parent
a684d9b238
commit
6065242de9
159
src/day16.zig
Normal file
159
src/day16.zig
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@ -0,0 +1,159 @@
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const std = @import("std");
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const util = @import("util.zig");
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const mem = std.mem;
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pub fn main() !void {
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const input = @embedFile("data/day16.txt");
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const sln = try solve(util.gpa, input);
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std.debug.print("{d}\n", .{sln.a});
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std.debug.print("{d}\n", .{sln.b});
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}
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const Solution = struct {
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a: usize,
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b: usize,
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};
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const Direction = enum {
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up,
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right,
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down,
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left,
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fn x(self: @This()) isize {
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return switch (self) {
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.up, .down => 0,
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.left => -1,
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.right => 1,
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};
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}
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fn y(self: @This()) isize {
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return switch (self) {
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.left, .right => 0,
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.up => -1,
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.down => 1,
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};
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}
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fn rotate(self: @This(), nineties: usize) Direction {
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return @enumFromInt((@intFromEnum(self) + nineties) % std.enums.values(@This()).len);
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}
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};
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const Point = struct {
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x: isize,
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y: isize,
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dir: Direction,
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};
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var states: std.AutoArrayHashMap(Point, void) = undefined;
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fn run(alloc: mem.Allocator, grid: [][]u8, visited: [][]bool, init_x: isize, init_y: isize, init_dir: Direction) !void {
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var x = init_x;
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var y = init_y;
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var dir = init_dir;
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while (0 <= x and x < grid[0].len - 1 and 0 <= y and y < grid.len - 1) {
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visited[@intCast(y)][@intCast(x)] = true;
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var looped = try states.getOrPut(.{ .x = x, .y = y, .dir = dir });
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if (looped.found_existing) break;
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// std.debug.print("-----\n", .{});
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// std.debug.print("{} {} {}\n", .{ x, y, dir });
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// std.time.sleep(1_000_000_000);
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switch (grid[@intCast(y)][@intCast(x)]) {
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'.' => {
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x += dir.x();
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y += dir.y();
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},
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'|' => {
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switch (dir) {
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.up, .down => y += dir.y(),
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.left, .right => {
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try run(alloc, grid, visited, x, y - 1, .up);
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try run(alloc, grid, visited, x, y + 1, .down);
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},
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}
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},
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'-' => {
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switch (dir) {
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.left, .right => x += dir.x(),
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.up, .down => {
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try run(alloc, grid, visited, x - 1, y, .left);
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try run(alloc, grid, visited, x + 1, y, .right);
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},
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}
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},
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'/' => {
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switch (dir) {
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.left, .right => dir = dir.rotate(3),
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.up, .down => dir = dir.rotate(1),
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}
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x += dir.x();
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y += dir.y();
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},
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'\\' => {
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switch (dir) {
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.left, .right => dir = dir.rotate(1),
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.up, .down => dir = dir.rotate(3),
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}
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x += dir.x();
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y += dir.y();
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},
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else => unreachable,
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}
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}
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}
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fn solve(alloc: mem.Allocator, comptime input: []const u8) !Solution {
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const trimmed = mem.trimRight(u8, input, "\n\r");
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const w = mem.indexOfScalar(u8, trimmed, '\n') orelse unreachable;
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const h = mem.count(u8, trimmed, "\n");
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var visited = try util.allocGrid(bool, alloc, w, h, false);
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const grid = try util.toGridOwned(alloc, trimmed, '\n');
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states = std.AutoArrayHashMap(Point, void).init(alloc);
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defer states.deinit();
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try run(alloc, grid, visited, 0, 0, .right);
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var energized: usize = 0;
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for (visited) |row| {
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for (row) |cell| {
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if (cell) energized += 1;
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}
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}
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for (grid) |row| {
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alloc.free(row);
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}
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for (visited) |row| {
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alloc.free(row);
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}
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alloc.free(grid);
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alloc.free(visited);
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return .{ .a = energized, .b = 0 };
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}
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const sample =
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\\.|...\....
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\\|.-.\.....
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\\.....|-...
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\\........|.
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\\..........
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\\.........\
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\\..../.\\..
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\\.-.-/..|..
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\\.|....-|.\
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\\..//.|....
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;
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test "silver" {
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const sln = try solve(std.testing.allocator, sample);
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try std.testing.expectEqual(@as(usize, 46), sln.a);
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}
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test "gold" {
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// const sln = try solve(std.testing.allocator, input);
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// try std.testing.expectEqual(@as(usize, 0), sln.b);
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}
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28
src/util.zig
28
src/util.zig
@ -35,3 +35,31 @@ pub fn splitLines(buffer: []const u8) mem.SplitIterator(u8, .scalar) {
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pub fn splitSpace(buffer: []const u8) mem.SplitIterator(u8, .scalar) {
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return split(buffer, ' ');
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}
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pub fn allocGrid(comptime T: type, alloc: mem.Allocator, w: usize, h: usize, init: T) ![][]T {
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var grid = try alloc.alloc([]T, h);
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for (0..h) |i| {
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grid[i] = try alloc.alloc(T, w);
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@memset(grid[i], init);
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}
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return grid;
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}
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pub fn toGridOwned(alloc: mem.Allocator, buffer: []const u8, sep: u8) ![][]u8 {
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if (buffer.len == 0) return error.Empty;
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const w = mem.indexOfScalar(u8, buffer, sep) orelse unreachable;
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var h = mem.count(u8, buffer, &[_]u8{sep});
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if (buffer[buffer.len - 1] != sep) h += 1;
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var grid = try alloc.alloc([]u8, h);
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var it = split(buffer, sep);
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var i: usize = 0;
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while (it.next()) |line| {
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grid[i] = try alloc.alloc(u8, w);
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@memcpy(grid[i], line);
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i += 1;
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}
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return grid;
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}
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