2007-08-15 11:28:22 -03:00
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:mod:`audioop` --- Manipulate raw audio data
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============================================
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.. module:: audioop
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:synopsis: Manipulate raw audio data.
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The :mod:`audioop` module contains some useful operations on sound fragments.
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It operates on sound fragments consisting of signed integer samples 8, 16 or 32
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bits wide, stored in Python strings. All scalar items are integers, unless
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specified otherwise.
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.. index::
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single: Intel/DVI ADPCM
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single: ADPCM, Intel/DVI
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single: a-LAW
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single: u-LAW
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This module provides support for a-LAW, u-LAW and Intel/DVI ADPCM encodings.
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Merged revisions 59605-59624 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
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r59606 | georg.brandl | 2007-12-29 11:57:00 +0100 (Sat, 29 Dec 2007) | 2 lines
Some cleanup in the docs.
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r59611 | martin.v.loewis | 2007-12-29 19:49:21 +0100 (Sat, 29 Dec 2007) | 2 lines
Bug #1699: Define _BSD_SOURCE only on OpenBSD.
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r59612 | raymond.hettinger | 2007-12-29 23:09:34 +0100 (Sat, 29 Dec 2007) | 1 line
Simpler documentation for itertools.tee(). Should be backported.
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r59613 | raymond.hettinger | 2007-12-29 23:16:24 +0100 (Sat, 29 Dec 2007) | 1 line
Improve docs for itertools.groupby(). The use of xrange(0) to create a unique object is less obvious than object().
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r59620 | christian.heimes | 2007-12-31 15:47:07 +0100 (Mon, 31 Dec 2007) | 3 lines
Added wininst-9.0.exe executable for VS 2008
Integrated bdist_wininst into PCBuild9 directory
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r59621 | christian.heimes | 2007-12-31 15:51:18 +0100 (Mon, 31 Dec 2007) | 1 line
Moved PCbuild directory to PC/VS7.1
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r59622 | christian.heimes | 2007-12-31 15:59:26 +0100 (Mon, 31 Dec 2007) | 1 line
Fix paths for build bot
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r59623 | christian.heimes | 2007-12-31 16:02:41 +0100 (Mon, 31 Dec 2007) | 1 line
Fix paths for build bot, part 2
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r59624 | christian.heimes | 2007-12-31 16:18:55 +0100 (Mon, 31 Dec 2007) | 1 line
Renamed PCBuild9 directory to PCBuild
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2007-12-31 12:14:33 -04:00
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.. This para is mostly here to provide an excuse for the index entries...
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2007-08-15 11:28:22 -03:00
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A few of the more complicated operations only take 16-bit samples, otherwise the
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sample size (in bytes) is always a parameter of the operation.
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The module defines the following variables and functions:
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.. exception:: error
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This exception is raised on all errors, such as unknown number of bytes per
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sample, etc.
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.. function:: add(fragment1, fragment2, width)
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Return a fragment which is the addition of the two samples passed as parameters.
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*width* is the sample width in bytes, either ``1``, ``2`` or ``4``. Both
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fragments should have the same length.
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.. function:: adpcm2lin(adpcmfragment, width, state)
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Decode an Intel/DVI ADPCM coded fragment to a linear fragment. See the
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description of :func:`lin2adpcm` for details on ADPCM coding. Return a tuple
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``(sample, newstate)`` where the sample has the width specified in *width*.
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.. function:: alaw2lin(fragment, width)
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Convert sound fragments in a-LAW encoding to linearly encoded sound fragments.
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a-LAW encoding always uses 8 bits samples, so *width* refers only to the sample
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width of the output fragment here.
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.. function:: avg(fragment, width)
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Return the average over all samples in the fragment.
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.. function:: avgpp(fragment, width)
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Return the average peak-peak value over all samples in the fragment. No
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filtering is done, so the usefulness of this routine is questionable.
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.. function:: bias(fragment, width, bias)
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Return a fragment that is the original fragment with a bias added to each
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sample.
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.. function:: cross(fragment, width)
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Return the number of zero crossings in the fragment passed as an argument.
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.. function:: findfactor(fragment, reference)
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Return a factor *F* such that ``rms(add(fragment, mul(reference, -F)))`` is
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minimal, i.e., return the factor with which you should multiply *reference* to
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make it match as well as possible to *fragment*. The fragments should both
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contain 2-byte samples.
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The time taken by this routine is proportional to ``len(fragment)``.
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.. function:: findfit(fragment, reference)
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Try to match *reference* as well as possible to a portion of *fragment* (which
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should be the longer fragment). This is (conceptually) done by taking slices
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out of *fragment*, using :func:`findfactor` to compute the best match, and
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minimizing the result. The fragments should both contain 2-byte samples.
