advent-of-code-2k19/day5/day52.py

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2023-11-02 22:12:37 +00:00
import logging
logging.basicConfig(format="%(levelname)s:%(message)s", level=logging.DEBUG)
class Instruction:
code, argument_num = 0, 0
def execute(self, intcode, arguments):
pass
def new_pc(self, intcode):
return intcode.pc + self.argument_num + 1
class PlusInstruction(Instruction):
code, argument_num = 1, 3
def execute(self, intcode, arguments):
logging.debug(f"ADD {arguments[0].value} {arguments[1].value}")
intcode.set(arguments[2].address, arguments[0].value + arguments[1].value)
return self.new_pc(intcode)
class MultiplyInstruction(Instruction):
code, argument_num = 2, 3
def execute(self, intcode, arguments):
logging.debug(f"MUL {arguments[0].value} {arguments[1].value}")
intcode.set(arguments[2].address, arguments[0].value * arguments[1].value)
return self.new_pc(intcode)
class InputInstruction(Instruction):
code, argument_num = 3, 1
def execute(self, intcode, arguments):
intcode.set(arguments[0].address, intcode.get_input())
return self.new_pc(intcode)
class OutputInstruction(Instruction):
code, argument_num = 4, 1
def execute(self, intcode, arguments):
intcode.output = arguments[0].value
return self.new_pc(intcode)
class JumpIfTrueInstruction(Instruction):
code, argument_num = 5, 2
def execute(self, intcode, arguments):
logging.debug(f"JMPT {arguments[0].value} {arguments[1].value}")
return arguments[1].value if arguments[0].value != 0 else self.new_pc(intcode)
class JumpIfFalseInstruction(Instruction):
code, argument_num = 6, 2
def execute(self, intcode, arguments):
logging.debug(f"JMPF {arguments[0].value} {arguments[1].value}")
return arguments[1].value if arguments[0].value == 0 else self.new_pc(intcode)
class LessThanInstruction(Instruction):
code, argument_num = 7, 3
def execute(self, intcode, arguments):
logging.debug(f"LT {arguments[0].value} {arguments[1].value}")
intcode.set(arguments[2].address, int(arguments[0].value < arguments[1].value))
return self.new_pc(intcode)
class EqualsInstruction(Instruction):
code, argument_num = 8, 3
def execute(self, intcode, arguments):
intcode.set(arguments[2].address, int(arguments[0].value == arguments[1].value))
return self.new_pc(intcode)
class RelativeBaseOffsetInstruction(Instruction):
code, argument_num = 9, 1
def execute(self, intcode, arguments):
intcode.relative_base += arguments[0].value
return self.new_pc(intcode)
class HaltInstruction(Instruction):
code, argument_num = 99, 0
def execute(self, intcode, arguments):
intcode.halted = True
return None
class Argument:
def __init__(self, value, address):
self.value = value
self.address = address
class IntCode:
def __init__(self, program, inputs=[], input_func=None):
self.program = program[:]
self.inputs = inputs[::-1]
self.input_func = input_func
self.relative_base = 0
self.memory = {}
self.output = None
self.halted = False
self.pc = 0
def _get_instruction(self, instruction_code):
return next(
cls for cls in Instruction.__subclasses__() if cls.code == instruction_code
)
def _parse_arguments(self, argument_num):
modes = str(self.program[self.pc]).zfill(5)[:3][::-1]
arguments = []
for i in range(argument_num):
value = self.program[self.pc + i + 1] + (
self.relative_base if modes[i] == "2" else 0
)
if modes[i] == "1":
arguments.append(Argument(value, value))
else:
arguments.append(
Argument(
self.program[value]
if value < len(self.program)
else self.memory.get(value, 0),
value,
)
)
return arguments
def run(self):
self.output = None
while not self.halted and self.output is None:
instruction = self._get_instruction(self.program[self.pc] % 100)
arguments = self._parse_arguments(instruction.argument_num)
self.pc = instruction().execute(self, arguments)
return self.output
def execute(self):
last_output = None
while not self.halted:
output = self.run()
if not self.halted:
last_output = output
return last_output
def clone(self):
cloned = IntCode(self.program)
cloned.inputs = self.inputs[:]
cloned.input_func = self.input_func
cloned.relative_base = self.relative_base
cloned.memory = {key: value for key, value in self.memory.items()}
cloned.output = self.output
cloned.halted = self.halted
cloned.pc = self.pc
return cloned
def get(self, address):
return (
self.program[address]
if address < len(self.program)
else self.memory.get(value + self.relative_base, 0)
)
def set(self, address, value):
target = self.program if address < len(self.program) else self.memory
target[address] = value
def input(self, value):
self.inputs = [value] + self.inputs
def get_input(self):
return self.inputs.pop() if self.inputs else self.input_func()
import os
SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))
code = list(map(int, open(os.path.join(SCRIPT_DIR, "input.txt")).read().split(",")))
part2 = IntCode(code, [5]).execute()
print(part2)