120 lines
4.0 KiB
Go
120 lines
4.0 KiB
Go
package main
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import (
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"AOC2022/helper"
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"fmt"
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"os"
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"strings"
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)
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func main() {
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args := os.Args[1:]
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lines := helper.ReadTextFile(args[0])
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points := getPoints(lines)
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//scannedXPoints := make(map[int]bool)
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scannedPoints := getScannedPointsForTagetY(points, [2]int{2000000, 2000000}, [2]int{-100000000, 100000000})
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fmt.Println(len(scannedPoints) - 1)
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part2(points)
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}
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// Fichtes Solution
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func part2(points [][2][2]int) {
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scannerWithDistances := [][3]int{}
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for _, scannedPoint := range points {
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distance := helper.ManHattanDistance(scannedPoint[0], scannedPoint[1])
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scannerWithDistances = append(scannerWithDistances, [3]int{scannedPoint[0][0], scannedPoint[0][1], distance})
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}
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startPoint := [2]int{0, 0}
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finish := false
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for !finish {
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scanner := checkIfPointIsInScannerReach(startPoint, scannerWithDistances)
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if scanner[2] == -1 {
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finish = true
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} else {
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distanceToTargetY := helper.Abs(scanner[1] - startPoint[1])
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widthOnTargetY := helper.Abs(distanceToTargetY - scanner[2])
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newXValue := scanner[0] + widthOnTargetY + 1
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if newXValue > 4000000 {
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startPoint = [2]int{0, startPoint[1] + 1}
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} else {
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startPoint[0] = newXValue
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}
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}
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}
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fmt.Println(startPoint[0]*4000000 + startPoint[1])
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}
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func checkIfPointIsInScannerReach(point [2]int, scanners [][3]int) [3]int {
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for _, scannerWithDistance := range scanners {
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if helper.ManHattanDistance(point, [2]int{scannerWithDistance[0], scannerWithDistance[1]}) <= scannerWithDistance[2] {
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return scannerWithDistance
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}
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}
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return [3]int{0, 0, -1}
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}
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func getScannedPointsForTagetY(points [][2][2]int, targetyRange [2]int, targetxRange [2]int) map[[2]int]bool {
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scannedYPoints := make(map[[2]int]bool)
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for _, pointPair := range points {
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sensor := pointPair[0]
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beacon := pointPair[1]
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distanceToSensor := helper.ManHattanDistance(sensor, beacon)
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distanceToTargetYLowest := helper.Abs(sensor[1] - targetyRange[0])
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distanceToTargetYHighest := helper.Abs(sensor[1] - targetyRange[1])
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if sensor[1] >= targetyRange[1] && distanceToSensor >= distanceToTargetYHighest {
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i := targetyRange[1]
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for i >= targetyRange[1]-(distanceToSensor-distanceToTargetYHighest) && i >= targetyRange[0] {
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setPointsForTargetY(distanceToSensor, i, targetxRange, sensor, &scannedYPoints)
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i--
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}
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}
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if sensor[1] <= targetyRange[0] && distanceToSensor >= distanceToTargetYLowest {
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i := targetyRange[0]
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for i <= targetyRange[0]+(distanceToSensor-distanceToTargetYLowest) && i <= targetyRange[1] {
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setPointsForTargetY(distanceToSensor, i, targetxRange, sensor, &scannedYPoints)
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i++
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}
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}
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if sensor[1] >= targetyRange[0] && sensor[1] <= targetyRange[1] {
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i := sensor[1]
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for i <= targetyRange[1] && i <= sensor[1]+distanceToSensor {
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setPointsForTargetY(distanceToSensor, i, targetxRange, sensor, &scannedYPoints)
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i++
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}
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i = sensor[1]
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for i >= targetyRange[0] && i >= sensor[1]-distanceToSensor {
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setPointsForTargetY(distanceToSensor, i, targetxRange, sensor, &scannedYPoints)
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i--
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}
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}
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}
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return scannedYPoints
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}
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func setPointsForTargetY(distanceToSensor, targetY int, targetxRange, sensor [2]int, scannedYPoints *map[[2]int]bool) {
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distanceToTargetY := helper.Abs(sensor[1] - targetY)
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widthOnTargetY := helper.Abs(distanceToTargetY - distanceToSensor)
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i := sensor[0] - widthOnTargetY
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if i < targetxRange[0] {
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i = targetxRange[0]
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}
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for i <= sensor[0]+widthOnTargetY && i <= targetxRange[1] {
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(*scannedYPoints)[[2]int{i, targetY}] = true
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i++
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}
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}
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func getPoints(lines []string) [][2][2]int {
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points := make([][2][2]int, len(lines))
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for i, line := range lines {
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intPair := [2][2]int{}
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stringParts := strings.Split(line[12:], ":")
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sensorStringNumbers := helper.StringSliceToIntSlice(strings.Split(stringParts[0], ", y="))
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beaconStringNumbers := helper.StringSliceToIntSlice(strings.Split(strings.ReplaceAll(stringParts[1], " closest beacon is at x=", ""), ", y="))
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intPair[0] = [2]int{sensorStringNumbers[0], sensorStringNumbers[1]}
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intPair[1] = [2]int{beaconStringNumbers[0], beaconStringNumbers[1]}
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points[i] = intPair
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}
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return points
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}
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