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hdu 4864 Task
Task
Time Limit: 4000/2000 MS (Java/Others) Memory Limit: 32768/32768 K (Java/Others)Total Submission(s): 2108 Accepted Submission(s): 536
Problem Description
Today the company has m tasks to complete. The ith task need xi minutes to complete. Meanwhile, this task has a difficulty level yi. The machine whose level below this task’s level yi cannot complete this task. If the company completes this task, they will get (500*xi+2*yi) dollars.
The company has n machines. Each machine has a maximum working time and a level. If the time for the task is more than the maximum working time of the machine, the machine can not complete this task. Each machine can only complete a task one day. Each task can only be completed by one machine.
The company hopes to maximize the number of the tasks which they can complete today. If there are multiple solutions, they hopes to make the money maximum.
The company has n machines. Each machine has a maximum working time and a level. If the time for the task is more than the maximum working time of the machine, the machine can not complete this task. Each machine can only complete a task one day. Each task can only be completed by one machine.
The company hopes to maximize the number of the tasks which they can complete today. If there are multiple solutions, they hopes to make the money maximum.
Input
The input contains several test cases.
The first line contains two integers N and M. N is the number of the machines.M is the number of tasks(1 < =N <= 100000,1<=M<=100000).
The following N lines each contains two integers xi(0<xi<1440),yi(0=<yi<=100).xi is the maximum time the machine can work.yi is the level of the machine.
The following M lines each contains two integers xi(0<xi<1440),yi(0=<yi<=100).xi is the time we need to complete the task.yi is the level of the task.
The first line contains two integers N and M. N is the number of the machines.M is the number of tasks(1 < =N <= 100000,1<=M<=100000).
The following N lines each contains two integers xi(0<xi<1440),yi(0=<yi<=100).xi is the maximum time the machine can work.yi is the level of the machine.
The following M lines each contains two integers xi(0<xi<1440),yi(0=<yi<=100).xi is the time we need to complete the task.yi is the level of the task.
Output
For each test case, output two integers, the maximum number of the tasks which the company can complete today and the money they will get.
Sample Input
1 2 100 3 100 2 100 1
Sample Output
1 50004
Author
FZU
Source
2014 Multi-University Training Contest 1
题解:比赛的时候,看了看过的队伍很多,但是正确率却很低,自己也没出这道题。比赛后看了题解才做出来的。
题解的意思就是----每完成一件任务,获得利润=500*t+2*w,这里w的范围是1-100,最大值W=200<500对于整体利润的影响很小,所以对任务和时间均按照t递减排序,t相同按照w递减排序。然后从第一件任务开始遍历,找出所有能够解决这项任务的机器,并挑出工作时间最少,并且等级最低的那台来完成这项任务,以此类推,直到所有任务都完成。
为什么要这样安排呢?任务排序之后,后边的任务的一部分是时间与当前任务时间相同,但任务等级低的,能过解决当前任务的机器比人能够完成剩下的任务;另外一部分是时间比当前任务短,任务等级比当前任务高的,假设我挑走一台等级高机器,这台机器能完成这两项任务,另外存在一台机器等级低的机器只能完成当前任务,如果我用等级高的那台来完成当前任务的话,后来的任务就不能完成了,所以我要选择等级低但是能完成当前任务的那台机器;第三种情况,时间短,任务等级低的,能够完成当前任务的那些机器必然能用来完成这些任务。
#include <iostream> #include <cstdio> #include <cstring> #include <algorithm> using namespace std; typedef __int64 LL; struct node{ int x,y; }l[100010],r[100010]; bool cmp(node a,node b) { if(a.x!=b.x) return a.x>b.x; return a.y>b.y; } int main() { int m,n; while(scanf("%d%d",&m,&n)!=EOF) { for(int i=0;i<m;i++) scanf("%d%d",&l[i].x,&l[i].y); for(int j=0;j<n;j++) scanf("%d%d",&r[j].x,&r[j].y); sort(l,l+m,cmp); sort(r,r+n,cmp); LL ans=0,num=0; int c[110],i,j; memset(c,0,sizeof(c)); for(i=0,j=0;i<n;i++) { while(j<m&&l[j].x>=r[i].x) { c[l[j].y]++; j++; } for(int k=r[i].y;k<=100;k++) { if(c[k]) { c[k]--; num++; ans+=500*r[i].x+2*r[i].y; break; } } } printf("%I64d %I64d\n",num,ans); } return 0; }
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