[题解]2018湘潭邀请赛
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A.Easy h-index
题目描述
Bobo has published many papers. Given a0, a1, a2 ,..., an which means Bobo has published a i papers with citations exactly i , ?nd the h-index of Bobo.
输入
The first line of each test case contains an integer n . The second line contains ( n + 1) integers a0 , a1 , ... , an .
输出
• 1 ≤ n ≤ 2 · 105
• 0 ≤ ai ≤ 109
• The sum of n does not exceed 250,000.
样例输入
1
1 2
2
1 2 3
3
0 0 0 0
样例输出
1 2 0
题意:给定被引用次数为0~n的论文分别有几张,找到最大的h,满足被引用次数大于等于h的论文至少有h张
思路:在区间[0,n]内二分答案;或直接从n~0遍历找到第一个满足条件的h
AC代码:
#include <iostream> #include<cstdio> #include<algorithm> typedef long long ll; using namespace std; ll n; ll a[200010]; bool ok(ll x){ ll cnt=0;//cnt的值可能会爆int for(ll i=0;i<=n;i++) if(i>=x) cnt+=a[i]; if(cnt>=x) return true; return false; } int main() { while(cin>>n){ for(ll i=0;i<=n;i++){ cin>>a[i]; } ll l=0,r=n; while(l<=r){ ll mid=(l+r)/2; if(ok(mid)) l=mid+1; else r=mid-1; } cout<<r<<endl; } return 0; }
B.Higher h-index
题目描述
Bobo has no papers and he is going to publish some subsequently. If he works on a paper for x hours, the paper will get (a·x ) citations from other other persons, where a is a known constant. It’s clear that x should be a positive integer.
There is also a trick – one can cite his own papers published earlier.
Given Bobo has n working hours, ?nd the maximum h-index of him.
输入
Each test case contains two integers n and a .
输出
• 1 ≤ n ≤ 109
• 0 ≤ a ≤ n
• The number of test cases does not exceed 104 .
样例输入
3 0
3 1
1000000000 1000000000
样例输出
1
2
1000000000
提示
For the ?rst sample, Bobo can work 3 papers for 1 hour each. With the trick mentioned, he will get papers with citations 2 , 1 , 0. Thus, his h-index is 1.
For the second sample, Bobo can work 2 papers for 1 and 2 hours respectively. He will get papers with citations 1 + 1 , 2 + 0. Thus, his h-index is 2.
题意:给定n个小时,可以用其中x(1<=x<=n)个小时写一篇论文,那么这篇论文的"既定"引用数将会是x*a(a为给定正整数);此外,已经写好的论文将会被其后写成的论文所引用,也就是说,这篇论文的总引用数将会是"既定"引用数+其后论文篇数;问在所有的写论文方案中(例如一种方案就是用n个小时写n篇论文,每篇论文各花1小时(可以得到这n篇论文的引用数)),h最大为多少(h的含义同上题)(每一种方案都对应着一个h,求这些h中的最大者)
思路:最优方案(即对应h值最大的方案)是平摊n小时写成n篇论文(证明未知);此时n篇论文的引用数为a,a+1,a+2,...,a+n-1,引用数为a+i时,引用数大于等于它的论文有n-i篇,令a+i=n-i得i=(n-a)/2,所以h=a+(n-a)/2;
AC代码:
#include<cstdio> int main(){ int n,a; while(scanf("%d%d",&n,&a)!=EOF){ printf("%d\n",a+(n-a)/2); } return 0; }
C.Just h-index
D.Circular Coloring
E.From Tree to Graph
F.Sorting
题目描述
输入
The first line of each test case contains an integer n . The i-th of the following n lines contains 3 integers ai,bi and ci .
输出
Constraint
• 1 ≤ n ≤ 103
• 1 ≤ ai , bi , ci ≤ 2 × 109
• The sum of n does not exceed 104 .
