programming-examples/java/Data_Structures/HeavyLight.java

299 lines
8.5 KiB
Java
Raw Normal View History

2019-11-15 12:59:38 +01:00
import java.util.*;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.function.BiConsumer;
import java.util.stream.Stream;
// Heavy-light decomposition with path queries. Query complexity is O(log^2(n)).
// Based on the code from http://codeforces.com/blog/entry/22072
public class HeavyLight {
int getNeutralValue() {
return 0;
}
final List<Integer>[] tree;
final boolean valuesOnVertices; // true - values on vertices, false - values on edges
final SegmentTree segmentTree;
final int[] parent;
final int[] heavy;
final int[] depth;
final int[] pathRoot;
final int[] pos;
public HeavyLight(List<Integer>[] tree, boolean valuesOnVertices) {
this.tree = tree;
this.valuesOnVertices = valuesOnVertices;
int n = tree.length;
segmentTree = new SegmentTree(n);
parent = new int[n];
heavy = new int[n];
depth = new int[n];
pathRoot = new int[n];
pos = new int[n];
Arrays.fill(heavy, -1);
parent[0] = -1;
depth[0] = 0;
dfs(0);
for (int u = 0, p = 0; u < n; u++) {
if (parent[u] == -1 || heavy[parent[u]] != u) {
for (int v = u; v != -1; v = heavy[v]) {
pathRoot[v] = u;
pos[v] = p++;
}
}
}
}
int dfs(int u) {
int size = 1;
int maxSubtree = 0;
for (int v : tree[u]) {
if (v != parent[u]) {
parent[v] = u;
depth[v] = depth[u] + 1;
int subtree = dfs(v);
if (maxSubtree < subtree) {
maxSubtree = subtree;
heavy[u] = v;
}
size += subtree;
}
}
return size;
}
public int query(int u, int v) {
AtomicInteger res = new AtomicInteger(getNeutralValue()); // just mutable integer
processPath(u, v, (a, b) -> res.set(segmentTree.queryOperation(res.get(), segmentTree.query(a, b))));
return res.get();
}
public void modify(int u, int v, int delta) {
processPath(u, v, (a, b) -> segmentTree.modify(a, b, delta));
}
void processPath(int u, int v, BiConsumer<Integer, Integer> op) {
for (; pathRoot[u] != pathRoot[v]; v = parent[pathRoot[v]]) {
if (depth[pathRoot[u]] > depth[pathRoot[v]]) {
int t = u;
u = v;
v = t;
}
op.accept(pos[pathRoot[v]], pos[v]);
}
if (!valuesOnVertices && u == v) return;
op.accept(Math.min(pos[u], pos[v]) + (valuesOnVertices ? 0 : 1), Math.max(pos[u], pos[v]));
}
static class SegmentTree {
// Modify the following 5 methods to implement your custom operations on the tree.
// This example implements Add/Sum operations. Operations like Add/Max, Set/Max can also be implemented.
int modifyOperation(int x, int y) {
return x + y;
}
// query (or combine) operation
int queryOperation(int leftValue, int rightValue) {
return leftValue + rightValue;
}
int deltaEffectOnSegment(int delta, int segmentLength) {
if (delta == getNeutralDelta()) return getNeutralDelta();
// Here you must write a fast equivalent of following slow code:
// int result = delta;
// for (int i = 1; i < segmentLength; i++) result = queryOperation(result, delta);
// return result;
return delta * segmentLength;
}
int getNeutralDelta() {
return 0;
}
int getInitValue() {
return 0;
}
// generic code
int[] value;
int[] delta; // delta[i] affects value[i], delta[2*i+1] and delta[2*i+2]
int joinValueWithDelta(int value, int delta) {
if (delta == getNeutralDelta()) return value;
return modifyOperation(value, delta);
}
int joinDeltas(int delta1, int delta2) {
if (delta1 == getNeutralDelta()) return delta2;
if (delta2 == getNeutralDelta()) return delta1;
return modifyOperation(delta1, delta2);
}
void pushDelta(int i) {
int d = 0;
for (; (i >> d) > 0; d++) {
}
for (d -= 2; d >= 0; d--) {
int x = i >> d;
value[x >> 1] = joinNodeValueWithDelta(x >> 1, 1 << (d + 1));
delta[x] = joinDeltas(delta[x], delta[x >> 1]);
delta[x ^ 1] = joinDeltas(delta[x ^ 1], delta[x >> 1]);
delta[x >> 1] = getNeutralDelta();
}
}
public SegmentTree(int n) {
value = new int[2 * n];
for (int i = 0; i < n; i++) {
value[i + n] = getInitValue();
}
for (int i = 2 * n - 1; i > 1; i -= 2) {
value[i >> 1] = queryOperation(value[i], value[i ^ 1]);
}
delta = new int[2 * n];
Arrays.fill(delta, getNeutralDelta());
