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Copy pathCompressedBinaryLiftWithSumDynamic.go
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CompressedBinaryLiftWithSumDynamic.go
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package main
import (
"fmt"
)
func main() {
assert()
}
type S = int
func (*CompressedBinaryLiftWithSumDynamic) e() S { return 0 }
func (*CompressedBinaryLiftWithSumDynamic) op(e1, e2 S) S { return e1 + e2 }
// 空间复杂度`O(n)`的树上倍增,用于倍增结构优化建图、查询路径聚合值.
// - https://taodaling.github.io/blog/2020/03/18/binary-lifting/
// - https://codeforces.com/blog/entry/74847
// - https://codeforces.com/blog/entry/100826
type CompressedBinaryLiftWithSumDynamic struct {
Depth []int32
Parent []int32
jump []int32 // 指向当前节点的某个祖先节点.
attachments []S // 从当前结点到`jump`结点的路径上的聚合值(不包含`jump`结点).
singles []S // 当前结点的聚合值.
}
// 不预先给出整棵树,而是动态添加叶子节点,维护树节点的LCA和k级祖先.
func NewCompressedBinaryLiftWithSumDynamic(n int32) *CompressedBinaryLiftWithSumDynamic {
res := &CompressedBinaryLiftWithSumDynamic{
Depth: make([]int32, n),
Parent: make([]int32, n),
jump: make([]int32, n),
attachments: make([]S, n),
singles: make([]S, n),
}
for i := int32(0); i < n; i++ {
res.attachments[i] = res.e()
}
return res
}
func NewCompressedBinaryLiftWithSumDynamicWithRoot(n int32, root int32, weight S) *CompressedBinaryLiftWithSumDynamic {
res := NewCompressedBinaryLiftWithSumDynamic(n)
res.AddLeaf(root, -1, weight)
return res
}
// 在树中添加一条从parent到leaf的边,要求parent已经存在于树中或为-1.
// parent为-1时,leaf为根节点.
func (bl *CompressedBinaryLiftWithSumDynamic) AddLeaf(leaf, parent int32, weight S) {
if parent == -1 {
bl.Parent[leaf] = -1
bl.jump[leaf] = leaf
bl.singles[leaf] = weight
return
}
bl.Parent[leaf] = parent
bl.Depth[leaf] = bl.Depth[parent] + 1
bl.singles[leaf] = weight
if tmp := bl.jump[parent]; bl.Depth[parent]-bl.Depth[tmp] == bl.Depth[tmp]-bl.Depth[bl.jump[tmp]] {
bl.jump[leaf] = bl.jump[tmp]
bl.attachments[leaf] = bl.op(weight, bl.attachments[parent])
bl.attachments[leaf] = bl.op(bl.attachments[leaf], bl.attachments[tmp])
} else {
bl.jump[leaf] = parent
bl.attachments[leaf] = weight // copy
}
}
func (bl *CompressedBinaryLiftWithSumDynamic) FirstTrue(start int32, predicate func(end int32) bool) int32 {
for !predicate(start) {
if predicate(bl.jump[start]) {
start = bl.Parent[start]
} else {
if start == bl.jump[start] {
return -1
}
start = bl.jump[start]
}
}
return start
}
func (bl *CompressedBinaryLiftWithSumDynamic) FirstTrueWithSum(start int32, predicate func(end int32, sum S) bool, isEdge bool) (int32, S) {
if isEdge {
sum := bl.e() // 不包含_singles[start]
for {
if predicate(start, sum) {
return start, sum
}
jumpStart, jumpSum := bl.jump[start], bl.op(sum, bl.attachments[start])
if predicate(jumpStart, jumpSum) {
sum = bl.op(sum, bl.singles[start])
start = bl.Parent[start]
} else {
if start == jumpStart {
return -1, jumpSum
}
sum = jumpSum
start = jumpStart
}
}
} else {
sum := bl.e() // 不包含_singles[start]
for {
sumWithSingle := bl.op(sum, bl.singles[start])
if predicate(start, sumWithSingle) {
return start, sumWithSingle
}
jumpStart, jumpSum1 := bl.jump[start], bl.op(sum, bl.attachments[start])
jumpSum2 := bl.op(jumpSum1, bl.singles[jumpStart])
if predicate(jumpStart, jumpSum2) {
sum = sumWithSingle
