// chip-specific support functions // // may override function definitions made previously chipname='6800'; grChipSize=6600; grChipOffsetX=25 grChipOffsetY=-200; ngnd = nodenames['gnd']; npwr = nodenames['vcc']; nodenamereset = 'reset'; presetLogLists=[ ['cycle',], ['ab','db','rw','vma','Fetch','pc','acca','accb','ix','sp','p'], ['ir','sync','Execute','State'], // instruction fetch and execution control ['dbi','dbo','tmp','sum','inc'], // internal register-sized state ['idb','abh','abl','ablx'], // internal datapath busses ['irq','nmi',nodenamereset,'tsc','dbe','halt','ba'], // other pins ]; function setupTransistors(){ for(i in transdefs){ var tdef = transdefs[i]; var name = tdef[0]; var gate = tdef[1]; var c1 = tdef[2]; var c2 = tdef[3]; var bb = tdef[4]; if(tdef[6]) // just ignore all the 'weak' transistors for now continue; if(c1==ngnd) {c1=c2;c2=ngnd;} if(c1==npwr) {c1=c2;c2=npwr;} var trans = {name: name, on: false, gate: gate, c1: c1, c2: c2, bb: bb}; nodes[gate].gates.push(trans); nodes[c1].c1c2s.push(trans); nodes[c2].c1c2s.push(trans); transistors[name] = trans; } } // simulate a single clock phase with no update to graphics or trace function halfStep(){ var clk = isNodeHigh(nodenames['phi2']); eval(clockTriggers[cycle]); if (clk) {setLow('phi2'); setLow('dbe'); setHigh('phi1'); handleBusRead(); } else {setHigh('phi1'); setLow('phi1'); setHigh('phi2'); setHigh('dbe'); handleBusWrite();} } function goUntilSyncOrWrite(){ halfStep(); cycle++; while( !isNodeHigh(nodenames['phi2']) || ( !isNodeHigh(nodenames['sync']) && isNodeHigh(nodenames['rw']) ) ) { halfStep(); cycle++; } chipStatus(); } 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(nodenamereset); setHigh('phi1'); setLow('phi2'); setLow('dbe'); setHigh('dbe'); setLow('tsc'); setHigh('halt'); setHigh('irq'); setHigh('nmi'); recalcNodeList(allNodes()); for(var i=0;i<8;i++){ setLow('phi1'); setHigh('phi2'); setHigh('dbe'); setLow('phi2'); setLow('dbe'); setHigh('phi1'); } setHigh(nodenamereset); for(var i=0;i<6;i++){halfStep();} // avoid updating graphics and trace buffer before user code refresh(); cycle = 0; trace = Array(); if(typeof expertMode != "undefined") updateLogList(); chipStatus(); if(ctrace)console.log('initChip done after', now()-start); } 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 readAccA(){return readBits('acca', 8);} function readAccB(){return readBits('accb', 8);} function readIX(){return (readBits('ixh', 8)<<8) + readBits('ixl', 8);} function readSP(){return (readBits('sph', 8)<<8) + readBits('spl', 8);} function readPstring(){ var result; result = '‑' + // non-breaking hyphen '‑' + // non-breaking hyphen (isNodeHigh(nodenames['flagh'])?'H':'h') + (isNodeHigh(nodenames['flagi'])?'I':'i') + (isNodeHigh(nodenames['flagn'])?'N':'n') + (isNodeHigh(nodenames['flagz'])?'Z':'z') + (isNodeHigh(nodenames['flagv'])?'V':'v') + (isNodeHigh(nodenames['flagc'])?'C':'c'); return