package main import ( "bufio" "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 int } func (r result) String() string { return fmt.Sprintf("%#v", r) } func run(scan *bufio.Scanner) (*result, error) { m := &Path{s: -1} for scan.Scan() { text := scan.Text() _ = text m.readLine(text) } dist := m.buildPath() // log(m) r := &Region{List: m.List, w: m.w, l: len(m.m)} count := r.Count() return &result{valuePT1: dist, valuePT2: count}, nil } type node struct { value rune pos int whence int8 left *node } func (n *node) add(a *node) *node { if a == nil { return n } n.left = a return a } func (n *node) String() string { if n == nil { return "EOL" } return fmt.Sprintf("node %s from %s", string(n.value), enum(n.whence)) } type List struct { head *node n *node p map[int]*node } func NewList(a *node) *List { lis := &List{ head: a, n: a, p: make(map[int]*node), } lis.add(a) return lis } func (l *List) add(a *node) { l.n = l.n.add(a) l.p[a.pos] = a } type Path struct { m []rune w int s int *List } func (m *Path) String() string { var buf strings.Builder n := m.head buf.WriteString(fmt.Sprintf("head %d", len(m.p))) for n != nil { buf.WriteString("\n ") buf.WriteString(n.String()) n = n.left } return buf.String() } func (m *Path) readLine(text string) { if m.w == 0 { m.w = len(text) } if m.s == -1 { if i := strings.IndexRune(text, 'S'); i != -1 { m.s = i + len(m.m) } } m.m = append(m.m, []rune(text)...) } func (m *Path) buildPath() int { m.start() for m.next() { } return (len(m.p) + 1) / 2 } func (m *Path) start() { m.List = NewList(&node{value: 'S', pos: m.s}) switch { case m.peek(UP) != nil: m.add(m.peek(UP)) case m.peek(DN) != nil: m.add(m.peek(DN)) case m.peek(LF) != nil: m.add(m.peek(LF)) case m.peek(RT) != nil: m.add(m.peek(RT)) } } func (m *Path) next() bool { var n *node switch m.n.value { case '7': if m.n.whence == LF { n = m.peek(DN) } else { n = m.peek(LF) } case '|': if m.n.whence == UP { n = m.peek(DN) } else { n = m.peek(UP) } case 'F': if m.n.whence == RT { n = m.peek(DN) } else { n = m.peek(RT) } case '-': if m.n.whence == LF { n = m.peek(RT) } else { n = m.peek(LF) } case 'J': if m.n.whence == LF { n = m.peek(UP) } else { n = m.peek(LF) } case 'L': if m.n.whence == RT { n = m.peek(UP) } else { n = m.peek(RT) } } if n == nil { return false } if n.value == 'S' { last := n.whence next := m.head.left.whence switch last<<4 | next { case UP<<4 | UP, DN<<4 | DN: m.head.value = '|' // UP UP, DN DN case LF<<4 | LF, RT<<4 | RT: m.head.value = '-' // LF LF, RT RT case UP<<4 | RT, LF<<4 | DN: m.head.value = 'J' // UP RT, LT DN case UP<<4 | LF, RT<<4 | DN: m.head.value = 'L' // UP RT, RT DN case DN<<4 | RT, LF<<4 | UP: m.head.value = '7' // DN LF, LF UP case RT<<4 | UP, DN<<4 | LF: m.head.value = 'F' // DN LF, RT UP } return false } m.add(n) return true } const ( ST int8 = iota UP DN LF RT ) func enum(e int8) string { switch e { case ST: return "ST" case UP: return "UP" case DN: return "DN" case LF: return "LF" case RT: return "RT" default: return "XX" } } func (m *Path) peek(d int8) *node { switch d { case UP: x, y := toXY(m.n.pos, m.w) if y == 0 { return nil } p := fromXY(x, y-1, m.w) r := m.m[p] if any(r, '7', '|', 'F', 'S') { return &node{value: r, whence: DN, pos: p} } case DN: x, y := toXY(m.n.pos, m.w) if y == m.w { return nil } p := fromXY(x, y+1, m.w) r := m.m[p] if any(r, 'J', '|', 'L', 'S') { return &node{value: r, whence: UP, pos: p} } case LF: x, y := toXY(m.n.pos, m.w) if x == 0 { return nil } p := fromXY(x-1, y, m.w) r := m.m[p] if any(r, 'F', '-', 'L', 'S') { return &node{value: r, whence: RT, pos: p} } case RT: x, y := toXY(m.n.pos, m.w) if x == m.w { return nil } p := fromXY(x+1, y, m.w) r := m.m[p] if any(r, '7', '-', 'J', 'S') { return &node{value: r, whence: LF, pos: p} } } return nil } func fromXY(x, y, w int) int { return y*w + x } func toXY(i, w int) (int, int) { return i % w, i / w } func any[T comparable](n T, stack ...T) bool { var found bool for _, s := range stack { if n == s { found = true break } } return found } type Region struct { *List inLoop bool count int w int l int } func (r *Region) Count() int { for i := 0; i < r.l; i++ { if i%r.w == 0 { r.inLoop = false // fmt.Println(": ", i) } a, ok := r.p[i] if ok && any(a.value, '|', '7', 'F', 'X') { r.inLoop = !r.inLoop // fmt.Print(string(a.value)) continue } if !ok && r.inLoop { // fmt.Print("I") r.count++ continue } if ok { // fmt.Print(string(a.value)) continue } // fmt.Print(".") } return r.count }