package main import ( "bufio" _ "embed" "fmt" "strings" aoc "go.sour.is/advent-of-code" ) // var log = aoc.Log func main() { aoc.MustResult(aoc.Runner(run)) } type result struct { valuePT1 int valuePT2 uint } func (r result) String() string { return fmt.Sprintf("%#v", r) } func run(scan *bufio.Scanner) (*result, error) { var workflows = make(map[string][]rule) var parts []part for scan.Scan() { text := strings.TrimSuffix(scan.Text(), "}") if len(text) == 0 { continue } // Is Part if p, ok := scanPart(text); ok { parts = append(parts, p) continue } if name, r, ok := scanRule(text); ok { workflows[name] = r } } var result result result.valuePT1 = solveWorkflow(parts, workflows) result.valuePT2 = solveRanges(workflows) return &result, nil } type part struct { x, m, a, s int } func (p part) String() string { return fmt.Sprintf("{x:%v m:%v a:%v s:%v}", p.x, p.m, p.a, p.s) } func scanPart(text string) (part, bool) { var p part // Is Part if text[0] == '{' { for _, s := range strings.Split(text[1:], ",") { a, b, _ := strings.Cut(s, "=") i := aoc.Atoi(b) switch a { case "x": p.x = i case "m": p.m = i case "a": p.a = i case "s": p.s = i } } return p, true } return p, false } type rule struct { match string op string value int queue string } func scanRule(text string) (string, []rule, bool) { name, text, _ := strings.Cut(text, "{") var r []rule for _, s := range strings.Split(text, ",") { if a, b, ok := strings.Cut(s, "<"); ok { b, c, _ := strings.Cut(b, ":") r = append(r, rule{ match: a, op: "<", value: aoc.Atoi(b), queue: c, }) continue } if a, b, ok := strings.Cut(s, ">"); ok { b, c, _ := strings.Cut(b, ":") r = append(r, rule{ match: a, op: ">", value: aoc.Atoi(b), queue: c, }) continue } // default queue comes last r = append(r, rule{queue: s}) break } return name, r, len(r) > 0 } func (r rule) Match(p part) bool { var value int switch r.match { case "x": value = p.x case "m": value = p.m case "a": value = p.a case "s": value = p.s default: return true // default to new queue } if r.op == ">" && value > r.value { return true } else if r.op == "<" && value < r.value { return true } return false // no match } func solveWorkflow(parts []part, workflows map[string][]rule) int { // var rejected []part var accepted []part for _, p := range parts { workflow := "in" nextStep: for workflow != "" { for _, r := range workflows[workflow] { if !r.Match(p) { continue } workflow = r.queue if workflow == "A" { accepted = append(accepted, p) workflow = "" break nextStep } if workflow == "R" { // rejected = append(rejected, p) workflow = "" break nextStep } continue nextStep } } } sum := 0 for _, p := range accepted { sum += p.x sum += p.m sum += p.a sum += p.s } return sum } func solveRanges(workflows map[string][]rule) uint { pq := aoc.PriorityQueue(func(a, b queue) bool { return false }) pq.Enqueue(queue{ "in", block{ ranger{1, 4000}, ranger{1, 4000}, ranger{1, 4000}, ranger{1, 4000}, }}) var accepted []block // var rejected []block for !pq.IsEmpty() { current, _ := pq.Dequeue() for _, rule := range workflows[current.name] { next := queue{name: rule.queue, block: current.block} switch rule.match { case "x": current.x, next.x = split(current.x, rule.value, rule.op == ">") case "m": current.m, next.m = split(current.m, rule.value, rule.op == ">") case "a": current.a, next.a = split(current.a, rule.value, rule.op == ">") case "s": current.s, next.s = split(current.s, rule.value, rule.op == ">") } switch next.name { case "R": // rejected = append(rejected, next.block) case "A": accepted = append(accepted, next.block) default: pq.Enqueue(next) } } } var sum uint for _, a := range accepted { sum += uint((a.x[1]-a.x[0]+1) * (a.m[1]-a.m[0]+1) * (a.a[1]-a.a[0]+1) * (a.s[1]-a.s[0]+1)) } return sum } type ranger [2]int type block struct { x, m, a, s ranger } type queue struct { name string block } func split(a ranger, n int, gt bool) (current ranger, next ranger) { if gt { // x > N => [0,N] [N++,inf] return ranger{a[0], n}, ranger{n + 1, a[1]} } // x < N => [N,inf] [0,N--] return ranger{n, a[1]}, ranger{a[0], n - 1} }