Hi, I am on my adventure to solve CSES problem set. I found this nice editorial for Range Query section ↵
[here](https://codeforces.me/blog/entry/77128)↵
↵
But i guess some new problems were added or were skipped there. I am struggling in one such problem. [here](https://cses.fi/problemset/task/2206)↵
Any hint/approach will be highly appreciated!↵
↵
EDIT: Yay AC ! I tried to code it as simple as possible.↵
↵
<spoiler summary="AC solution">↵
↵
~~~~~↵
#include<iostream>↵
#include<map>↵
#include<vector>↵
#include<climits>↵
#include<queue>↵
#include<cmath>↵
#include<stack>↵
#include<string>↵
#include<algorithm>↵
#define pb push_back↵
#define N (lli)(1e6)↵
#define lli long long int↵
#define mod (lli)(1e9+7)↵
#define INF (11)↵
#define fast_io ios_base::sync_with_stdio(false);cin.tie(NULL)↵
#define pb push_back↵
using namespace std;↵
↵
void buildTree1(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli index)↵
{↵
if(ns==ne)↵
{↵
tree[index] = arr[ns]+ns;↵
return;↵
}↵
↵
lli mid = (ns+ne)/2;↵
buildTree1(arr,tree,ns,mid,2*index);↵
buildTree1(arr,tree,mid+1,ne,2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void buildTree2(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli index)↵
{↵
if(ns==ne)↵
{↵
tree[index] = arr[ns] - ns;↵
return;↵
}↵
↵
lli mid = (ns+ne)/2;↵
buildTree2(arr,tree,ns,mid,2*index);↵
buildTree2(arr,tree,mid+1,ne,2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void update1(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli toUpd,lli updVal,lli index)↵
{↵
// no overlap↵
if(ne<toUpd or ns>toUpd) return;↵
↵
// complete overlap↵
if(ns==ne)↵
{↵
tree[index] = updVal + ns;↵
return;↵
}↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
update1(arr, tree, ns, mid, toUpd, updVal, 2*index);↵
update1(arr, tree, mid+1, ne, toUpd, updVal, 2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void update2(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli toUpd,lli updVal,lli index)↵
{↵
// no overlap↵
if(ne<toUpd or ns>toUpd) return;↵
↵
// complete overlap↵
if(ns==ne)↵
{↵
tree[index] = updVal - ns;↵
return;↵
}↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
update2(arr, tree, ns, mid, toUpd, updVal, 2*index);↵
update2(arr, tree, mid+1, ne, toUpd, updVal, 2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
↵
lli query(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli l ,lli r,lli index)↵
{↵
// no overlap↵
if(r<ns or l>ne) return LLONG_MAX;↵
↵
↵
// complete overlap↵
if(l<=ns and ne<=r) return tree[index];↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
lli left = query(arr, tree, ns, mid, l, r, 2*index);↵
lli right = query(arr,tree,mid+1,ne,l,r,2*index+1);↵
return min(left,right);↵
}↵
↵
↵
int main()↵
{↵
lli n,q;↵
cin>>n>>q;↵
vector<lli>arr(n);↵
for(lli i=0;i<n;i++) cin>>arr[i];↵
vector<lli>tree1(4*n+1);↵
vector<lli>tree2(4*n+1);↵
↵
buildTree1(arr, tree1, 0, n-1, 1);↵
buildTree2(arr, tree2, 0, n-1, 1);↵
↵
lli t,a,b;↵
while(q--)↵
{↵
cin>>t;↵
if(t==2)↵
{↵
cin>>a;↵
lli left = query(arr, tree2, 0, n-1, 1, a-1, 1);↵
lli right = query(arr,tree1,0,n-1,a-1,n-1,1);↵
cout<<min(left+(a-1),right-(a-1))<<endl;↵
↵
}↵
else↵
{↵
cin>>a>>b;↵
update1(arr, tree1, 0, n-1, a-1, b,1);↵
update2(arr,tree2,0,n-1,a-1,b,1);↵
