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2023-23 dfs backtracking

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This commit is contained in:
alexchao26
2024-08-16 15:53:28 -04:00
parent 36679efb83
commit f3df3658a4
2 changed files with 298 additions and 0 deletions
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2023/day23/main.go
+217
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@@ -0,0 +1,217 @@
package main
import (
_ "embed"
"flag"
"fmt"
"strings"
"github.com/alexchao26/advent-of-code-go/util"
)
//go:embed input.txt
var input string
func init() {
// do this in init (not main) so test file has same input
input = strings.TrimRight(input, "\n")
if len(input) == 0 {
panic("empty input.txt file")
}
}
func main() {
var part int
flag.IntVar(&part, "part", 1, "part 1 or 2")
flag.Parse()
fmt.Println("Running part", part)
if part == 1 {
ans := part1(input)
util.CopyToClipboard(fmt.Sprintf("%v", ans))
fmt.Println("Output:", ans)
} else {
ans := part2(input)
util.CopyToClipboard(fmt.Sprintf("%v", ans))
fmt.Println("Output:", ans)
}
}
func part1(input string) int {
grid := parseInput(input)
// do not step on same tile twice, longest hike possible
// standard backtrack?
var startCol int
for c := 0; c < len(grid[0]); c++ {
if grid[0][c] == "." {
startCol = c
break
}
}
return backtrackLongest(grid, 0, startCol, map[[2]int]bool{}, 0)
}
var slopes = map[string][2]int{
">": {0, 1},
"<": {0, -1},
"v": {1, 0},
"^": {-1, 0},
}
type node struct {
row, col int
weightedEdges map[*node]int
}
func backtrackLongest(grid [][]string, row, col int, visited map[[2]int]bool, steps int) int {
if row == len(grid)-1 && grid[row][col] == "." {
return steps
}
if diff, ok := slopes[grid[row][col]]; ok {
nextCoord := [2]int{row + diff[0], col + diff[1]}
if visited[nextCoord] {
return 0
}
visited[[2]int{row, col}] = true
result := backtrackLongest(grid, row+diff[0], col+diff[1], visited, steps+1)
visited[[2]int{row, col}] = false
return result
}
best := 0
for _, diff := range slopes {
nextRow := row + diff[0]
nextCol := col + diff[1]
if nextRow < 0 || nextRow >= len(grid) ||
nextCol < 0 || nextCol >= len(grid[0]) {
continue
}
nextCoord := [2]int{nextRow, nextCol}
if visited[nextCoord] {
continue
}
if grid[nextRow][nextCol] != "#" {
visited[[2]int{row, col}] = true
result := backtrackLongest(grid, nextRow, nextCol, visited, steps+1)
best = max(best, result)
visited[[2]int{row, col}] = false
}
}
return best
}
func part2(input string) int {
grid := parseInput(input)
var startCol int
for c := 0; c < len(grid[0]); c++ {
if grid[0][c] == "." {
startCol = c
break
}
}
_ = startCol
// reduce to a graph with weighted edges
allNodes := map[[2]int]*node{}
// just make all nodes
for r := 0; r < len(grid); r++ {
for c := 0; c < len(grid[0]); c++ {
if grid[r][c] == "#" {
continue
}
allNodes[[2]int{r, c}] = &node{
row: r,
col: c,
weightedEdges: map[*node]int{},
}
}
}
// connect all adjacent nodes and assign a weight of 1
for coords, node := range allNodes {
for _, diff := range slopes {
nextCoord := [2]int{
coords[0] + diff[0],
coords[1] + diff[1],
}
if neighbor, ok := allNodes[nextCoord]; ok {
node.weightedEdges[neighbor] = 1
neighbor.weightedEdges[node] = 1
}
}
}
// reduce the graph by combining neighbors if there are exactly two
for _, currentNode := range allNodes {
if len(currentNode.weightedEdges) == 2 {
twoNeighbors := []*node{}
summedWeight := 0
for neighborNode := range currentNode.weightedEdges {
twoNeighbors = append(twoNeighbors, neighborNode)
summedWeight += neighborNode.weightedEdges[currentNode]
}
delete(twoNeighbors[0].weightedEdges, currentNode)
delete(twoNeighbors[1].weightedEdges, currentNode)
twoNeighbors[0].weightedEdges[twoNeighbors[1]] = summedWeight
twoNeighbors[1].weightedEdges[twoNeighbors[0]] = summedWeight
// doesn't affect map iteration
delete(allNodes, [2]int{currentNode.row, currentNode.col})
}
}
// backtrack through graph again
return backtrackThroughGraph(allNodes[[2]int{0, startCol}],
map[*node]bool{}, 0, len(grid)-1)
}
func backtrackThroughGraph(currentNode *node, seen map[*node]bool,
distance int, destinationRow int) int {
// destination row is knowing that there is only one node that is on the
// final row, so if we reach that depth we've reached the end
if currentNode.row == destinationRow {
return distance
}
best := 0
seen[currentNode] = true
for neighbor, weight := range currentNode.weightedEdges {
if seen[neighbor] {
continue
}
best = max(best,
backtrackThroughGraph(neighbor, seen, distance+weight, destinationRow))
}
seen[currentNode] = false
return best
}
func parseInput(input string) (ans [][]string) {
for _, line := range strings.Split(input, "\n") {
ans = append(ans, strings.Split(line, ""))
}
return ans
}
2023/day23/main_test.go
+81
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package main
import (
"testing"
)
var example = `#.#####################
#.......#########...###
#######.#########.#.###
###.....#.>.>.###.#.###
###v#####.#v#.###.#.###
###.>...#.#.#.....#...#
###v###.#.#.#########.#
###...#.#.#.......#...#
#####.#.#.#######.#.###
#.....#.#.#.......#...#
#.#####.#.#.#########v#
#.#...#...#...###...>.#
#.#.#v#######v###.###v#
#...#.>.#...>.>.#.###.#
#####v#.#.###v#.#.###.#
#.....#...#...#.#.#...#
#.#########.###.#.#.###
#...###...#...#...#.###
###.###.#.###v#####v###
#...#...#.#.>.>.#.>.###
#.###.###.#.###.#.#v###
#.....###...###...#...#
#####################.#`
func Test_part1(t *testing.T) {
tests := []struct {
name string
input string
want int
}{
{
name: "example",
input: example,
want: 94,
},
{
name: "actual",
input: input,
want: 2294,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if got := part1(tt.input); got != tt.want {
t.Errorf("part1() = %v, want %v", got, tt.want)
}
})
}
}
func Test_part2(t *testing.T) {
tests := []struct {
name string
input string
want int
}{
{
name: "example",
input: example,
want: 154,
},
{
name: "actual",
input: input,
want: 6418,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if got := part2(tt.input); got != tt.want {
t.Errorf("part2() = %v, want %v", got, tt.want)
}
})
}
}