样例输入
2
1 1 1
1 1 2
2
1 1 2
1 1 1
3
1 3 1
2 2 1
3 1 1
样例输出
2 1
1 2
1 2 3
题意:给定n个元组(a1,b1,c1),(a2,b2,c2),...,(an,bn,cn),将其按(ai+bi)/(ai+bi+ci)的值从小到大排序,输出排序后的n个元组的原序号;
思路:编写sort里的cmp函数(形参为元组结构体元素,设为Tuple x,Tuple y),若直接算出(x.a+x.b)*(y.a+y.b+y.c)和(y.a+y.b)*(x.a+x.b+x.c)再比较大小,这两个结果会爆unsigned long long;
可以把因式乘积展开成多项式的和,约去两式中相同的项,得到x.a*y.c+x.b*y.c和y.a*x.c+y.b*x.c,因此只需计算它俩再比较即可,结果不会爆unsigned long long
AC代码:
#pragma GCC optimize(2) #include<iostream> #include <cstdio> #include <cstring> #include <algorithm> #include <cmath> #include <set> using namespace std; struct Tuple{ long long a,b,c; int ind; }tup[100010]; bool cmp(Tuple x,Tuple y){ unsigned long long l=x.a*y.c+x.b*y.c; unsigned long long r=y.a*x.c+y.b*x.c; if(l==r) return x.ind<y.ind; return l<r; } int main(){ int n; while(scanf("%d",&n)!=EOF){ for(int i=1;i<=n;i++){ cin>>tup[i].a>>tup[i].b>>tup[i].c; tup[i].ind=i; } sort(tup+1,tup+1+n,cmp); for(int i=1;i<=n;i++){ if(i!=1) printf(" "); cout<<tup[i].ind; } printf("\n"); } return 0; }
G.String Transformation
题目描述
Formally, A = u ? w ? v (“ ? ” denotes string concatenation) can be transformed into A 0 = u ? v and vice versa where u , v are (possibly empty) strings and w ∈ { aa , bb , abab } .
Given the target string T = t1 t2 . . . tm , determine if Bobo can transform the string S into T .
输入
The first line of each test case contains a string s1 s2 ...sn . The second line contains a string t1 t2 . . . tm .
输出
• 1 ≤ n, m ≤ 104
• s1 , s2 ,..., sn , t1 , t2 , . . . , tm ∈ { a , b , c }
• The sum of n and m does not exceed 250,000.
样例输入
ab
ba
ac
ca
a
ab
样例输出
Yes
No
No
提示
For the first sample, Bobo can transform as ab => aababb => babb => ba .
题意:给定字符串S和T(均只由a,b,c三个字母组成),可对S进行插入或删除操作(插入或删除的子串只能是"aa","bb"或"abab"),问能否通过操作将S变为T
思路:发现经过操作一定可将ab—>ba、ba—>ab(等价于相邻的ab可以互换位置),那么我们以c为分隔点将S划分为若干小段,对每一个小段,一定可以通过互换相邻a,b的操作使a全在一边,b全在一边,两两约去a,两两约去b,得到“化简”后的小段(可能其中有一个"ab"或有一个‘a‘或有一个‘b‘或为空);就这样分别将每一个小段都“化简”,而原来c的位置不动,得到整个化简后的S;对T进行同样的“化简”操作;若化简后的S,T相同,则Yes,否则No
AC代码:
#include <iostream> #include<cstdio> #include<cstring> using namespace std; char s1[1000010]; char s2[1000010]; char tmp1[1000010]; char tmp2[1000010]; int main() { while(scanf("%s%s",s1,s2)!