Recently I decided to develop an application in C# that uses "DFT" and "FFT", to analyze a simple audio file.

However the algorithms that I use, give me a different result.

Here is the C# code:

```
public static Complex[] DFT(Complex[] samples)
{
int N = samples.Length;
double a, cosA, sinA;
double freqN = 1.0 / N;
Complex[] X = new Complex[N];
for (int k = 0; k < N; k++)
{
X[k] = new Complex(0, 0);
for (int n = 0; n < N; n++)
{
a = 2 * Math.PI * k * n * freqN;
cosA = Math.Cos(a);
sinA = Math.Sin(a);
X[k].RealPart += (samples[n].RealPart * cosA) - (samples[n].ImgPart * sinA);
X[k].ImgPart += (samples[n].RealPart * sinA) + (sequenze[n].ImgPart * cosA);
}
X[k] *= freqN;
}
return X;
}
public static Complex[] FFT(Complex[] samples)
{
int N = samples.Length;
Complex[] X = new Complex[N];
Complex[] Equal, _eq, Odd, _od;
if (N == 1)
{
X[0] = samples[0];
return X;
}
_od = new Complex[N / 2];
_eq = new Complex[N / 2];
for (int k = 0; k < (N / 2); k++)
{
_od[k] = samples[(2 * k) + 1];
_eq[k] = samples[2 * k];
}
Odd = FFT(odd);
Equal = FFT(_eq);
for (int n = 0; n < (N / 2); n++)
{
Complex tmp = Complex.FromPolarToCart(1, -2 * Math.PI * n / N);
Equal[n] *= tmp;
}
for (int k = 0; k < (N / 2); k++)
{
X[k] = Equal[k] + Odd[k];
X[k+N/2] = Equal[k] - Odd[k];
}
return X;
}
```

Help me please.