A - Chinese Girls' Amusement
Time Limit: 2000/1000MS (Java/Others) Memory Limit: 128000/64000KB (Java/Others)
Problem Description
You must have heard that the Chinese culture is quite different from that of Europe or Russia. So some Chinese habits seem quite unusual or even weird to us.
So it is known that there is one popular game of Chinese girls. N girls stand forming a circle and throw a ball to each other. First girl holding a ball throws it to the K-th girl on her left (1 ≤ K ≤ N/2). That girl catches the ball and in turn throws it to the K-th girl on her left, and so on. So the ball is passed from one girl to another until it comes back to the first girl. If for example N = 7 and K = 3, the girls receive the ball in the following order: 1, 4, 7, 3, 6, 2, 5, 1.
To make the game even more interesting the girls want to choose K as large as possible, but they want one condition to hold: each girl must own the ball during the game.
So it is known that there is one popular game of Chinese girls. N girls stand forming a circle and throw a ball to each other. First girl holding a ball throws it to the K-th girl on her left (1 ≤ K ≤ N/2). That girl catches the ball and in turn throws it to the K-th girl on her left, and so on. So the ball is passed from one girl to another until it comes back to the first girl. If for example N = 7 and K = 3, the girls receive the ball in the following order: 1, 4, 7, 3, 6, 2, 5, 1.
To make the game even more interesting the girls want to choose K as large as possible, but they want one condition to hold: each girl must own the ball during the game.
Input
Input contains one integer number N (3 ≤ N ≤ 102000) — the number of Chinese girls taking part in the game.
Output
Output the only number — K that they should choose.
Sample Input
7
6
Sample Output
3
1
Hint
Java is not prepared !
/*
* this code is made by 987690183
* Problem: 1210
* Verdict: Accepted
* Submission Date: 2014-10-14 13:59:15
* Time: 0MS
* Memory: 1680KB
*/
#include<iostream>
#include<cstring>
#include<iomanip>
#include<algorithm>
#include<cstdlib>
#include<cstdio>
using namespace std; #define MAXN 9999
#define MAXSIZE 1000
#define DLEN 4 class BigNum
{
private:
int a[MAXSIZE]; //可以控制大数的位数
int len; //大数长度
public:
BigNum(){ len = ;memset(a,,sizeof(a)); } //构造函数
BigNum(const int); //将一个int类型的变量转化为大数
BigNum(const char*); //将一个字符串类型的变量转化为大数
BigNum(const BigNum &); //拷贝构造函数
BigNum &operator=(const BigNum &); //重载赋值运算符,大数之间进行赋值运算 friend istream& operator>>(istream&, BigNum&); //重载输入运算符
friend ostream& operator<<(ostream&, BigNum&); //重载输出运算符 BigNum operator+(const BigNum &) const; //重载加法运算符,两个大数之间的相加运算
BigNum operator-(const BigNum &) const; //重载减法运算符,两个大数之间的相减运算
BigNum operator*(const BigNum &) const; //重载乘法运算符,两个大数之间的相乘运算
BigNum operator/(const int &) const; //重载除法运算符,大数对一个整数进行相除运算 BigNum operator^(const int &) const; //大数的n次方运算
int operator%(const int &) const; //大数对一个int类型的变量进行取模运算
bool operator>(const BigNum & T)const; //大数和另一个大数的大小比较
bool operator>(const int & t)const; //大数和一个int类型的变量的大小比较 void print(); //输出大数
};
BigNum::BigNum(const int b) //将一个int类型的变量转化为大数
{
int c,d = b;
len = ;
memset(a,,sizeof(a));
while(d > MAXN)
{
c = d - (d / (MAXN + )) * (MAXN + );
d = d / (MAXN + );
a[len++] = c;
}
a[len++] = d;
}
BigNum::BigNum(const char*s) //将一个字符串类型的变量转化为大数
{
int t,k,index,l,i;
memset(a,,sizeof(a));
l=strlen(s);
len=l/DLEN;
if(l%DLEN)
len++;
index=;
for(i=l-;i>=;i-=DLEN)
{
t=;
k=i-DLEN+;
if(k<)
k=;
for(int j=k;j<=i;j++)
t=t*+s[j]-'';
a[index++]=t;
}
}
BigNum::BigNum(const BigNum & T) : len(T.len) //拷贝构造函数
