Mercurial > hg > vamp-plugin-sdk
view src/vamp-hostsdk/PluginInputDomainAdapter.cpp @ 443:d3f676c07359 vampipe
Merge from default branch
author | Chris Cannam |
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date | Thu, 18 Aug 2016 12:03:09 +0100 |
parents | 27c3448df198 |
children | 7bab0c5422f4 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Vamp An API for audio analysis and feature extraction plugins. Centre for Digital Music, Queen Mary, University of London. Copyright 2006-2009 Chris Cannam and QMUL. This file is based in part on Don Cross's public domain FFT implementation. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the names of the Centre for Digital Music; Queen Mary, University of London; and Chris Cannam shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization. */ #include <vamp-hostsdk/PluginInputDomainAdapter.h> #include <cmath> #include "Window.h" #include <stdlib.h> #include <stdio.h> #include <math.h> #include <string.h> #include <limits.h> // Override C linkage for KissFFT headers. So long as we have already // included all of the other (system etc) headers KissFFT depends on, // this should work out OK #undef __cplusplus namespace KissSingle { #undef KISS_FFT_H #undef KISS_FTR_H #undef KISS_FFT__GUTS_H #undef FIXED_POINT #undef USE_SIMD #undef kiss_fft_scalar #define kiss_fft_scalar float inline void free(void *ptr) { ::free(ptr); } #include "../vamp-sdk/ext/kiss_fft.c" #include "../vamp-sdk/ext/kiss_fftr.c" } _VAMP_SDK_HOSTSPACE_BEGIN(PluginInputDomainAdapter.cpp) namespace Vamp { namespace HostExt { class PluginInputDomainAdapter::Impl { public: Impl(Plugin *plugin, float inputSampleRate); ~Impl(); bool initialise(size_t channels, size_t stepSize, size_t blockSize); void reset(); size_t getPreferredStepSize() const; size_t getPreferredBlockSize() const; FeatureSet process(const float *const *inputBuffers, RealTime timestamp); void setProcessTimestampMethod(ProcessTimestampMethod m); ProcessTimestampMethod getProcessTimestampMethod() const; RealTime getTimestampAdjustment() const; WindowType getWindowType() const; void setWindowType(WindowType type); protected: Plugin *m_plugin; float m_inputSampleRate; int m_channels; int m_stepSize; int m_blockSize; float **m_freqbuf; float *m_ri; WindowType m_windowType; Window<float> *m_window; ProcessTimestampMethod m_method; int m_processCount; float **m_shiftBuffers; KissSingle::kiss_fftr_cfg m_cfg; KissSingle::kiss_fft_cpx *m_cbuf; FeatureSet processShiftingTimestamp(const float *const *inputBuffers, RealTime timestamp); FeatureSet processShiftingData(const float *const *inputBuffers, RealTime timestamp); size_t makeBlockSizeAcceptable(size_t) const; Window<float>::WindowType convertType(WindowType t) const; }; PluginInputDomainAdapter::PluginInputDomainAdapter(Plugin *plugin) : PluginWrapper(plugin) { m_impl = new Impl(plugin, m_inputSampleRate); } PluginInputDomainAdapter::~PluginInputDomainAdapter() { delete m_impl; } bool PluginInputDomainAdapter::initialise(size_t channels, size_t stepSize, size_t blockSize) { return m_impl->initialise(channels, stepSize, blockSize); } void PluginInputDomainAdapter::reset() { m_impl->reset(); } Plugin::InputDomain PluginInputDomainAdapter::getInputDomain() const { return TimeDomain; } size_t PluginInputDomainAdapter::getPreferredStepSize() const { return m_impl->getPreferredStepSize(); } size_t PluginInputDomainAdapter::getPreferredBlockSize() const { return m_impl->getPreferredBlockSize(); } Plugin::FeatureSet PluginInputDomainAdapter::process(const float *const *inputBuffers, RealTime timestamp) { return m_impl->process(inputBuffers, timestamp); } void PluginInputDomainAdapter::setProcessTimestampMethod(ProcessTimestampMethod m) { m_impl->setProcessTimestampMethod(m); } PluginInputDomainAdapter::ProcessTimestampMethod PluginInputDomainAdapter::getProcessTimestampMethod() const { return m_impl->getProcessTimestampMethod(); } RealTime