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 <section id="module-audioop">
<h1><a class="reference internal" href="#module-audioop" title="audioop: Manipulate raw audio data. (deprecated)"><code class="xref py py-mod docutils literal notranslate">audioop</code></a> — Manipulate raw audio data<a class="headerlink" href="#module-audioop" title="Permalink to this headline">¶</a></h1>
<div class="deprecated">
Deprecated since version 3.11: The <a class="reference internal" href="#module-audioop" title="audioop: Manipulate raw audio data. (deprecated)"><code class="xref py py-mod docutils literal notranslate">audioop</code></a> module is deprecated
(see <a class="pep reference external" href="https://www.python.org/dev/peps/pep-0594#audioop">PEP 594</a> for details).
</div>
<hr class="docutils" />
The <a class="reference internal" href="#module-audioop" title="audioop: Manipulate raw audio data. (deprecated)"><code class="xref py py-mod docutils literal notranslate">audioop</code></a> module contains some useful operations on sound fragments.
It operates on sound fragments consisting of signed integer samples 8, 16, 24
or 32 bits wide, stored in <a class="reference internal" href="../glossary.html#term-bytes-like-object">bytes-like objects</a>. All scalar items are
integers, unless specified otherwise.
<div class="versionchanged">
Changed in version 3.4: Support for 24-bit samples was added.
All functions now accept any <a class="reference internal" href="../glossary.html#term-bytes-like-object">bytes-like object</a>.
String input now results in an immediate error.
</div>
This module provides support for a-LAW, u-LAW and Intel/DVI ADPCM encodings.
A few of the more complicated operations only take 16-bit samples, otherwise the
sample size (in bytes) is always a parameter of the operation.
The module defines the following variables and functions:
<dl class="py exception">
<dt class="sig sig-object py" id="audioop.error">
exception audioop.error<a class="headerlink" href="#audioop.error" title="Permalink to this definition">¶</a></dt>
<dd>This exception is raised on all errors, such as unknown number of bytes per
sample, etc.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.add">
audioop.add(fragment1, fragment2, width)<a class="headerlink" href="#audioop.add" title="Permalink to this definition">¶</a></dt>
<dd>Return a fragment which is the addition of the two samples passed as parameters.
width is the sample width in bytes, either <code class="docutils literal notranslate">1</code>, <code class="docutils literal notranslate">2</code>, <code class="docutils literal notranslate">3</code> or <code class="docutils literal notranslate">4</code>. Both
fragments should have the same length. Samples are truncated in case of overflow.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.adpcm2lin">
audioop.adpcm2lin(adpcmfragment, width, state)<a class="headerlink" href="#audioop.adpcm2lin" title="Permalink to this definition">¶</a></dt>
<dd>Decode an Intel/DVI ADPCM coded fragment to a linear fragment. See the
description of <a class="reference internal" href="#audioop.lin2adpcm" title="audioop.lin2adpcm"><code class="xref py py-func docutils literal notranslate">lin2adpcm()</code></a> for details on ADPCM coding. Return a tuple
<code class="docutils literal notranslate">(sample, newstate)</code> where the sample has the width specified in width.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.alaw2lin">
audioop.alaw2lin(fragment, width)<a class="headerlink" href="#audioop.alaw2lin" title="Permalink to this definition">¶</a></dt>
<dd>Convert sound fragments in a-LAW encoding to linearly encoded sound fragments.
a-LAW encoding always uses 8 bits samples, so width refers only to the sample
width of the output fragment here.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.avg">
audioop.avg(fragment, width)<a class="headerlink" href="#audioop.avg" title="Permalink to this definition">¶</a></dt>
<dd>Return the average over all samples in the fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.avgpp">
audioop.avgpp(fragment, width)<a class="headerlink" href="#audioop.avgpp" title="Permalink to this definition">¶</a></dt>
<dd>Return the average peak-peak value over all samples in the fragment. No
filtering is done, so the usefulness of this routine is questionable.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.bias">
audioop.bias(fragment, width, bias)<a class="headerlink" href="#audioop.bias" title="Permalink to this definition">¶</a></dt>
<dd>Return a fragment that is the original fragment with a bias added to each
sample. Samples wrap around in case of overflow.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.byteswap">
audioop.byteswap(fragment, width)<a class="headerlink" href="#audioop.byteswap" title="Permalink to this definition">¶</a></dt>
<dd>“Byteswap” all samples in a fragment and returns the modified fragment.