{
int i;
memset(a,,sizeof(a));
for(i = ; i < len ; i++)
a[i] = T.a[i];
}
BigNum & BigNum::operator=(const BigNum & n) //重载赋值运算符,大数之间进行赋值运算
{
int i;
len = n.len;
memset(a,,sizeof(a));
for(i = ; i < len ; i++)
a[i] = n.a[i];
return *this;
}
istream& operator>>(istream & in, BigNum & b) //重载输入运算符
{
char ch[MAXSIZE*];
int i = -;
in>>ch;
int l=strlen(ch);
int count=,sum=;
for(i=l-;i>=;)
{
sum = ;
int t=;
for(int j=;j<&&i>=;j++,i--,t*=)
{
sum+=(ch[i]-'')*t;
}
b.a[count]=sum;
count++;
}
b.len =count++;
return in; }
/*ostream& operator<<(ostream& out, BigNum& b) //重载输出运算符
{
int i;
cout << b.a[b.len - 1];
for(i = b.len - 2 ; i >= 0 ; i--)
{
cout.width(DLEN);
cout.fill('0');
cout << b.a[i];
}
return out;
}*/ BigNum BigNum::operator+(const BigNum & T) const //两个大数之间的相加运算
{
BigNum t(*this);
int i,big; //位数
big = T.len > len ? T.len : len;
for(i = ; i < big ; i++)
{
t.a[i] +=T.a[i];
if(t.a[i] > MAXN)
{
t.a[i + ]++;
t.a[i] -=MAXN+;
}
}
if(t.a[big] != )
t.len = big + ;
else
t.len = big;
return t;
}
BigNum BigNum::operator-(const BigNum & T) const //两个大数之间的相减运算
{
int i,j,big;
bool flag;
BigNum t1,t2;
if(*this>T)
{
t1=*this;
t2=T;
flag=;
}
else
{
t1=T;
t2=*this;
flag=;
}
big=t1.len;
for(i = ; i < big ; i++)
{
if(t1.a[i] < t2.a[i])
{
j = i + ;
while(t1.a[j] == )
j++;
t1.a[j--]--;
while(j > i)
t1.a[j--] += MAXN;
t1.a[i] += MAXN + - t2.a[i];
}
else
t1.a[i] -= t2.a[i];
}
t1.len = big;
while(t1.a[len - ] == && t1.len > )
{
t1.len--;
big--;
}
if(flag)
t1.a[big-]=-t1.a[big-];
return t1;
} BigNum BigNum::operator*(const BigNum & T) const //两个大数之间的相乘运算
{
BigNum ret;
int i,j,up;
int temp,temp1;
for(i = ; i < len ; i++)
{
up = ;
for(j = ; j < T.len ; j++)
{
temp = a[i] * T.a[j] + ret.a[i + j] + up;
if(temp > MAXN)
{
temp1 = temp - temp / (MAXN + ) * (MAXN + );
up = temp / (MAXN + );
ret.a[i + j] = temp1;
}
else
{
up = ;
ret.a[i + j] = temp;
}
}
if(up != )
ret.a[i + j] = up;
}
ret.len = i + j;
while(ret.a[ret.len - ] == && ret.len > )
ret.len--;
return ret;
}
BigNum BigNum::operator/(const int & b) const //大数对一个整数进行相除运算
{
BigNum ret;
int i,down = ;
for(i = len - ; i >= ; i--)
{
ret.a[i] = (a[i] + down * (MAXN + )) / b;
down = a[i] + down * (MAXN + ) - ret.a[i] * b;
}
ret.len = len;
while(ret.a[ret.len - ] == && ret.len > )
ret.len--;
return ret;
}
int BigNum::operator %(const int & b) const //大数对一个int类型的变量进行取模运算
{
int i,d=;
for (i = len-; i>=; i--)
{
d = ((d * (MAXN+))% b + a[i])% b;
}
return d;
}
BigNum BigNum::operator^(const int & n) const //大数的n次方运算
{
BigNum t,ret();
int i;
if(n<)
exit(-);
if(n==)
return ;
if(n==)
return *this;
int m=n;
while(m>)
{
t=*this;
for( i=;i<<<=m;i<<=)
{
t=t*t;
}
m-=i;
ret=ret*t;
if(m==)
ret=ret*(*this);
}
return ret;
}
bool BigNum::operator>(const BigNum & T) const //大数和另一个大数的大小比较
{
int ln;
if(len > T.len)
return true;
else if(len == T.len)
{
ln = len - ;
while(a[ln] == T.a[ln] && ln >= )
ln--;
if(ln >= && a[ln] > T.a[ln])
return true;
else
return false;
}
else
return false;
}
bool BigNum::operator >(const int & t) const //大数和一个int类型的变量的大小比较
{
BigNum b(t);
return *this>b;
} void BigNum::print() //输出大数
{
int i;
//cout << a[len - 1];
printf("%d",a[len-]);
for(i = len - ; i >= ; i--)
{
/*cout.width(DLEN);
cout.fill('0');
cout << a[i];*/
printf("%04d",a[i]);
}
//cout << endl;
printf("\n");
}
int main()
{
char zero[]={""};
char one[]={""};
char two[]={""};
char hxl[];
BigNum z,ZERO(zero),ONE(one),TWO(two);
while(gets(hxl)>)
{
BigNum x(hxl);
z=x%;
if(z>)/**奇数**/
{
z=(x-ONE)/;
}
else /**偶数**/
{
x=x/;
z=x%;
if(z>)/**奇数**/
{
z=x-TWO;
}
else /**偶数**/
{
z=x-ONE;
}
}
z.print();
}
return ;
}