"use strict"; var VCS_PRESETS = [ {id:'examples/hello', chapter:4, name:'Hello 6502 and TIA'}, {id:'examples/vsync', chapter:5, name:'Painting on the CRT', title:'Color Bars'}, {id:'examples/playfield', chapter:6, name:'Playfield Graphics'}, {id:'examples/sprite', chapter:7, name:'Players and Sprites'}, {id:'examples/timing2', chapter:9, name:'Fine Positioning', title:'Fine Position'}, {id:'examples/missiles', chapter:10, name:'Player/Missile Graphics', title:'Player/Missile'}, {id:'examples/complexscene', chapter:15, name:'Complex Scene I'}, {id:'examples/complexscene2', chapter:16, name:'Complex Scene II'}, {id:'examples/scoreboard', chapter:18, name:'Scoreboard'}, {id:'examples/collisions', chapter:19, name:'Collisions'}, {id:'examples/bitmap', chapter:20, name:'Async Playfield: Bitmap', title:'Async PF Bitmap'}, {id:'examples/brickgame', chapter:21, name:'Async Playfield: Bricks', title:'Async PF Bricks'}, // {id:'examples/multisprite1', chapter:8, name:'Sprite Kernel'}, {id:'examples/bigsprite', chapter:22, name:'A Big 48-Pixel Sprite', title:'48-Pixel Sprite'}, {id:'examples/tinyfonts2', chapter:23, name:'Tiny Text'}, {id:'examples/score6', chapter:24, name:'6-Digit Score'}, {id:'examples/retrigger', chapter:26, name:'Sprite Formations'}, // {id:'examples/tinyfonts', chapter:23, name:'Tiny Fonts, Slow'}, {id:'examples/multisprite3', chapter:28, name:'Multisprites'}, {id:'examples/procgen1', chapter:30, name:'Procedural Generation'}, {id:'examples/lines', chapter:31, name:'Drawing Lines'}, // {id:'examples/piatable', name:'Timer Table'}, {id:'examples/musicplayer', chapter:32, name:'Music Player'}, {id:'examples/road', chapter:33, name:'Pseudo 3D Road'}, {id:'examples/bankswitching', chapter:35, name:'Bankswitching'}, {id:'examples/wavetable', chapter:36, name:'Wavetable Sound'}, {id:'examples/fracpitch', name:'Fractional Pitch'}, // {id:'examples/music2', name:'Pitch-Accurate Music'}, // {id:'examples/fullgame', name:'Thru Hike: The Game', title:'Thru Hike'}, ]; Javatari.AUTO_START = false; Javatari.SHOW_ERRORS = false; Javatari.CARTRIDGE_CHANGE_DISABLED = true; Javatari.DEBUG_SCANLINE_OVERFLOW = false; // TODO: make a switch Javatari.AUDIO_BUFFER_SIZE = 256; var VCSPlatform = function() { var self = this; this.getPresets = function() { return VCS_PRESETS; } this.start = function() { Javatari.start(); } this.loadROM = function(title, data) { Javatari.loadROM(title, data); this.current_output = data; // TODO: use bus } this.getOpcodeMetadata = function(opcode, offset) { return Javatari.getOpcodeMetadata(opcode, offset); } this.getRasterPosition = function() { var clkfs = Javatari.room.console.getClocksFromFrameStart() - 1; var row = Math.floor(clkfs/76); var col = clkfs - row*76; var xpos = col*3-68; var ypos = row-39; return {x:xpos, y:ypos}; } this.isRunning = function() { return Javatari.room && Javatari.room.console.isRunning(); } this.pause = function() { Javatari.room.console.pause(); } this.resume = function() { Javatari.room.console.go(); } this.step = function() { Javatari.room.console.debugSingleStepCPUClock(); } this.stepBack = function() { Javatari.room.console.debugStepBackInstruction(); } this.runEval = function(evalfunc) { Javatari.room.console.debugEval(evalfunc); } this.setupDebug = function(callback) { Javatari.room.console.onBreakpointHit = callback; } this.clearDebug = function() { Javatari.room.console.disableDebug(); Javatari.room.console.onBreakpointHit = null; } this.reset = function() { Javatari.room.console.powerOff(); Javatari.room.console.resetDebug(); Javatari.room.console.powerOn(); } this.getOriginPC = function() { return (this.readAddress(0xfffc) | (this.readAddress(0xfffd) << 8)) & 0xffff; } /* this.saveState = function() { return Javatari.room.console.saveState(); // TODO } this.loadState = function(state) { return Javatari.room.console.loadState(state); // TODO } */ this.readAddress = function(addr) { return current_output[addr & 0xfff]; // TODO: use bus to read } this.runUntilReturn = function() { var depth = 1; self.runEval(function(c) { if (depth <= 0 && c.T == 0) return true; if (c.o == 0x20) depth++; else if (c.o == 0x60 || c.o == 0x40) --depth; return false; }); } this.cpuStateToLongString = function(c) { return cpuStateToLongString_6502(c); } this.getRAMForState = function(state) { return jt.Util.byteStringToUInt8Array(atob(state.r.b)); } this.ramStateToLongString = function(state) { var ram = self.getRAMForState(state); return "\n" + dumpRAM(ram, 0x80, 0x80); } this.getToolForFilename = function(fn) { return "dasm"; } this.getDefaultExtension = function() { return ".a"; }; }; /// VCS TIMING ANALYSIS var pc2minclocks = {}; var pc2maxclocks = {}; var jsrresult = {}; var