forked from Bananymous/banan-os
279 lines
7.3 KiB
C++
279 lines
7.3 KiB
C++
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#include <BAN/Array.h>
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#include <BAN/String.h>
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#include <BAN/Vector.h>
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#include <ctype.h>
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#include <stdio.h>
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#include <stdint.h>
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using i32 = int32_t;
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using i64 = int64_t;
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using u32 = uint32_t;
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using u64 = uint64_t;
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enum class Direction
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{
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North,
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East,
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South,
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West
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};
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struct Position
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{
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size_t x;
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size_t y;
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Direction from;
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};
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using Grid = BAN::Vector<BAN::Vector<u32>>;
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Grid parse_grid(FILE* fp)
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{
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Grid grid;
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char buffer[256];
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while (fgets(buffer, sizeof(buffer), fp))
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{
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if (strlen(buffer) < 2)
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continue;
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MUST(grid.emplace_back(strlen(buffer) - 1));
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for (size_t i = 0; buffer[i + 1]; i++)
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grid.back()[i] = buffer[i];
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}
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return grid;
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}
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bool can_enter_tile_from(char tile, Direction from)
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{
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switch (from)
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{
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case Direction::North:
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return tile == '|' || tile == 'L' || tile == 'J';
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case Direction::South:
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return tile == '|' || tile == '7' || tile == 'F';
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case Direction::West:
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return tile == '-' || tile == 'J' || tile == '7';
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case Direction::East:
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return tile == '-' || tile == 'L' || tile == 'F';
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default:
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return false;
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}
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};
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Direction tile_exit_direction(char tile, Direction enter)
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{
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switch (tile)
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{
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case '|': return (enter == Direction::North) ? Direction::South : Direction::North;
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case '-': return (enter == Direction::East) ? Direction::West : Direction::East;
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case 'L': return (enter == Direction::North) ? Direction::East : Direction::North;
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case 'J': return (enter == Direction::North) ? Direction::West : Direction::North;
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case '7': return (enter == Direction::South) ? Direction::West : Direction::South;
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case 'F': return (enter == Direction::South) ? Direction::East : Direction::South;
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}
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ASSERT_NOT_REACHED();
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};
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BAN::Array<Position, 2> find_grid_first_moves(const Grid& grid)
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{
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BAN::Array<Position, 2> positions;
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for (size_t y = 0; y < grid.size(); y++)
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{
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for (size_t x = 0; x < grid.size(); x++)
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{
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if (grid[y][x] == 'S')
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{
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size_t index = 0;
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if (can_enter_tile_from(grid[y - 1][x], Direction::South))
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positions[index++] = { x, y - 1, Direction::South };
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if (can_enter_tile_from(grid[y + 1][x], Direction::North))
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positions[index++] = { x, y + 1, Direction::North };
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if (can_enter_tile_from(grid[y][x - 1], Direction::East))
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positions[index++] = { x - 1, y, Direction::East };
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if (can_enter_tile_from(grid[y][x + 1], Direction::West))
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positions[index++] = { x + 1, y, Direction::West };
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ASSERT(index == 2);
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return positions;
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}
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}
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}
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ASSERT_NOT_REACHED();
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}
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i64 puzzle1(FILE* fp)
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{
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auto grid = parse_grid(fp);
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auto positions = find_grid_first_moves(grid);
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for (i64 distance = 1;; distance++)
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{
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if (positions[0].x == positions[1].x && positions[0].y == positions[1].y)
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return distance;
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for (auto& position : positions)
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{
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Direction direction = tile_exit_direction(grid[position.y][position.x], position.from);
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switch (direction)
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{
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case Direction::North: position.y--; position.from = Direction::South; break;
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case Direction::South: position.y++; position.from = Direction::North; break;
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case Direction::West: position.x--; position.from = Direction::East; break;
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case Direction::East: position.x++; position.from = Direction::West; break;
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}
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}
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}
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}
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i64 puzzle2(FILE* fp)
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{
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enum Flag : u32
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{
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Path = 1 << 8,
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Left = 1 << 9,
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Right = 1 << 10,
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Mask = Path | Left | Right,
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};
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auto grid = parse_grid(fp);
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auto position = find_grid_first_moves(grid)[0];
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while ((grid[position.y][position.x] & ~Flag::Mask) != 'S')
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{
