advent-of-code/day12/main.go

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3.7 KiB
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package main
import (
"bufio"
_ "embed"
"fmt"
"slices"
"strings"
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aoc "go.sour.is/advent-of-code"
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)
// 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) {
var matches []int
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var matches2 []int
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for scan.Scan() {
text := scan.Text()
status, text, ok := strings.Cut(text, " ")
if !ok {
continue
}
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// part 1 - brute force
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grouping := aoc.SliceMap(aoc.Atoi, strings.Split(text, ",")...)
pattern := []rune(status)
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// sp := spring{pattern: pattern, grouping: grouping, missingNo: countQuestion(pattern)}
// matches = append(matches, sp.findMatches())
matches = append(matches, countPossible(pattern, grouping))
// part 2 - NFA
b, a := status, text
bn, an := "", ""
for i := 0; i < 5; i++ {
bn, an = bn+b+"?", an+a+","
}
b, a = strings.TrimSuffix(bn, "?"), strings.TrimSuffix(an, ",")
matches2 = append(matches2, countPossible([]rune(b), aoc.SliceMap(aoc.Atoi, strings.Split(a, ",")...)))
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}
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return &result{valuePT1: aoc.Sum(matches...), valuePT2: aoc.Sum(matches2...)}, nil
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}
type spring struct {
pattern []rune
grouping []int
missingNo int
}
func (s *spring) findMatches() int {
matches := 0
for _, pattern := range s.genPatterns() {
pattern := []rune(pattern)
target := make([]rune, len(s.pattern))
i := 0
for j, r := range s.pattern {
if r == '?' {
target[j] = pattern[i]
i++
continue
}
target[j] = r
}
if slices.Equal(countGroupings(target), s.grouping) {
matches++
}
}
return matches
}
func (s *spring) genPatterns() []string {
buf := &strings.Builder{}
combinations := aoc.Power2(s.missingNo)
lis := make([]string, 0, combinations)
for i := 0; i < combinations; i++ {
for b := 0; b < s.missingNo; b++ {
if i>>b&0b1 == 1 {
buf.WriteRune('#')
} else {
buf.WriteRune('.')
}
}
lis = append(lis, buf.String())
buf.Reset()
}
return lis
}
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func countPossible(s []rune, c []int) int {
pos := 0
cstates := map[state]int{{}: 1} // current state
nstates := map[state]int{} // next state
for len(cstates) > 0 {
for st, num := range cstates {
si, ci, cc, expdot := st.springIndex, st.groupIndex, st.continuous, st.expectDot
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// have we reached the end?
if si == len(s) {
if ci == len(c) {
pos += num
}
continue
}
switch {
case (s[si] == '#' || s[si] == '?') && ci < len(c) && !expdot:
// we are still looking for broken springs
if s[si] == '?' && cc == 0 {
// we are not in a run of broken springs, so ? can be working
nstates[state{si + 1, ci, cc, expdot}] += num
}
cc++
if cc == c[ci] {
// we've found the full next contiguous section of broken springs
ci++
cc = 0
expdot = true // we only want a working spring next
}
nstates[state{si + 1, ci, cc, expdot}] += num
case (s[si] == '.' || s[si] == '?') && cc == 0:
// we are not in a contiguous run of broken springs
expdot = false
nstates[state{si + 1, ci, cc, expdot}] += num
}
}
// swap and clear previous states
cstates, nstates = nstates, cstates
clear(nstates)
}
return pos
}
type state struct {
springIndex int
groupIndex int
continuous int
expectDot bool
}
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func countQuestion(pattern []rune) int {
count := 0
for _, r := range pattern {
if r == '?' {
count++
}
}
return count
}
func countGroupings(pattern []rune) []int {
var groupings []int
inGroup := false
for _, r := range pattern {
if r == '#' {
if !inGroup {
groupings = append(groupings, 0)
}
inGroup = true
groupings[len(groupings)-1]++
}
if inGroup && r != '#' {
inGroup = false
}
}
return groupings
}