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Return a tuple ``(offset, factor)`` where *offset* is the (integer) offset into
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*fragment* where the optimal match started and *factor* is the (floating-point)
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factor as per :func:`findfactor`.
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.. function:: findmax(fragment, length)
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Search *fragment* for a slice of length *length* samples (not bytes!) with
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maximum energy, i.e., return *i* for which ``rms(fragment[i*2:(i+length)*2])``
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is maximal. The fragments should both contain 2-byte samples.
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The routine takes time proportional to ``len(fragment)``.
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.. function:: getsample(fragment, width, index)
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Return the value of sample *index* from the fragment.
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.. function:: lin2adpcm(fragment, width, state)
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Convert samples to 4 bit Intel/DVI ADPCM encoding. ADPCM coding is an adaptive
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coding scheme, whereby each 4 bit number is the difference between one sample
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and the next, divided by a (varying) step. The Intel/DVI ADPCM algorithm has
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been selected for use by the IMA, so it may well become a standard.
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*state* is a tuple containing the state of the coder. The coder returns a tuple
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``(adpcmfrag, newstate)``, and the *newstate* should be passed to the next call
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of :func:`lin2adpcm`. In the initial call, ``None`` can be passed as the state.
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*adpcmfrag* is the ADPCM coded fragment packed 2 4-bit values per byte.
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.. function:: lin2alaw(fragment, width)
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Convert samples in the audio fragment to a-LAW encoding and return this as a
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Python string. a-LAW is an audio encoding format whereby you get a dynamic
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range of about 13 bits using only 8 bit samples. It is used by the Sun audio
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hardware, among others.
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.. function:: lin2lin(fragment, width, newwidth)
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Convert samples between 1-, 2- and 4-byte formats.
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Merged revisions 61834,61841-61842,61851-61853,61863-61864,61869-61870,61874,61889 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
........
r61834 | raymond.hettinger | 2008-03-24 07:07:49 +0100 (Mon, 24 Mar 2008) | 1 line
Tighten documentation for Random.triangular.
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r61841 | raymond.hettinger | 2008-03-24 09:17:39 +0100 (Mon, 24 Mar 2008) | 1 line
Issue 2460: Make Ellipsis objects copyable.
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r61842 | georg.brandl | 2008-03-24 10:34:34 +0100 (Mon, 24 Mar 2008) | 2 lines
#1700821: add a note to audioop docs about signedness of sample formats.
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r61851 | christian.heimes | 2008-03-24 20:57:42 +0100 (Mon, 24 Mar 2008) | 1 line
Added quick hack for bzr
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r61852 | christian.heimes | 2008-03-24 20:58:17 +0100 (Mon, 24 Mar 2008) | 1 line
Added quick hack for bzr
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r61853 | amaury.forgeotdarc | 2008-03-24 22:04:10 +0100 (Mon, 24 Mar 2008) | 4 lines
Issue2469: Correct a typo I introduced at r61793: compilation error with UCS4 builds.
All buildbots compile with UCS2...
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r61863 | neal.norwitz | 2008-03-25 05:17:38 +0100 (Tue, 25 Mar 2008) | 2 lines
Fix a bunch of UnboundLocalErrors when the tests fail.
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r61864 | neal.norwitz | 2008-03-25 05:18:18 +0100 (Tue, 25 Mar 2008) | 2 lines
Try to fix a bunch of compiler warnings on Win64.
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r61869 | neal.norwitz | 2008-03-25 07:35:10 +0100 (Tue, 25 Mar 2008) | 3 lines
Don't try to close a non-open file.
Don't let file removal cause the test to fail.
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r61870 | neal.norwitz | 2008-03-25 08:00:39 +0100 (Tue, 25 Mar 2008) | 7 lines
Try to get this test to be more stable:
* disable gc during the test run because we are spawning objects and there
was an exception when calling Popen.__del__
* Always set an alarm handler so the process doesn't exit if the test fails
(should probably add assertions on the value of hndl_called in more places)
* Using a negative time causes Linux to treat it as zero, so disable that test.
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r61874 | gregory.p.smith | 2008-03-25 08:31:28 +0100 (Tue, 25 Mar 2008) | 2 lines
Use a 32-bit unsigned int here, a long is not needed.
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r61889 | georg.brandl | 2008-03-25 12:59:51 +0100 (Tue, 25 Mar 2008) | 2 lines
Move declarations to block start.
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2008-03-25 11:56:36 -03:00
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.. note::
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In some audio formats, such as .WAV files, 16 and 32 bit samples are
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signed, but 8 bit samples are unsigned. So when converting to 8 bit wide
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samples for these formats, you need to also add 128 to the result::
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new_frames = audioop.lin2lin(frames, old_width, 1)
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new_frames = audioop.bias(new_frames, 1, 128)
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The same, in reverse, has to be applied when converting from 8 to 16 or 32
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bit width samples.
