Berland annual chess tournament is coming!
Organizers have gathered 2·n chess players who should be divided into two teams with n people each. The first team is sponsored by BerOil and the second team is sponsored by BerMobile. Obviously, organizers should guarantee the win for the team of BerOil.
Thus, organizers should divide all 2·n players into two teams with n people each in such a way that the first team always wins.
Every chess player has its rating ri. It is known that chess player with the greater rating always wins the player with the lower rating. If their ratings are equal then any of the players can win.
After teams assignment there will come a drawing to form n pairs of opponents: in each pair there is a player from the first team and a player from the second team. Every chess player should be in exactly one pair. Every pair plays once. The drawing is totally random.
Is it possible to divide all 2·n players into two teams with n people each so that the player from the first team in every pair wins regardlessof the results of the drawing?
The first line contains one integer n (1 ≤ n ≤ 100).
The second line contains 2·n integers a1, a2, ... a2n (1 ≤ ai ≤ 1000).
If it's possible to divide all 2·n players into two teams with n people each so that the player from the first team in every pair wins regardless of the results of the drawing, then print "YES". Otherwise print "NO".
题意 给你2*n个数 让你选择n个数 然后 必须使得 选的n个数 比没选的n个数里面的数都要大
就很基本 sort一下 比较一下1-n 中最大的 和 n+1 到2*n中最小的 是否相等
#include<bits/stdc++.h>
using namespace std;
typedef long long ll; int s[];
int main ()
{
int n;
cin>>n;
for(int i=;i<=*n;i++)
cin>>s[i];
sort(s+,s+*n+);
if(s[n]==s[n+])
puts("NO");
else
puts("YES");
}
Luba has a ticket consisting of 6 digits. In one move she can choose digit in any position and replace it with arbitrary digit. She wants to know the minimum number of digits she needs to replace in order to make the ticket lucky.
The ticket is considered lucky if the sum of first three digits equals to the sum of last three digits.
You are given a string consisting of 6 characters (all characters are digits from 0 to 9) — this string denotes Luba's ticket. The ticket can start with the digit 0.
Print one number — the minimum possible number of digits Luba needs to replace to make the ticket lucky.
#include<bits/stdc++.h>
using namespace std; char a[],b[]; int main ()
{
for(int i=;i<;i++)
cin>>a[i];
for(int i=;i<;i++)
cin>>b[i];
sort(a,a+);sort(b,b+); int s1=,s2=;
for(int i=;i<;i++)
s1+=a[i],s2+=b[i];
if(s1 == s2)//0的情况
{
puts("");
return ;
}
if(s1 > s2)//1的情况
{
int mx = max(''-b[],a[]-'');
//cout << '9'-b[0]<<endl;
//cout<<a[0]-'0'<<endl;
if(s1 - s2 <= mx)
{
puts("");
return ;
}
}
if(s2 > s1)
{
int mx = max(''-a[],b[]-'');
if(s2 - s1 <= mx)
{
puts("");
return ;
}
}
if(s1 < s2)
{
int mx = max(''-a[] + b[]-'',max(''-a[]+''-a[],b[]-''+b[]-'')); if(s2-s1 <= mx)
{
puts("");
return ;
}
}
if(s2 < s1)
{
int mx = max(''-b[] + a[]-'',max(''-b[]+''-b[],a[]+a[]-''-''));
if(s1-s2 <= mx)
{
puts("");
return ;
}
}
puts("");
}
//都是知识盲区 抓紧补
#include<bits/stdc++.h>
using namespace std;
char s[];
int num[]; bool cmp(int a,int b)
{
return a>b;
}
int main ()
{
int s1 =,s2 = ;
cin>>s;
for(int i=;i<;i++)
s1+= s[i] -'';
for(int i=;i<;i++)
s2+= s[i] -'';
if(s1 == s2)
{
puts("");
return ;
}
if(s1 > s2) //前面数字大 大的要尽量变0 小的尽量变9
{
for(int i=;i<;i++)
num[i] = s[i]-'' - ;
for(int i=;i<;i++)
num[i] = - (s[i]-'');
sort(num,num+,cmp);
for(int i=;i<;i++)
num[i] += num[i-];
for(int i=;i<;i++)
{
if(num[i] >= s1-s2)
{
cout << i+<<endl;
return ;
}
}
}
if(s2 > s1)
{
for(int i=;i<;i++)
num[i] = -(s[i]-'');
for(int i=;i<;i++)
num[i] = (s[i]-'')-;
sort(num,num+,cmp);
for(int i=;i<;i++)
num[i] += num[i-]; for(int i=;i<;i++)
{
if(num[i] >= s2-s1)
{
cout << i+<<endl;
return ;
}
}
}
}
Polycarp is a great fan of television.
He wrote down all the TV programs he is interested in for today. His list contains n shows, i-th of them starts at moment li and ends at moment ri.
Polycarp owns two TVs. He can watch two different shows simultaneously with two TVs but he can only watch one show at any given moment on a single TV. If one show ends at the same moment some other show starts then you can't watch them on a single TV.
Polycarp wants to check out all n shows. Are two TVs enough to do so?
The first line contains one integer n (1 ≤ n ≤ 2·105) — the number of shows.
Each of the next n lines contains two integers li and ri (0 ≤ li < ri ≤ 109) — starting and ending time of i-th show.
If Polycarp is able to check out all the shows using only two TVs then print "YES" (without quotes). Otherwise, print "NO" (without quotes).
题意:题目大概能看懂的吧 一个小trick 就是 一个结束和一个开始的时间重合的话,是不可以使用相同的电视的
//感觉像是模拟
#include<bits/stdc++.h>
using namespace std;
const int maxn = 2e5+;
int n;
struct node
{
int l,r;
bool operator<(const node& a)const
{
return l < a.l;
}
}s[maxn];
priority_queue<int,vector<int>,greater<int> >s1,s2; int main ()
{
cin>>n;
for(int i=;i<=n;i++)
cin>>s[i].l >> s[i].r;
sort(s+,s+n+); for(int i=;i<=n;i++)
{
if(s1.empty())
{
s1.push(s[i].r);
continue;
}
if(s2.empty())
{
s2.push(s[i].r);
continue;
}
int now1 = s1.top();
if(now1 < s[i].l)
{
s1.pop();
s1.push(s[i].r);
continue;
}
int now2 = s2.top();
if(now2 < s[i].l)
{
s2.pop();
s2.push(s[i].r);
continue;
}
puts("NO");return ;
}
puts("YES");
}