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2023/day17
Author | SHA1 | Date | |
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40ab70271e |
@ -18,7 +18,6 @@ class Label:
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col: int
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col: int
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direction: Direction
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direction: Direction
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count: int
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parent: Label | None = None
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parent: Label | None = None
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@ -81,7 +80,7 @@ def shortest_many_paths(grid: list[list[int]]) -> dict[tuple[int, int], int]:
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visited: dict[tuple[int, int], tuple[Label, int]] = {}
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visited: dict[tuple[int, int], tuple[Label, int]] = {}
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queue: list[tuple[int, Label]] = [
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queue: list[tuple[int, Label]] = [
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(0, Label(row=n_rows - 1, col=n_cols - 1, direction="^", count=0))
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(0, Label(row=n_rows - 1, col=n_cols - 1, direction="^"))
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]
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]
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while queue and len(visited) != n_rows * n_cols:
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while queue and len(visited) != n_rows * n_cols:
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@ -117,7 +116,6 @@ def shortest_many_paths(grid: list[list[int]]) -> dict[tuple[int, int], int]:
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row=row,
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row=row,
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col=col,
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col=col,
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direction=direction,
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direction=direction,
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count=0,
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parent=label,
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parent=label,
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),
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),
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),
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),
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@ -137,7 +135,7 @@ def shortest_path(
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target = (len(grid) - 1, len(grid[0]) - 1)
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target = (len(grid) - 1, len(grid[0]) - 1)
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# for each tuple (row, col, direction, count), the associated label when visited
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# for each tuple (row, col, direction, count), the associated label when visited
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visited: dict[tuple[int, int, str, int], Label] = {}
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visited: dict[tuple[int, int, Direction], Label] = {}
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# list of all visited labels for a cell (with associated distance)
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# list of all visited labels for a cell (with associated distance)
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per_cell: dict[tuple[int, int], list[tuple[Label, int]]] = defaultdict(list)
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per_cell: dict[tuple[int, int], list[tuple[Label, int]]] = defaultdict(list)
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@ -145,17 +143,17 @@ def shortest_path(
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# need to add two start labels, otherwise one of the two possible direction will
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# need to add two start labels, otherwise one of the two possible direction will
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# not be possible
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# not be possible
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queue: list[tuple[int, int, Label]] = [
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queue: list[tuple[int, int, Label]] = [
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(lower_bounds[0, 0], 0, Label(row=0, col=0, direction="^", count=0)),
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(lower_bounds[0, 0], 0, Label(row=0, col=0, direction="^")),
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(lower_bounds[0, 0], 0, Label(row=0, col=0, direction="<", count=0)),
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(lower_bounds[0, 0], 0, Label(row=0, col=0, direction="<")),
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]
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]
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while queue:
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while queue:
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_, distance, label = heapq.heappop(queue)
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_, distance, label = heapq.heappop(queue)
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if (label.row, label.col, label.direction, label.count) in visited:
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if (label.row, label.col, label.direction) in visited:
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continue
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continue
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visited[label.row, label.col, label.direction, label.count] = label
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visited[label.row, label.col, label.direction] = label
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per_cell[label.row, label.col].append((label, distance))
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per_cell[label.row, label.col].append((label, distance))
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if (label.row, label.col) == target:
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if (label.row, label.col) == target:
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@ -163,42 +161,26 @@ def shortest_path(
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for direction, (c_row, c_col, i_direction) in MAPPINGS.items():
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for direction, (c_row, c_col, i_direction) in MAPPINGS.items():
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# cannot move in the opposite direction
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# cannot move in the opposite direction
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if label.direction == i_direction:
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if label.direction == i_direction or label.direction == direction:
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continue
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continue
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# other direction, move 'min_straight' in the new direction
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distance_to = distance
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elif label.direction != direction:
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row, col, count = (
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for amount in range(1, max_straight + 1):
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label.row + min_straight * c_row,
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row, col = (
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label.col + min_straight * c_col,
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label.row + amount * c_row,
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min_straight,
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label.col + amount * c_col,
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)
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)
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# same direction, too many count
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elif label.count == max_straight:
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continue
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# same direction, keep going and increment count
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else:
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row, col, count = (
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label.row + c_row,
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label.col + c_col,
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label.count + 1,
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)
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# exclude labels outside the grid or with too many moves in the same
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# exclude labels outside the grid or with too many moves in the same
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# direction
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# direction
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if row not in range(0, n_rows) or col not in range(0, n_cols):
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if not (0 <= row < n_rows and 0 <= col < n_cols):
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continue
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break
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distance_to = (
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distance_to += grid[row][col]
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distance
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+ sum(
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if amount < min_straight:
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grid[r][c]
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continue
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for r in range(min(row, label.row), max(row, label.row) + 1)
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for c in range(min(col, label.col), max(col, label.col) + 1)
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)
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- grid[label.row][label.col]
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)
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heapq.heappush(
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heapq.heappush(
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queue,
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queue,
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@ -209,7 +191,6 @@ def shortest_path(
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row=row,
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row=row,
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col=col,
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col=col,
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direction=direction,
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direction=direction,
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count=count,
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parent=label,
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parent=label,
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),
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),
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),
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),
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