namespace AdventOfCode2019_23_1 { const DAY = 23; const PROBLEM = 1; export async function run() { let input = await AdventOfCode.getInput(DAY); if (input == null) return; const code = input.trim().split(",").map(p => parseInt(p.trim())); let intps = new Array(50); for(let i=0; i<50; i++) intps[i] = new Interpreter(code, [i]); for(let i=0; i<50; i++) intps[i].blocking_io = false; let counter = new Array(50*50).fill(0); const IDS = [ '0','1','2','3','4','5','6','7','8','9', 'A','B','C','D','E','F','G','H','I','J', 'K','L','M','N','O','P','Q','R','S','T', 'U','V','W','X','Y','Z','a','b','c','d', 'e','f','g','h','i','j','k','l','m','n', 'o','p','q','r','s','t','u','v','w','x', 'y','z' ]; for(;;) { for(let i=0; i<50; i++) { intps[i].singleStep(); if (intps[i].output.length === 3) { let d = intps[i].output[0]; let x = intps[i].output[1]; let y = intps[i].output[2]; intps[i].output = []; if (d === 255) { AdventOfCode.output(DAY, PROBLEM, y.toString()); return; } intps[d].inputqueue.push(x); intps[d].inputqueue.push(y); AdventOfCode.outputConsole(`[${i}] --[${x}|${y}]--> [${d}]`) counter[i*50+d]++; } } if (AdventOfCode.Config.immediateOutputEnabled) { let str = " "; for (let dst = 0; dst < 50; dst++) str += IDS[dst] + " "; str += "\n"; for (let src = 0; src < 50; src++) { str += IDS[src] + " "; for (let dst = 0; dst < 50; dst++) { const v = counter[src*50+dst]; if (v === 0) str += "." + " "; else if (v %2 === 1) str += "#" + " "; else if (v %2 === 0) str += "X" + " "; } str += "\n"; } await AdventOfCode.outputIntermed(str); } } } class Interpreter { program: InfMem; inputqueue: number[]; instructionpointer: number; output: number[]; relative_base: number; blocking_io: boolean; is_halted: boolean = false; constructor(prog: number[], input: number[]) { this.program = new InfMem(prog); this.inputqueue = input; this.instructionpointer = 0; this.output = []; this.relative_base = 0; this.blocking_io = true; } fullRun() : number[] { while(!this.is_halted) { const r = this.singleStep(); if (r === StepResult.EXECUTED) continue; if (r === StepResult.HALTED) return this.output; if (r === StepResult.WAITING_FOR_IN) throw "not enough input"; throw "unknown output of singleStep"; } return this.output; } autoRun() : StepResult { while(!this.is_halted) { const r = this.singleStep(); if (r === StepResult.EXECUTED) continue; if (r === StepResult.HALTED) return StepResult.HALTED; if (r === StepResult.WAITING_FOR_IN) return StepResult.WAITING_FOR_IN; throw "unknown output of singleStep"; } return StepResult.HALTED; } singleStep() : StepResult { const cmd = new Op(this.program.r(this.instructionpointer)); if (cmd.opcode == OpCode.ADD) { const p0 = cmd.getParameter(this, 0); const p1 = cmd.getParameter(this, 1); const pv = p0 + p1; cmd.setParameter(this, 2, pv); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.MUL) { const p0 = cmd.getParameter(this, 0); const p1 = cmd.getParameter(this, 1); const pv = p0 * p1; cmd.setParameter(this, 2, pv); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.HALT) { this.is_halted = true; return StepResult.HALTED; } else if (cmd.opcode == OpCode.IN) { if (this.inputqueue.length == 0) { if (this.blocking_io) return StepResult.WAITING_FOR_IN; cmd.setParameter(this, 0, -1); this.incInstrPtr(cmd); return StepResult.EXECUTED; } const pv = this.inputqueue[0]; cmd.setParameter(this, 0, pv); this.inputqueue = this.inputqueue.slice(1); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.OUT) { const p0 = cmd.getParameter(this, 