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wavio.py
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wavio.py
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# wavio.py
# Author: Warren Weckesser
# License: BSD 3-Clause (http://opensource.org/licenses/BSD-3-Clause)
# TODO: As of 2016, wavio is now available in PiPy. We could remove this file and add it to requirements.txt However the syntax changed and adaptions need to be made
import wave as _wave
import numpy as _np
__version__ = "0.0.1"
def _wav2array(nchannels, sampwidth, data):
"""data must be the string containing the bytes from the wav file."""
num_samples, remainder = divmod(len(data), sampwidth * nchannels)
if remainder > 0:
raise ValueError('The length of data is not a multiple of '
'sampwidth * num_channels.')
if sampwidth > 4:
raise ValueError("sampwidth must not be greater than 4.")
if sampwidth == 3:
a = _np.empty((num_samples, nchannels, 4), dtype=_np.uint8)
raw_bytes = _np.fromstring(data, dtype=_np.uint8)
a[:, :, :sampwidth] = raw_bytes.reshape(-1, nchannels, sampwidth)
a[:, :, sampwidth:] = (a[:, :, sampwidth - 1:sampwidth] >> 7) * 255
result = a.view('<i4').reshape(a.shape[:-1])
else:
# 8 bit samples are stored as unsigned ints; others as signed ints.
dt_char = 'u' if sampwidth == 1 else 'i'
a = _np.fromstring(data, dtype='<%s%d' % (dt_char, sampwidth))
result = a.reshape(-1, nchannels)
return result
def readwav(file):
"""
Read a WAV file.
Parameters
----------
file : string or file object
Either the name of a file or an open file pointer.
Return Values
-------------
rate : float
The sampling frequency (i.e. frame rate)
sampwidth : float
The sample width, in bytes. E.g. for a 24 bit WAV file,
sampwidth is 3.
data : numpy array
The array containing the data. The shape of the array is
(num_samples, num_channels). num_channels is the number of
audio channels (1 for mono, 2 for stereo).
Notes
-----
This function uses the `wave` module of the Python standard libary
to read the WAV file, so it has the same limitations as that library.
In particular, the function does not read compressed WAV files.
"""
wav = _wave.open(file)
rate = wav.getframerate()
nchannels = wav.getnchannels()
sampwidth = wav.getsampwidth()
nframes = wav.getnframes()
data = wav.readframes(nframes)
wav.close()
array = _wav2array(nchannels, sampwidth, data)
return rate, sampwidth, array
def writewav24(filename, rate, data):
"""
Create a 24 bit wav file.
Parameters
----------
filename : string
Name of the file to create.
rate : float
The sampling frequency (i.e. frame rate) of the data.
data : array-like collection of integer or floating point values
data must be "array-like", either 1- or 2-dimensional. If it
is 2-d, the rows are the frames (i.e. samples) and the columns
are the channels.
Notes
-----
The data is assumed to be signed, and the values are assumed to be
within the range of a 24 bit integer. Floating point values are
converted to integers. The data is not rescaled or normalized before
writing it to the file.
Example
-------
Create a 3 second 440 Hz sine wave.
>>> rate = 22050 # samples per second
>>> T = 3 # sample duration (seconds)
>>> f = 440.0 # sound frequency (Hz)
>>> t = np.linspace(0, T, T*rate, endpoint=False)
>>> x = (2**23 - 1) * np.sin(2 * np.pi * f * t)
>>> writewav24("sine24.wav", rate, x)
"""
a32 = _np.asarray(data, dtype=_np.int32)
if a32.ndim == 1:
# Convert to a 2D array with a single column.
a32.shape = a32.shape + (1,)
# By shifting first 0 bits, then 8, then 16, the resulting output
# is 24 bit little-endian.
a8 = (a32.reshape(a32.shape + (1,)) >> _np.array([0, 8, 16])) & 255
wavdata = a8.astype(_np.uint8).tostring()
w = _wave.open(filename, 'wb')
w.setnchannels(a32.shape[1])
w.setsampwidth(3)
w.setframerate(rate)
w.writeframes(wavdata)
w.close()