12tqian's Competitive Programming Library
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library/data-structures/1d-range-queries/affine-segment-tree.hpp
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- Last update: 2022-07-21 16:12:33-04:00
- Include:
#include "library/data-structures/1d-range-queries/affine-segment-tree.hpp"
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Code
#pragma once
template <class T> struct AffineSegmentTree {
int sz;
std::vector<T> sum, mult, add;
void push(int ind, int L, int R) { // modify values for current node
sum[ind] *= mult[ind]; sum[ind] += (R - L + 1) * add[ind];
if (L != R) {
mult[2 * ind] *= mult[ind]; mult[2 * ind + 1] *= mult[ind];
add[2 * ind] *= mult[ind]; add[2 * ind] += add[ind];
add[2 * ind + 1] *= mult[ind]; add[2 * ind + 1] += add[ind];
}
add[ind] = 0; mult[ind] = 1;
}
void init(int n) {
sz = 1;
while (sz < n) sz *= 2;
mult.assign(2 * sz, 1);
sum.assign(2 * sz, 0);
add.assign(2 * sz, 0);
}
void pull(int ind) {
sum[ind] = sum[2 * ind] + sum[2 * ind + 1];
}
// t == 0 is add, t == 1 is for multiplying
void upd(int t, int lo, int hi, T inc, int ind = 1, int L = 0, int R = -1) {
if (R == -1) R += sz;
push(ind, L, R);
if (hi < L || R < lo) return;
if (lo <= L && R <= hi) {
if(t == 0) add[ind] = inc;
else mult[ind] = inc;
push(ind, L, R); return;
}
int M = (L + R) / 2;
upd(t, lo, hi, inc, 2 * ind, L, M); upd(t, lo, hi, inc, 2 * ind + 1, M + 1, R);
pull(ind);
}
T qsum(int lo, int hi, int ind = 1, int L = 0, int R = -1) {
if (R == -1) R += sz;
push(ind, L, R);
if (lo > R || L > hi) return 0;
if (lo <= L && R <= hi) return sum[ind];
int M = (L + R) / 2;
return qsum(lo, hi, 2 * ind, L, M) + qsum(lo, hi, 2 * ind + 1, M + 1, R);
}
};template <class T> struct AffineSegmentTree {
int sz;
std::vector<T> sum, mult, add;
void push(int ind, int L, int R) { // modify values for current node
sum[ind] *= mult[ind]; sum[ind] += (R - L + 1) * add[ind];
if (L != R) {
mult[2 * ind] *= mult[ind]; mult[2 * ind + 1] *= mult[ind];
add[2 * ind] *= mult[ind]; add[2 * ind] += add[ind];
add[2 * ind + 1] *= mult[ind]; add[2 * ind + 1] += add[ind];
}
add[ind] = 0; mult[ind] = 1;
}
void init(int n) {
sz = 1;
while (sz < n) sz *= 2;
mult.assign(2 * sz, 1);
sum.assign(2 * sz, 0);
add.assign(2 * sz, 0);
}
void pull(int ind) {
sum[ind] = sum[2 * ind] + sum[2 * ind + 1];
}
// t == 0 is add, t == 1 is for multiplying
void upd(int t, int lo, int hi, T inc, int ind = 1, int L = 0, int R = -1) {
if (R == -1) R += sz;
push(ind, L, R);
if (hi < L || R < lo) return;
if (lo <= L && R <= hi) {
if(t == 0) add[ind] = inc;
else mult[ind] = inc;
push(ind, L, R); return;
}
int M = (L + R) / 2;
upd(t, lo, hi, inc, 2 * ind, L, M); upd(t, lo, hi, inc, 2 * ind + 1, M + 1, R);
pull(ind);
}
T qsum(int lo, int hi, int ind = 1, int L = 0, int R = -1) {
if (R == -1) R += sz;
push(ind, L, R);
if (lo > R || L > hi) return 0;
if (lo <= L && R <= hi) return sum[ind];
int M = (L + R) / 2;
return qsum(lo, hi, 2 * ind, L, M) + qsum(lo, hi, 2 * ind + 1, M + 1, R);
}
};