PluginInputDomainAdapter::getTimestampAdjustment() const { return m_impl->getTimestampAdjustment(); } PluginInputDomainAdapter::WindowType PluginInputDomainAdapter::getWindowType() const { return m_impl->getWindowType(); } void PluginInputDomainAdapter::setWindowType(WindowType w) { m_impl->setWindowType(w); } PluginInputDomainAdapter::Impl::Impl(Plugin *plugin, float inputSampleRate) : m_plugin(plugin), m_inputSampleRate(inputSampleRate), m_channels(0), m_stepSize(0), m_blockSize(0), m_freqbuf(0), m_ri(0), m_windowType(HanningWindow), m_window(0), m_method(ShiftTimestamp), m_processCount(0), m_shiftBuffers(0), m_cfg(0), m_cbuf(0) { } PluginInputDomainAdapter::Impl::~Impl() { // the adapter will delete the plugin if (m_shiftBuffers) { for (int c = 0; c < m_channels; ++c) { delete[] m_shiftBuffers[c]; } delete[] m_shiftBuffers; } if (m_channels > 0) { for (int c = 0; c < m_channels; ++c) { delete[] m_freqbuf[c]; } delete[] m_freqbuf; delete[] m_ri; if (m_cfg) { KissSingle::kiss_fftr_free(m_cfg); m_cfg = 0; delete[] m_cbuf; m_cbuf = 0; } delete m_window; } } // for some visual studii apparently #ifndef M_PI #define M_PI 3.14159265358979232846 #endif bool PluginInputDomainAdapter::Impl::initialise(size_t channels, size_t stepSize, size_t blockSize) { if (m_plugin->getInputDomain() == TimeDomain) { m_stepSize = int(stepSize); m_blockSize = int(blockSize); m_channels = int(channels); return m_plugin->initialise(channels, stepSize, blockSize); } if (blockSize < 2) { std::cerr << "ERROR: PluginInputDomainAdapter::initialise: blocksize < 2 not supported" << std::endl; return false; } if (blockSize % 2) { std::cerr << "ERROR: PluginInputDomainAdapter::initialise: odd blocksize " << blockSize << " not supported" << std::endl; return false; } if (m_channels > 0) { for (int c = 0; c < m_channels; ++c) { delete[] m_freqbuf[c]; } delete[] m_freqbuf; delete[] m_ri; if (m_cfg) { KissSingle::kiss_fftr_free(m_cfg); m_cfg = 0; delete[] m_cbuf; m_cbuf = 0; } delete m_window; } m_stepSize = int(stepSize); m_blockSize = int(blockSize); m_channels = int(channels); m_freqbuf = new float *[m_channels]; for (int c = 0; c < m_channels; ++c) { m_freqbuf[c] = new float[m_blockSize + 2]; } m_ri = new float[m_blockSize]; m_window = new Window<float>(convertType(m_windowType), m_blockSize); m_cfg = KissSingle::kiss_fftr_alloc(m_blockSize, false, 0, 0); m_cbuf = new KissSingle::kiss_fft_cpx[m_blockSize/2+1]; m_processCount = 0; return m_plugin->initialise(channels, stepSize, m_blockSize); } void PluginInputDomainAdapter::Impl::reset() { m_processCount = 0; m_plugin->reset(); } size_t PluginInputDomainAdapter::Impl::getPreferredStepSize() const { size_t step = m_plugin->getPreferredStepSize(); if (step == 0 && (m_plugin->getInputDomain() == FrequencyDomain)) { step = getPreferredBlockSize() / 2; } return step; } size_t PluginInputDomainAdapter::Impl::getPreferredBlockSize() const { size_t block = m_plugin->getPreferredBlockSize(); if (m_plugin->getInputDomain() == FrequencyDomain) { if (block == 0) { block = 1024; } else { block = makeBlockSizeAcceptable(block); } } return block; } size_t PluginInputDomainAdapter::Impl::makeBlockSizeAcceptable(size_t blockSize) const { if (blockSize < 2) { std::cerr << "WARNING: PluginInputDomainAdapter::initialise: blocksize < 2 not" << std::endl << "supported, increasing from " << blockSize << " to 2" << std::endl; blockSize = 2; } else if (blockSize % 2) { std::cerr << "WARNING: PluginInputDomainAdapter::initialise: odd blocksize not" << std::endl << "supported, increasing from " << blockSize << " to " << (blockSize+1) << std::endl; blockSize = blockSize+1; } return blockSize; } RealTime PluginInputDomainAdapter::Impl::getTimestampAdjustment() const { if (m_plugin->getInputDomain() == TimeDomain) { return RealTime::zeroTime; } else if (m_method == ShiftData || m_method == NoShift) { return RealTime::zeroTime; } else { return RealTime::frame2RealTime (m_blockSize/2, int(m_inputSampleRate + 0.5)); } } void PluginInputDomainAdapter::Impl::setProcessTimestampMethod(ProcessTimestampMethod m) { m_method = m; } PluginInputDomainAdapter::ProcessTimestampMethod PluginInputDomainAdapter::Impl::getProcessTimestampMethod() const { return m_method; } void PluginInputDomainAdapter::Impl::setWindowType(WindowType t) { if (m_windowType == t) return; m_windowType = t; if (m_window) { delete m_window; m_window = new Window<float>(convertType(m_windowType), m_blockSize); } } PluginInputDomainAdapter::WindowType PluginInputDomainAdapter::Impl::getWindowType() const { return m_windowType; } Window<float>::WindowType PluginInputDomainAdapter::Impl::convertType(WindowType t) const { switch (t) { case RectangularWindow: return Window<float>::RectangularWindow; case BartlettWindow: return Window<float>::BartlettWindow; case HammingWindow: return Window<float>::HammingWindow; case HanningWindow: return Window<float>::HanningWindow; case BlackmanWindow: return Window<float>::BlackmanWindow; case NuttallWindow: return Window<float>::NuttallWindow; case BlackmanHarrisWindow: return Window<float>::BlackmanHarrisWindow; default: return Window<float>::HanningWindow; } } Plugin::FeatureSet PluginInputDomainAdapter::Impl::process(const float *const *inputBuffers, RealTime timestamp) { if (m_plugin->getInputDomain() == TimeDomain) { return m_plugin->process(inputBuffers, timestamp); } if (m_method == ShiftTimestamp || m_method == NoShift) { return processShiftingTimestamp(inputBuffers, timestamp); } else { return processShiftingData(inputBuffers, timestamp); } } Plugin::FeatureSet PluginInputDomainAdapter::Impl::processShiftingTimestamp(const float *const *inputBuffers, RealTime timestamp) { unsigned int roundedRate = 1; if (m_inputSampleRate > 0.f) { roundedRate = (unsigned int)round(m_inputSampleRate); } if (m_method == ShiftTimestamp) { // we may need to add one nsec if timestamp + // getTimestampAdjustment() rounds down timestamp = timestamp + getTimestampAdjustment(); RealTime nsec(0, 1); if (RealTime::realTime2Frame(timestamp, roundedRate) < RealTime::realTime2Frame(timestamp + nsec, roundedRate)) { timestamp = timestamp + nsec; } } for (int c = 0; c < m_channels; ++c) { m_window->cut(inputBuffers[c], m_ri); for (int i = 0; i < m_blockSize/2; ++i) { // FFT shift float value = m_ri[i]; m_ri[i] = m_ri[i + m_blockSize/2]; m_ri[i + m_blockSize/2] = value; } KissSingle::kiss_fftr(m_cfg, m_ri, m_cbuf); for (int i = 0; i <= m_blockSize/2; ++i) { m_freqbuf[c][i * 2] = m_cbuf[i].r; m_freqbuf[c][i * 2 + 1] = m_cbuf[i].i; } } return m_plugin->process(m_freqbuf, timestamp); } Plugin::FeatureSet PluginInputDomainAdapter::Impl::processShiftingData(const float *const *inputBuffers, RealTime timestamp) { if (m_processCount == 0) { if (!m_shiftBuffers) { m_shiftBuffers = new float *[m_channels]; for (int c = 0; c < m_channels; ++c) { m_shiftBuffers[c] = new float[m_blockSize + m_blockSize/2]; } } for (int c = 0; c < m_channels; ++c) { for (int i = 0; i < m_blockSize + m_blockSize/2; ++i) { m_shiftBuffers[c][i] = 0.f; } } } for (int c = 0; c < m_channels; ++c) { for (int i = m_stepSize; i < m_blockSize + m_blockSize/2; ++i) { m_shiftBuffers[c][i - m_stepSize] = m_shiftBuffers[c][i]; } for (int i = 0; i < m_blockSize; ++i) { m_shiftBuffers[c][i + m_blockSize/2] = inputBuffers[c][i]; } } for (int c = 0; c < m_channels; ++c) { m_window->cut(m_shiftBuffers[c], m_ri); for (int i = 0; i < m_blockSize/2; ++i) { // FFT shift float value = m_ri[i]; m_ri[i] = m_ri[i + m_blockSize/2]; m_ri[i + m_blockSize/2] = value; } KissSingle::kiss_fftr(m_cfg, m_ri, m_cbuf); for (int i = 0; i <= m_blockSize/2; ++i) { m_freqbuf[c][i * 2] = m_cbuf[i].r; m_freqbuf[c][i * 2 + 1] = m_cbuf[i].i; } } ++m_processCount; return m_plugin->process(m_freqbuf, timestamp); } } } _VAMP_SDK_HOSTSPACE_END(PluginInputDomainAdapter.cpp)