=EOF){ int len=strlen(s1); int cnt_1=0,cnt_2=0; int cnt_a=0,cnt_b=0; for(int i=0;i<len;i++){ if(s1[i]==‘c‘) { if(cnt_a%2==0&&cnt_b%2==0) ; else if(cnt_a%2==1&&cnt_b%2==0) tmp1[++cnt_1]=‘a‘; else if(cnt_a%2==0&&cnt_b%2==1) tmp1[++cnt_1]=‘b‘; else {tmp1[++cnt_1]=‘a‘; tmp1[++cnt_1]=‘b‘;} tmp1[++cnt_1]=‘c‘; cnt_a=0; cnt_b=0; } else if(s1[i]==‘a‘) cnt_a++; else cnt_b++; } if(cnt_a%2==0&&cnt_b%2==0) ; else if(cnt_a%2==1&&cnt_b%2==0) tmp1[++cnt_1]=‘a‘; else if(cnt_a%2==0&&cnt_b%2==1) tmp1[++cnt_1]=‘b‘; else {tmp1[++cnt_1]=‘a‘; tmp1[++cnt_1]=‘b‘;} cnt_a=0; cnt_b=0; len=strlen(s2); for(int i=0;i<len;i++){ if(s2[i]==‘c‘) { if(cnt_a%2==0&&cnt_b%2==0) ; else if(cnt_a%2==1&&cnt_b%2==0) tmp2[++cnt_2]=‘a‘; else if(cnt_a%2==0&&cnt_b%2==1) tmp2[++cnt_2]=‘b‘; else {tmp2[++cnt_2]=‘a‘; tmp2[++cnt_2]=‘b‘;} tmp2[++cnt_2]=‘c‘; cnt_a=0; cnt_b=0; } else if(s2[i]==‘a‘) cnt_a++; else cnt_b++; } if(cnt_a%2==0&&cnt_b%2==0) ; else if(cnt_a%2==1&&cnt_b%2==0) tmp2[++cnt_2]=‘a‘; else if(cnt_a%2==0&&cnt_b%2==1) tmp2[++cnt_2]=‘b‘; else {tmp2[++cnt_2]=‘a‘; tmp2[++cnt_2]=‘b‘;} cnt_a=0; cnt_b=0; if(cnt_1!=cnt_2) printf("No\n"); else{ int flag=0; for(int i=1;i<=cnt_1;i++){ if(tmp1[i]!=tmp2[i]) {flag=1;break;} } if(flag) printf("No\n"); else printf("Yes\n"); } } return 0; }
H.Infinity
I.Longest Increasing Subsequence
J.Vertex Cover
K.2018
题目描述
输入
Each test case contains four integers a, b, c, d
输出
• 1 ≤ a ≤ b ≤ 109 , 1 ≤ c ≤ d ≤ 109
• The number of tests cases does not exceed 104 .
样例输入
1 2 1 2018
1 2018 1 2018
1 1000000000 1 1000000000
样例输出
3
6051
1485883320325200
题意:给定区间[a,b]、[c,d],问有多少对有序数组(x,y)(x∈[a,b],y∈[c,d])使得x*y是2018的倍数
思路:2018=2*1009(分解质因数),则对x分类讨论:1)仅为2的倍数;2)仅为1009的倍数;3)即为2又为1009的倍数;4)既不为2又不为1009的倍数
等价于如下分类讨论:
1.若x是偶数:1)若x是1009的倍数,则y可为[c,d]中任意数; 2)若x不是1009的倍数,则y必定为[c,d]中1009的倍数
2.若x是奇数:1)若x是1009的倍数,则y必定为[c,d]中2的倍数; 2)若x不是1009的倍数,则y必定为[c,d]中2018的倍数
AC代码:
#include<cstdio> #include<iostream> typedef unsigned long long ll; using namespace std; int main(){ ll a,b,c,d; while(cin>>a>>b>>c>>d){ ll num1_all_1009=b/1009-(a-1)/1009; ll num1_even=b/2-(a-1)/2; ll num1_1009_in_even=b/2018-(a-1)/2018; ll num1_rest_in_even=num1_even-num1_1009_in_even; ll num1_odd=(b-a+1)-num1_even; ll num1_1009_in_odd=num1_all_1009-num1_1009_in_even; ll num1_rest_in_odd=num1_odd-num1_1009_in_odd; ll ans=0; ans+=num1_1009_in_even*(d-c+1); ll num2_all_1009=d/1009-(c-1)/1009; ans+=num1_rest_in_even*num2_all_1009; ll num2_even=d/2-(c-1)/2; ans+=num1_1009_in_odd*num2_even; ll num2_all_2018=d/2018-(c-1)/2018; ans+=num1_rest_in_odd*num2_all_2018; cout<<ans<<endl; } return 0; }
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