}
int joinNodeValueWithDelta(int i, int len) {
return joinValueWithDelta(value[i], deltaEffectOnSegment(delta[i], len));
}
public int query(int from, int to) {
from += value.length >> 1;
to += value.length >> 1;
pushDelta(from);
pushDelta(to);
int res = 0;
boolean found = false;
for (int len = 1; from <= to; from = (from + 1) >> 1, to = (to - 1) >> 1, len <<= 1) {
if ((from & 1) != 0) {
res = found ? queryOperation(res, joinNodeValueWithDelta(from, len)) : joinNodeValueWithDelta(from, len);
found = true;
}
if ((to & 1) == 0) {
res = found ? queryOperation(res, joinNodeValueWithDelta(to, len)) : joinNodeValueWithDelta(to, len);
found = true;
}
}
if (!found) throw new RuntimeException();
return res;
}
public void modify(int from, int to, int delta) {
from += value.length >> 1;
to += value.length >> 1;
pushDelta(from);
pushDelta(to);
int a = from;
int b = to;
for (; from <= to; from = (from + 1) >> 1, to = (to - 1) >> 1) {
if ((from & 1) != 0) {
this.delta[from] = joinDeltas(this.delta[from], delta);
}
if ((to & 1) == 0) {
this.delta[to] = joinDeltas(this.delta[to], delta);
}
}
for (int i = a, len = 1; i > 1; i >>= 1, len <<= 1) {
value[i >> 1] = queryOperation(joinNodeValueWithDelta(i, len), joinNodeValueWithDelta(i ^ 1, len));
}
for (int i = b, len = 1; i > 1; i >>= 1, len <<= 1) {
value[i >> 1] = queryOperation(joinNodeValueWithDelta(i, len), joinNodeValueWithDelta(i ^ 1, len));
}
}
}
// Random test
public static void main(String[] args) {
Random rnd = new Random(1);
for (int step = 0; step < 1000; step++) {
int n = rnd.nextInt(50) + 1;
List<Integer>[] tree = getRandomTree(n, rnd);
HeavyLight hl = new HeavyLight(tree, true);
int[] x = new int[n];
Arrays.fill(x, hl.segmentTree.getInitValue());
for (int i = 0; i < 1000; i++) {
int a = rnd.nextInt(n);
int b = rnd.nextInt(n);
List<Integer> path = new ArrayList<>();
getPathFromAtoB(tree, a, b, -1, path);
if (rnd.nextBoolean()) {
int delta = rnd.nextInt(50) - 100;
hl.modify(a, b, delta);
for (int u : path)
x[u] = hl.segmentTree.joinValueWithDelta(x[u], delta);
} else {
int res1 = hl.query(a, b);
int res2 = hl.getNeutralValue();
for (int u : path)
res2 = hl.segmentTree.queryOperation(res2, x[u]);
if (res1 != res2)
throw new RuntimeException();
}
}
}
for (int step = 0; step < 1000; step++) {
int n = rnd.nextInt(50) + 1;
List<Integer>[] tree = getRandomTree(n, rnd);
HeavyLight hl = new HeavyLight(tree, false);
Map<Long, Integer> x = new HashMap<>();
for (int u = 0; u < tree.length; u++)
for (int v : tree[u])
x.put(edge(u, v), hl.segmentTree.getInitValue());
for (int i = 0; i < 1000; i++) {
int a = rnd.nextInt(n);
int b = rnd.nextInt(n);
List<Integer> path = new ArrayList<>();
getPathFromAtoB(tree, a, b, -1, path);
if (rnd.nextBoolean()) {
int delta = rnd.nextInt(50) - 100;
hl.modify(a, b, delta);
for (int j = 0; j + 1 < path.size(); j++) {
long key = edge(path.get(j), path.get(j + 1));
x.put(key, hl.segmentTree.joinValueWithDelta(x.get(key), delta));
}
} else {
int res1 = hl.query(a, b);
int res2 = hl.getNeutralValue();
for (int j = 0; j + 1 < path.size(); j++) {
long key = edge(path.get(j), path.get(j + 1));
res2 = hl.segmentTree.queryOperation(res2, x.get(key));
}
if (res1 != res2)
throw new RuntimeException();
}
}
}
System.out.println("Test passed");
}
static long edge(int u, int v) {
return ((long) Math.min(u, v) << 16) + Math.max(u, v);
}
static boolean getPathFromAtoB(List<Integer>[] tree, int a, int b, int p, List<Integer> path) {
path.add(a);
if (a == b)
return true;
for (int u : tree[a])
if (u != p && getPathFromAtoB(tree, u, b, a, path))
return true;
path.remove(path.size() - 1);
return false;
}
static List<Integer>[] getRandomTree(int n, Random rnd) {
List<Integer>[] t = Stream.generate(ArrayList::new).limit(n).toArray(List[]::new);
int[] p = new int[n];
for (int i = 0, j; i < n; j = rnd.nextInt(i + 1), p[i] = p[j], p[j] = i, i++) ; // random permutation
for (int i = 1; i < n; i++) {
int parent = p[rnd.nextInt(i)];
t[parent].add(p[i]);
t[p[i]].add(parent);
}
return t;
}
}