package main import ( "fmt" "math" "os" "strings" h "git.bullercodeworks.com/brian/adventofcode/helpers" ) var part = -1 var testRow = 2000000 var watch bool var watchRows = 1 func main() { inp := h.StdinToStringSlice() if len(os.Args) > 1 { for _, arg := range os.Args[1:] { if strings.HasPrefix(arg, "--part") || strings.HasPrefix(arg, "-p") { if strings.Contains(arg, "=") { pts := strings.Split(arg, "=") part = h.Atoi(pts[1]) } } else if strings.HasPrefix(arg, "--row") || strings.HasPrefix(arg, "-r") { if strings.Contains(arg, "=") { pts := strings.Split(arg, "=") testRow = h.Atoi(pts[1]) } } else if strings.HasPrefix(arg, "--watch") || strings.HasPrefix(arg, "-w") { watch = true if strings.Contains(arg, "=") { pts := strings.Split(arg, "=") if pts[1] == "full" { watchRows = -1 } else { watchRows = h.Atoi(pts[1]) } } } } } if part == 1 || part == -1 { part1(inp) } if part == 2 || part == -1 { part2(inp) } } func part1(inp []string) { min_x, max_x := math.MaxInt, math.MinInt var spots [][]int for i := range inp { s, b := strToCoords(inp[i]) xs, ys, xb, yb := s.X, s.Y, b.X, b.Y dist := s.Distance(b) l, r := xs-dist, xs+dist min_x = h.Min(min_x, l) max_x = h.Max(max_x, r) spots = append(spots, []int{xs, ys, xb, yb, dist}) } var nopeCount int for x := min_x; x <= max_x; x++ { for _, c := range spots { if x == c[2] && testRow == c[3] { break } if h.ManhattanDistance(x, testRow, c[0], c[1]) <= c[4] { nopeCount++ break } } } fmt.Println("# Part 1") fmt.Println(nopeCount) } func part2(inp []string) { var spots [][]int for i := range inp { s, b := strToCoords(inp[i]) xs, ys, xb, yb := s.X, s.Y, b.X, b.Y dist := s.Distance(b) spots = append(spots, []int{xs, ys, xb, yb, dist}) } min, max := 0, testRow*2 // Brute-force it for y := min; y <= max; y++ { SEARCH: for x := min; x <= max; x++ { for _, c := range spots { if dx, dy := c[0]-x, c[1]-y; h.Abs(dx)+h.Abs(dy) <= c[4] { // Jump across the sensor's scan area x += c[4] - h.Abs(dy) + dx continue SEARCH } } // If we get here, we found it. fmt.Println("# Part 2") fmt.Println(x*4000000 + y) return } } } func strToCoords(s string) (h.Coordinate, h.Coordinate) { var sensor, beacon h.Coordinate r := strings.NewReader(s) fmt.Fscanf(r, "Sensor at x=%d, y=%d: closest beacon is at x=%d, y=%d", &sensor.X, &sensor.Y, &beacon.X, &beacon.Y) return sensor, beacon }