boo/lib/audiodev/AudioVoice.cpp

473 lines
15 KiB
C++

#include "AudioVoice.hpp"
#include "AudioVoiceEngine.hpp"
#include "logvisor/logvisor.hpp"
namespace boo
{
static logvisor::Module Log("boo::AudioVoice");
static AudioMatrixMono DefaultMonoMtx;
static AudioMatrixStereo DefaultStereoMtx;
AudioVoice::AudioVoice(BaseAudioVoiceEngine& root,
IAudioVoiceCallback* cb, bool dynamicRate)
: m_root(root), m_cb(cb), m_dynamicRate(dynamicRate) {}
AudioVoice::~AudioVoice()
{
unbindVoice();
soxr_delete(m_src);
}
void AudioVoice::_setPitchRatio(double ratio, bool slew)
{
if (m_dynamicRate)
{
soxr_error_t err = soxr_set_io_ratio(m_src, ratio * m_sampleRateIn / m_sampleRateOut, slew ? m_root.m_5msFrames : 0);
if (err)
{
Log.report(logvisor::Fatal, "unable to set resampler rate: %s", soxr_strerror(err));
m_setPitchRatio = false;
return;
}
}
m_setPitchRatio = false;
}
void AudioVoice::_midUpdate()
{
if (m_resetSampleRate)
_resetSampleRate(m_deferredSampleRate);
if (m_setPitchRatio)
_setPitchRatio(m_pitchRatio, m_slew);
}
void AudioVoice::setPitchRatio(double ratio, bool slew)
{
m_setPitchRatio = true;
m_pitchRatio = ratio;
m_slew = slew;
}
void AudioVoice::resetSampleRate(double sampleRate)
{
m_resetSampleRate = true;
m_deferredSampleRate = sampleRate;
}
void AudioVoice::start()
{
m_running = true;
}
void AudioVoice::stop()
{
m_running = false;
}
void AudioVoice::unbindVoice()
{
if (m_bound)
{
m_root._unbindFrom(m_parentIt);
m_bound = false;
}
}
AudioVoiceMono::AudioVoiceMono(BaseAudioVoiceEngine& root, IAudioVoiceCallback* cb,
double sampleRate, bool dynamicRate)
: AudioVoice(root, cb, dynamicRate)
{
_resetSampleRate(sampleRate);
}
void AudioVoiceMono::_resetSampleRate(double sampleRate)
{
soxr_delete(m_src);
double rateOut = m_root.mixInfo().m_sampleRate;
soxr_datatype_t formatOut = m_root.mixInfo().m_sampleFormat;
soxr_io_spec_t ioSpec = soxr_io_spec(SOXR_INT16_I, formatOut);
soxr_quality_spec_t qSpec = soxr_quality_spec(SOXR_20_BITQ, m_dynamicRate ? SOXR_VR : 0);
soxr_error_t err;
m_src = soxr_create(sampleRate, rateOut, 1,
&err, &ioSpec, &qSpec, nullptr);
if (err)
{
Log.report(logvisor::Fatal, "unable to create soxr resampler: %s", soxr_strerror(err));
m_resetSampleRate = false;
return;
}
m_sampleRateIn = sampleRate;
m_sampleRateOut = rateOut;
soxr_set_input_fn(m_src, soxr_input_fn_t(SRCCallback), this, 0);
_setPitchRatio(m_pitchRatio, false);
m_resetSampleRate = false;
}
size_t AudioVoiceMono::SRCCallback(AudioVoiceMono* ctx, int16_t** data, size_t frames)
{
std::vector<int16_t>& scratchIn = ctx->m_root.m_scratchIn;
if (scratchIn.size() < frames)
scratchIn.resize(frames);
*data = scratchIn.data();
if (ctx->m_silentOut)
{
memset(*data, 0, frames * 2);
return frames;
}
else
return ctx->m_cb->supplyAudio(*ctx, frames, scratchIn.data());
}
size_t AudioVoiceMono::pumpAndMix16(size_t frames)
{
std::vector<int16_t>& scratch16Pre = m_root.m_scratch16Pre;
if (scratch16Pre.size() < frames)
scratch16Pre.resize(frames);
std::vector<int16_t>& scratch16Post = m_root.m_scratch16Post;
if (scratch16Post.size() < frames)
scratch16Post.resize(frames);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratch16Pre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 1, dt, smx.m_busId, scratch16Pre.data(), scratch16Post.data());
mtx.second.mixMonoSampleData(m_root.m_mixInfo, scratch16Post.data(), smx._getMergeBuf16(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 1, dt, m_root.m_mainSubmix.m_busId, scratch16Pre.data(), scratch16Post.data());
DefaultMonoMtx.mixMonoSampleData(m_root.m_mixInfo, scratch16Post.data(), smx._getMergeBuf16(oDone), oDone);
}
}
return oDone;
}
size_t AudioVoiceMono::pumpAndMix32(size_t frames)
{
std::vector<int32_t>& scratch32Pre = m_root.m_scratch32Pre;
if (scratch32Pre.size() < frames)
scratch32Pre.resize(frames);