Converts big-endian samples to little-endian and vice versa.
<div class="versionadded">
New in version 3.4.
</div>
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.cross">
audioop.cross(fragment, width)<a class="headerlink" href="#audioop.cross" title="Permalink to this definition">¶</a></dt>
<dd>Return the number of zero crossings in the fragment passed as an argument.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.findfactor">
audioop.findfactor(fragment, reference)<a class="headerlink" href="#audioop.findfactor" title="Permalink to this definition">¶</a></dt>
<dd>Return a factor F such that <code class="docutils literal notranslate">rms(add(fragment, mul(reference, -F)))</code> is
minimal, i.e., return the factor with which you should multiply reference to
make it match as well as possible to fragment. The fragments should both
contain 2-byte samples.
The time taken by this routine is proportional to <code class="docutils literal notranslate">len(fragment)</code>.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.findfit">
audioop.findfit(fragment, reference)<a class="headerlink" href="#audioop.findfit" title="Permalink to this definition">¶</a></dt>
<dd>Try to match reference as well as possible to a portion of fragment (which
should be the longer fragment). This is (conceptually) done by taking slices
out of fragment, using <a class="reference internal" href="#audioop.findfactor" title="audioop.findfactor"><code class="xref py py-func docutils literal notranslate">findfactor()</code></a> to compute the best match, and
minimizing the result. The fragments should both contain 2-byte samples.
Return a tuple <code class="docutils literal notranslate">(offset, factor)</code> where offset is the (integer) offset into
fragment where the optimal match started and factor is the (floating-point)
factor as per <a class="reference internal" href="#audioop.findfactor" title="audioop.findfactor"><code class="xref py py-func docutils literal notranslate">findfactor()</code></a>.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.findmax">
audioop.findmax(fragment, length)<a class="headerlink" href="#audioop.findmax" title="Permalink to this definition">¶</a></dt>
<dd>Search fragment for a slice of length length samples (not bytes!) with
maximum energy, i.e., return i for which <code class="docutils literal notranslate">rms(fragment[i*2:(i+length)*2])</code>
is maximal. The fragments should both contain 2-byte samples.
The routine takes time proportional to <code class="docutils literal notranslate">len(fragment)</code>.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.getsample">
audioop.getsample(fragment, width, index)<a class="headerlink" href="#audioop.getsample" title="Permalink to this definition">¶</a></dt>
<dd>Return the value of sample index from the fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.lin2adpcm">
audioop.lin2adpcm(fragment, width, state)<a class="headerlink" href="#audioop.lin2adpcm" title="Permalink to this definition">¶</a></dt>
<dd>Convert samples to 4 bit Intel/DVI ADPCM encoding. ADPCM coding is an adaptive
coding scheme, whereby each 4 bit number is the difference between one sample
and the next, divided by a (varying) step. The Intel/DVI ADPCM algorithm has
been selected for use by the IMA, so it may well become a standard.
state is a tuple containing the state of the coder. The coder returns a tuple
<code class="docutils literal notranslate">(adpcmfrag, newstate)</code>, and the newstate should be passed to the next call
of <a class="reference internal" href="#audioop.lin2adpcm" title="audioop.lin2adpcm"><code class="xref py py-func docutils literal notranslate">lin2adpcm()</code></a>. In the initial call, <code class="docutils literal notranslate">None</code> can be passed as the state.
adpcmfrag is the ADPCM coded fragment packed 2 4-bit values per byte.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.lin2alaw">
audioop.lin2alaw(fragment, width)<a class="headerlink" href="#audioop.lin2alaw" title="Permalink to this definition">¶</a></dt>
<dd>Convert samples in the audio fragment to a-LAW encoding and return this as a
bytes object. a-LAW is an audio encoding format whereby you get a dynamic
range of about 13 bits using only 8 bit samples. It is used by the Sun audio
hardware, among others.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.lin2lin">
audioop.lin2lin(fragment, width, newwidth)<a class="headerlink" href="#audioop.lin2lin" title="Permalink to this definition">¶</a></dt>
<dd>Convert samples between 1-, 2-, 3- and 4-byte formats.
