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Is it possible to get python to generate a simple sound like a sine wave?

Is there a module available for this? If not, how would you go about creating your own?

Also, would you need some kind of host environment for python to run in in order to play sound, or can it be achieved just from making calls from the terminal?

If the answer is OS-dependent, I'm using a mac.

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@hochl Well, how ironic it is that this is the first Google result returned after a day spent searching with different keywords... – user3717756 Jun 21 '14 at 14:54

i was looking for the same thing, this helped me:

import math
import pyaudio

#sudo apt-get install python-pyaudio

PyAudio = pyaudio.PyAudio

#See http://en.wikipedia.org/wiki/Bit_rate#Audio
BITRATE = 16000 #number of frames per second/frameset.      

FREQUENCY = 500 #Hz, waves per second, 261.63=C4-note.
LENGTH = 1 #seconds to play sound


WAVEDATA = ''    

for x in xrange(NUMBEROFFRAMES):
 WAVEDATA = WAVEDATA+chr(int(math.sin(x/((BITRATE/FREQUENCY)/math.pi))*127+128))    

for x in xrange(RESTFRAMES): 

p = PyAudio()
stream = p.open(format = p.get_format_from_width(1), 
                channels = 1, 
                rate = BITRATE, 
                output = True)

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This works, but generates a very loud "pop" at the end of playback. – Cerin Apr 5 at 13:12

The Python In Music wiki page has not been terribly well-kept-up, but it's a good starting point. http://wiki.python.org/moin/PythonInMusic

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I know I'm a little late to the game on this one, but this is a pretty fantastic python project for synthesis and audio composition: https://github.com/hecanjog/pippi

It's still actively being developed, but it's been going for a while.

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After wasting time on some uncompilable or non-existent projects, I discovered the python module wavebender, which offers generation of single or multiple channels of sine, square and combined waves. The results can be written either to a wavefile or to sys.stdout, from where they can be interpreted directly by aplay in real-time. Some useful examples are explained here, and are included at the project's github page.

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Hi - I'm the author of pippi. It's been pre-release for quite a while but I'm working toward a stable 1.0 release. If you have time to submit a bug report with your problems on github I would really appreciate it. Thank you! – Erik Schoster Dec 31 '14 at 16:46
Thank you, I'd love to look into it again and see if I can contribute something. Good to hear it's alive! – J. Katzwinkel Jan 6 '15 at 12:58
Unfortunately, wavebender still seems to be non-functional and unmaintained. – Cerin Apr 5 at 13:10

I like PyAudiere , which lets you play numpy arrays as sounds... I guess it jives well with my Matlab background. I believe it's cross-platform. I think scikits.audiolab does the same thing, and may be more current / better supported... seems easier to me than trying to save things as wavfiles or write them to buffers and use Python's builtin sound library.

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As far as I can see Audiere can not be downloaded from pypi and their pyaudiere.org site is now some random ad-page. – Mads Skjern Sep 6 '12 at 10:46
Yeah, it seems like all of these sound libraries get abandoned after a few months. It's becoming a real problem. Maybe PyGame is the way to go. It seems like overkill, but at least it's well-supported. – rdchambers Sep 7 '12 at 13:22

I am working on a powerful synthesizer in python. I used custom functions to write directly to a .wav file. There are built in functions that can be used for this purpose. You will need to modify the .wav header to reflect the sample rate, bits per sample, number of channels, and duration of synthesis.

Here is an early version of a sin wave generator that outputs a list of values that after applying bytearray becomes suitable for writing to the data parameter of a wave file. [edit] A conversion function will need to transform the list into little endian hex values before applying the bytearray. See the WAVE PCM soundfile format link below for details on the .wav specification.[/edit]

def sin_basic(freq, time=1, amp=1, phase=0, samplerate=44100, bitspersample=16):
    bytelist = []
    import math
    TwoPiDivSamplerate = 2*math.pi/samplerate
    increment = TwoPiDivSamplerate * freq
    incadd = phase*increment
    for i in range(int(samplerate*time)):
        if incadd > (2**(bitspersample - 1) - 1):
            incadd = (2**(bitspersample - 1) - 1) - (incadd - (2**(bitspersample - 1) - 1))
        elif incadd < -(2**(bitspersample - 1) - 1):
            incadd = -(2**(bitspersample - 1) - 1) + (-(2**(bitspersample - 1) - 1) - incadd)
        bytelist.append(int(round(amp*(2**(bitspersample - 1) - 1)*math.sin(incadd))))
        incadd += increment
    return bytelist

A newer version can use waveforms to modulate the frequency, amplitude, and phase of the waveform parameters. The data format makes it trivial to blend and concatenate waves together. If this seems up your alley, check out WAVE PCM soundfile format.

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