std::vector<int32_t>& scratch32Post = m_root.m_scratch32Post;
if (scratch32Post.size() < frames)
scratch32Post.resize(frames);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratch32Pre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 1, dt, smx.m_busId, scratch32Pre.data(), scratch32Post.data());
mtx.second.mixMonoSampleData(m_root.m_mixInfo, scratch32Post.data(), smx._getMergeBuf32(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 1, dt, m_root.m_mainSubmix.m_busId, scratch32Pre.data(), scratch32Post.data());
DefaultMonoMtx.mixMonoSampleData(m_root.m_mixInfo, scratch32Post.data(), smx._getMergeBuf32(oDone), oDone);
}
}
return oDone;
}
size_t AudioVoiceMono::pumpAndMixFlt(size_t frames)
{
std::vector<float>& scratchFltPre = m_root.m_scratchFltPre;
if (scratchFltPre.size() < frames)
scratchFltPre.resize(frames + 2);
std::vector<float>& scratchFltPost = m_root.m_scratchFltPost;
if (scratchFltPost.size() < frames)
scratchFltPost.resize(frames + 2);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratchFltPre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 1, dt, smx.m_busId, scratchFltPre.data(), scratchFltPost.data());
mtx.second.mixMonoSampleData(m_root.m_mixInfo, scratchFltPost.data(), smx._getMergeBufFlt(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 1, dt, m_root.m_mainSubmix.m_busId, scratchFltPre.data(), scratchFltPost.data());
DefaultMonoMtx.mixMonoSampleData(m_root.m_mixInfo, scratchFltPost.data(), smx._getMergeBufFlt(oDone), oDone);
}
}
return oDone;
}
void AudioVoiceMono::resetChannelLevels()
{
m_root.m_submixesDirty = true;
m_sendMatrices.clear();
}
void AudioVoiceMono::setMonoChannelLevels(IAudioSubmix* submix, const float coefs[8], bool slew)
{
auto search = m_sendMatrices.find(submix);
if (search == m_sendMatrices.cend())
search = m_sendMatrices.emplace(submix, AudioMatrixMono{}).first;
search->second.setMatrixCoefficients(coefs, slew ? m_root.m_5msFrames : 0);
}
void AudioVoiceMono::setStereoChannelLevels(IAudioSubmix* submix, const float coefs[8][2], bool slew)
{
float newCoefs[8] =
{
coefs[0][0],
coefs[1][0],
coefs[2][0],
coefs[3][0],
coefs[4][0],
coefs[5][0],
coefs[6][0],
coefs[7][0]
};
auto search = m_sendMatrices.find(submix);
if (search == m_sendMatrices.cend())
search = m_sendMatrices.emplace(submix, AudioMatrixMono{}).first;
search->second.setMatrixCoefficients(newCoefs, slew ? m_root.m_5msFrames : 0);
}
AudioVoiceStereo::AudioVoiceStereo(BaseAudioVoiceEngine& root, IAudioVoiceCallback* cb,
double sampleRate, bool dynamicRate)
: AudioVoice(root, cb, dynamicRate)
{
_resetSampleRate(sampleRate);
}
void AudioVoiceStereo::_resetSampleRate(double sampleRate)
{
soxr_delete(m_src);
double rateOut = m_root.mixInfo().m_sampleRate;
soxr_datatype_t formatOut = m_root.mixInfo().m_sampleFormat;
soxr_io_spec_t ioSpec = soxr_io_spec(SOXR_INT16_I, formatOut);
soxr_quality_spec_t qSpec = soxr_quality_spec(SOXR_20_BITQ, m_dynamicRate ? SOXR_VR : 0);
soxr_error_t err;
m_src = soxr_create(sampleRate, rateOut, 2,
&err, &ioSpec, &qSpec, nullptr);
if (!m_src)
{
Log.report(logvisor::Fatal, "unable to create soxr resampler: %s", soxr_strerror(err));
m_resetSampleRate = false;
return;
}
m_sampleRateIn = sampleRate;
m_sampleRateOut = rateOut;
soxr_set_input_fn(m_src, soxr_input_fn_t(SRCCallback), this, 0);
_setPitchRatio(m_pitchRatio, false);
m_resetSampleRate = false;
}
size_t AudioVoiceStereo::SRCCallback(AudioVoiceStereo* ctx, int16_t** data, size_t frames)
{
std::vector<int16_t>& scratchIn = ctx->m_root.m_scratchIn;
size_t samples = frames * 2;
if (scratchIn.size() < samples)
scratchIn.resize(samples);
*data = scratchIn.data();
if (ctx->m_silentOut)
{
memset(*data, 0, samples * 2);
return frames;
}
else
return ctx->m_cb->supplyAudio(*ctx, frames, scratchIn.data());
}
size_t AudioVoiceStereo::pumpAndMix16(size_t frames)
{
size_t samples = frames * 2;
