def run(input_file): with timing("Day 16: Flawed Frequency Transmission"): for line in process(input_file): part1 = solve_part1(line[:], 100) part2 = solve_part2(line[:], 100) print(part1) print(part2)
def run(input_file): with timing("Day 6: Universal Orbit Map"): graph = create_graph(input_file) part1 = solve_part1(graph) part2 = solve_part2(graph) print(part1) print(part2)
def run(input_file): with timing("Day 10: Monitoring Station"): asteroids = get_asteroids(input_file) msl, part1 = solve_part1(asteroids) part2 = solve_part2(msl, asteroids) print(part1) print(part2)
def run(input_file): line = next(process(input_file)) with timing("Day 4: Secure Container"): low, high = [int(n) for n in line.split("-")] part1, part2 = solve_part1_and_part2(low, high) print(part1) print(part2)
async def run(input_file): with timing("Day 7: Amplification Circuit - async"): line = next(process(input_file)) part1 = await solve_part1(line) part2 = await solve_part2(line) print(part1) print(part2)
def run(input_file): line = next(process(input_file)) with timing("Day 13: Care Package"): part1 = solve_part1(line) part2 = solve_part2(line) print(part1) print(part2)
def run(input_file): width, height = 25, 6 with timing("Day 8: Space Image Format"): line = next(process(input_file)) part1 = solve_part1(line, width, height) part2 = solve_part2(line, width, height) print(part1) _print_image(part2, width, height)
def run(input_file): line = next(process(input_file)) with timing("Day 9: Sensor Boost"): part1 = ICComputer(get_program(line), 1, []) part2 = ICComputer(get_program(line), 2, []) part1.run() part2.run() print(part1.output[0]) print(part2.output[0])
def run(input_file): with timing("Day 12: The N-Body Problem"): part1 = solve_part1([ Moon(Vector(x=-16, y=-1, z=-12), Vector(0, 0, 0)), Moon(Vector(x=0, y=-4, z=-17), Vector(0, 0, 0)), Moon(Vector(x=-11, y=11, z=0), Vector(0, 0, 0)), Moon(Vector(x=2, y=2, z=-6), Vector(0, 0, 0)), ]) part2 = solve_part2([ Moon(Vector(x=-16, y=-1, z=-12), Vector(0, 0, 0)), Moon(Vector(x=0, y=-4, z=-17), Vector(0, 0, 0)), Moon(Vector(x=-11, y=11, z=0), Vector(0, 0, 0)), Moon(Vector(x=2, y=2, z=-6), Vector(0, 0, 0)), ]) print(part1) print(part2)
output.append(data) pc += 2 elif opcode == 5 or opcode == 6: # not equal or equal to 0 parameter1 = get_value(inst, 1) parameter2 = get_value(inst, 2) if ops[opcode](parameter1, 0): pc = parameter2 else: pc += 3 elif opcode == 7 or opcode == 8: # less than or equal if ops[opcode](get_value(inst, 1), get_value(inst, 2)): p[get_index(inst, 3)] = 1 else: p[get_index(inst, 3)] = 0 pc += 4 elif opcode == 9: base += get_value(inst, 1) pc += 2 else: print("unknown opcode", p[pc]) break return output line = next(process("input/9")) with timing("Day 9: Sensor Boost"): part1 = icc(line, 1) part2 = icc(line, 2) print(part1[0]) print(part2[0])
def run(input_file): with timing("Day 5: Sunny with a Chance of Asteroids"): part1 = run_program(get_intcodes(input_file), 1) part2 = run_program(get_intcodes(input_file), 5) print(part1) print(part2)
def run(input_file): with timing("Day 11: Space Police"): part1 = solve_part1(get_program(next(process(input_file)))) part2 = solve_part2(get_program(next(process(input_file)))) print(part1) print(part2)
def run(input_file): with timing("Day 2: 1202 Program Alarm"): part1 = solve_part1(get_intcodes(input_file)) part2 = solve_part2(get_intcodes(input_file)) print(part1) print(part2)
def run(input_file): with timing("Day 1: The Tyranny of the Rocket Equation"): part1, part2 = solve_part1_and_2(input_file) print(part1) print(part2)
def run(input_file): with timing("Day 3: Crossed Wires"): part1, part2 = solve_part1_and_part2(get_wires(input_file)) print(part1) print(part2)
def run(input_file): with timing("Day 14: Space Stoichiometry"): part1 = solve_part1(get_reactions(input_file)) part2 = solve_part2(get_reactions(input_file)) print(part1) print(part2)
def run(input_file): with timing("template"): for line in process(input_file): solve_part1(line) solve_part2(line)