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i have the following : enter image description here

I only want (for now) to express the (s 1) , (s 2) term . For example ,(s 1)=s , (s 2)= s(s-1)/2! , (s 3)=s(s-1)(s-2)/3!.

I created a factorial function :

//compute factorial
int fact(int x){

if (x==0)
return 1;
    return fact(x-1)*x;


and i have problem in how to do right the above.

double s=(z-x[1])/h;
double s_term=0;
    for (int p=1;p<=n;p++){
        if p==1 


Also, it is that : s=(x - x0)/h. I don't know if i have declared right the s above.(i use x1 in the declaration because this is my starting point)

Thank you!

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Tip #1 - don't implement factorial recursively. –  Carl Norum Jul 29 '11 at 16:22
double BinomialCoeff(const int n, const int k) { return double(fact(n)) / ( fact(k) * fact(n-k) ); } –  sled Jul 29 '11 at 16:25
Tip #2 - don't use factorials to calculate binomial coefficients. Not only is it inefficient, it's a good way to get unnecessary overflows. Consider \binom{1000}{2} - that's just 1000*999/2*1, which is easy, while 1000!/(2!*998!) is unlikely to work out. –  Jefromi Jul 29 '11 at 16:26
@sled: Bad, bad idea. –  Jefromi Jul 29 '11 at 16:26
@Jefromi: added double casting, so its up to his fact(n) function which uses int (unsigned long long would be better of course) –  sled Jul 29 '11 at 16:29

3 Answers 3

up vote 0 down vote accepted

The factorial part will be much more efficient using a loop rather than recursion.

As for the binomial coefficients, the line:


isn't going to have the desired effect, as you're only setting the first and last terms correctly and missing out the (s-1), (s-2), ..., (s-p+1) terms. It's easier to just use:

s_term = fact(s) / (fact(p) * fact(s-p))

for s choose p.

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:When you are saying 'for s choose p' you mean instead of doing double s=(z-x[1])/h ? –  George Jul 29 '11 at 16:41

You can calculate the Binomial Coefficient simply using this function (probably the best for performance and memory usage):

unsigned long long ComputeBinomialCoefficient( int n, int k )
        // Run-time assert to ensure correct behavior
        assert( n > k && n > 1 );

        // Exploit the symmetry in the line x = k/2:
        if( k > n - k )
                k = n - k;

        unsigned long long c(1);
        // Perform the product over the space i = [1...k]
        for( int i = 1; i < k+1; i++ )
                c *= n - (k - i);
                c /= i;

        return c;


You can then just call this when you see the brackets. (I'm assuming that is the Binomial Coefficient, rather than a 2D column vector?). This technique only uses 2 variables internally (taking up a grand total of 12 bytes), and uses no recursion.

Hope this helps! :)

EDIT: I'm curious how you're going to do the (I assume laplacian) operator? Are you intending to do the forward difference method for discrete values of x, and then calculate the 2nd derivative using the results from the first, then take the quotient?

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:Hello,thanks a lot for the help.I will have this in mind for the future.I just wanted to do it with factorial to understand how can i implement the code. –  George Jul 30 '11 at 8:18

As others have pointed out implementing factorial and binomial coefficient functions is not easy (e.g. overflows lurk everywhere).

If you are interested in reasonable implementations as opposed to implementing all this yourself have a look at what is available in gsl which everybody dealing with numerical problems should know of.

#include <gsl/gsl_sf_gamma.h>

double factorial_10  = gsl_sf_fact(10);
double ten_over_four = gsl_sf_choose(10, 4);

Have also a look at the documentation. There are numerous functions returning the log instead of the value to avoid overflow problems.

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:Ok,thanks!I didn't know about that.I will read it. –  George Jul 30 '11 at 8:19

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