Refactor 2024 day 6 to be a little bit faster.
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@ -9,7 +9,7 @@ def in_correct_order(update: list[int], requirements: dict[int, set[int]]) -> bo
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)
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def fix_order(
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def to_correct_order(
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update: list[int],
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requirements: dict[int, set[int]],
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max_update_length: int | None = None,
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@ -39,7 +39,7 @@ def fix_order(
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return update
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part1, part2 = sys.stdin.read().split("\n\n")
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part1, part2 = sys.stdin.read().strip().split("\n\n")
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requirements: dict[int, set[int]] = defaultdict(set)
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for line in part1.splitlines():
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@ -55,7 +55,7 @@ answer_1 = sum(
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)
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answer_2 = sum(
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fix_order(update, requirements, len(update) // 2 + 1)[-1]
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to_correct_order(update, requirements, len(update) // 2 + 1)[-1]
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for update in updates
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if not in_correct_order(update, requirements)
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)
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@ -1,29 +1,94 @@
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import itertools as it
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import sys
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from typing import TypeAlias
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NodeType: TypeAlias = tuple[tuple[int, int], tuple[int, int]]
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EdgesType: TypeAlias = dict[NodeType, tuple[NodeType, set[tuple[int, int]]]]
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ROTATE = {(-1, 0): (0, 1), (0, 1): (1, 0), (1, 0): (0, -1), (0, -1): (-1, 0)}
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START_NODE: NodeType = ((-2, -2), (-1, 0))
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FINAL_POS: tuple[int, int] = (-1, -1)
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def move(
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lines: list[str], pos: tuple[int, int], dir: tuple[int, int]
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) -> tuple[tuple[int, int] | None, list[tuple[int, int]]]:
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) -> tuple[tuple[int, int] | None, set[tuple[int, int]]]:
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n_rows, n_cols = len(lines), len(lines[0])
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row, col = pos
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marked: list[tuple[int, int]] = []
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marked: set[tuple[int, int]] = set()
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final_pos: tuple[int, int] | None = None
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while True:
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marked.append((row, col))
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marked.add((row, col))
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if not (0 <= row + dir[0] < n_rows and 0 <= col + dir[1] < n_cols):
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pos = None
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final_pos = None
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break
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if lines[row + dir[0]][col + dir[1]] != ".":
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pos = (row, col)
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final_pos = (row, col)
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break
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row += dir[0]
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col += dir[1]
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return pos, marked
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return final_pos, marked
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def compute_graph(lines: list[str], start_node: NodeType):
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n_rows, n_cols = len(lines), len(lines[0])
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edges: EdgesType = {}
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start_pos, start_dir = start_node
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end_pos, marked = move(lines, start_pos, start_dir)
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assert end_pos is not None
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edges[START_NODE] = ((end_pos, start_dir), marked)
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for row, col in it.product(range(n_rows), range(n_cols)):
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if lines[row][col] != "#":
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continue
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for start_pos, start_dir in (
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((row - 1, col), (1, 0)),
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((row + 1, col), (-1, 0)),
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((row, col - 1), (0, 1)),
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((row, col + 1), (0, -1)),
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):
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if 0 <= start_pos[0] < n_rows and 0 <= start_pos[1] < n_cols:
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end_pos, marked = move(lines, start_pos, ROTATE[start_dir])
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edges[start_pos, start_dir] = (
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(end_pos or FINAL_POS, ROTATE[start_dir]),
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marked,
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)
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return edges
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def is_loop(lines: list[str], edges: EdgesType, position: tuple[int, int]):
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row, col = position
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current_node = START_NODE
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found: set[NodeType] = set()
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while current_node[0] != FINAL_POS and current_node not in found:
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found.add(current_node)
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target_node, edge_marked = edges[current_node]
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if (row, col) in edge_marked:
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# need to break the edge
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target_dir = target_node[1]
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end_pos, _ = move(
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lines, (row - target_dir[0], col - target_dir[1]), ROTATE[target_dir]
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)
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current_node = (end_pos or FINAL_POS, ROTATE[target_dir])
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else:
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current_node = target_node
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return current_node in found
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def print_grid(
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@ -42,65 +107,28 @@ def print_grid(
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print()
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ROTATE = {(-1, 0): (0, 1), (0, 1): (1, 0), (1, 0): (0, -1), (0, -1): (-1, 0)}
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# read lines
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lines = sys.stdin.read().splitlines()
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n_rows, n_cols = len(lines), len(lines[0])
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# find and delete original position
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start_pos = next(
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(i, j) for i in range(n_rows) for j in range(n_cols) if lines[i][j] == "^"
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(i, j) for i, row in enumerate(lines) for j, col in enumerate(row) if col == "^"
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)
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lines[start_pos[0]] = lines[start_pos[0]].replace("^", ".")
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# compute edges from the map
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edges = compute_graph(lines, (start_pos, (-1, 0)))
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# part 1
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marked: set[tuple[int, int]] = set()
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current_node = START_NODE
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current_pos: tuple[int, int] | None = start_pos
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current_dir = (-1, 0)
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while current_pos is not None:
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# print_grid(lines, marked, current_pos)
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new_pos, new_marked = move(lines, current_pos, current_dir)
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marked = marked.union(new_marked)
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current_pos = new_pos
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current_dir = ROTATE[current_dir]
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# print_grid(lines, marked, current_pos)
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while current_node[0] != FINAL_POS:
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current_node, current_marked = edges[current_node]
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marked = marked.union(current_marked)
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answer_1 = len(marked)
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answer_2 = 0
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for row in range(n_rows):
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for col in range(n_cols):
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if (row, col) == start_pos or lines[row][col] != ".":
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continue
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chars = list(map(list, lines))
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chars[row][col] = "#"
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current_pos = start_pos
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current_dir = (-1, 0)
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found: set[tuple[tuple[int, int], tuple[int, int]]] = set()
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while current_pos is not None:
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if current_pos != start_pos:
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found.add((current_pos, current_dir))
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new_pos, new_marked = move(
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["".join(line) for line in chars], current_pos, current_dir
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)
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current_pos = new_pos
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current_dir = ROTATE[current_dir]
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if (current_pos, current_dir) in found:
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print(row, col)
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answer_2 += 1
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break
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print(f"answer 1 is {answer_1}")
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answer_2 = sum(is_loop(lines, edges, pos) for pos in marked if pos != start_pos)
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print(f"answer 2 is {answer_2}")
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