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Kirigaya Kazuto 2016-08-15 17:56:58 +08:00 committed by GitHub
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/// General includes
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <algorithm>
using namespace std;
/// 延迟更新: 区间运算更新(加法), 区间运算(求和)
namespace LazySegmentTree
{
const int MAXN = 100100;
const int MAXTREENODE = MAXN << 2;
struct node
{
int lt,rt;
int val;
int add;
};
node tree[MAXTREENODE];
void _internal_PushUp(int _indexer)
{
tree[_indexer].val=tree[_indexer<<1].val+tree[_indexer<<1|1].val;
}
void _internal_PushDown(int _indexer)
{
if(tree[_indexer].add!=0)
{
/// Broadcast this add value to Left and Right sub-tree node.
tree[_indexer<<1].add+=tree[_indexer].add;
tree[_indexer<<1|1].add+=tree[_indexer].add;
/// Confirm this change by calculate and add changes to sub-trees.
tree[_indexer<<1].val+=tree[_indexer].add * (tree[_indexer<<1].rt-tree[_indexer<<1].lt+1);
tree[_indexer<<1|1].val+=tree[_indexer].add *(tree[_indexer<<1|1].rt-tree[_indexer<<1|1].lt+1);
/// Now Clear this node's add value.
tree[_indexer].add=0;
}
}
void build(int L,int R,int _indexer=1)
{
tree[_indexer].lt=L;
tree[_indexer].rt=R;
tree[_indexer].add=0;/// This must be set to 0.
if(L==R)
{
//scanf("%d",&tree[_indexer].val);
tree[_indexer].val = 0;
return;
}
int mid=(L+R)>>1;
build(L,mid,_indexer<<1);
build(mid+1,R,_indexer<<1|1);
/// Update this val from down to up. (>.<)
_internal_PushUp(_indexer);
}
void update(int L,int R,int ValToAdd,int _indexer=1)
{
/// Return when L or R exceeds range. So smart !
if(R<tree[_indexer].lt||L>tree[_indexer].rt) return;
if(L<=tree[_indexer].lt&&R>=tree[_indexer].rt)
{
/// This range is covered. So just add the 'add' value, which is called "LAZY"
tree[_indexer].add+=ValToAdd;
tree[_indexer].val+=ValToAdd*(tree[_indexer].rt-tree[_indexer].lt+1);
return;
}
_internal_PushDown(_indexer);
/// This ... Hum.. Seems not so clever...
update(L,R,ValToAdd,_indexer<<1);
update(L,R,ValToAdd,_indexer<<1|1);
_internal_PushUp(_indexer);
}
int ans;
void basic_query(int L,int R,int _indexer=1)
{
/// Data to find is not in this range.
if(R<tree[_indexer].lt||L>tree[_indexer].rt) return;
/// Data to find is right in this range , or covers this range.
if(L<=tree[_indexer].lt&&R>=tree[_indexer].rt)
{
ans+=tree[_indexer].val;
return ;
}
_internal_PushDown(_indexer);
int mid=(tree[_indexer].lt+tree[_indexer].rt)>>1;
if(R<=mid)
basic_query(L,R,_indexer<<1);
else if(L>mid)
basic_query(L,R,_indexer<<1|1);
else
{
basic_query(L,mid,_indexer<<1);
basic_query(mid+1,R,_indexer<<1|1);
}
}
int query(int L,int R)
{
ans=0;
basic_query(L,R);
return ans;
}
}/// End of namespace LazySegmentTree
int main()
{
int n;
while(scanf("%d",&n)==1&&n!=0)
{
LazySegmentTree::build(1,n);
int x,y;
for(int i=0;i<n;i++)
{
scanf("%d %d",&x,&y);
LazySegmentTree::update(x,y,1);
}
printf("%d",LazySegmentTree::query(1,1));
for(int i=2;i<=n;i++)
{
printf(" %d",LazySegmentTree::query(i,i));
}
printf("\n");
}
return 0;
}