from enum import Enum from queue import Queue import threading from typing import List, Union class IntCodeState(Enum): INITIALIZED = 0 RUNNING = 1 HALTED = 2 class IntCode(threading.Thread): def __init__(self, memory: List[int], mem_size: int = 0): super().__init__() self.instr_ptr = 0 self.memory = memory self.input_queue = Queue() self.output_queue = Queue() self.state = IntCodeState.INITIALIZED if len(self.memory) < mem_size: self.memory.extend([0] * (mem_size - len(self.memory))) def get_parameter_value(self, address: int, mode: int) -> int: if mode == 0: return self.memory[self.memory[address]] elif mode == 1: return self.memory[address] def isRunning(self): return self.state == IntCodeState.RUNNING def isHalted(self): return self.state == IntCodeState.HALTED def sendOutputTo(self, target_queue: Queue): self.output_queue = target_queue def addInput(self, value: int): self.input_queue.put(value) def getOutput(self, count: int = 1, block: bool = True, timeout: int = None) -> Union[int, List[int]]: if count == 1: res = self.output_queue.get(block=block, timeout=timeout) self.output_queue.task_done() else: res = [] for _ in range(count): res.append(self.output_queue.get(block=block, timeout=timeout)) self.output_queue.task_done() return res def run(self): self.state = IntCodeState.RUNNING while not self.isHalted(): instr = self.memory[self.instr_ptr] % 100 p1_mode = self.memory[self.instr_ptr] // 100 % 10 p2_mode = self.memory[self.instr_ptr] // 1_000 % 10 # p3_mode = self.memory[self.instr_ptr] // 10_000 % 10 if instr == 1: # add param1 = self.get_parameter_value(self.instr_ptr + 1, p1_mode) param2 = self.get_parameter_value(self.instr_ptr + 2, p2_mode) target_addr = self.memory[self.instr_ptr + 3] self.memory[target_addr] = param1 + param2 self.instr_ptr += 4 elif instr == 2: # multiply param1 = self.get_parameter_value(self.instr_ptr + 1, p1_mode) param2 = self.get_parameter_value(self.instr_ptr + 2, p2_mode) target_addr = self.memory[self.instr_ptr + 3] self.memory[target_addr] = param1 * param2 self.instr_ptr += 4 elif instr == 3: # input target_addr = self.memory[self.instr_ptr + 1] self.memory[target_addr] = self.input_queue.get() self.input_queue.task_done() self.instr_ptr += 2 elif instr == 4: # output self.output_queue.put(self.get_parameter_value(self.instr_ptr + 1, p1_mode)) self.instr_ptr += 2 elif instr == 5: # jump-if-true if self.get_parameter_value(self.instr_ptr + 1, p1_mode) != 0: self.instr_ptr = self.get_parameter_value(self.instr_ptr + 2, p2_mode) else: self.instr_ptr += 3 elif instr == 6: # jump-if-false if self.get_parameter_value(self.instr_ptr + 1, p1_mode) == 0: self.instr_ptr = self.get_parameter_value(self.instr_ptr + 2, p2_mode) else: self.instr_ptr += 3 elif instr == 7: # less than param1 = self.get_parameter_value(self.instr_ptr + 1, p1_mode) param2 = self.get_parameter_value(self.instr_ptr + 2, p2_mode) target_addr = self.memory[self.instr_ptr + 3] self.memory[target_addr] = param1 < param2 self.instr_ptr += 4 elif instr == 8: # equals param1 = self.get_parameter_value(self.instr_ptr + 1, p1_mode) param2 = self.get_parameter_value(self.instr_ptr + 2, p2_mode) target_addr = self.memory[self.instr_ptr + 3] self.memory[target_addr] = param1 == param2 self.instr_ptr += 4 elif instr == 99: self.state = IntCodeState.HALTED return else: raise ValueError("Invalid instruction encountered at pos %d: %d" % (self.instr_ptr, instr))