I am working on implementation of BFSK implementation on a DSP processor and am currently simulating it on a LINUX machine using C. I am working on the demodulation function and it involves taking a FFT of the incoming data. For simulation purposes, I have a pre-defined function for DFT which is:

```
void dft(complex_float* in, complex_float* out, int N, int inv)
{
int i, j;
float a, f;
complex_float s, w;
f = inv ? 1.0/N : 1.0;
for (i = 0; i < N; i++) {
s.re = 0;
s.im = 0;
for (j = 0; j < N; j++) {
a = -2*PI*i*j/N;
if (inv) a = -a;
w.re = cos(a);
w.im = sin(a);
s.re += in[j].re * w.re - in[j].im * w.im;
s.im += in[j].im * w.re + in[j].re * w.im;
}
out[i].re = s.re*f;
out[i].im = s.im*f;
}
```

Here the `complex_float`

is a struct defined as follows:

```
typedef struct {
float re;
float im;
} complex_float;
```

In the `dft()`

function, the parameter `N`

denotes the number of DFT points.

My doubt is that since the algorithm also involves a frequency hopping sequence, while demodulating the signal, I need to check the amplitude of DFT of the signal at different frequency components.

In MATLAB this was quite simple as the FFT function there involves the sampling frequency as well and I could find the power at any frequency point as

```
powerat_at_freq = floor((freq * fftLength) / Sampling_freq)
```

But the C function does not involve any frequencies, so how can I determine the magnitude of the DFT at any particular frequency?