From e7892e901491540a7f9d5a18f3741f71dce5afe7 Mon Sep 17 00:00:00 2001 From: Bruno BELANYI Date: Wed, 13 Dec 2023 10:08:47 +0000 Subject: [PATCH] 2023: d13: ex2: add solution --- 2023/d13/ex2/ex2.py | 86 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 86 insertions(+) create mode 100755 2023/d13/ex2/ex2.py diff --git a/2023/d13/ex2/ex2.py b/2023/d13/ex2/ex2.py new file mode 100755 index 0000000..febde9b --- /dev/null +++ b/2023/d13/ex2/ex2.py @@ -0,0 +1,86 @@ +#!/usr/bin/env python + +import sys +from typing import NamedTuple, Optional + + +class Point(NamedTuple): + x: int + y: int + + +class Grid(NamedTuple): + points: set[Point] + lines: int + rows: int + + +def solve(input: str) -> int: + def parse_grid(grid: list[str]) -> Grid: + points: set[Point] = set() + + for x, line in enumerate(grid): + for y, c in enumerate(line): + if c != "#": + continue + points.add(Point(x, y)) + + return Grid(points, len(grid), len(grid[0])) + + def parse(input: str) -> list[Grid]: + return [parse_grid(grid.splitlines()) for grid in input.split("\n\n")] + + def reflect_vertical(grid: Grid) -> Optional[int]: + def try_row(row: int) -> set[Point]: + smudges: set[Point] = set() + for y in range(min(row, grid.rows - row)): + for x in range(grid.lines): + left = Point(x, row - y - 1) in grid.points + right = Point(x, row + y) in grid.points + if left and right: + continue + if left or right: + smudges.add(Point(x, row - y - 1)) + return smudges + + for row in range(1, grid.rows): + if len(try_row(row)) == 1: + return row + return None + + def reflect_horizontal(grid: Grid) -> Optional[int]: + def try_line(line: int) -> set[Point]: + smudges: set[Point] = set() + for x in range(min(line, grid.lines - line)): + for y in range(grid.rows): + up = Point(line - x - 1, y) in grid.points + down = Point(line + x, y) in grid.points + if up and down: + continue + if up or down: + smudges.add(Point(line - x - 1, y)) + return smudges + + for line in range(1, grid.lines): + if len(try_line(line)) == 1: + return line + return None + + def solve(grid: Grid) -> int: + if (columns := reflect_vertical(grid)) is not None: + return columns + if (rows := reflect_horizontal(grid)) is not None: + return 100 * rows + assert False # Sanity check + + grids = parse(input) + return sum(map(solve, grids)) + + +def main() -> None: + input = sys.stdin.read() + print(solve(input)) + + +if __name__ == "__main__": + main()