adventofcode/2023/day13/main.go

195 lines
3.9 KiB
Go

package main
import (
"fmt"
h "git.bullercodeworks.com/brian/adventofcode/helpers"
)
func main() {
inp := h.StdinToStringSlice()
part1(inp)
fmt.Println()
part2(inp)
}
func part1(input []string) {
var maps []*h.CoordByteMap
var wrkInput []string
bld := func() {
m := h.StringSliceToCoordByteMap(wrkInput)
maps = append(maps, &m)
wrkInput = []string{}
}
for i := range input {
if len(input[i]) == 0 {
bld()
} else {
wrkInput = append(wrkInput, input[i])
}
}
if len(wrkInput) > 0 {
bld()
}
var result int
for _, m := range maps {
result += findMirror(m, -1)
}
fmt.Println("# Part 1")
fmt.Println(result)
}
func part2(input []string) {
var maps []*h.CoordByteMap
var wrkInput []string
bld := func() {
m := h.StringSliceToCoordByteMap(wrkInput)
maps = append(maps, &m)
wrkInput = []string{}
}
for i := range input {
if len(input[i]) == 0 {
bld()
} else {
wrkInput = append(wrkInput, input[i])
}
}
if len(wrkInput) > 0 {
bld()
}
var result int
for _, m := range maps {
result += checkForSmudge(m)
}
fmt.Println("# Part 2")
fmt.Println(result)
}
func checkForSmudge(m *h.CoordByteMap) int {
origMirror := findMirror(m, -1)
for y := m.TLY; y <= m.BRY; y++ {
for x := m.TLX; x <= m.BRX; x++ {
orig := m.Get(c(x, y))
switch orig {
case '#':
m.Put(c(x, y), '.')
case '.':
m.Put(c(x, y), '#')
}
res := findMirror(m, origMirror)
if res > 0 && res != origMirror {
return res
}
m.Put(c(x, y), orig)
}
}
return 0
}
// findMirror finds a mirror in the map
// returning the value of that mirror (vertical (x+1), horizontal (y+1)* 100)
func findMirror(m *h.CoordByteMap, exclude int) int {
var found bool
for x := m.TLX; x <= m.BRX; x++ {
val := (x + 1)
if found = checkForVerticalMirror(m, x, x+1); found && val != exclude {
return x + 1
}
}
for y := m.TLY; y <= m.BRY; y++ {
val := (y + 1) * 100
if found = checkForHorizontalMirror(m, y, y+1); found && val != exclude {
return (y + 1) * 100
}
}
return 0
}
func c(x, y int) h.Coordinate {
return h.Coordinate{X: x, Y: y}
}
func checkForVerticalMirror(m *h.CoordByteMap, x1, x2 int) bool {
var wrkX1, wrkX2 int
for y := m.TLY; y <= m.BRY; y++ {
wrkX1, wrkX2 = x1, x2
var match, cont bool
for wrkX1 >= m.TLX || wrkX2 <= m.BRX {
if match, cont = hPointsMatch(m, y, wrkX1, wrkX2); match {
if cont {
break
}
wrkX1--
wrkX2++
} else {
return false
}
}
if cont {
continue
}
if wrkX1 < m.TLX || wrkX2 > m.BRX {
return false
}
}
// Mirrors _shouldn't_ be at the very edge (or else what are we even doing here)
if wrkX1 == m.BRX || wrkX2 == m.TLX {
return false
}
return true
}
func hPointsMatch(m *h.CoordByteMap, y, x1, x2 int) (bool, bool) {
c1, c2 := c(x1, y), c(x2, y)
// If either is off the map, it could be
if m.Opt(c1, byte(0)) == 0 || m.Opt(c2, byte(0)) == 0 {
return true, true
}
// Check if (x1, y) == (x2, y)
v1, v2 := m.Get(c1), m.Get(c2)
return v1 == v2, false
}
func checkForHorizontalMirror(m *h.CoordByteMap, y1, y2 int) bool {
var wrkY1, wrkY2 int
for x := m.TLX; x <= m.BRX; x++ {
wrkY1, wrkY2 = y1, y2
var match, cont bool
for wrkY1 >= m.TLY || wrkY2 <= m.BRY {
if match, cont = vPointsMatch(m, x, wrkY1, wrkY2); match {
if cont {
break
}
wrkY1--
wrkY2++
} else {
return false
}
}
if cont {
continue
}
if wrkY1 > m.TLY && wrkY2 < m.BRY {
return false
}
}
// Mirrors _shouldn't_ be at the very edge (or else what are we even doing here)
if wrkY1 == m.BRY || wrkY2 == m.TLY {
return false
}
return true
}
func vPointsMatch(m *h.CoordByteMap, x, y1, y2 int) (bool, bool) {
c1, c2 := c(x, y1), c(x, y2)
// If either is off the map, it could be
if m.Opt(c1, byte(0)) == 0 || m.Opt(c2, byte(0)) == 0 {
return true, true
}
// Check if (x, y1) == (x, y2)
v1, v2 := m.Get(c1), m.Get(c2)
return v1 == v2, false
}