result; } // The 6800 state control is something like a branching shift register // ... but not quite like that TCStates=[ "Ts", "Tf", "Tx0", "Tx1", "Tx2", "Ta0", "Ta1", "Ta2", "Td0_0", "#Te0", "Te1_0", "Tg0", "Tg1", "Tg2", "Tg3", "Tg4", "Tg5", "Tg6", "Tg7", "Tg8", "Tr3", "Tr4", "Tr5", "Tr6", "Tr7", "Tr8", ]; function listActiveTCStates() { var s=[]; for(var i=0;i>1; if(busname=='pc') return busToHex('pch') + busToHex('pcl'); if(busname=='sp') return busToHex('sph') + busToHex('spl'); if(busname=='ix') return busToHex('ixh') + busToHex('ixl'); if(busname=='inc') return busToHex('inch') + busToHex('incl'); if(busname=='p') return readPstring(); if(busname=='State') return listActiveTCStates(); if(busname=='Execute') return disassemblytoHTML(readBits('ir',8)); if(busname=='Fetch') return isNodeHigh(nodenames['sync'])?disassemblytoHTML(readDataBus()):""; 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); } } function chipStatus(){ var ab = readAddressBus(); var machine1 = ' halfcyc:' + cycle + ' phi0:' + readBit('phi2') + ' AB:' + hexWord(ab) + ' D:' + hexByte(readDataBus()) + ' RnW:' + readBit('rw') + ' VMA:' + readBit('vma'); var machine2 = ' PC:' + hexWord(readPC()) + ' A:' + hexByte(readAccA()) + ' B:' + hexByte(readAccB()) + ' IX:' + hexWord(readIX()) + ' SP:' + hexWord(readSP()) + ' ' + readPstring(); var machine3 = 'Hz: ' + estimatedHz().toFixed(1); if(typeof expertMode != "undefined") { machine3 += ' Exec: ' + busToString('Execute'); // no T-state info for 6800 yet if(isNodeHigh(nodenames['sync'])) machine3 += ' (Fetch: ' + busToString('Fetch') + ')'; if(goldenChecksum != undefined) machine3 += " Chk:" + traceChecksum + ((traceChecksum==goldenChecksum)?" OK":" no match"); } setStatus(machine1, machine2, machine3); if (logThese.length>1) { updateLogbox(logThese); } selectCell(ab); } // javascript derived from http://segher.ircgeeks.net/6800/OPS var disassembly={ 0x00: "!", 0x01: "nop", 0x02: "!", 0x03: "!", 0x04: "!", 0x05: "!", 0x06: "tap", 0x07: "tpa", 0x10: "sba", 0x11: "cba", 0x12: "!", 0x13: "!", 0x14: "!nba", 0x15: "!", 0x16: "tab", 0x17: "tba", 0x20: "bra N", 0x21: "!", 0x22: "bhi N", 0x23: "bls N", 0x24: "bcc N", 0x25: "bcs N", 0x26: "bne N", 0x27: "beq N", 0x30: "tsx", 0x31: "ins", 0x32: "pul a", 0x33: "pul b", 0x34: "des", 0x35: "txs", 0x36: "psh a", 0x37: "psh b", 0x40: "neg a", 0x41: "!", 0x42: "!", 0x43: "com a", 0x44: "lsr a", 0x45: "!", 0x46: "ror a", 0x47: "asr a", 0x50: "neg b", 0x51: "!", 0x52: "!", 0x53: "com b", 0x54: "lsr b", 0x55: "!", 0x56: "ror b", 0x57: "asr b", 0x60: "neg Nx", 0x61: "!", 0x62: "!", 0x63: "com Nx", 0x64: "lsr Nx", 0x65: "!", 0x66: "ror Nx", 0x67: "asr Nx", 0x70: "neg NN", 0x71: "!", 0x72: "!", 0x73: "com NN", 0x74: "lsr NN", 0x75: "!", 0x76: "ror NN", 0x77: "asr NN", 0x80: "sub a #", 0x81: "cmp a #", 0x82: "sbc a #", 0x83: "!", 0x84: "and a #", 