# Getting PCM values of WAV files

I have a .wav mono file (16bit,44.1kHz) and im using this code below. If im not wrong, this would give me an output of values between -1 and 1 which i can apply FFT on ( to be converted to a spectrogram later on). However, my output is no where near -1 and 1.

This is a portion of my output

``````7.01214599609375
17750.2552337646
8308.42733764648
0.000274658203125
1.00001525878906
0.67291259765625
1.3458251953125
16.0000305175781
24932
758.380676269531
0.0001068115234375
``````

This is the code which i got from another post
Edit 1:

`````` public static Double[] prepare(String wavePath, out int SampleRate)
{
Double[] data;
byte[] wave;
byte[] sR = new byte[4];
wave = new byte[WaveFile.Length];
data = new Double[(wave.Length - 44) / 4];//shifting the headers out of the PCM data;
/***********Converting and PCM accounting***************/
for (int i = 0; i < data.Length; i += 2)
{
data[i] = BitConverter.ToInt16(wave, i) / 32768.0;
}

/**************assigning sample rate**********************/
for (int i = 24; i < 28; i++)
{
sR[i - 24] = wave[i];
}
SampleRate = BitConverter.ToInt16(sR, 0);
return data;
}
``````

Edit 2 : Im getting ouput with 0s every 2nd number

0.009002685546875
0
0.009613037109375
0
0.0101318359375
0
0.01080322265625
0
0.01190185546875
0
0.01312255859375
0
0.014068603515625

-
That code is way too simplistic and wrong. Simplistic: It depends on the bitrate of the WAV file how the conversion is to be executed. Wrong: It reads four bytes and normalizes it with UInt16.MaxValue instead of Int32.MaxValue. –  Daniel Hilgarth Jul 1 '13 at 12:57
I can provide a detailed answer in a few hours if no one has answered until then. Please remember me via a comment in 7 hours if you still need help and I haven't provided an answer. –  Daniel Hilgarth Jul 1 '13 at 12:59
Yup would appreciate a detailed answer from u. im kinda new to audio processing so please bear with me. Im supposed to record a voice and apply FFT on it and transform it to a spectrogram so im able to set the Sample Rate and no. of channels of the wav file via Naudio lib. Thanks –  user2431088 Jul 1 '13 at 13:04
Your primary problem, as Daniel pointed out, is that you're normalizing a 32-bit value by dividing by 'UInt16.MaxValue'. You need to divide by `Int.MaxValue`, which will give you values in the range -1 .. 1. Also, you could simplify your code with `for (int i = 0; i < data.Length; i += 4)`, and remove the multiplications in your indexing. –  Jim Mischel Jul 1 '13 at 13:40
Or ... it's hard to say because your code is confused. If you're working with a mono sound (i.e. one channel), then your samples should be 16-bit, so you should be using `BitConverter.ToInt16`, and only incrementing by 2 in the loop. –  Jim Mischel Jul 1 '13 at 13:42

If your samples are 16 bits (which appears to be the case), then you want to work with `Int16`. Each 2 bytes of the sample data is a signed 16-bit integer in the range -32768 .. 32767, inclusive.

If you want to convert a signed `Int16` to a floating point value from -1 to 1, then you have to divide by `Int16.MaxValue + 1` (which is equal to 32768). So, your code becomes:

``````for (int i = 0; i < data.Length; i += 2)
{
data[i] = BitConverter.ToInt16(wave, i) / 32768.0;
}
``````

We use 32768 here because the values are signed.

So -32768/32768 will give -1.0, and 32767/32768 gives 0.999969482421875.

If you used 65536.0, then your values would only be in the range -0.5 .. 0.5.

-
Hi, thanks alot, im able to get my values between -1 and 1 range.If im using 16bit samples, do i need to change SampleRate = BitConverter.ToInt32(sR,0) to SampleRate = BitConverter.ToInt16(sR,0)? Or does it not matter? Does the code which I provided need more editing as im not sure if this code shows the best result. –  user2431088 Jul 1 '13 at 16:58
U can refer to Edit 1 –  user2431088 Jul 1 '13 at 17:06