import { inputNumbers } from "./common.ts"; /** This solution is relatively simple. Keep track of the last depth we * measured in `lastDepth` (skipping the first line of input by defaulting it * to `Number.MAX_VALUE`) and compare it to each line of input as we read it. * Once we've compared, set the `lastDepth` to the current depth for the next * iteration. * * This solution should be O(n) for compute and O(n) for memory since we * iterate the input once and only read a line at a time, we actually have O(1) * memory, but since the input is on disk, that's kind of unfair to say. */ export async function part1( input: AsyncIterableIterator, ): Promise { let increases = 0; let lastDepth = Number.MAX_VALUE; for await (const depth of input) { if (depth > lastDepth) increases++; lastDepth = depth; } return increases; } console.log("Part 1", await part1(await inputNumbers("1"))); /** Since the windows we need to compare overlap, we really only need to * compare the values unique to each window, which will be the first of the * first window and the last of the last window. Since the windows have size 3, * we really only need to compare a value with the "three-lines-ago" value. * This solution otherwise is identical to the previous one. */ export async function part2( input: AsyncIterableIterator, windowSize = 3, ): Promise { let increases = 0; // TODO: use a proper FIFO queue data structure for this? let window: number[] = await Promise.all(Array.from( Array(windowSize), async (_x, _i) => parseInt((await input.next()).value), )); for await (const depth of input) { if (depth > window[0]) increases++; // TODO: if this was a proper queue, we could just push it on the queue and // expect the first-in value to fall out window = window.slice(1); window.push(depth); } return increases; } console.log("Part 2", await part2(await inputNumbers("1")));