start = bl.Parent[start]
} else {
if start == jumpStart {
return -1, jumpSum2
}
sum = jumpSum1
start = jumpStart
}
}
}
}
func (bl *CompressedBinaryLiftWithSumDynamic) LastTrue(start int32, predicate func(end int32) bool) int32 {
if !predicate(start) {
return -1
}
for {
if predicate(bl.jump[start]) {
if start == bl.jump[start] {
return start
}
start = bl.jump[start]
} else if predicate(bl.Parent[start]) {
start = bl.Parent[start]
} else {
return start
}
}
}
func (bl *CompressedBinaryLiftWithSumDynamic) LastTrueWithSum(start int32, predicate func(end int32, sum S) bool, isEdge bool) (int32, S) {
if isEdge {
sum := bl.e() // 不包含_singles[start]
if !predicate(start, sum) {
return -1, sum
}
for {
jumpStart, jumpSum := bl.jump[start], bl.op(sum, bl.attachments[start])
if predicate(jumpStart, jumpSum) {
if start == jumpStart {
return start, sum
}
sum = jumpSum
start = jumpStart
} else {
parentStart, parentSum := bl.Parent[start], bl.op(sum, bl.singles[start])
if predicate(parentStart, parentSum) {
sum = parentSum
start = parentStart
} else {
return start, sum
}
}
}
} else {
if !predicate(start, bl.singles[start]) {
return -1, bl.singles[start]
}
sum := bl.e() // 不包含_singles[start]
for {
jumpStart, jumpSum1 := bl.jump[start], bl.op(sum, bl.attachments[start])
jumpSum2 := bl.op(jumpSum1, bl.singles[jumpStart])
if predicate(jumpStart, jumpSum2) {
if start == jumpStart {
return start, jumpSum2
}
sum = jumpSum1
start = jumpStart
} else {
parentStart, parentSum1 := bl.Parent[start], bl.op(sum, bl.singles[start])
parentSum2 := bl.op(parentSum1, bl.singles[parentStart])
if predicate(parentStart, parentSum2) {
sum = parentSum1
start = parentStart
} else {
return start, parentSum1
}
}
}
}
}
func (bl *CompressedBinaryLiftWithSumDynamic) UpToDepth(root int32, toDepth int32) int32 {
if !(0 <= toDepth && toDepth <= bl.Depth[root]) {
return -1
}
for bl.Depth[root] > toDepth {
if bl.Depth[bl.jump[root]] < toDepth {
root = bl.Parent[root]
} else {
root = bl.jump[root]
}
}
return root
}
func (bl *CompressedBinaryLiftWithSumDynamic) UpToDepthWithSum(root int32, toDepth int32, isEdge bool) (int32, S) {
sum := bl.e() // 不包含_singles[root]
if !(0 <= toDepth && toDepth <= bl.Depth[root]) {
return -1, sum
}
for bl.Depth[root] > toDepth {
if bl.Depth[bl.jump[root]] < toDepth {
sum = bl.op(sum, bl.singles[root])
root = bl.Parent[root]
} else {
sum = bl.op(sum, bl.attachments[root])
root = bl.jump[root]
}
}
if !isEdge {
sum = bl.op(sum, bl.singles[root])
}
return root, sum
}
func (bl *CompressedBinaryLiftWithSumDynamic) KthAncestor(node, k int32) int32 {
targetDepth := bl.Depth[node] - k
return bl.UpToDepth(node, targetDepth)
}
func (bl *CompressedBinaryLiftWithSumDynamic) KthAncestorWithSum(node, k int32, isEdge bool) (int32, S) {
targetDepth := bl.Depth[node] - k
return bl.UpToDepthWithSum(node, targetDepth, isEdge)
}
func (bl *CompressedBinaryLiftWithSumDynamic) Lca(a, b int32) int32 {
if bl.Depth[a] > bl.Depth[b] {
a = bl.KthAncestor(a, bl.Depth[a]-bl.Depth[b])
} else if bl.Depth[a] < bl.Depth[b] {
b = bl.KthAncestor(b, bl.Depth[b]-bl.Depth[a])
}
for a != b {
if bl.jump[a] == bl.jump[b] {
a = bl.Parent[a]
b = bl.Parent[b]
} else {
a = bl.jump[a]
b = bl.jump[b]
}
}
return a
}
// 查询路径`a`到`b`的聚合值.