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Direction direction = tile_exit_direction(grid[position.y][position.x] & ~Flag::Mask, position.from);
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switch (grid[position.y][position.x] & ~Flag::Mask)
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{
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case '|':
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if (position.x > 0)
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grid[position.y][position.x - 1] |= (direction == Direction::North) ? Flag::Left : Flag::Right;
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if (position.x < grid[position.y].size() - 1)
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grid[position.y][position.x + 1] |= (direction == Direction::North) ? Flag::Right : Flag::Left;
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break;
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case '-':
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if (position.y > 0)
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grid[position.y - 1][position.x] |= (direction == Direction::East) ? Flag::Left : Flag::Right;
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if (position.y < grid.size() - 1)
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grid[position.y + 1][position.x] |= (direction == Direction::East) ? Flag::Right : Flag::Left;
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break;
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case 'L':
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if (position.x > 0)
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grid[position.y][position.x - 1] |= (direction == Direction::North) ? Flag::Left : Flag::Right;
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if (position.y < grid.size() - 1)
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grid[position.y + 1][position.x] |= (direction == Direction::North) ? Flag::Left : Flag::Right;
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break;
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case 'J':
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if (position.x < grid[position.y].size() - 1)
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grid[position.y][position.x + 1] |= (direction == Direction::West) ? Flag::Left : Flag::Right;
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if (position.y < grid.size() - 1)
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grid[position.y + 1][position.x] |= (direction == Direction::West) ? Flag::Left : Flag::Right;
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break;
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case '7':
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if (position.y > 0)
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grid[position.y - 1][position.x] |= (direction == Direction::South) ? Flag::Left : Flag::Right;
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if (position.x < grid[position.y].size() - 1)
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grid[position.y][position.x + 1] |= (direction == Direction::South) ? Flag::Left : Flag::Right;
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break;
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case 'F':
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if (position.y > 0)
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grid[position.y - 1][position.x] |= (direction == Direction::East) ? Flag::Left : Flag::Right;
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if (position.x > 0)
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grid[position.y][position.x - 1] |= (direction == Direction::East) ? Flag::Left : Flag::Right;
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break;
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}
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grid[position.y][position.x] |= Flag::Path;
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switch (direction)
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{
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case Direction::North: position.y--; position.from = Direction::South; break;
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case Direction::South: position.y++; position.from = Direction::North; break;
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case Direction::West: position.x--; position.from = Direction::East; break;
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case Direction::East: position.x++; position.from = Direction::West; break;
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}
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}
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// Mark start tile as part of the path
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grid[position.y][position.x] |= Flag::Path;
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// Clean up flags
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for (auto& row : grid)
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{
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for (u32& tile : row)
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{
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// Remove left and right from path
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if (tile & Flag::Path)
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tile &= ~(Flag::Left | Flag::Right);
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// Tile should never be both left and right
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ASSERT(!((tile & Flag::Left) && (tile & Flag::Right)));
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}
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}
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// Determine whether left or right is enclosed by loop
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Flag enclosed = Flag::Path;
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for (const auto& row : grid)
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{
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for (u32 tile : row)
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{
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if ((tile & (Flag::Right | Flag::Left)))
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{
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enclosed = (tile & Flag::Right) ? Flag::Left : Flag::Right;
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break;
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}
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}
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if (enclosed != Flag::Path)
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break;
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}
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ASSERT(enclosed != Flag::Path);
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// Expand all enclosed areas
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bool modified = true;
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while (modified)
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{
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modified = false;
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for (size_t y = 1; y < grid.size(); y++)
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{
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for (size_t x = 1; x < grid[y].size(); x++)
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{
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if (grid[y][x] & Flag::Mask)
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continue;
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if ((grid[y - 1][x] & enclosed) || (grid[y][x - 1] & enclosed))
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{
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grid[y][x] |= enclosed;
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modified = true;
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}
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}
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}
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}
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// Calculate number of enclosed tiles
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i64 result = 0;
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for (const auto& row : grid)
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for (u32 c : row)
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result += !!(c & enclosed);
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return result;
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}
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int main(int argc, char** argv)
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{
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const char* file_path = "/usr/share/aoc2023/day10_input.txt";
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if (argc >= 2)
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file_path = argv[1];
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FILE* fp = fopen(file_path, "r");
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if (fp == nullptr)
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{
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perror("fopen");
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return 1;
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}
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printf("puzzle1: %lld\n", puzzle1(fp));
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fseek(fp, 0, SEEK_SET);
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printf("puzzle2: %lld\n", puzzle2(fp));
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fclose(fp);
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}
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