• Diophantus of Alexandria[HDU1299]


    Diophantus of Alexandria

    Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 65536/32768 K (Java/Others)
    Total Submission(s): 3242 Accepted Submission(s): 1287


    Problem Description
    Diophantus of Alexandria was an egypt mathematician living in Alexandria. He was one of the first mathematicians to study equations where variables were restricted to integral values. In honor of him, these equations are commonly called diophantine equations. One of the most famous diophantine equation is x^n + y^n = z^n. Fermat suggested that for n > 2, there are no solutions with positive integral values for x, y and z. A proof of this theorem (called Fermat's last theorem) was found only recently by Andrew Wiles.

    Consider the following diophantine equation:

    1 / x + 1 / y = 1 / n where x, y, n ∈ N+ (1)


    Diophantus is interested in the following question: for a given n, how many distinct solutions (i. e., solutions satisfying x ≤ y) does equation (1) have? For example, for n = 4, there are exactly three distinct solutions:

    1 / 5 + 1 / 20 = 1 / 4
    1 / 6 + 1 / 12 = 1 / 4
    1 / 8 + 1 / 8 = 1 / 4

     

    Clearly, enumerating these solutions can become tedious for bigger values of n. Can you help Diophantus compute the number of distinct solutions for big values of n quickly?

    Input
    The first line contains the number of scenarios. Each scenario consists of one line containing a single number n (1 ≤ n ≤ 10^9).

    Output
    The output for every scenario begins with a line containing "Scenario #i:", where i is the number of the scenario starting at 1. Next, print a single line with the number of distinct solutions of equation (1) for the given value of n. Terminate each scenario with a blank line.

    Sample Input
    2
    4
    1260

    Sample Output
    Scenario #1:
    3

    Scenario #2:
    113

    #include<iostream>  
    #include<cstdio>  
    #include<cstring>  
    #include<cmath>  
    #include<algorithm>  
    #include<bitset>  
    #include<iomanip>  
      
    using namespace std;  
      
      
    #define MAX_PRIME 31700  
    #define PRIME_NUM 3500  
      
    int Primes[ PRIME_NUM + 10 ] ;  
      
    int _Count = 0  ;  
    int GetPrimes( )  
    {  
        unsigned char  *PrimeBuffer = ( unsigned char * ) malloc( sizeof( unsigned char ) * ( MAX_PRIME + 10 ) ) ;  
        int i , j  ;  
          
        memset( Primes , 0 , sizeof( int ) *PRIME_NUM ) ;  
        memset( PrimeBuffer , 0 , sizeof( unsigned char) * MAX_PRIME ) ;  
          
          
        for( i = 2 ; i < MAX_PRIME ; i++ )  
        {  
            if( PrimeBuffer[ i ] == 0 )  
                Primes[ _Count++ ] = i ;  
            for( j = 0 ; j < _Count && i * Primes[ j ] <= MAX_PRIME ; j++ )  
            {  
                PrimeBuffer[ i * Primes[ j ] ] = 1 ;  
                if( i % Primes[ j ] == 0 )  
                     break ;  
            }  
        }  
        free( PrimeBuffer ) ;  
        return _Count ;  
    }  
      
    int main()  
    {  
        GetPrimes();  
        int Case , n , num , sum , temp;  
        cin >> Case ;  
        temp = 0 ;  
        while( Case-- )  
        {   
            cin >> n ;  
            sum = 1 ;  
            for( int i = 0 ; i < _Count ; ++i )  
            {  
                int  flag =  ( int )sqrt( n ) + 1 ;  
                if( Primes[ i ] > flag )  
                    break ;  
                num = 0 ;  
                while( n % Primes[ i ] == 0 )  
                {  
                    num++ ;  
                    n /= Primes[ i ] ;  
                }  
                sum *= ( 1 + 2 * num ) ;  
            }  
            if( n > 1 )  
                sum *= 3 ;  
            cout << "Scenario #" << ++temp << ":" << endl ;  
            cout << ( sum + 1 ) / 2 << endl << endl ;  
        }  
        return 0 ;  
    }  
    View Code

     

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  • 原文地址:https://www.cnblogs.com/dramstadt/p/6186590.html
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