<div class="admonition note">
Note
In some audio formats, such as .WAV files, 16, 24 and 32 bit samples are
signed, but 8 bit samples are unsigned. So when converting to 8 bit wide
samples for these formats, you need to also add 128 to the result:
<div class="highlight-python3 notranslate"><div class="highlight"><pre>new_frames = audioop.lin2lin(frames, old_width, 1)
new_frames = audioop.bias(new_frames, 1, 128)
</pre></div>
</div>
The same, in reverse, has to be applied when converting from 8 to 16, 24
or 32 bit width samples.
</div>
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.lin2ulaw">
audioop.lin2ulaw(fragment, width)<a class="headerlink" href="#audioop.lin2ulaw" title="Permalink to this definition">¶</a></dt>
<dd>Convert samples in the audio fragment to u-LAW encoding and return this as a
bytes object. u-LAW is an audio encoding format whereby you get a dynamic
range of about 14 bits using only 8 bit samples. It is used by the Sun audio
hardware, among others.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.max">
audioop.max(fragment, width)<a class="headerlink" href="#audioop.max" title="Permalink to this definition">¶</a></dt>
<dd>Return the maximum of the absolute value of all samples in a fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.maxpp">
audioop.maxpp(fragment, width)<a class="headerlink" href="#audioop.maxpp" title="Permalink to this definition">¶</a></dt>
<dd>Return the maximum peak-peak value in the sound fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.minmax">
audioop.minmax(fragment, width)<a class="headerlink" href="#audioop.minmax" title="Permalink to this definition">¶</a></dt>
<dd>Return a tuple consisting of the minimum and maximum values of all samples in
the sound fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.mul">
audioop.mul(fragment, width, factor)<a class="headerlink" href="#audioop.mul" title="Permalink to this definition">¶</a></dt>
<dd>Return a fragment that has all samples in the original fragment multiplied by
the floating-point value factor. Samples are truncated in case of overflow.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.ratecv">
audioop.ratecv(fragment, width, nchannels, inrate, outrate, state[, weightA[, weightB]])<a class="headerlink" href="#audioop.ratecv" title="Permalink to this definition">¶</a></dt>
<dd>Convert the frame rate of the input fragment.
state is a tuple containing the state of the converter. The converter returns
a tuple <code class="docutils literal notranslate">(newfragment, newstate)</code>, and newstate should be passed to the next
call of <a class="reference internal" href="#audioop.ratecv" title="audioop.ratecv"><code class="xref py py-func docutils literal notranslate">ratecv()</code></a>. The initial call should pass <code class="docutils literal notranslate">None</code> as the state.
The weightA and weightB arguments are parameters for a simple digital filter
and default to <code class="docutils literal notranslate">1</code> and <code class="docutils literal notranslate">0</code> respectively.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.reverse">
audioop.reverse(fragment, width)<a class="headerlink" href="#audioop.reverse" title="Permalink to this definition">¶</a></dt>
<dd>Reverse the samples in a fragment and returns the modified fragment.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.rms">
audioop.rms(fragment, width)<a class="headerlink" href="#audioop.rms" title="Permalink to this definition">¶</a></dt>
<dd>Return the root-mean-square of the fragment, i.e. <code class="docutils literal notranslate">sqrt(sum(S_i^2)/n)</code>.
