In my program I have a function that performs the fast Fourier transform. I know there are very good implementations freely available, but this is a learning thing so I don't want to use those. I ended up finding this comment with the following implementation (it originated from the Italian entry for the FFT):

```
void transform(complex<double>* f, int N) //
{
ordina(f, N); //first: reverse order
complex<double> *W;
W = (complex<double> *)malloc(N / 2 * sizeof(complex<double>));
W[1] = polar(1., -2. * M_PI / N);
W[0] = 1;
for(int i = 2; i < N / 2; i++)
W[i] = pow(W[1], i);
int n = 1;
int a = N / 2;
for(int j = 0; j < log2(N); j++) {
for(int k = 0; k < N; k++) {
if(!(k & n)) {
complex<double> temp = f[k];
complex<double> Temp = W[(k * a) % (n * a)] * f[k + n];
f[k] = temp + Temp;
f[k + n] = temp - Temp;
}
}
n *= 2;
a = a / 2;
}
free(W);
}
```

I've made a lot of changes by now but this was my starting point. One of the changes I made was to not cache the twiddle factors, because I decided to see if it's needed first. Now I've decided I do want to cache them. The way this implementation seems to do it is it has this array `W`

of length `N/2`

, where every index `k`

has the value . What I don't understand is this expression:

`W[(k * a) % (n * a)]`

Note that `n * a`

is always equal to `N/2`

. I get that this is supposed to be equal to , and I can see that , which this relies on. I also get that modulo can be used here because the twiddle factors are cyclic. But there's one thing I don't get: this is a length-N DFT, and yet only `N/2`

twiddle factors are ever calculated. Shouldn't the array be of length N, and the modulo should be by N?