// isEdge 是否是边权.
func (bl *CompressedBinaryLiftWithSumDynamic) LcaWithSum(a, b int32, isEdge bool) (int32, S) {
var e S // 不包含_singles[a]和_singles[b]
if bl.Depth[a] > bl.Depth[b] {
end, sum := bl.UpToDepthWithSum(a, bl.Depth[b], true)
a, e = end, sum
} else if bl.Depth[a] < bl.Depth[b] {
end, sum := bl.UpToDepthWithSum(b, bl.Depth[a], true)
b, e = end, sum
} else {
e = bl.e()
}
for a != b {
if bl.jump[a] == bl.jump[b] {
e = bl.op(e, bl.singles[a])
e = bl.op(e, bl.singles[b])
a = bl.Parent[a]
b = bl.Parent[b]
} else {
e = bl.op(e, bl.attachments[a])
e = bl.op(e, bl.attachments[b])
a = bl.jump[a]
b = bl.jump[b]
}
}
if !isEdge {
e = bl.op(e, bl.singles[a])
}
return a, e
}
func (bl *CompressedBinaryLiftWithSumDynamic) Jump(start, target, step int32) int32 {
lca := bl.Lca(start, target)
dep1, dep2, deplca := bl.Depth[start], bl.Depth[target], bl.Depth[lca]
dist := dep1 + dep2 - 2*deplca
if step > dist {
return -1
}
if step <= dep1-deplca {
return bl.KthAncestor(start, step)
}
return bl.KthAncestor(target, dist-step)
}
func (bl *CompressedBinaryLiftWithSumDynamic) InSubtree(maybeChild, maybeAncestor int32) bool {
return bl.Depth[maybeChild] >= bl.Depth[maybeAncestor] &&
bl.KthAncestor(maybeChild, bl.Depth[maybeChild]-bl.Depth[maybeAncestor]) == maybeAncestor
}
func (bl *CompressedBinaryLiftWithSumDynamic) Dist(a, b int32) int32 {
return bl.Depth[a] + bl.Depth[b] - 2*bl.Depth[bl.Lca(a, b)]
}
func assert() {
// 0
// / \
// 1 2
// / \ \
// 3 4 5
// /
// 6
n := int32(7)
edges := [][]int32{{0, 1}, {0, 2}, {1, 3}, {1, 4}, {2, 5}, {4, 6}}
tree := make([][]int32, n)
for _, e := range edges {
u, v := e[0], e[1]
tree[u] = append(tree[u], v)
tree[v] = append(tree[v], u)
}
values := []int{1, 1, 2, 3, 4, 5, 6}
bl := NewCompressedBinaryLiftWithSumDynamicWithRoot(n, 0, values[0])
var dfs func(int32, int32)
dfs = func(cur, pre int32) {
for _, next := range tree[cur] {
if next == pre {
continue
}
bl.AddLeaf(next, cur, values[next])
dfs(next, cur)
}
}
dfs(0, -1)
type pair struct {
node int32
sum S
}
// firstTrueWithSum
node, sum := bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 0 }, true)
expect(pair{node, sum}, pair{6, 0})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 6 }, true)
expect(pair{node, sum}, pair{4, 6})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 10 }, true)
expect(pair{node, sum}, pair{1, 10})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 11 }, true)
expect(pair{node, sum}, pair{0, 11})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 15 }, true)
expect(pair{node, sum}, pair{-1, 11})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 0 }, false)
expect(pair{node, sum}, pair{6, 6})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 6 }, false)
expect(pair{node, sum}, pair{6, 6})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 10 }, false)
expect(pair{node, sum}, pair{4, 10})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 11 }, false)
expect(pair{node, sum}, pair{1, 11})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 12 }, false)
expect(pair{node, sum}, pair{0, 12})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return sum >= 15 }, false)
expect(pair{node, sum}, pair{-1, 12})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return bl.Depth[i] <= 1 }, true)
expect(pair{node, sum}, pair{1, 10})
node, sum = bl.FirstTrueWithSum(6, func(i int32, sum S) bool { return bl.Depth[i] <= 1 }, false)
expect(pair{node, sum}, pair{1, 11})
// lastTrueWithSum
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= -1 }, true)
expect(pair{node, sum}, pair{-1, 0})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 0 }, true)
