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dexed/JuceLibraryCode/modules/juce_audio_basics/sources/juce_ResamplingAudioSource.cpp

262 lines
7.8 KiB

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2013 - Raw Material Software Ltd.
Permission is granted to use this software under the terms of either:
a) the GPL v2 (or any later version)
b) the Affero GPL v3
Details of these licenses can be found at: www.gnu.org/licenses
JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
------------------------------------------------------------------------------
To release a closed-source product which uses JUCE, commercial licenses are
available: visit www.juce.com for more information.
==============================================================================
*/
ResamplingAudioSource::ResamplingAudioSource (AudioSource* const inputSource,
const bool deleteInputWhenDeleted,
const int numChannels_)
: input (inputSource, deleteInputWhenDeleted),
ratio (1.0),
lastRatio (1.0),
bufferPos (0),
sampsInBuffer (0),
subSampleOffset (0),
numChannels (numChannels_)
{
jassert (input != nullptr);
zeromem (coefficients, sizeof (coefficients));
}
ResamplingAudioSource::~ResamplingAudioSource() {}
void ResamplingAudioSource::setResamplingRatio (const double samplesInPerOutputSample)
{
jassert (samplesInPerOutputSample > 0);
const SpinLock::ScopedLockType sl (ratioLock);
ratio = jmax (0.0, samplesInPerOutputSample);
}
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void ResamplingAudioSource::prepareToPlay (int samplesPerBlockExpected, double sampleRate)
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{
const SpinLock::ScopedLockType sl (ratioLock);
input->prepareToPlay (samplesPerBlockExpected, sampleRate);
buffer.setSize (numChannels, roundToInt (samplesPerBlockExpected * ratio) + 32);
filterStates.calloc ((size_t) numChannels);
srcBuffers.calloc ((size_t) numChannels);
destBuffers.calloc ((size_t) numChannels);
createLowPass (ratio);
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flushBuffers();
}
void ResamplingAudioSource::flushBuffers()
{
buffer.clear();
bufferPos = 0;
sampsInBuffer = 0;
subSampleOffset = 0.0;
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resetFilters();
}
void ResamplingAudioSource::releaseResources()
{
input->releaseResources();
buffer.setSize (numChannels, 0);
}
void ResamplingAudioSource::getNextAudioBlock (const AudioSourceChannelInfo& info)
{
double localRatio;
{
const SpinLock::ScopedLockType sl (ratioLock);
localRatio = ratio;
}
if (lastRatio != localRatio)
{
createLowPass (localRatio);
lastRatio = localRatio;
}
const int sampsNeeded = roundToInt (info.numSamples * localRatio) + 2;
int bufferSize = buffer.getNumSamples();
if (bufferSize < sampsNeeded + 8)
{
bufferPos %= bufferSize;
bufferSize = sampsNeeded + 32;
buffer.setSize (buffer.getNumChannels(), bufferSize, true, true);
}
bufferPos %= bufferSize;
int endOfBufferPos = bufferPos + sampsInBuffer;
const int channelsToProcess = jmin (numChannels, info.buffer->getNumChannels());
while (sampsNeeded > sampsInBuffer)
{
endOfBufferPos %= bufferSize;
int numToDo = jmin (sampsNeeded - sampsInBuffer,
bufferSize - endOfBufferPos);
AudioSourceChannelInfo readInfo (&buffer, endOfBufferPos, numToDo);
input->getNextAudioBlock (readInfo);
if (localRatio > 1.0001)
{
// for down-sampling, pre-apply the filter..
for (int i = channelsToProcess; --i >= 0;)
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applyFilter (buffer.getWritePointer (i, endOfBufferPos), numToDo, filterStates[i]);
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}
sampsInBuffer += numToDo;
endOfBufferPos += numToDo;
}
for (int channel = 0; channel < channelsToProcess; ++channel)
{
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destBuffers[channel] = info.buffer->getWritePointer (channel, info.startSample);
srcBuffers[channel] = buffer.getReadPointer (channel);
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}
int nextPos = (bufferPos + 1) % bufferSize;
for (int m = info.numSamples; --m >= 0;)
{
const float alpha = (float) subSampleOffset;
for (int channel = 0; channel < channelsToProcess; ++channel)
*destBuffers[channel]++ = srcBuffers[channel][bufferPos]
+ alpha * (srcBuffers[channel][nextPos] - srcBuffers[channel][bufferPos]);
subSampleOffset += localRatio;
jassert (sampsInBuffer > 0);
while (subSampleOffset >= 1.0)
{
if (++bufferPos >= bufferSize)
bufferPos = 0;
--sampsInBuffer;
nextPos = (bufferPos + 1) % bufferSize;
subSampleOffset -= 1.0;
}
}
if (localRatio < 0.9999)
{
// for up-sampling, apply the filter after transposing..
for (int i = channelsToProcess; --i >= 0;)
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applyFilter (info.buffer->getWritePointer (i, info.startSample), info.numSamples, filterStates[i]);
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}
else if (localRatio <= 1.0001 && info.numSamples > 0)
{
// if the filter's not currently being applied, keep it stoked with the last couple of samples to avoid discontinuities
for (int i = channelsToProcess; --i >= 0;)
{
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const float* const endOfBuffer = info.buffer->getReadPointer (i, info.startSample + info.numSamples - 1);
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FilterState& fs = filterStates[i];
if (info.numSamples > 1)
{
fs.y2 = fs.x2 = *(endOfBuffer - 1);
}
else
{
fs.y2 = fs.y1;
fs.x2 = fs.x1;
}
fs.y1 = fs.x1 = *endOfBuffer;
}
}
jassert (sampsInBuffer >= 0);
}
void ResamplingAudioSource::createLowPass (const double frequencyRatio)
{
const double proportionalRate = (frequencyRatio > 1.0) ? 0.5 / frequencyRatio
: 0.5 * frequencyRatio;
const double n = 1.0 / std::tan (double_Pi * jmax (0.001, proportionalRate));
const double nSquared = n * n;
const double c1 = 1.0 / (1.0 + std::sqrt (2.0) * n + nSquared);
setFilterCoefficients (c1,
c1 * 2.0f,
c1,
1.0,
c1 * 2.0 * (1.0 - nSquared),
c1 * (1.0 - std::sqrt (2.0) * n + nSquared));
}
void ResamplingAudioSource::setFilterCoefficients (double c1, double c2, double c3, double c4, double c5, double c6)
{
const double a = 1.0 / c4;
c1 *= a;
c2 *= a;
c3 *= a;
c5 *= a;
c6 *= a;
coefficients[0] = c1;
coefficients[1] = c2;
coefficients[2] = c3;
coefficients[3] = c4;
coefficients[4] = c5;
coefficients[5] = c6;
}
void ResamplingAudioSource::resetFilters()
{
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if (filterStates != nullptr)
filterStates.clear ((size_t) numChannels);
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}
void ResamplingAudioSource::applyFilter (float* samples, int num, FilterState& fs)
{
while (--num >= 0)
{
const double in = *samples;
double out = coefficients[0] * in
+ coefficients[1] * fs.x1
+ coefficients[2] * fs.x2
- coefficients[4] * fs.y1
- coefficients[5] * fs.y2;
#if JUCE_INTEL
if (! (out < -1.0e-8 || out > 1.0e-8))
out = 0;
#endif
fs.x2 = fs.x1;
fs.x1 = in;
fs.y2 = fs.y1;
fs.y1 = out;
*samples++ = (float) out;
}
}