aoc-2024/day_20/solve_1.ts

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2024-12-21 23:42:29 +09:00
import { associateBy } from "jsr:@std/collections/"
export type Map = string[][];
export type Pos = [number, number];
export function parseMap(input: string): Map {
return input.replaceAll("\r", "").split("\n").map((line) => line.split(""));
}
export async function readMap(filename: string): Promise<Map> {
return parseMap(await Deno.readTextFile(filename));
}
export function toMapString(map: Map): string {
return map.map((line) => line.join("")).join("\n");
}
export function* availableNextStep(
map: Map,
pos: Pos,
): Generator<Pos> {
const [width, height] = [map[0].length, map.length];
const [x, y] = pos;
for (const [dx, dy] of [[-1, 0], [1, 0], [0, -1], [0, 1]]) {
const nx = x + dx;
const ny = y + dy;
if (nx < 0 || nx >= width || ny < 0 || ny >= height) {
continue;
}
if (map[ny][nx] === "#") {
continue;
}
yield [nx, ny] as Pos;
}
}
export function calculateNeedsSteps(map: Map, startPos: Pos): number[][] {
const needsSteps = map.map((line) => line.map(() => -1));
const [x, y] = startPos;
const queue: Pos[] = [startPos];
needsSteps[y][x] = 0;
while (queue.length > 0) {
const [x, y] = queue.shift()!;
const steps = needsSteps[y][x];
for (const [nx, ny] of availableNextStep(map, [x, y])) {
// already visited and shorter path
if (needsSteps[ny][nx] >= 0 && needsSteps[ny][nx] <= steps + 1) {
continue;
}
if (steps < 0) {
throw new Error("steps < 0");
}
needsSteps[ny][nx] = steps + 1;
queue.push([nx, ny]);
}
}
return needsSteps;
}
export function printPrettyMapStep(
map: Map,
needsSteps: number[][],
): string {
const result = map.map((line, y) =>
line.map((char, x) => {
if (char === "#") {
return "#";
}
const steps = needsSteps[y][x];
if (steps === -1) {
return " ";
}
return steps.toString()[steps.toString().length - 1]; // last digit
}).join("")
).join("\n");
return result;
}
export function findOnMap(
map: Map,
condition: (pos: Pos, char: string) => boolean,
): Pos[] {
const result: Pos[] = [];
map.forEach((line, y) => {
line.forEach((char, x) => {
if (condition([x, y], char)) {
result.push([x, y]);
}
});
});
return result;
}
export function solve(map: Map) {
const [startPos] = findOnMap(map, (_pos, char) => char === "S");
const [endPos] = findOnMap(map, (_pos, char) => char === "E");
const needsSteps = calculateNeedsSteps(map, endPos);
function* jumpAvailPos(
pos: Pos,
) {
const [x, y] = pos;
const jumps = [
[-2, 0],
[2, 0],
[0, -2],
[0, 2],
];
for (const [dx, dy] of jumps) {
const nx = x + dx;
const ny = y + dy;
if (nx < 0 || nx >= map[0].length || ny < 0 || ny >= map.length) {
continue;
}
if (map[ny][nx] === "#") {
continue;
}
yield [nx, ny] as Pos;
}
}
function* availableJump(
pos: Pos,
steps: number,
): Generator<{
from: Pos;
to: Pos;
savedSteps: number;
}> {
const [x, y] = pos;
for (const [jx, jy] of jumpAvailPos(pos)) {
const originalSteps = needsSteps[y][x];
const cheatedSteps = needsSteps[jy][jx] + 2;
if (cheatedSteps < originalSteps) {
yield {
from: pos,
to: [jx, jy],
savedSteps: originalSteps - cheatedSteps,
}
}
}
}
const queue = [{
pos: startPos,
steps: 0,
}];
const visited = new Set<string>();
visited.add(startPos.toString());
const ret: {
from: Pos;
to: Pos;
savedSteps: number;
}[] = [];
while (queue.length > 0) {
const n = queue.shift()!;
const {
pos: [x, y],
steps,
} = n;
if (x === endPos[0] && y === endPos[1]) {
break;
}
// find jump
for (const jump of availableJump([x, y], steps)) {
console.log(jump);
ret.push(jump);
}
for (const nextPos of availableNextStep(map, [x, y])) {
const key = nextPos.toString();
if (visited.has(key)) {
continue;
}
visited.add(key);
queue.push({
pos: nextPos,
steps: steps + 1,
});
}
}
const jumpMap = new Map< number, { from: Pos, to: Pos, savedSteps: number }[]>();
for (const jump of ret) {
const key = jump.savedSteps;
if (!jumpMap.has(key)) {
jumpMap.set(key, []);
}
jumpMap.get(key)!.push(jump);
}
return jumpMap;
}
if (import.meta.main) {
const map = await readMap("input.txt");
console.log(toMapString(map));
const [endPos] = findOnMap(map, (_pos, char) => char === "E");
const needsSteps = calculateNeedsSteps(map, endPos);
console.log(printPrettyMapStep(map, needsSteps));
const jpm = solve(map);
const keys = Array.from(jpm.keys()).sort((a, b) => a - b).filter((key) => key >= 100);
const count = keys.reduce((acc, key) => acc + jpm.get(key)!.length, 0);
console.log(count);
}