hdoj4883TIANKENG’s restaurant
2015-12-20 21:11
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[align=left]Problem Description[/align]
TIANKENG manages a restaurant after graduating from ZCMU, and tens of thousands of customers come to have meal because of its delicious dishes. Today n groups of customers come to enjoy their meal, and there are Xi persons in the
ith group in sum. Assuming that each customer can own only one chair. Now we know the arriving time STi and departure time EDi of each group. Could you help TIANKENG calculate the minimum chairs he needs to prepare so that every customer can take a seat when
arriving the restaurant?
[align=left]Input[/align]
The first line contains a positive integer T(T<=100), standing for T test cases in all.
Each cases has a positive integer n(1<=n<=10000), which means n groups of customer. Then following n lines, each line there is a positive integer Xi(1<=Xi<=100), referring to the sum of the number of the ith group people, and the arriving time STi and departure
time Edi(the time format is hh:mm, 0<=hh<24, 0<=mm<60), Given that the arriving time must be earlier than the departure time.
Pay attention that when a group of people arrive at the restaurant as soon as a group of people leaves from the restaurant, then the arriving group can be arranged to take their seats if the seats are enough.
[align=left]Output[/align]
For each test case, output the minimum number of chair that TIANKENG needs to prepare.
[align=left]Sample Input[/align]
[align=left]Sample Output[/align]
TIANKENG manages a restaurant after graduating from ZCMU, and tens of thousands of customers come to have meal because of its delicious dishes. Today n groups of customers come to enjoy their meal, and there are Xi persons in the
ith group in sum. Assuming that each customer can own only one chair. Now we know the arriving time STi and departure time EDi of each group. Could you help TIANKENG calculate the minimum chairs he needs to prepare so that every customer can take a seat when
arriving the restaurant?
[align=left]Input[/align]
The first line contains a positive integer T(T<=100), standing for T test cases in all.
Each cases has a positive integer n(1<=n<=10000), which means n groups of customer. Then following n lines, each line there is a positive integer Xi(1<=Xi<=100), referring to the sum of the number of the ith group people, and the arriving time STi and departure
time Edi(the time format is hh:mm, 0<=hh<24, 0<=mm<60), Given that the arriving time must be earlier than the departure time.
Pay attention that when a group of people arrive at the restaurant as soon as a group of people leaves from the restaurant, then the arriving group can be arranged to take their seats if the seats are enough.
[align=left]Output[/align]
For each test case, output the minimum number of chair that TIANKENG needs to prepare.
[align=left]Sample Input[/align]
2 2 6 08:00 09:00 5 08:59 09:59 2 6 08:00 09:00 5 09:00 10:00
[align=left]Sample Output[/align]
11 6代码:#include<stdio.h> #include<iostream> #include<math.h> #include<string.h> #include<algorithm> using namespace std; int main() { int a[2000]; int T,m,i; scanf("%d",&T); while(T--) { int n,h1,h2,m1,m2; int sum1,sum2,maxx=0; scanf("%d",&m); memset(a,0,sizeof(a)); while(m--) { scanf("%d%d:%d%d:%d",&n,&h1,&m1,&h2,&m2); sum1=h1*60+m1; sum2=h2*60+m2; for(i=sum1;i<sum2;i++) { a[i]+=n; maxx=max(maxx,a[i]); } } printf("%d\n",maxx); } return 0; }思路:师傅出的贪心类型的题,第一次接触,做了好多次都不对,后来网上查了一下,有了这个代码,也看懂了,贪心大致就是将大问题从小问题中解决,比如这道题,就计算相同时间内最多人数就好了。
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