Add day 22 part 2 solution
parent
30d8c35d61
commit
e0997658d8
201
day22/main.go
201
day22/main.go
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@ -23,12 +23,31 @@ type Brick []Coordinate
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// BrickGraph is a map from indexes in a brick array to the dependent indexes
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type BrickGraph map[int][]int
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func (b Brick) HighestPoint() Coordinate {
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maxZFunc := func(a, b Coordinate) int {
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return cmp.Compare(a.Z, b.Z)
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func (graph BrickGraph) ReachableFrom(idx int) map[int]struct{} {
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return graph.ReachableFromExcluding(idx, nil)
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}
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// ReachableFromExcluding will finds all nodes reachable from the given node index, but will not explore neighbors
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// in the "excluding" set.
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func (graph BrickGraph) ReachableFromExcluding(idx int, excluding map[int]struct{}) map[int]struct{} {
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visited := map[int]struct{}{}
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toVisit := []int{idx}
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for len(toVisit) > 0 {
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visiting := toVisit[0]
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toVisit = toVisit[1:]
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for _, neighbor := range graph[visiting] {
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if _, ok := visited[neighbor]; ok {
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continue
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} else if _, ok := excluding[neighbor]; ok {
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continue
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}
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visited[neighbor] = struct{}{}
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toVisit = append(toVisit, neighbor)
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}
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}
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return slices.MaxFunc(b, maxZFunc)
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return visited
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}
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func (b Brick) LowestPoint() Coordinate {
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@ -70,14 +89,73 @@ func main() {
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}
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fmt.Printf("Part 1: %d\n", part1(bricks))
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fmt.Printf("Part 2: %d\n", part2(bricks))
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}
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func part1(inputBricks []Brick) int {
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bricks := slices.Clone(inputBricks)
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sortByHeight(bricks)
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slammedBricks := settleBricks(inputBricks)
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incoming, outgoing := buildBrickGraph(slammedBricks)
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removable := removableBricks(slammedBricks, incoming, outgoing)
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slammedBricks := slices.Clone(bricks)
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for i := range bricks {
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return len(removable)
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}
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func part2(inputBricks []Brick) int {
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slammedBricks := settleBricks(inputBricks)
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incoming, outgoing := buildBrickGraph(slammedBricks)
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total := 0
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for i := range slammedBricks {
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stableNodes := map[int]struct{}{}
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lastFalling := map[int]struct{}{}
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for {
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reachableNodes := outgoing.ReachableFromExcluding(i, stableNodes)
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for reachable := range reachableNodes {
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for _, parentOfReachable := range incoming[reachable] {
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if _, ok := reachableNodes[parentOfReachable]; !ok && parentOfReachable != i {
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// If any reachable node is accessible from another subgraph, it is "stable"
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stableNodes[reachable] = struct{}{}
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}
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}
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}
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falling := outgoing.ReachableFromExcluding(i, stableNodes)
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shouldBreak := mapKeysEqual(falling, lastFalling)
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lastFalling = falling
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if shouldBreak {
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break
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}
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// We must repeat this process until we reach a state where no more stable nodes are found
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// There are some cases where a node might be stable, but the children of said stable node
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// must also be considered invalidated (think of it as second-order stability)
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}
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total += len(lastFalling)
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}
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return total
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}
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func mapKeysEqual[T comparable, U any](m1, m2 map[T]U) bool {
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if len(m1) != len(m2) {
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return false
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}
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for key := range m1 {
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if _, ok := m2[key]; !ok {
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return false
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}
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}
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return true
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}
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func settleBricks(bricks []Brick) []Brick {
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sorted := slices.Clone(bricks)
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sortByHeight(sorted)
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slammedBricks := slices.Clone(sorted)
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for i := range sorted {
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brick, err := moveBrickDown(slammedBricks, i)
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if err != nil {
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// can't happen with our bounds
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@ -87,66 +165,7 @@ func part1(inputBricks []Brick) int {
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slammedBricks[i] = brick
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}
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incoming, outgoing := buildBrickGraph(slammedBricks)
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removable := 0
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for i := range bricks {
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dependents := outgoing[i]
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// Nothing depends on this, so it's ok to remove
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if len(dependents) == 0 {
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removable++
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continue
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}
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allDependentsSafe := true
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for _, dependent := range dependents {
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// There is more than one item which has this dependent as a dependent, so removing i would
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// not allow this to fall
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if len(incoming[dependent]) <= 1 {
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allDependentsSafe = false
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break
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}
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}
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if allDependentsSafe {
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removable++
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}
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}
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return removable
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}
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func buildBrickGraph(bricks []Brick) (incoming, outgoing BrickGraph) {
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occupied := occupiedPositions(bricks)
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outgoing = make(BrickGraph)
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incoming = make(BrickGraph)
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for i, brick := range bricks {
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neighboring := map[int]struct{}{}
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for _, block := range brick {
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above := Coordinate{X: block.X, Y: block.Y, Z: block.Z + 1}
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if occupiedBy, ok := occupied[above]; ok && occupiedBy != i {
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neighboring[occupiedBy] = struct{}{}
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}
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}
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for neighbor := range neighboring {
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outgoing[i] = append(outgoing[i], neighbor)
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incoming[neighbor] = append(incoming[neighbor], i)
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}
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}
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// start := 'A'
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// for i, item := range bricks {
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// // name := start + rune(i)
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// fmt.Printf("%d[label=\"%d\\n%v\"]\n", i, i, item)
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// for _, dependency := range outgoing[i] {
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// // depName := start + rune(dependency)
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// fmt.Printf("%d -> %d\n", i, dependency)
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// }
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// }
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return
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return slammedBricks
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}
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func moveBrickDown(bricks []Brick, brickIdx int) (Brick, error) {
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@ -172,6 +191,52 @@ func moveBrickDown(bricks []Brick, brickIdx int) (Brick, error) {
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return brick, nil
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}
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func buildBrickGraph(bricks []Brick) (incoming, outgoing BrickGraph) {
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occupied := occupiedPositions(bricks)
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outgoing = make(BrickGraph)
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incoming = make(BrickGraph)
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for i, brick := range bricks {
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neighboring := map[int]struct{}{}
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for _, block := range brick {
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above := Coordinate{X: block.X, Y: block.Y, Z: block.Z + 1}
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if occupiedBy, ok := occupied[above]; ok && occupiedBy != i {
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neighboring[occupiedBy] = struct{}{}
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}
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}
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for neighbor := range neighboring {
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outgoing[i] = append(outgoing[i], neighbor)
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incoming[neighbor] = append(incoming[neighbor], i)
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}
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}
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return
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}
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func removableBricks(allBricks []Brick, incoming BrickGraph, outgoing BrickGraph) []int {
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removable := []int{}
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for i := range allBricks {
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dependents := outgoing[i]
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allDependentsSafe := true
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for _, dependent := range dependents {
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// There is more than one item which has this dependent as a dependent, so removing i would
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// not allow this to fall
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if len(incoming[dependent]) <= 1 {
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allDependentsSafe = false
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break
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}
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}
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if allDependentsSafe {
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removable = append(removable, i)
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}
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}
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return removable
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}
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func sortByHeight(bricks []Brick) {
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slices.SortFunc(bricks, func(brick1, brick2 Brick) int {
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min1Z := brick1.LowestPoint()
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