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When I store the data in a .wav file into a byte array, what do these values mean? I've read that they are in two-byte representations, but what exactly is contained in these two-byte values?

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Maybe not the most technical sources possible but quite thorough nevertheless, the Wikipedia article about WAV –  fvu Oct 23 '12 at 21:57

5 Answers 5

You will have heard, that audio signals are represented by some kind of wave. If you have ever seen this wave diagrams with a line going up and down -- that's basically what's inside those files. Take a look at this file picture from http://en.wikipedia.org/wiki/Sampling_rate

sampling

You see your audio wave (the gray line). The current value of that wave is repeatedly measured and given as a number. That's the numbers in those bytes. There are two different things that can be adjusted with this: The number of measurements you take per second (that's the sampling rate, given in Hz -- that's how many per second you grab). The other adjustment is how exact you measure. In the two byte case you take two bytes for one measurement (thats values from -32768 to 32767 normally). So with those numbers given there, you can recreate the original wave (up to a limited quality, of course, but that's always so when storing stuff digitally). And recreating the original wave is what your speaker is trying to do on playback.

There are some more things you need to know. First, since it's two bytes, you need to know the byte order (big endian, little endian) to recreate the numbers correctly. Second, you need to know how many channels you have, and how they are stored. Typically you would have mono (one channel) or stereo (two), but more is possible. If you have more than one channel, you need to know, how they are stored. Often you would have them interleaved, that means you get one value for each channel for every point in time, and after that all values for the next point in time.

To illustrate: If you have data of 8 bytes for two channels and 16 bit number:

abcdefgh

Here a and b would make up the first 16bit number that's the first value for channel 1, c and d would be the first number for channel 2. e and f are the second value of channel 1, g and h the second value for channel 2. You wouldn't here much there, because that would not come close to a second of data...

If you take together all that infomation you have, you can calculate the bit rate you have, that's how many bits of information is generated by the recorder per second. In our example you generate 2 bytes per channel on every sample. With two channels that 4 byte. You need about 44000 samples per second to represent the sounds a human beeing can normally hear. So you'll end up with 176000 bytes per second, which is 140800 bits/s.

And of course it is not 2 bit values, but two 2 byte values there, or you would have a really bad quality.

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Two bit audio wouldn't sound very good :) Most commonly, they represent sample values as 16-bit signed numbers that represent the audio waveform sampled at a frequency such as 44.1kHz.

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The wav file contain a header, which indicates the raw data of the audio file. You can check what they exact mean below. Behind this, it is the actual audio data.

Positions Sample Value Description

1 - 4 "RIFF" Marks the file as a riff file. Characters are each 1 byte long.

5 - 8 File size (integer) Size of the overall file - 8 bytes, in bytes (32-bit integer). Typically, you'd fill this in after creation.

9 -12 "WAVE" File Type Header. For our purposes, it always equals "WAVE".

13-16 "fmt " Format chunk marker. Includes trailing null

17-20 16 Length of format data as listed above

21-22 1 Type of format (1 is PCM) - 2 byte integer

23-24 2 Number of Channels - 2 byte integer

25-28 44100 Sample Rate - 32 byte integer. Common values are 44100 (CD), 48000 (DAT). Sample Rate = Number of Samples per second, or Hertz.

29-32 176400 (Sample Rate * BitsPerSample * Channels) / 8.

33-34 4 (BitsPerSample * Channels) / 8.1 - 8 bit mono2 - 8 bit stereo/16 bit mono4 - 16 bit stereo

35-36 16 Bits per sample

37-40 "data" "data" chunk header. Marks the beginning of the data section.

41-44 File size (data) Size of the data section.

I copied all of these from http://www.topherlee.com/software/pcm-tut-wavformat.html here

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Please use your terms correctly. You're intermingling bytes and bits. There is no such thing as a 32 byte integer - it's 32 bit. –  Paul_R Jul 24 '13 at 17:11

The first 44 bytes are commonly a standard RIFF header, as described here: https://ccrma.stanford.edu/courses/422/projects/WaveFormat/

The rest is very often 16-bit linear PCM in signed 2's-complement little-endian format, representing arbitrarily scaled samples at a rate of 44100 Hz.

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As others have pointed out, there's metadata in the wav file, but I think your question may be, specifically, what do the bytes (of data, not metadata) mean? If that's true, the bytes represent the value of the signal that was recorded.

What does that mean? Well, if you extract the two bytes (say) that represent each sample (assume a mono recording, meaning only one channel of sound was recorded), then you've got a 16-bit value. In WAV, 16-bit is (always?) signed and little-endian (AIFF, Mac OS's answer to WAV, is big-endian, by the way). So if you take the value of that 16-bit sample and divide it by 2^16 (or 2^15, I guess, if it's signed data), you'll end up with a sample that is normalized to be within the range -1 to 1. Do this for all samples and plot them versus time (and time is determined by how many samples/second is in the recording; e.g. 44.1KHz means 44.1 samples/millisecond, so the first sample value will be plotted at t=0, the 44th at t=1ms, etc) and you've got a signal that roughly represents what was originally recorded.

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