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2007-08-15 11:28:22 -03:00
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.. function:: lin2ulaw(fragment, width)
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Convert samples in the audio fragment to u-LAW encoding and return this as a
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Python string. u-LAW is an audio encoding format whereby you get a dynamic
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range of about 14 bits using only 8 bit samples. It is used by the Sun audio
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hardware, among others.
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.. function:: minmax(fragment, width)
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Return a tuple consisting of the minimum and maximum values of all samples in
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the sound fragment.
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.. function:: max(fragment, width)
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Return the maximum of the *absolute value* of all samples in a fragment.
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.. function:: maxpp(fragment, width)
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Return the maximum peak-peak value in the sound fragment.
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.. function:: mul(fragment, width, factor)
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Return a fragment that has all samples in the original fragment multiplied by
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the floating-point value *factor*. Overflow is silently ignored.
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.. function:: ratecv(fragment, width, nchannels, inrate, outrate, state[, weightA[, weightB]])
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Convert the frame rate of the input fragment.
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*state* is a tuple containing the state of the converter. The converter returns
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a tuple ``(newfragment, newstate)``, and *newstate* should be passed to the next
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call of :func:`ratecv`. The initial call should pass ``None`` as the state.
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The *weightA* and *weightB* arguments are parameters for a simple digital filter
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and default to ``1`` and ``0`` respectively.
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.. function:: reverse(fragment, width)
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Reverse the samples in a fragment and returns the modified fragment.
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.. function:: rms(fragment, width)
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Return the root-mean-square of the fragment, i.e. ``sqrt(sum(S_i^2)/n)``.
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This is a measure of the power in an audio signal.
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.. function:: tomono(fragment, width, lfactor, rfactor)
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Convert a stereo fragment to a mono fragment. The left channel is multiplied by
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*lfactor* and the right channel by *rfactor* before adding the two channels to
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give a mono signal.
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.. function:: tostereo(fragment, width, lfactor, rfactor)
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Generate a stereo fragment from a mono fragment. Each pair of samples in the
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stereo fragment are computed from the mono sample, whereby left channel samples
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are multiplied by *lfactor* and right channel samples by *rfactor*.
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.. function:: ulaw2lin(fragment, width)
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Convert sound fragments in u-LAW encoding to linearly encoded sound fragments.
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u-LAW encoding always uses 8 bits samples, so *width* refers only to the sample
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width of the output fragment here.
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Note that operations such as :func:`mul` or :func:`max` make no distinction
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between mono and stereo fragments, i.e. all samples are treated equal. If this
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is a problem the stereo fragment should be split into two mono fragments first
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and recombined later. Here is an example of how to do that::
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def mul_stereo(sample, width, lfactor, rfactor):
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lsample = audioop.tomono(sample, width, 1, 0)
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rsample = audioop.tomono(sample, width, 0, 1)
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lsample = audioop.mul(sample, width, lfactor)
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rsample = audioop.mul(sample, width, rfactor)
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lsample = audioop.tostereo(lsample, width, 1, 0)
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rsample = audioop.tostereo(rsample, width, 0, 1)
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return audioop.add(lsample, rsample, width)
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If you use the ADPCM coder to build network packets and you want your protocol
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to be stateless (i.e. to be able to tolerate packet loss) you should not only
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transmit the data but also the state. Note that you should send the *initial*
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state (the one you passed to :func:`lin2adpcm`) along to the decoder, not the
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final state (as returned by the coder). If you want to use
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:func:`struct.struct` to store the state in binary you can code the first
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element (the predicted value) in 16 bits and the second (the delta index) in 8.
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The ADPCM coders have never been tried against other ADPCM coders, only against
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themselves. It could well be that I misinterpreted the standards in which case
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they will not be interoperable with the respective standards.
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The :func:`find\*` routines might look a bit funny at first sight. They are
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primarily meant to do echo cancellation. A reasonably fast way to do this is to
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pick the most energetic piece of the output sample, locate that in the input
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sample and subtract the whole output sample from the input sample::
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def echocancel(outputdata, inputdata):
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pos = audioop.findmax(outputdata, 800) # one tenth second
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out_test = outputdata[pos*2:]
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in_test = inputdata[pos*2:]
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ipos, factor = audioop.findfit(in_test, out_test)
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# Optional (for better cancellation):
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# factor = audioop.findfactor(in_test[ipos*2:ipos*2+len(out_test)],
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# out_test)
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prefill = '\0'*(pos+ipos)*2
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postfill = '\0'*(len(inputdata)-len(prefill)-len(outputdata))
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outputdata = prefill + audioop.mul(outputdata,2,-factor) + postfill
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return audioop.add(inputdata, outputdata, 2)
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