I know that this question was asked, but it has no distinct answer. So, what I've found is some example here : FFT spectrum analysis Where I can transform my array of doubles with FFT class

```
RealDoubleFFT transformer;
int blockSize= */2048;
short[] buffer = new short[blockSize];
double[] toTransform = new double[blockSize];
bufferReadResult = audioRecord.read(buffer, 0, blockSize);
for (int i = 0; i < blockSize && i < bufferReadResult; i++) {
toTransform[i] = (double) buffer[i] / 32768.0; // signed 16 bit
}
transformer.ft(toTransform);
```

so now I don't know how to get a frequency

I wrote such method :

```
public static int calculateFFTFrequency(double[] audioData){
float sampleRate = 44100;
int numSamples = audioData.length;
double max = Double.MIN_VALUE;
int index = 0;
for (int i = 0; i< numSamples -1; i++){
if (audioData[i] > max) {
max = audioData[i];
index = i;
}
}
float freq = (sampleRate / (float) numSamples * (float) index) * 2F;
return (int)freq;
}
```

I try to implement a formula, but it doesn't return me anything good - some wild numbers

I tried zero passing as well :

```
public static int calculateFrequency(short [] audioData){
int sampleRate = 44100;
int numSamples = audioData.length;
int numCrossing = 0;
for (int p = 0; p < numSamples-1; p++)
{
if ((audioData[p] > 0 && audioData[p + 1] <= 0) ||
(audioData[p] < 0 && audioData[p + 1] >= 0))
{
numCrossing++;
}
}
float numSecondsRecorded = (float)numSamples/(float)sampleRate;
float numCycles = numCrossing/2;
float frequency = numCycles/numSecondsRecorded;
return (int)frequency;
}
```

But in zero passing method if I play "A" note on piano it shows me 430 for a moment (which is close to A) and then start to show some wild numbers when the sound fades - 800+ , 1000+ , etc.

Can somebody help me how to get more or less actual frequency from the mic?