}↵
}↵
↵
}↵
~~~~~↵
↵
↵
↵
</spoiler>↵
↵
[here](https://codeforces.me/blog/entry/77128)↵
↵
But i guess some new problems were added or were skipped there. I am struggling in one such problem. [here](https://cses.fi/problemset/task/2206)↵
Any hint/approach will be highly appreciated!↵
↵
EDIT: Yay AC ! I tried to code it as simple as possible.↵
↵
<spoiler summary="AC solution">↵
↵
~~~~~↵
#include<iostream>↵
#include<map>↵
#include<vector>↵
#include<climits>↵
#include<queue>↵
#include<cmath>↵
#include<stack>↵
#include<string>↵
#include<algorithm>↵
#define pb push_back↵
#define N (lli)(1e6)↵
#define lli long long int↵
#define mod (lli)(1e9+7)↵
#define INF (11)↵
#define fast_io ios_base::sync_with_stdio(false);cin.tie(NULL)↵
#define pb push_back↵
using namespace std;↵
↵
void buildTree1(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli index)↵
{↵
if(ns==ne)↵
{↵
tree[index] = arr[ns]+ns;↵
return;↵
}↵
↵
lli mid = (ns+ne)/2;↵
buildTree1(arr,tree,ns,mid,2*index);↵
buildTree1(arr,tree,mid+1,ne,2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void buildTree2(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli index)↵
{↵
if(ns==ne)↵
{↵
tree[index] = arr[ns] - ns;↵
return;↵
}↵
↵
lli mid = (ns+ne)/2;↵
buildTree2(arr,tree,ns,mid,2*index);↵
buildTree2(arr,tree,mid+1,ne,2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void update1(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli toUpd,lli updVal,lli index)↵
{↵
// no overlap↵
if(ne<toUpd or ns>toUpd) return;↵
↵
// complete overlap↵
if(ns==ne)↵
{↵
tree[index] = updVal + ns;↵
return;↵
}↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
update1(arr, tree, ns, mid, toUpd, updVal, 2*index);↵
update1(arr, tree, mid+1, ne, toUpd, updVal, 2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
void update2(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli toUpd,lli updVal,lli index)↵
{↵
// no overlap↵
if(ne<toUpd or ns>toUpd) return;↵
↵
// complete overlap↵
if(ns==ne)↵
{↵
tree[index] = updVal - ns;↵
return;↵
}↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
update2(arr, tree, ns, mid, toUpd, updVal, 2*index);↵
update2(arr, tree, mid+1, ne, toUpd, updVal, 2*index+1);↵
tree[index] = min(tree[2*index],tree[2*index+1]);↵
}↵
↵
↵
lli query(vector<lli>&arr,vector<lli>&tree,lli ns,lli ne,lli l ,lli r,lli index)↵
{↵
// no overlap↵
if(r<ns or l>ne) return LLONG_MAX;↵
↵
↵
// complete overlap↵
if(l<=ns and ne<=r) return tree[index];↵
↵
// partial overlap↵
lli mid = (ns+ne)/2;↵
lli left = query(arr, tree, ns, mid, l, r, 2*index);↵
lli right = query(arr,tree,mid+1,ne,l,r,2*index+1);↵
return min(left,right);↵
}↵
↵
↵
int main()↵
{↵
lli n,q;↵
cin>>n>>q;↵
vector<lli>arr(n);↵
for(lli i=0;i<n;i++) cin>>arr[i];↵
vector<lli>tree1(4*n+1);↵
vector<lli>tree2(4*n+1);↵
↵
buildTree1(arr, tree1, 0, n-1, 1);↵
buildTree2(arr, tree2, 0, n-1, 1);↵
↵
lli t,a,b;↵
while(q--)↵
{↵
cin>>t;↵
if(t==2)↵
{↵
cin>>a;↵
lli left = query(arr, tree2, 0, n-1, 1, a-1, 1);↵
lli right = query(arr,tree1,0,n-1,a-1,n-1,1);↵
cout<<min(left+(a-1),right-(a-1))<<endl;↵
↵
}↵
else↵
{↵
cin>>a>>b;↵
update1(arr, tree1, 0, n-1, a-1, b,1);↵
update2(arr,tree2,0,n-1,a-1,b,1);↵
}↵
}↵
↵
}↵
~~~~~↵
↵
↵
↵
</spoiler>↵
↵