Solve day 7 part 2

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Gabriel Augendre 2020-03-05 23:14:34 +01:00
parent 98ad800491
commit 8144ee812f
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@ -24,111 +24,159 @@ LAST_IS_RESULT_MAP = {
}
class IntcodeOutput(Exception):
def __init__(self, value):
self.value = value
class Computer:
@staticmethod
def get_value(program, args, param_modes, index):
def get_value(self, args, param_modes, index):
if param_modes[index] == 0:
return program[args[index]]
return self.program[args[index]]
return args[index]
@staticmethod
def parse_args(program, raw_args, param_modes, last_is_result=False):
def parse_args(self, raw_args, param_modes, last_is_result=False):
args = []
limit = -1 if last_is_result else None
for i, arg in enumerate(raw_args[:limit]):
args.append(Computer.get_value(program, raw_args, param_modes, i))
args.append(self.get_value(raw_args, param_modes, i))
if last_is_result:
args.append(raw_args[-1])
return args
def _move_pointer(self, position):
self.pointer = position
self.pointer_moved = True
def _update_pointer(self):
offset = self.get_offset()
if not self.pointer_moved:
self.pointer += offset
self.pointer_moved = False
def __init__(self, initial_program: List[int], inputs: List[int] = None):
self.program = initial_program.copy() # type: List[int]
self.inputs = inputs.copy() # type: List[int]
self.pointer = 0
self.pointer_moved = False
def compute(self, inputs: List[int] = None) -> Union[int, None]:
if inputs is None:
inputs = []
self.inputs.extend(inputs)
def compute(self, additional_inputs: List[int] = None) -> int:
if additional_inputs is None:
additional_inputs = []
self.inputs.extend(additional_inputs)
pointer = 0
while pointer < len(self.program):
pointer_moved = False
instruction = str(self.program[pointer])
code = int(instruction[-2:])
if code == 99:
raise
while self.pointer < len(self.program):
try:
self.handle_operation()
except IntcodeOutput as e:
return e.value
finally:
self._update_pointer()
number_of_params = NUMBER_OF_PARAMS_MAP[code]
offset = number_of_params + 1
param_modes = instruction[:-2]
param_modes = param_modes.zfill(number_of_params)
param_modes = list(map(int, reversed(param_modes)))
raw_params = []
for i in range(1, offset):
raw_params.append(self.program[pointer + i])
def get_params(self):
offset = self.get_offset()
param_modes = self.get_instruction()[:-2]
param_modes = param_modes.zfill(offset - 1)
param_modes = list(map(int, reversed(param_modes)))
raw_params = []
for i in range(1, offset):
raw_params.append(self.program[self.pointer + i])
last_is_result = LAST_IS_RESULT_MAP[code]
params = self.parse_args(
self.program, raw_params, param_modes, last_is_result
)
code = self.get_code()
last_is_result = LAST_IS_RESULT_MAP[code]
params = self.parse_args(raw_params, param_modes, last_is_result)
return params
if code == 1:
# Addition
self.program[params[2]] = params[0] + params[1]
elif code == 2:
# Multiplication
self.program[params[2]] = params[0] * params[1]
elif code == 3:
# Input
try:
input_value = int(self.inputs.pop(0))
except IndexError:
input_value = int(input(f"Input for instruction {pointer}\n> "))
self.program[params[0]] = input_value
elif code == 4:
# Output
return params[0]
elif code == 5:
# Jump if true
if params[0] != 0:
pointer = params[1]
pointer_moved = True
elif code == 6:
# Jump if false
if params[0] == 0:
pointer = params[1]
pointer_moved = True
elif code == 7:
# Less than
if params[0] < params[1]:
self.program[params[2]] = 1
else:
self.program[params[2]] = 0
elif code == 8:
# Equals
if params[0] == params[1]:
self.program[params[2]] = 1
else:
self.program[params[2]] = 0
def get_offset(self):
code = self.get_code()
number_of_params = NUMBER_OF_PARAMS_MAP[code]
return number_of_params + 1
else:
raise ValueError(f"Something bad happened, code={code}")
def get_code(self):
instruction = self.get_instruction()
code = int(instruction[-2:])
if code == 99:
raise StopIteration
return code
if not pointer_moved:
pointer += offset
def get_instruction(self):
instruction = str(self.program[self.pointer])
return instruction
def handle_operation(self):
code = self.get_code()
params = self.get_params()
if code == 1:
self.handle_addition(params)
elif code == 2:
self.handle_multiplication(params)
elif code == 3:
self.handle_input(params)
elif code == 4:
# Output
raise IntcodeOutput(params[0])
elif code == 5:
self.handle_jump_if_true(params)
elif code == 6:
self.handle_jump_if_false(params)
elif code == 7:
self.handle_less_than(params)
elif code == 8:
self.handle_equals(params)
else:
raise ValueError(f"Something bad happened, code={code}")
def handle_addition(self, params):
self.program[params[2]] = params[0] + params[1]
def handle_multiplication(self, params):
self.program[params[2]] = params[0] * params[1]
def handle_input(self, params):
self.program[params[0]] = int(self.inputs.pop(0))
def handle_jump_if_true(self, params):
if params[0] != 0:
self._move_pointer(params[1])
def handle_jump_if_false(self, params):
if params[0] == 0:
self._move_pointer(params[1])
def handle_equals(self, params):
if params[0] == params[1]:
self.program[params[2]] = 1
else:
self.program[params[2]] = 0
def handle_less_than(self, params):
if params[0] < params[1]:
self.program[params[2]] = 1
else:
self.program[params[2]] = 0
def main():
with open("inputs/day07") as input_file:
original_program = list(map(int, input_file.read().split(",")))
values = set()
for phase in itertools.permutations("01234"):
amp1 = Computer(original_program, [int(phase[0])]).compute([0])
amp2 = Computer(original_program, [int(phase[1])]).compute([amp1])
amp3 = Computer(original_program, [int(phase[2])]).compute([amp2])
amp4 = Computer(original_program, [int(phase[3])]).compute([amp3])
amp5 = Computer(original_program, [int(phase[4])]).compute([amp4])
values.add(amp5)
for phase in itertools.permutations("56789"):
amp1 = Computer(original_program, [int(phase[0])])
amp2 = Computer(original_program, [int(phase[1])])
amp3 = Computer(original_program, [int(phase[2])])
amp4 = Computer(original_program, [int(phase[3])])
amp5 = Computer(original_program, [int(phase[4])])
signal = 0
while True:
try:
signal = amp1.compute([signal])
signal = amp2.compute([signal])
signal = amp3.compute([signal])
signal = amp4.compute([signal])
signal = amp5.compute([signal])
except StopIteration:
values.add(signal)
break
print(max(values))