This is a measure of the power in an audio signal.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.tomono">
audioop.tomono(fragment, width, lfactor, rfactor)<a class="headerlink" href="#audioop.tomono" title="Permalink to this definition">¶</a></dt>
<dd>Convert a stereo fragment to a mono fragment. The left channel is multiplied by
lfactor and the right channel by rfactor before adding the two channels to
give a mono signal.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.tostereo">
audioop.tostereo(fragment, width, lfactor, rfactor)<a class="headerlink" href="#audioop.tostereo" title="Permalink to this definition">¶</a></dt>
<dd>Generate a stereo fragment from a mono fragment. Each pair of samples in the
stereo fragment are computed from the mono sample, whereby left channel samples
are multiplied by lfactor and right channel samples by rfactor.
</dd></dl>

<dl class="py function">
<dt class="sig sig-object py" id="audioop.ulaw2lin">
audioop.ulaw2lin(fragment, width)<a class="headerlink" href="#audioop.ulaw2lin" title="Permalink to this definition">¶</a></dt>
<dd>Convert sound fragments in u-LAW encoding to linearly encoded sound fragments.
u-LAW encoding always uses 8 bits samples, so width refers only to the sample
width of the output fragment here.
</dd></dl>

Note that operations such as <a class="reference internal" href="#audioop.mul" title="audioop.mul"><code class="xref py py-func docutils literal notranslate">mul()</code></a> or <a class="reference internal" href="#audioop.max" title="audioop.max"><code class="xref py py-func docutils literal notranslate">max()</code></a> make no distinction
between mono and stereo fragments, i.e. all samples are treated equal. If this
is a problem the stereo fragment should be split into two mono fragments first
and recombined later. Here is an example of how to do that:
<div class="highlight-python3 notranslate"><div class="highlight"><pre>def mul_stereo(sample, width, lfactor, rfactor):
 lsample = audioop.tomono(sample, width, 1, 0)
 rsample = audioop.tomono(sample, width, 0, 1)
 lsample = audioop.mul(lsample, width, lfactor)
 rsample = audioop.mul(rsample, width, rfactor)
 lsample = audioop.tostereo(lsample, width, 1, 0)
 rsample = audioop.tostereo(rsample, width, 0, 1)
 return audioop.add(lsample, rsample, width)
</pre></div>
</div>
If you use the ADPCM coder to build network packets and you want your protocol
to be stateless (i.e. to be able to tolerate packet loss) you should not only
transmit the data but also the state. Note that you should send the initial
state (the one you passed to <a class="reference internal" href="#audioop.lin2adpcm" title="audioop.lin2adpcm"><code class="xref py py-func docutils literal notranslate">lin2adpcm()</code></a>) along to the decoder, not the
final state (as returned by the coder). If you want to use
<a class="reference internal" href="struct.html#struct.Struct" title="struct.Struct"><code class="xref py py-class docutils literal notranslate">struct.Struct</code></a> to store the state in binary you can code the first
element (the predicted value) in 16 bits and the second (the delta index) in 8.
The ADPCM coders have never been tried against other ADPCM coders, only against
themselves. It could well be that I misinterpreted the standards in which case
they will not be interoperable with the respective standards.
The <code class="xref py py-func docutils literal notranslate">find*()</code> routines might look a bit funny at first sight. They are
primarily meant to do echo cancellation. A reasonably fast way to do this is to
pick the most energetic piece of the output sample, locate that in the input
sample and subtract the whole output sample from the input sample:
<div class="highlight-python3 notranslate"><div class="highlight"><pre>def echocancel(outputdata, inputdata):
 pos = audioop.findmax(outputdata, 800) # one tenth second
 out_test = outputdata[pos*2:]
 in_test = inputdata[pos*2:]
 ipos, factor = audioop.findfit(in_test, out_test)
 # Optional (for better cancellation):
 # factor = audioop.findfactor(in_test[ipos*2:ipos*2+len(out_test)],
 # out_test)
 prefill = &#39;\0&#39;*(pos+ipos)*2
 postfill = &#39;\0&#39;*(len(inputdata)-len(prefill)-len(outputdata))
 outputdata = prefill + audioop.mul(outputdata, 2, -factor) + postfill
 return audioop.add(inputdata, outputdata, 2)
</pre></div>
</div>
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