expect(pair{node, sum}, pair{6, 0})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 5 }, true)
expect(pair{node, sum}, pair{6, 0})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 6 }, true)
expect(pair{node, sum}, pair{4, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 7 }, true)
expect(pair{node, sum}, pair{4, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 10 }, true)
expect(pair{node, sum}, pair{1, 10})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 11 }, true)
expect(pair{node, sum}, pair{0, 11})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 12 }, true)
expect(pair{node, sum}, pair{0, 11})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 13 }, true)
expect(pair{node, sum}, pair{0, 11})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= -1 }, false)
expect(pair{node, sum}, pair{-1, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 0 }, false)
expect(pair{node, sum}, pair{-1, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 5 }, false)
expect(pair{node, sum}, pair{-1, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 6 }, false)
expect(pair{node, sum}, pair{6, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 7 }, false)
expect(pair{node, sum}, pair{6, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 10 }, false)
expect(pair{node, sum}, pair{4, 10})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 11 }, false)
expect(pair{node, sum}, pair{1, 11})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 12 }, false)
expect(pair{node, sum}, pair{0, 12})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return sum <= 13 }, false)
expect(pair{node, sum}, pair{0, 12})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return bl.Depth[i] >= 2 }, true)
expect(pair{node, sum}, pair{4, 6})
node, sum = bl.LastTrueWithSum(6, func(i int32, sum S) bool { return bl.Depth[i] >= 2 }, false)
expect(pair{node, sum}, pair{4, 10})
// upToDepthWithSum
type uptoDepthWithSumArgs struct {
root, toDepth int32
isEdge bool
}
args := []uptoDepthWithSumArgs{{6, 1, true}, {6, 1, false}, {6, 2, true}, {6, 2, false}, {6, 3, true}, {6, 3, false}, {6, 4, true}, {6, 4, false}}
expected := []pair{{1, 10}, {1, 11}, {4, 6}, {4, 10}, {6, 0}, {6, 6}, {-1, 0}, {-1, 0}}
for i, arg := range args {
node, sum := bl.UpToDepthWithSum(arg.root, arg.toDepth, arg.isEdge)
expect(pair{node, sum}, expected[i])
}
// kthAncestorWithSum
args = []uptoDepthWithSumArgs{{6, 0, true}, {6, 0, false}, {6, 1, true}, {6, 1, false}, {6, 2, true}, {6, 2, false}, {6, 3, true}, {6, 3, false}, {6, 4, true}, {6, 4, false}}
expected = []pair{{6, 0}, {6, 6}, {4, 6}, {4, 10}, {1, 10}, {1, 11}, {0, 11}, {0, 12}, {-1, 0}, {-1, 0}}
for i, arg := range args {
node, sum := bl.KthAncestorWithSum(arg.root, arg.toDepth, arg.isEdge)
expect(pair{node, sum}, expected[i])
}
// lcaWithSum
weigthSum := func(u, v int32, isEdge bool) S {
if bl.Depth[u] < bl.Depth[v] {
u, v = v, u
}
sum := bl.e()
for bl.Depth[u] > bl.Depth[v] {
sum = bl.op(sum, bl.singles[u])
u = bl.Parent[u]
}
for u != v {
sum = bl.op(sum, bl.singles[u])
sum = bl.op(sum, bl.singles[v])
u = bl.Parent[u]
v = bl.Parent[v]
}
if !isEdge {
sum = bl.op(sum, bl.singles[u])
}
return sum
}
for i := int32(0); i < int32(n); i++ {
for j := int32(0); j < int32(n); j++ {
lca := bl.Lca(i, j)
node, sum := bl.LcaWithSum(i, j, true)
expect(pair{node, sum}, pair{lca, weigthSum(i, j, true)})
node, sum = bl.LcaWithSum(i, j, false)
expect(pair{node, sum}, pair{lca, weigthSum(i, j, false)})
}
}
fmt.Println("pass")
}
func expect[S comparable](actual, expected S) {
if actual != expected {
panic(fmt.Sprintf("actual: %v, expected: %v", actual, expected))
}
}