (off > 127) {
off -= 256;
}
pc += off + 2;
result += `${toHexOrSymbol(val)},${toHexOrSymbol(pc, 4)} (${off})`;
break;
default:
break;
}
return result;
}
}
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