import { opCodeToName, operandToName, readData, VM } from "./solve_1.ts"; class VMCompiler extends VM { compileSingleInstruction(pc: number): string { const opCode = this.programs[pc]; const operand = this.programs[pc + 1]; switch (opCode) { case 0: return `label${this.pc}: A = (A >> ${operandToName(operand)});`; case 1: return `label${this.pc}: B = B ^ ${operand};`; case 2: return `label${this.pc}: B = ${operandToName(operand)} % 8;`; case 3: return `label${this.pc}: if (A !== 0) goto label${operand};`; case 4: return `label${this.pc}: B = B ^ C;`; case 5: return `label${this.pc}: out(${operandToName(operand)} % 8);`; case 6: return `label${this.pc}: B = (A >> ${operandToName(operand)});`; case 7: return `label${this.pc}: C = (A >> ${operandToName(operand)});`; default: throw new Error(`Unknown opCode: ${opCode}`); } } compile(): string { let code = ""; let pc = 0; while (pc < this.programs.length) { code += this.compileSingleInstruction(pc) + "\n"; pc += 2; } return code; } } if (import.meta.main) { const data = await readData(Deno.args[0]); console.log(data.registers); // data.registers.A = 0b11100101011000000; console.log(data.programs.join(",")); const vm = new VMCompiler(data); const text = vm.compile(); console.log(text); const out: number[] = []; console.log(out.join(",")); // vm.registers.A = 3; vm.pc = 0; const outputs: number[] = []; vm.on("out", (value) => { outputs.push(value); }); // print code and registers while (vm.pc < vm.programs.length) { const code = vm.compileSingleInstruction(vm.pc); vm.runSingleInstruction(); console.log(code, vm.registers, vm.registers.C & 7); } console.log(outputs.join(",")); }