0); this.output.push(p0); //AdventOfCode.outputConsole("# " + p0); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.TJMP) { const p0 = cmd.getParameter(this, 0); if (p0 != 0) this.instructionpointer = cmd.getParameter(this, 1); else this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.FJMP) { const p0 = cmd.getParameter(this, 0); if (p0 == 0) this.instructionpointer = cmd.getParameter(this, 1); else this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.LT) { const p0 = cmd.getParameter(this, 0); const p1 = cmd.getParameter(this, 1); const pv = p0 < p1 ? 1 : 0; cmd.setParameter(this, 2, pv); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.EQ) { const p0 = cmd.getParameter(this, 0); const p1 = cmd.getParameter(this, 1); const pv = p0 == p1 ? 1 : 0; cmd.setParameter(this, 2, pv); this.incInstrPtr(cmd); return StepResult.EXECUTED; } else if (cmd.opcode == OpCode.ARB) { const p0 = cmd.getParameter(this, 0); this.relative_base = this.relative_base+p0; this.incInstrPtr(cmd); return StepResult.EXECUTED; } else throw "Unknown Op: " + cmd.opcode + " @ " + this.instructionpointer; } private incInstrPtr(cmd: Op) { this.instructionpointer += 1 + cmd.parametercount; } } enum StepResult { EXECUTED, HALTED, WAITING_FOR_IN } enum OpCode { ADD = 1, MUL = 2, IN = 3, OUT = 4, TJMP = 5, FJMP = 6, LT = 7, EQ = 8, ARB = 9, HALT = 99, } enum ParamMode { POSITION_MODE = 0, IMMEDIATE_MODE = 1, RELATIVE_MODE = 2, } class Op { opcode: OpCode; modes: ParamMode[]; name: string; parametercount: number; constructor(v: number) { this.opcode = v%100; v = Math.floor(v/100); this.modes = []; for(let i=0; i<4; i++) { this.modes.push(v%10); v = Math.floor(v/10); } if (this.opcode == OpCode.ADD) { this.name="ADD"; this.parametercount=3; } else if (this.opcode == OpCode.MUL) { this.name="MUL"; this.parametercount=3; } else if (this.opcode == OpCode.HALT) { this.name="HALT"; this.parametercount=0; } else if (this.opcode == OpCode.IN) { this.name="IN"; this.parametercount=1; } else if (this.opcode == OpCode.OUT) { this.name="OUT"; this.parametercount=1; } else if (this.opcode == OpCode.TJMP) { this.name="TJMP"; this.parametercount=2; } else if (this.opcode == OpCode.FJMP) { this.name="FJMP"; this.parametercount=2; } else if (this.opcode == OpCode.LT) { this.name="LT"; this.parametercount=3; } else if (this.opcode == OpCode.EQ) { this.name="EQ"; this.parametercount=3; } else if (this.opcode == OpCode.ARB) { this.name="ARB"; this.parametercount=1; } else throw "Unknown opcode: "+this.opcode; } getParameter(proc: Interpreter, index: number): number { const prog = proc.program; const ip = proc.instructionpointer; let p = prog.r(ip+1+index); if (this.modes[index] == ParamMode.POSITION_MODE) p = prog.r(p); else if (this.modes[index] == ParamMode.IMMEDIATE_MODE) p = p; else if (this.modes[index] == ParamMode.RELATIVE_MODE) p = prog.r(proc.relative_base+p); else throw "Unknown ParamMode: "+this.modes[index]; return p; } setParameter(proc: Interpreter, index: number, value: number): void { const prog = proc.program; const ip = proc.instructionpointer; let p = prog.r(ip+1+index); if (this.modes[index] == ParamMode.POSITION_MODE) prog.w(p, value); else if (this.modes[index] == ParamMode.IMMEDIATE_MODE) throw "Immediate mode not allowed in write"; else if (this.modes[index] == ParamMode.RELATIVE_MODE) prog.w(proc.relative_base+p, value); else throw "Unknown ParamMode: "+this.modes[index]; } } class InfMem { private data: { [_:number]:number } = {}; constructor(v: number[]) { for(let i=0; i