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www.mikescher.com/www/statics/aoc/2019/18_solution-2.ts

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2019-12-24 13:34:32 +01:00
namespace AdventOfCode2019_18_2
{
const DAY = 18;
const PROBLEM = 2;
type P = [number, number];
type PSet = [P, P, P, P];
export async function run()
{
let input = await AdventOfCode.getInput(DAY);
if (input == null) return;
AdventOfCode.setIntermedOutputSize("0.46vw");
let grid = input
.trim()
.split(new RegExp('\r?\n'))
.filter(p => p.trim().length > 0)
.map(p => p.trim().split('').map(q => q.charCodeAt(0)) );
grid[40][40] = "#".charCodeAt(0);
grid[39][40] = "#".charCodeAt(0);
grid[41][40] = "#".charCodeAt(0);
grid[40][39] = "#".charCodeAt(0);
grid[40][41] = "#".charCodeAt(0);
let keys = grid.flatMap(p => p.filter(q => q>=97 && q<=122));
await AdventOfCode.outputIntermed( grid.map(p => p.map(q=>String.fromCharCode(q)).join("") ).join("\n") );
let dictionary: {[_:number]: ReachableKey[] } = {};
dictionary[id([39,39])] = ReachableKeys(grid, [39,39], "");
dictionary[id([41,39])] = ReachableKeys(grid, [41,39], "");
dictionary[id([39,41])] = ReachableKeys(grid, [39,41], "");
dictionary[id([41,41])] = ReachableKeys(grid, [41,41], "");
for (let k of keys)
{
const pos = FindPositionOf(grid, k);
dictionary[id(pos)] = ReachableKeys(grid, pos, "");
}
let positions: {[_:number]: P} = {};
for (let k of keys) { positions[k] = FindPositionOf(grid, k); }
let minimumSteps = CollectKeys(grid, dictionary, positions, [[39,39], [41,39], [39,41], [41,41]])
AdventOfCode.output(DAY, PROBLEM, minimumSteps.toString());
}
function CollectKeys(grid: number[][], keyPaths: {[_:number]: ReachableKey[]}, positions: {[_:number]: P}, pos: P[])
{
let currentMinimum = Number.MAX_SAFE_INTEGER;
let startingSet: PSet = [ pos[0], pos[1], pos[2], pos[3] ];
let q: State[] = [];
q.unshift(new State(startingSet, 0, 0));
let visited = new Map<string, number>();
let finishValue = 0;
for (var i = 0; i < Object.entries(positions).length; ++i)
{
finishValue = finishValue | Math.floor(Math.pow(2, i));
}
while (q.length>0)
{
let state = q.pop()!;
let valueTupleKey = state.strPositionsOwnedKeys();
if (valueTupleKey in visited)
{
let steps = visited.get(valueTupleKey)!;
if (steps <= state.Steps) continue;
visited.set(valueTupleKey, state.Steps);
}
else
{
visited.set(valueTupleKey, state.Steps);
}
if (state.OwnedKeys === finishValue)
{
currentMinimum = Math.min(currentMinimum, state.Steps);
continue;
}
for (let i=0; i < 4; i++)
{
for (let k of keyPaths[id(state.Positions[i])])
{
let ki = Math.floor(Math.pow(2, k.Key.charCodeAt(0) - "a".charCodeAt(0)));
if ((state.OwnedKeys & ki) === ki || (k.Obstacles & state.OwnedKeys) != k.Obstacles) continue;
let newOwned = state.OwnedKeys | ki;
var newPos = state.Positions.slice() as PSet;
newPos[i] = positions[k.Key.charCodeAt(0)];
q.unshift(new State(newPos, newOwned, state.Steps + k.Distance));
}
}
}
return currentMinimum;
}
function id (p: P) { return p[1]*10000+p[0]; }
function FindPositionOf(grid: number[][], needle: number): P
{
for(let y=0; y<grid.length; y++)
for(let x=0; x<grid[y].length; x++)
{
if (grid[y][x] === needle) return [x, y];
}
throw "";
}
class State
{
Positions: PSet;
OwnedKeys: number;
Steps: number = 0;
constructor(s: PSet, ok: number, ss: number) { this.Positions=s; this.OwnedKeys=ok; this.Steps = ss; }
strPositionsOwnedKeys()
{
return "" +
this.Positions[0][0]+";" +
this.Positions[0][1]+";" +
this.Positions[1][0]+";" +
this.Positions[1][1]+";" +
this.Positions[2][0]+";" +
this.Positions[2][1]+";" +
this.Positions[3][0]+";" +
this.Positions[0][1]+";" +
this.OwnedKeys+";";
}
}
function ReachableKeys(map: number[][], start: P, currentKeys: string): ReachableKey[]
{
let list: ReachableKey[] = [];
let visited: Set<number> = new Set<number>();
var q: P[] = [];
var s: number[] = [];
var o: number[] = [];
q.unshift(start);
s.unshift(0);
o.unshift(0);
while (q.length>0)
{
const pos = q.pop()!;
const dist = s.pop()!;
let obst = o.pop()!;
if (visited.has(id(pos))) continue;
visited.add(id(pos));
var c = map[pos[1]][pos[0]];
if (c>=97 && c<=122) // lower
{
let rk = new ReachableKey();
rk.Distance = dist; rk.Key = String.fromCharCode(c); rk.Obstacles = obst;
list.push(rk);
pos_around(pos).forEach(p =>
{
q.unshift(p);
s.unshift(dist+1);
o.unshift(obst);
});
}
else if (c>=65 && c<=90) // upper
{
pos_around(pos).forEach(p =>
{
q.unshift(p);
s.unshift(dist+1);
obst = obst | Math.floor(Math.pow(2, c-65))
o.unshift(obst);
});
}
else if (c === 46) // .
{
pos_around(pos).forEach(p =>
{
q.unshift(p);
s.unshift(dist+1);
o.unshift(obst);
});
}
else if (c === 35) {}// #
else throw "["+c+"]";
}
return list;
}
function pos_around(pos: P): P[]
{
return [
[pos[0], pos[1]-1],
[pos[0]-1, pos[1]],
[pos[0]+1, pos[1]],
[pos[0], pos[1]+1],
];
}
class ReachableKey
{
Key: string = "";
Distance: number = 0;
Obstacles: number = 0;
}
}