Advent-of-Code-2022/5/solution.mjs

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2022-12-05 13:11:49 -08:00
import { readFileSync } from 'node:fs';
const input = readFileSync('input', 'utf-8');
const [stackInput, movementInput] = input.split('\n\n', 2);
// Parse movements
const movements = movementInput
.split('\n')
.filter(movement => movement)
.map(movement => {
const match = movement.match(/move (\d+) from (\d+) to (\d+)/);
if (!match) {
throw new Error(`Invalid movement: ${movement}`);
}
return {
count: parseInt(match[1]),
from: parseInt(match[2]),
to: parseInt(match[3])
}
});
// Parse stacks
const stackInputLines = stackInput.split('\n');
const columnDelimiter = ' ';
const columnPositions = stackInputLines
// Locate delimiter positions
.map(line => {
const positions = [];
let pos = -1;
while (true) {
pos = line.indexOf(columnDelimiter, pos + 1);
if (pos === -1) {
break;
}
positions.push(pos);
}
return positions;
})
.reduce((commonPositions, positions) =>
commonPositions.filter(
pos => positions.includes(pos)
)
);
const columns = new Array(columnPositions.length + 1)
.fill(0)
.map(column => []);
for (const line of [...stackInputLines].reverse()) {
for (let i = 0; i <= columnPositions.length; i++) {
const start = (columnPositions[i - 1] ?? -1) + 1;
const end = columnPositions[i] ?? line.length;
const value = line.slice(start, end);
columns[i].push(value);
}
}
class Stack {
constructor(number, crates) {
this.number = number;
this.crates = crates;
}
get topCrate() {
return this.crates[this.crates.length - 1];
}
move(count, toStack) {
this._checkMoveCount(count);
toStack.crates.push(...this.crates.splice(-count));
}
moveIndividually(count, toStack) {
this._checkMoveCount(count);
toStack.crates.push(...this.crates.splice(-count).reverse());
}
_checkMoveCount(count) {
if (count > this.crates.length) {
throw new Error(
`Tried to move ${count} crates from a stack containing: ` +
`${this.crates.length}`
);
}
}
}
function buildStacks() {
return new Map(columns
.map(column => column
.map(cell => cell.trim())
.filter(cell => cell)
)
.map(column => {
if (column.length < 1) {
throw new Error('Invalid column');
}
const number = parseInt(column[0]);
if (isNaN(number)) {
throw new Error(`Invalid column number: ${number}`);
}
const crates = column
.slice(1)
.map(crate => crate.replaceAll(/\[?\]?/g, ''));
return new Stack(number, crates);
})
.map(stack => [stack.number, stack])
);
}
function getTopCrates(stacks) {
return [...stacks.keys()]
.sort()
.map(number => stacks.get(number).topCrate)
.reduce((crates, crate) => crates + crate);
}
function runSimulation(simulationCb) {
for (const movement of movements) {
const fromStack = stacks.get(movement.from);
if (!fromStack) {
throw new Error(`Tried to move from unknown stack: ${movement.from}`);
}
const toStack = stacks.get(movement.to);
if (!toStack) {
throw new Error(`Tried to move to unknown stack: ${movement.to}`);
}
simulationCb(movement.count, fromStack, toStack);
}
}
let stacks;
let topCrates;
// CrateMover 9000 Simulation
stacks = buildStacks();
runSimulation((count, fromStack, toStack) =>
fromStack.moveIndividually(count, toStack)
);
topCrates = getTopCrates(stacks);
console.log(`Top crates after CrateMover 9000 sort: ${topCrates}`);
// CrateMover 9001 Simulation
stacks = buildStacks();
runSimulation((count, fromStack, toStack) =>
fromStack.move(count, toStack)
);
topCrates = getTopCrates(stacks);
console.log(`Top crates after CrateMover 9001 sort: ${topCrates}`);