How to play WAV data right from memory?
Question
I'm currently working on a sound experiment, and I've come across one issue. I save an array of wave data to a .wav file and play it, but is there a way to skip this step and simply play the sound right from memory? I'm looking for a solution that will work cross-platform.
2 answers
solution1
3 2011-11-19 23:54:35
I suppose you are using the wave library , right?
The docs say:
wave.open(file[, mode])
If file is a string, open the file by that name, otherwise treat it as a seekable file-like object.
This means that you should be able to do something along the lines of:
>>> import wave
>>> from StringIO import StringIO
>>> file_on_disk = open('myfile.wav', 'rb')
>>> file_in_memory = StringIO(file_on_disk.read())
>>> file_on_disk.seek(0)
>>> file_in_memory.seek(0)
>>> file_on_disk.read() == file_in_memory.read()
True
>>> wave.open(file_in_memory, 'rb')
<wave.Wave_read instance at 0x1d6ab00>
EDIT (see comments): Just in case your issue is not only about reading a file from memory but playing it from python altogether...
An option is tu use pymedia
import time, wave, pymedia.audio.sound as sound
f= wave.open( 'YOUR FILE NAME', 'rb' ) # ← you can use StrinIO here!
sampleRate= f.getframerate()
channels= f.getnchannels()
format= sound.AFMT_S16_LE
snd= sound.Output( sampleRate, channels, format )
s= f.readframes( 300000 )
snd.play( s )
while snd.isPlaying(): time.sleep( 0.05 )
[source: the pymedia tutorial (for brevity I omitted their explanatory comments]
solution2
1 2016-02-19 18:06:25
Creating a wav file with generated sine wave samples in memory and playing it on Windows:
import math
import struct
import wave
import winsound
import cStringIO as StringIO
num_channels = 2
num_bytes_per_sample = 2
sample_rate_hz = 44100
sound_length_sec = 2.0
sound_freq_hz = 500
memory_file = StringIO.StringIO()
wave_file = wave.open(memory_file, 'w')
wave_file.setparams((num_channels, num_bytes_per_sample, sample_rate_hz, 0, 'NONE', 'not compressed'))
num_samples_per_channel = int(sample_rate_hz * sound_length_sec)
freq_pos = 0.0
freq_step = 2 * math.pi * sound_freq_hz / sample_rate_hz
sample_list = []
for i in range(num_samples_per_channel):
sample = math.sin(freq_pos) * 32767
sample_packed = struct.pack('h', sample)
for j in range(num_channels):
sample_list.append(sample_packed)
freq_pos += freq_step
sample_str = ''.join(sample_list)
wave_file.writeframes(sample_str)
wave_file.close()
winsound.PlaySound(memory_file.getvalue(), winsound.SND_MEMORY)
memory_file.close()
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