def test_day_2_part_1(self):
     computer = IntCodeComputer('day_2.input')
     program, counter, offset = computer.save()
     program[1] = 12
     program[2] = 2
     computer.load(program)
     computer.run()
     program, counter, offset = computer.save()
     self.assertEqual(3716293, program[0])
def main():
    computer = IntCodeComputer('day_17.input')
    computer.set_io_format(IntCodeComputer.UNICODE)
    memory, _, _ = computer.save()
    result = []
    # computer.run(output_data=result)
    # print("".join(result))
    # rows = "".join(result).split()
    # intersections = []
    # for y in range(len(rows) - 2):
    #     for x in range(len(rows[y]) - 2):
    #         if rows[y][x] == '#' and rows[y + 1][x] == '#' and rows[y - 1][x] == '#' and rows[y][x + 1] == '#' and rows[y][x - 1] == '#':
    #             intersections.append((x, y))
    # print(sum([x * y for x, y in intersections]))
    memory[0] = 2
    computer.load(memory, 0, 0)
    # 'R,10,R,8,L,10,L,10,R,8,L,6,L,6,R,8,L,6,L,6,R,10,R,8,L,10,L,10,L,10,R,10,L,6,R,8,L,6,L,6,L,10,R,10,L,6,L,10,R,10,L,6,R,8,L,6,L,6,R,10,R,8,L,10,L,10'
    input_data = [
        'B,A,A,B,C,A,C,C,A,B\n', 'R,8,L,6,L,6\n', 'R,10,R,8,L,10,L,10\n',
        'L,10,R,10,L,6\n', 'n\n'
    ]

    computer.run(input_data=[x for x in "".join(input_data)],
                 output_data=result)
    print(result)
 def test_day_2_part_2(self):
     value = None
     for i in range(0, 100):
         for j in range(0, 100):
             computer = IntCodeComputer('day_2.input')
             program, counter, offset = computer.save()
             program[1] = i
             program[2] = j
             computer.load(program)
             computer.run()
             program, counter, offset = computer.save()
             if program[0] == 19690720:
                 value = i * 100 + j
                 break
         if value:
             break
     self.assertEqual(6429, value)
Exemplo n.º 4
0
def main():
    computer = IntCodeComputer('day_13.input')
    memory, counter, offset = computer.save()
    memory[0] = 2
    computer.load(memory)
    in_data = []
    out = 1
    result = []
    ball = None
    player = None
    while out:
        out = computer.run(input_data=in_data, output_data=result)
        game_plan = [result[x:x + 3] for x in range(0, len(result), 3)]
        color_map = {}
        for pixel in game_plan:
            if pixel[0] == -1 and pixel[1] == 0 and out == 0:
                print(pixel[2])
            if pixel[2] == 3:
                player = (pixel[0], pixel[1])
            if pixel[2] == 4:
                ball = (pixel[0], pixel[1])
            color_map[(pixel[0], pixel[1])] = pixel[2]
        # print([x[1] for x in color_map.items()].count(2))
        max_x = max([x[0] for x in game_plan])
        min_x = min([x[0] for x in game_plan])
        max_y = max([x[1] for x in game_plan])
        min_y = min([x[1] for x in game_plan])

        for y in range(min_y, max_y):
            print("".join([
                get_tile((x, y), color_map) for x in range(min_x, max_x + 1)
            ]))
        if out == 1 and ball and player:
            if ball[0] < player[0]:
                in_data = [-1]
            elif ball[0] > player[0]:
                in_data = [1]
            else:
                in_data = [0]