A Simple Problem with Integers
| Time Limit: 5000MS | Memory Limit: 131072K | |
| Total Submissions: 86780 | Accepted: 26950 | |
| Case Time Limit: 2000MS | ||
Description
You have N integers, A1, A2, ... , AN. You need to deal with two kinds of operations. One type of operation is to add some given number to each number in a given interval. The other is to ask for the sum of numbers in a given interval.
Input
The first line contains two numbers N and Q. 1 ≤ N,Q ≤ 100000.
The second line contains N numbers, the initial values of A1, A2, ... , AN. -1000000000 ≤ Ai ≤ 1000000000.
Each of the next Q lines represents an operation.
"C a b c" means adding c to each of Aa, Aa+1, ... , Ab. -10000 ≤ c ≤ 10000.
"Q a b" means querying the sum of Aa, Aa+1, ... , Ab.
Output
You need to answer all Q commands in order. One answer in a line.
Sample Input
10 5 1 2 3 4 5 6 7 8 9 10 Q 4 4 Q 1 10 Q 2 4 C 3 6 3 Q 2 4
Sample Output
4 55 9 15
Hint
The sums may exceed the range of 32-bit integers.
Source
POJ Monthly--2007.11.25, Yang Yi
题目大意:给你n个数,m次询问。询问包括为区间内每个值增加c以及查询区间内所有值的和。
解题思路:延迟标记。保证当前值的正确性。lazy不能清空,应该累积,因为可能上次的lazy还没有向下推。
#include<stdio.h>
#include<vector>
#include<queue>
#include<string.h>
#include<algorithm>
using namespace std;
typedef long long LL;
const int maxn = 1e6+20;
const int INF = 0x3f3f3f3f;
const int mod = 1e9+7;
#define mid (L+R)/2
#define lson rt*2,L,mid
#define rson rt*2+1,mid+1,R
struct SegTree{
LL val, lazy;
}segs[maxn*4];
void PushUp(int rt){
segs[rt].val = segs[rt*2+1].val + segs[rt*2].val;
}
void PushDown(int rt,int L,int R){
if(segs[rt].lazy){
segs[rt*2].val += segs[rt].lazy*(mid-L +1); //保证当前的正确性
segs[rt*2+1].val += segs[rt].lazy*(R-mid);
segs[rt*2].lazy += segs[rt].lazy; //累积
segs[rt*2+1].lazy += segs[rt].lazy;
segs[rt].lazy = 0;
}
}
void buildtree(int rt,int L,int R){
segs[rt].val = 0;
segs[rt].lazy = 0;
if(L == R){
scanf("%lld",&segs[rt].val);
return ;
}
buildtree(lson);
buildtree(rson);
PushUp(rt);
}
//void Update(int rt,int L,int R,int _idx,int _val){
// if(L == R && L == _idx){
// segs[rt].val += _val;
// return ;
// }
// if(_idx <= mid)
// Update(lson,_idx,_val);
// else
// Update(rson,_idx,_val);
// PushUp(rt);
//}
LL query(int rt,int L,int R,int l_ran,int r_ran){
if(l_ran <= L&&R <= r_ran){
return segs[rt].val;
}
PushDown(rt,L,R);
LL ret = 0;
if(l_ran <= mid){
ret += query(lson,l_ran,r_ran);
}
if(r_ran > mid){
ret += query(rson,l_ran,r_ran);
}
PushUp(rt);
return ret;
}
void Update(int rt,int L,int R,int l_ran,int r_ran,LL chg){
if(l_ran <= L&&R <= r_ran){
segs[rt].val += chg*(R-L+1);
segs[rt].lazy += chg;
return ;
}
PushDown(rt,L,R);
if(l_ran <= mid)
Update(lson,l_ran,r_ran,chg);
if(r_ran > mid)
Update(rson,l_ran,r_ran,chg);
PushUp(rt);
}
int main(){
int n,m;
while(scanf("%d%d",&n,&m)!=EOF){
buildtree(1,1,n);
int l,r;
LL c;
char s[12];
for(int i = 1; i <= m; i++){
scanf("%s",s);
if(s[0]==‘Q‘){
scanf("%d%d",&l,&r);
LL ans = query(1,1,n,l,r);
printf("%lld\n",ans);
}else{
scanf("%d%d%lld",&l,&r,&c);
Update(1,1,n,l,r,c);
}
}
}
return 0;
}