diff --git a/2022/day19.scala b/2022/day19.scala index 06e1e80..f0919b4 100644 --- a/2022/day19.scala +++ b/2022/day19.scala @@ -1,5 +1,6 @@ -import scala.concurrent.Future import scala.concurrent.ExecutionContext.Implicits.global +import scala.concurrent.duration.Duration +import scala.concurrent.{Await, Future} import scala.util.{Failure, Success} val inputLines = scala.io.Source.fromFile("input/19").getLines.toArray @@ -24,8 +25,8 @@ def blueprintQuality(line: String, tMax: Int=24): (Int, Int, Int) = val max_cost_ore = cost_orebot_ore max cost_claybot_ore max cost_obsbot_ore max cost_geodebot_ore - val maxPossibleInXMinutes = (0 to 32).toArray - for i <- 1 to 32 do + val maxPossibleInXMinutes = (0 to tMax).toArray + for i <- 1 to tMax do maxPossibleInXMinutes(i) = maxPossibleInXMinutes(i-1) + i def simStep(t: Int, numRobots: Array[Int], numRes: Array[Int], totalGeodes: Int=0, maxGeodes: Int=0): Int = @@ -84,20 +85,7 @@ def blueprintQuality(line: String, tMax: Int=24): (Int, Int, Int) = return (bp, mostGeodes, quality) @main def main() = - // val part1 = inputLines.map(blueprintQuality(_)(2)).sum - // println(s"Part 1: total quality score: $part1") - // val part2 = inputLines.take(3).map(blueprintQuality(_, 32)(1)).product - // println(s"Part 2: $part2") - val p2Futures = Future.sequence(inputLines.take(3).map(line => Future(blueprintQuality(line, 32)(1)))) + val p2Futures = Future.sequence(inputLines.take(3).map(line => Future(blueprintQuality(line, 32)(1)))) // Start p2 first since p1 threads finish faster and there are only 3 p2 threads val p1Futures = Future.sequence(inputLines.map(line => Future(blueprintQuality(line)(2)))) - p1Futures.onComplete { - case Success(results) => println(s"Part 1: total quality score: ${results.sum}") - case Failure(e) => e.printStackTrace - } - p2Futures.onComplete { - case Success(results) => println(s"Part 2: ${results.product}") - case Failure(e) => e.printStackTrace - } - Thread.sleep(1000) - // val part2 = p2Futures.product - // println(s"Part 2: $part2") + println(s"Part 1: total quality score: ${Await.result(p1Futures, Duration.Inf).sum}") + println(s"Part 2: ${Await.result(p2Futures, Duration.Inf).product}")