After going through the documentation of pyaudio and reading some other articles on the web, I am confused if my understanding is correct.

This is the code for audio recording found on pyaudio's site:

import pyaudio
import wave

CHUNK = 1024
FORMAT = pyaudio.paInt16
RATE = 44100

p = pyaudio.PyAudio()

stream = p.open(format=FORMAT,

print("* recording")

frames = []

for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)):
    data = stream.read(CHUNK)

print("* done recording")


and if I add these lines then I am able to play whatever I recorded:

for data in frames: 
  1. "RATE" is the number of samples collected per second.
  2. "CHUNK" is the number of frames in the buffer.
  3. Each frame will have 2 samples as "CHANNELS=2".
  4. Size of each sample is 2 bytes, calculated using the function: pyaudio.get_sample_size(pyaudio.paInt16).
  5. Therefore size of each frame is 4 bytes.
  6. In the "frames" list, size of each element must be 1024*4 bytes, for example, size of frames[0] must be 4096 bytes. However, sys.getsizeof(frames[0]) returns 4133, but len(frames[0]) returns 4096.
  7. for loop executes int(RATE / CHUNK * RECORD_SECONDS) times, I cant understand why. Here is the same question answered by "Ruben Sanchez" but I cant be sure if its correct as he says CHUNK=bytes. And according to his explanation, it must be int(RATE / (CHUNK*2) * RECORD_SECONDS) as (CHUNK*2) is the number of samples read in buffer with each iteration.
  8. Finally when I write print frames[0], it prints gibberish as it tries to treat the string to be ASCII encoded which it is not, it is just a stream of bytes. So how do I print this stream of bytes in hexadecimal using struct module? And if later, I change each of the hexadecimal value with values of my choice, will it still produce a playable sound?

Whatever I wrote above was my understanding of the things and many of them maybe wrong.

1 Answer 1

  1. "RATE" is the "sampling rate", i.e. the number of frames per second
  2. "CHUNK" is the (arbitrarily chosen) number of frames the (potentially very long) signals are split into in this example
  3. Yes, each frame will have 2 samples as "CHANNELS=2", but the term "samples" is seldom used in this context (because it is confusing)
  4. Yes, size of each sample is 2 bytes (= 16 bits) in this example
  5. Yes, size of each frame is 4 bytes
  6. Yes, each element of "frames" should be 4096 bytes. sys.getsizeof() reports the storage space needed by the Python interpreter, which is typically a bit more than the actual size of the raw data.
  7. RATE * RECORD_SECONDS is the number of frames that should be recorded. Since the for loop is not repeated for each frame but only for each chunk, the number of loops has to be divided by the chunk size CHUNK. This has nothing to do with samples, so there is no factor of 2 involved.
  8. If you really want to see the hexadecimal values, you can try something like [hex(x) for x in frames[0]]. If you want to get the actual 2-byte numbers use the format string '<H' with the struct module.

You might be interested in my tutorial about reading WAV files with the wave module, which covers some of your questions in more detail: http://nbviewer.jupyter.org/github/mgeier/python-audio/blob/master/audio-files/audio-files-with-wave.ipynb

  • 1
    for point 4,5: how are the channels represented in each sample? Is it linear, e.g., [s1a, s1b, s2a, s2b] or interleaved, e.g, [s1a, s2a, s1b, s2b]?
    – Koffiman
    Commented Aug 31, 2017 at 22:42
  • 3
    @Koffiman With PyAudio the samples are interleaved. The underlying PortAudio library supports a flag paNonInterleaved to change that, but this is typically not available in the Python wrappers. Note that paNonInterleaved uses separate pointers for each channel, i.e. the whole audio data is not necessarily contained in a single contiguous block of memory.
    – Matthias
    Commented Sep 1, 2017 at 9:24

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