0x85: "bit a #", 0x86: "lda a #", 0x87: "!", 0x90: "sub a N", 0x91: "cmp a N", 0x92: "sbc a N", 0x93: "!", 0x94: "and a N", 0x95: "bit a N", 0x96: "lda a N", 0x97: "sta a N", 0xa0: "sub a Nx", 0xa1: "cmp a Nx", 0xa2: "sbc a Nx", 0xa3: "!", 0xa4: "and a Nx", 0xa5: "bit a Nx", 0xa6: "lda a Nx", 0xa7: "sta a Nx", 0xb0: "sub a NN", 0xb1: "cmp a NN", 0xb2: "sbc a NN", 0xb3: "!", 0xb4: "and a NN", 0xb5: "bit a NN", 0xb6: "lda a NN", 0xb7: "sta a NN", 0xc0: "sub b #", 0xc1: "cmp b #", 0xc2: "sbc b #", 0xc3: "!", 0xc4: "and b #", 0xc5: "bit b #", 0xc6: "lda b #", 0xc7: "!", 0xd0: "sub b N", 0xd1: "cmp b N", 0xd2: "sbc b N", 0xd3: "!", 0xd4: "and b N", 0xd5: "bit b N", 0xd6: "lda b N", 0xd7: "sta b N", 0xe0: "sub b Nx", 0xe1: "cmp b Nx", 0xe2: "sbc b Nx", 0xe3: "!", 0xe4: "and b Nx", 0xe5: "bit b Nx", 0xe6: "lda b Nx", 0xe7: "sta b Nx", 0xf0: "sub b NN", 0xf1: "cmp b NN", 0xf2: "sbc b NN", 0xf3: "!", 0xf4: "and b NN", 0xf5: "bit b NN", 0xf6: "lda b NN", 0xf7: "sta b NN", 0x08: "inx", 0x09: "dex", 0x0a: "clv", 0x0b: "sev", 0x0c: "clc", 0x0d: "sec", 0x0e: "cli", 0x0f: "sei", 0x18: "!", 0x19: "daa", 0x1a: "!", 0x1b: "aba", 0x1c: "!", 0x1d: "!", 0x1e: "!", 0x1f: "!", 0x28: "bvc N", 0x29: "bvs N", 0x2a: "bpl N", 0x2b: "bmi N", 0x2c: "bge N", 0x2d: "blt N", 0x2e: "bgt N", 0x2f: "ble N", 0x38: "!", 0x39: "rts", 0x3a: "!", 0x3b: "rti", 0x3c: "!", 0x3d: "!", 0x3e: "wai", 0x3f: "swi", 0x48: "asl a", 0x49: "rol a", 0x4a: "dec a", 0x4b: "!", 0x4c: "inc a", 0x4d: "tst a", 0x4e: "!", 0x4f: "clr a", 0x58: "asl b", 0x59: "rol b", 0x5a: "dec b", 0x5b: "!", 0x5c: "inc b", 0x5d: "tst b", 0x5e: "!", 0x5f: "clr b", 0x68: "asl Nx", 0x69: "rol Nx", 0x6a: "dec Nx", 0x6b: "!", 0x6c: "inc Nx", 0x6d: "tst Nx", 0x6e: "jmp Nx", 0x6f: "clr Nx", 0x78: "asl NN", 0x79: "rol NN", 0x7a: "dec NN", 0x7b: "!", 0x7c: "inc NN", 0x7d: "tst NN", 0x7e: "jmp NN", 0x7f: "clr NN", 0x88: "eor a #", 0x89: "adc a #", 0x8a: "ora a #", 0x8b: "add a #", 0x8c: "cpx ##", 0x8d: "bsr N", 0x8e: "lds ##", 0x8f: "!", 0x98: "eor a N", 0x99: "adc a N", 0x9a: "ora a N", 0x9b: "add a N", 0x9c: "cpx N", 0x9d: "!hcf", 0x9e: "lds N", 0x9f: "sts N", 0xa8: "eor a Nx", 0xa9: "adc a Nx", 0xaa: "ora a Nx", 0xab: "add a Nx", 0xac: "cpx Nx", 0xad: "jsr Nx", 0xae: "lds Nx", 0xaf: "sts Nx", 0xb8: "eor a NN", 0xb9: "adc a NN", 0xba: "ora a NN", 0xbb: "add a NN", 0xbc: "cpx NN", 0xbd: "jsr NN", 0xbe: "lds NN", 0xbf: "sts NN", 0xc8: "eor b #", 0xc9: "adc b #", 0xca: "ora b #", 0xcb: "add b #", 0xcc: "!", 0xcd: "!", 0xce: "ldx ##", 0xcf: "!", 0xd8: "eor b N", 0xd9: "adc b N", 0xda: "ora b N", 0xdb: "add b N", 0xdc: "!", 0xdd: "!hcf", 0xde: "ldx N", 0xdf: "stx N", 0xe8: "eor b Nx", 0xe9: "adc b Nx", 0xea: "ora b Nx", 0xeb: "add b Nx", 0xec: "!", 0xed: "!", 0xee: "ldx Nx", 0xef: "stx Nx", 0xf8: "eor b NN", 0xf9: "adc b NN", 0xfa: "ora b NN", 0xfb: "add b NN", 0xfc: "!", 0xfd: "!", 0xfe: "ldx NN", 0xff: "stx NN", };