def prepare_data(file_name): lines = file_utils.get_lines(file_name) lines = [int(line) for line in lines] lines.sort() lines.insert(0, 0) lines.append(lines[-1] + 3) return lines
def prepare_data(file_name): fields = list() your_ticket = None other_tickets = list() lines = file_utils.get_lines(file_name) preparing_fields = True parsing_ticket = False for line in lines: if not line: if parsing_ticket: parsing_ticket = False if preparing_fields: preparing_fields = False parsing_ticket = True else: if preparing_fields: fields.append(FieldRange(line)) elif parsing_ticket: if line != 'your ticket:': your_ticket = Ticket(line) else: if line != 'nearby tickets:': other_tickets.append(Ticket(line)) return Input(fields, your_ticket, other_tickets)
def solution(file_name): operations = file_utils.get_lines(file_name) return sum([ calculate_left_to_right( calculate_with_parenthesis_and_operator(operation, calculate_left_to_right)) for operation in operations ])
def solution2(file_name): operations = file_utils.get_lines(file_name) return sum([ calculate_inverse_precedence( calculate_with_parenthesis_and_operator( operation, calculate_inverse_precedence)) for operation in operations ])
def prepare_data(file_name): cells = file_utils.get_lines(file_name) max_y = len(cells) max_x = len(cells[0]) matrix = np.zeros((1, max_y, max_x)).astype(int) for y in range(max_y): for x in range(max_x): if cells[y][x] == '#': matrix[0][y][x] = 1 return matrix
def prepare_data(file_name): flipped = set() lines = file_utils.get_lines(file_name) for line in lines: moves = parse_line(line) coords = new_coords(moves) if coords not in flipped: flipped.add(coords) else: flipped.remove(coords) return flipped
def prepare_data(file_name): tiles = list() lines = file_utils.get_lines(file_name) for line in lines: if line.startswith('Tile'): match = tile_regex.match(line) current_tile = Tile(int(match.group(1))) elif not line: current_tile.compute_sides() current_tile.compute_sides_for_bottom() tiles.append(current_tile) else: current_tile.add_line(line) init_neighbours(tiles) return tiles
def prepare_data(file_name, regex_generator): rules = dict() lines = file_utils.get_lines(file_name) to_validate_count = 0 parse_regex = True for line in lines: if not line: parse_regex = False raw_regex = regex_generator(rules).replace(' ', '') raw_regex = '^'+raw_regex+'$' print(raw_regex) regex = re.compile(raw_regex) elif parse_regex: rule = parse_line(line) rules[rule.index] = rule else: matched = regex.match(line) if matched: to_validate_count += 1 return to_validate_count
def prepare_data2(file_name): lines = file_utils.get_lines(file_name) bus_ids = lines[1] return build_gaps_by_bus_id(bus_ids)
def prepare_data(file_name): lines = file_utils.get_lines(file_name) return [int(line) for line in lines]
def prepare_lines(file_name): lines = file_utils.get_lines(file_name) lines = [parse_line(line) for line in lines] return lines
def prepare_data(file_name): lines = file_utils.get_lines(file_name) return lines
def prepare_data(file_name): lines = file_utils.get_lines(file_name) lines = [int(line) for line in lines] lines.sort() return lines
def prepare_data(file_name): return file_utils.get_lines(file_name)
def prepare_data(file_name): lines = file_utils.get_lines("inputs", file_name) lines = [line if line else ANSWERS_SEPARATOR for line in lines] joined = ANSWERS_INFO_SEPARATOR.join(lines) lines = joined.split(JOINED_ANSWERS_SEPARATOR) return lines
def prepare_data(file_name): lines = file_utils.get_lines(file_name) return [SeatRange(line).seat_id() for line in lines]
def prepare_data(file_name): lines = file_utils.get_lines(file_name) earliest = int(lines[0]) bus_ids = lines[1].split(',') bus_ids = list(filter(lambda x: x != 'x', bus_ids)) return earliest, [int(id) for id in bus_ids]
def prepare_data(file_name): lines = file_utils.get_lines(file_name) lines = [PasswordInfo(line) for line in lines] return lines
def prepare_data(file_name): lines = file_utils.get_lines(file_name) lines = [line if line else PASSPORTS_SEPARATOR for line in lines] joined_lines = PASSPORTS_INFO_SEPARATOR.join(lines) prepared_lines = joined_lines.split(JOINED_PASSPORTS_SEPARATOR) return [Passport(line) for line in prepared_lines]
def prepare_data(file_name): lines = file_utils.get_lines(file_name) rules = set() for line in lines: rules.update(parse_rule(line)) return rules
def prepare_data(file_name): lines = file_utils.get_lines(file_name) player1 = [int(card) for card in lines[0].split(',')] player2 = [int(card) for card in lines[1].split(',')] return player1, player2