首页 > 代码库 > 【BZOJ4099】Trapped in the Haybales STL
【BZOJ4099】Trapped in the Haybales STL
【BZOJ4099】Trapped in the Haybales
Description
Farmer John has received a shipment of N large hay bales (1≤N≤100,000), and placed them at various locations along the road leading to his barn. Unfortunately, he completely forgets that Bessie the cow is out grazing along the road, and she may now be trapped within the bales!
Each bale j has a size Sj and a position Pj giving its location along the one-dimensional road. Bessie the cow can move around freely along the road, even up to the position at which a bale is located, but she cannot cross through this position. As an exception, if she runs in the same direction for D units of distance, she builds up enough speed to break through and permanently eliminate any hay bale of size strictly less than D. Of course, after doing this, she might open up more space to allow her to make a run at other hay bales, eliminating them as well.
Bessie can escape to freedom if she can eventually break through either the leftmost or rightmost hay bale. Please compute the total area of the road consisting of real-valued starting positions from which Bessie cannot escape.
农民约翰收到了N个干草包(1≤N≤100000),并将它们放置在一条道路上的
不同位置。不幸的是,他忘记了贝西是沿着道路放牧,她现在可能被困在干
草包里了!
每个包有一个大小Sj和位置Pj。贝西可以沿着道路自由走动,甚至可以
到达一捆草包所在的位置,但她必须通过这个位置。如果她向同一方向跑D单
位的距离,她就可以突破大小严格小于D的干草包。当然,这样做后她就可以
开发出更广阔的空间,突破其他干草包。
如果贝西可以突破最左边或最右边的干草包,她就可以重获新生。请计
算贝西无法逃脱的道路的面积。
Input
The first line of input contains N. Each of the next N lines describes a bale, and contains two integers giving its size and position, each in the range 1…10^9. All positions are distinct.
输入的第一行包含一个整数N。以下N行每行描述一捆干草包,包含两个
整数,分别表示它的大小和位置,每个数的范围是1...10^9。所有的位置是不同
的。
Output
Print a single integer, giving the area of the road from which Bessie cannot escape.
输出一个整数,表示贝西无法逃脱的道路面积。
Sample Input
5
8 1
1 4
8 8
7 15
4 20
8 1
1 4
8 8
7 15
4 20
Sample Output
14
题解:这种思路题果然难搞,无奈上官网看的题解。
如果我们将干草堆按坐标排序,对于某段区间[i,j],加入Bessie能突破[i+1,j-1]内的所有干草,但是就是突破不了[i,j],那就说明[i,j]里面一定没有比i,j更大的干草堆
因此,我们将干草堆按大小从大到小排序,一个一个加到坐标轴上,每加入一个干草堆,就找到它的前驱和后继,并分别判断这两段区间能否突破,如果不能,将区间标记一下就好了(我比较懒用的差分数组来打标记)
前驱后继可以用set来维护,但注意查询到前驱后继时我们还需要知道前驱后继的干草堆大小,这个记录一下排在第i位(按坐标排序)的干草堆编号就行了
#include <cstdio> #include <iostream> #include <set> #include <algorithm> using namespace std; const int maxn=100010; int h[maxn],x[maxn],rx[maxn],rh[maxn]; bool cmp1(int a,int b) { return x[a]<x[b]; } bool cmp2(int a,int b) { return h[a]>h[b]; } int s[maxn],sum; int n,ref[maxn],ans; set <int> ms; int main() { scanf("%d",&n); int i,j; for(i=1;i<=n;i++) scanf("%d%d",&h[i],&x[i]),rx[i]=rh[i]=i; //rx,rh存储的其实是编号,我们是在将编号排序 sort(rx+1,rx+n+1,cmp1); for(i=1;i<=n;i++) { ref[i]=x[rx[i]]; x[rx[i]]=i; } sort(rh+1,rh+n+1,cmp2); set<int>::iterator it; for(i=1;i<=n;i++) { it=ms.lower_bound(x[rh[i]]); if(it!=ms.begin()&&!ms.empty()) { it--; j=rx[*it]; if(ref[x[rh[i]]]-ref[x[j]]<=min(h[rh[i]],h[j])) { s[x[j]]++; s[x[rh[i]]]--; } } it=ms.upper_bound(x[rh[i]]); if(it!=ms.end()) { j=rx[*it]; if(ref[x[j]]-ref[x[rh[i]]]<=min(h[rh[i]],h[j])) { s[x[rh[i]]]++; s[x[j]]--; } } ms.insert(x[rh[i]]); } for(i=1;i<=n;i++) { ans+=(sum>0)*(ref[i]-ref[i-1]); sum+=s[i]; } printf("%d",ans); return 0; }
【BZOJ4099】Trapped in the Haybales STL
声明:以上内容来自用户投稿及互联网公开渠道收集整理发布,本网站不拥有所有权,未作人工编辑处理,也不承担相关法律责任,若内容有误或涉及侵权可进行投诉: 投诉/举报 工作人员会在5个工作日内联系你,一经查实,本站将立刻删除涉嫌侵权内容。