std::vector<int16_t>& scratch16Pre = m_root.m_scratch16Pre;
if (scratch16Pre.size() < samples)
scratch16Pre.resize(samples);
std::vector<int16_t>& scratch16Post = m_root.m_scratch16Post;
if (scratch16Post.size() < samples)
scratch16Post.resize(samples);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratch16Pre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 2, dt, smx.m_busId, scratch16Pre.data(), scratch16Post.data());
mtx.second.mixStereoSampleData(m_root.m_mixInfo, scratch16Post.data(), smx._getMergeBuf16(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 2, dt, m_root.m_mainSubmix.m_busId, scratch16Pre.data(), scratch16Post.data());
DefaultStereoMtx.mixStereoSampleData(m_root.m_mixInfo, scratch16Post.data(), smx._getMergeBuf16(oDone), oDone);
}
}
return oDone;
}
size_t AudioVoiceStereo::pumpAndMix32(size_t frames)
{
size_t samples = frames * 2;
std::vector<int32_t>& scratch32Pre = m_root.m_scratch32Pre;
if (scratch32Pre.size() < samples)
scratch32Pre.resize(samples);
std::vector<int32_t>& scratch32Post = m_root.m_scratch32Post;
if (scratch32Post.size() < samples)
scratch32Post.resize(samples);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratch32Pre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 2, dt, smx.m_busId, scratch32Pre.data(), scratch32Post.data());
mtx.second.mixStereoSampleData(m_root.m_mixInfo, scratch32Post.data(), smx._getMergeBuf32(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 2, dt, m_root.m_mainSubmix.m_busId, scratch32Pre.data(), scratch32Post.data());
DefaultStereoMtx.mixStereoSampleData(m_root.m_mixInfo, scratch32Post.data(), smx._getMergeBuf32(oDone), oDone);
}
}
return oDone;
}
size_t AudioVoiceStereo::pumpAndMixFlt(size_t frames)
{
size_t samples = frames * 2;
std::vector<float>& scratchFltPre = m_root.m_scratchFltPre;
if (scratchFltPre.size() < samples)
scratchFltPre.resize(samples + 4);
std::vector<float>& scratchFltPost = m_root.m_scratchFltPost;
if (scratchFltPost.size() < samples)
scratchFltPost.resize(samples + 4);
double dt = frames / m_sampleRateOut;
m_cb->preSupplyAudio(*this, dt);
_midUpdate();
size_t oDone = soxr_output(m_src, scratchFltPre.data(), frames);
if (oDone)
{
if (m_sendMatrices.size())
{
for (auto& mtx : m_sendMatrices)
{
AudioSubmix& smx = *reinterpret_cast<AudioSubmix*>(mtx.first);
m_cb->routeAudio(oDone, 2, dt, smx.m_busId, scratchFltPre.data(), scratchFltPost.data());
mtx.second.mixStereoSampleData(m_root.m_mixInfo, scratchFltPost.data(), smx._getMergeBufFlt(oDone), oDone);
}
}
else
{
AudioSubmix& smx = reinterpret_cast<AudioSubmix&>(m_root.m_mainSubmix);
m_cb->routeAudio(oDone, 2, dt, m_root.m_mainSubmix.m_busId, scratchFltPre.data(), scratchFltPost.data());
DefaultStereoMtx.mixStereoSampleData(m_root.m_mixInfo, scratchFltPost.data(), smx._getMergeBufFlt(oDone), oDone);
}
}
return oDone;
}
void AudioVoiceStereo::resetChannelLevels()
{
m_root.m_submixesDirty = true;
m_sendMatrices.clear();
}
void AudioVoiceStereo::setMonoChannelLevels(IAudioSubmix* submix, const float coefs[8], bool slew)
{
float newCoefs[8][2] =
{
{coefs[0], coefs[0]},
{coefs[1], coefs[1]},
{coefs[2], coefs[2]},
{coefs[3], coefs[3]},
{coefs[4], coefs[4]},
{coefs[5], coefs[5]},
{coefs[6], coefs[6]},
{coefs[7], coefs[7]}
};
auto search = m_sendMatrices.find(submix);
if (search == m_sendMatrices.cend())
search = m_sendMatrices.emplace(submix, AudioMatrixStereo{}).first;
search->second.setMatrixCoefficients(newCoefs, slew ? m_root.m_5msFrames : 0);
}
void AudioVoiceStereo::setStereoChannelLevels(IAudioSubmix* submix, const float coefs[8][2], bool slew)
{
auto search = m_sendMatrices.find(submix);
if (search == m_sendMatrices.cend())
search = m_sendMatrices.emplace(submix, AudioMatrixStereo{}).first;
search->second.setMatrixCoefficients(coefs, slew ? m_root.m_5msFrames : 0);
}
}