MAX_CLOCKS = 76*2; function _traceInstructions(pc, minclocks, maxclocks, subaddr, constraints) { //console.log("trace", hex(pc), minclocks, maxclocks); if (!minclocks) minclocks = 0; if (!maxclocks) maxclocks = 0; if (!constraints) constraints = {}; var modified = true; var abort = false; for (var i=0; i<1000 && modified && !abort; i++) { modified = false; var meta = getClockCountsAtPC(pc); var lob = platform.readAddress(pc+1); var hib = platform.readAddress(pc+2); var addr = lob + (hib << 8); var pc0 = pc; if (!pc2minclocks[pc0] || minclocks < pc2minclocks[pc0]) { pc2minclocks[pc0] = minclocks; modified = true; } if (!pc2maxclocks[pc0] || maxclocks > pc2maxclocks[pc0]) { pc2maxclocks[pc0] = maxclocks; modified = true; } //console.log(hex(pc),minclocks,maxclocks,meta); if (!meta.insnlength) { console.log("Illegal instruction!", hex(pc), hex(meta.opcode), meta); break; } pc += meta.insnlength; var oldconstraints = constraints; constraints = null; // TODO: if jump to zero-page, maybe assume RTS? switch (meta.opcode) { /* case 0xb9: // TODO: hack for zero page,y if (addr < 0x100) meta.maxCycles -= 1; break; */ case 0x85: if (lob == 0x2) { // STA WSYNC minclocks = maxclocks = 0; meta.minCycles = meta.maxCycles = 0; } break; case 0x20: // JSR _traceInstructions(addr, minclocks, maxclocks, addr, constraints); var result = jsrresult[addr]; if (result) { minclocks = result.minclocks; maxclocks = result.maxclocks; } else { console.log("No JSR result!", hex(pc), hex(addr)); return; } break; case 0x4c: // JMP pc = addr; // TODO: make sure in ROM space break; case 0x60: // RTS if (subaddr) { // TODO: combine with previous result var result = jsrresult[subaddr]; if (!result) { result = {minclocks:minclocks, maxclocks:maxclocks}; } else { result = { minclocks:Math.min(minclocks,result.minclocks), maxclocks:Math.max(maxclocks,result.maxclocks) } } jsrresult[subaddr] = result; console.log("RTS", hex(pc), hex(subaddr), jsrresult[subaddr]); } return; case 0x10: case 0x30: // branch case 0x50: case 0x70: case 0x90: case 0xB0: case 0xD0: case 0xF0: var newpc = pc + byte2signed(lob); var crosspage = (pc>>8) != (newpc>>8); if (!crosspage) meta.maxCycles--; // TODO: other instructions might modify flags too var cons = BRANCH_CONSTRAINTS[Math.floor((meta.opcode-0x10)/0x20)]; var cons0 = constraintEquals(oldconstraints, cons[0]); var cons1 = constraintEquals(oldconstraints, cons[1]); if (cons0 !== false) { _traceInstructions(newpc, minclocks+meta.maxCycles, maxclocks+meta.maxCycles, subaddr, cons[0]); } if (cons1 === false) { console.log("abort", hex(pc), oldconstraints, cons[1]); abort = true; } constraints = cons[1]; // not taken meta.maxCycles = meta.minCycles; // branch not taken, no extra clock(s) break; case 0x6c: console.log("Instruction not supported!", hex(pc), hex(meta.opcode), meta); // TODO return; } // TODO: wraparound? minclocks = Math.min(MAX_CLOCKS, minclocks + meta.minCycles); maxclocks = Math.min(MAX_CLOCKS, maxclocks + meta.maxCycles); } } function showLoopTimingForPC(pc) { pc2minclocks = {}; pc2maxclocks = {}; jsrresult = {}; // recurse through all traces _traceInstructions(pc | platform.getOriginPC(), MAX_CLOCKS, MAX_CLOCKS); // show the lines for (var line in sourcefile.line2offset) { var pc = sourcefile.line2offset[line]; var minclocks = pc2minclocks[pc]; var maxclocks = pc2maxclocks[pc]; if (minclocks>=0 && maxclocks>=0) { var s; if (maxclocks == minclocks) s = minclocks + ""; else s = minclocks + "-" + maxclocks; if (maxclocks == MAX_CLOCKS) s += "+"; var textel = document.createTextNode(s); editor.setGutterMarker(line-1, "gutter-bytes", textel); } } } function traceTiming() { trace_pending_at_pc = platform.getOriginPC(); setCode(editor.getValue()); } /////////////// var VCSMAMEPlatform = function(mainElement) { var self = this; this.__proto__ = new BaseMAMEPlatform(); // MCFG_SCREEN_RAW_PARAMS( MASTER_CLOCK_NTSC, 228, 26, 26 + 160 + 16, 262, 24 , 24 + 192 + 31 ) this.start = function() { self.startModule(mainElement, { jsfile:'mamea2600.js', driver:'a2600', width:176*2, height:223, romfn:'/emulator/cart.rom', romsize:0x1000, }); } this.loadROM = function(title, data) { this.loadROMFile(data); this.loadRegion(":cartslot:cart:rom", data); } this.getPresets = function() { return VCS_PRESETS; } this.getToolForFilename = function(fn) { return "dasm"; } this.getDefaultExtension = function() { return ".a"; }; this.getOriginPC = function() { return (this.readAddress(0xfffc) | (this.readAddress(0xfffd) << 8)) & 0xffff; } /* this.getOpcodeMetadata = function(opcode, offset) { return Javatari.getOpcodeMetadata(opcode, offset); } */ } //////////////// PLATFORMS['vcs'] = VCSPlatform; PLATFORMS['vcs-mame'] = VCSMAMEPlatform;