I think the title of the post addresses my question. But just to reiterate, I am wondering if anyone has a better approach to this problem.

```
/* Write a recursive program to compute lg( N! ) */
#include <iostream>
#include <cmath>
using namespace std;
long double log_base2( long double N ) {
return log( N )/log( 2.0 );
}
long double lg_n_factorial( long N ) {
if( 1 == N ) return log_base2( static_cast<long double>( N ) );
else return lg_n_factorial( N -1 ) + log_base2( static_cast<long double>( N ) );
}
int main( int argc, char *argv[] ) {
cout << ( lg_n_factorial( 10 ) ) << endl;
return 0;
}
```

Based on people's responses, I should clarify, this is a problem out of a book, and the book says to do it recursivly. I am practicing programming problems, and trying to get feedback from others so I can catch my mistakes as I work on becoming a better programmer.

`lg_n_factorial()`

always a constant value ? – iammilind Aug 8 '11 at 5:16