amuse/lib/Sequencer.cpp

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#include "amuse/Sequencer.hpp"
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#include "amuse/Submix.hpp"
#include "amuse/Voice.hpp"
#include "amuse/Engine.hpp"
#include <map>
namespace amuse
{
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void Sequencer::ChannelState::_bringOutYourDead()
{
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for (auto it = m_chanVoxs.begin(); it != m_chanVoxs.end();)
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{
Voice* vox = it->second.get();
vox->_bringOutYourDead();
if (vox->_isRecursivelyDead())
{
it = m_chanVoxs.erase(it);
continue;
}
++it;
}
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for (auto it = m_keyoffVoxs.begin(); it != m_keyoffVoxs.end();)
{
Voice* vox = it->get();
vox->_bringOutYourDead();
if (vox->_isRecursivelyDead())
{
it = m_keyoffVoxs.erase(it);
continue;
}
++it;
}
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}
void Sequencer::_bringOutYourDead()
{
for (auto& chan : m_chanStates)
if (chan)
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chan._bringOutYourDead();
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if (!m_arrData && m_dieOnEnd && getVoiceCount() == 0)
m_state = SequencerState::Dead;
}
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void Sequencer::_destroy()
{
Entity::_destroy();
if (m_studio)
m_studio.reset();
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}
Sequencer::~Sequencer()
{
if (m_studio)
m_studio.reset();
}
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Sequencer::Sequencer(Engine& engine, const AudioGroup& group, int groupId, const SongGroupIndex* songGroup, int setupId,
std::weak_ptr<Studio> studio)
: Entity(engine, group, groupId), m_songGroup(songGroup), m_studio(studio)
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{
auto it = m_songGroup->m_midiSetups.find(setupId);
if (it != m_songGroup->m_midiSetups.cend())
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m_midiSetup = it->second->data();
}
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Sequencer::Sequencer(Engine& engine, const AudioGroup& group, int groupId, const SFXGroupIndex* sfxGroup,
std::weak_ptr<Studio> studio)
: Entity(engine, group, groupId), m_sfxGroup(sfxGroup), m_studio(studio)
{
std::map<uint16_t, const SFXGroupIndex::SFXEntry*> sortSFX;
for (const auto& sfx : sfxGroup->m_sfxEntries)
sortSFX[sfx.first] = sfx.second;
m_sfxMappings.reserve(sortSFX.size());
for (const auto& sfx : sortSFX)
m_sfxMappings.push_back(sfx.second);
}
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Sequencer::ChannelState::~ChannelState() {}
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Sequencer::ChannelState::ChannelState(Sequencer& parent, uint8_t chanId)
: m_parent(&parent), m_chanId(chanId)
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{
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if (m_parent->m_songGroup)
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{
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if (m_parent->m_midiSetup)
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{
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m_setup = &m_parent->m_midiSetup[chanId];
if (chanId == 9)
{
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auto it = m_parent->m_songGroup->m_drumPages.find(m_setup->programNo);
if (it != m_parent->m_songGroup->m_drumPages.cend())
{
m_page = it->second;
m_curProgram = m_setup->programNo;
}
}
else
{
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auto it = m_parent->m_songGroup->m_normPages.find(m_setup->programNo);
if (it != m_parent->m_songGroup->m_normPages.cend())
{
m_page = it->second;
m_curProgram = m_setup->programNo;
}
}
m_curVol = m_setup->volume / 127.f;
m_curPan = m_setup->panning / 64.f - 1.f;
m_ctrlVals[0x5b] = m_setup->reverb;
m_ctrlVals[0x5d] = m_setup->chorus;
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}
else
{
if (chanId == 9)
{
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auto it = m_parent->m_songGroup->m_drumPages.find(0);
if (it != m_parent->m_songGroup->m_drumPages.cend())
m_page = it->second;
}
else
{
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auto it = m_parent->m_songGroup->m_normPages.find(0);
if (it != m_parent->m_songGroup->m_normPages.cend())
m_page = it->second;
}
m_curVol = 1.f;
m_curPan = 0.f;
m_ctrlVals[0x5b] = 0;
m_ctrlVals[0x5d] = 0;
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}
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}
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else if (m_parent->m_sfxGroup)
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{
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m_curVol = 1.f;
m_curPan = 0.f;
m_ctrlVals[0x5b] = 0;
m_ctrlVals[0x5d] = 0;
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}
m_ctrlVals[7] = 127;
m_ctrlVals[10] = 64;
}
void Sequencer::advance(double dt)
{
if (m_state == SequencerState::Playing)
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{
if (m_stopFadeTime)
{
float step = dt / m_stopFadeTime * m_stopFadeBeginVol;
float vol = std::max(0.f, m_curVol - step);
if (vol == 0.f)
{
m_arrData = nullptr;
m_state = SequencerState::Interactive;
allOff(true);
m_stopFadeTime = 0.f;
return;
}
else
{
setVolume(vol);
}
}
else if (m_volFadeTime)
{
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float step = dt / m_volFadeTime * std::fabs(m_volFadeTarget - m_volFadeStart);
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float vol;
if (m_curVol < m_volFadeTarget)
vol = std::min(m_volFadeTarget, m_curVol + step);
else if (m_curVol >= m_volFadeTarget)
vol = std::max(m_volFadeTarget, m_curVol - step);
if (vol == m_volFadeTarget)
m_volFadeTime = 0.f;
else
setVolume(vol);
}
if (m_songState.advance(*this, dt))
{
m_arrData = nullptr;
m_state = SequencerState::Interactive;
allOff();
}
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}
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}
size_t Sequencer::ChannelState::getVoiceCount() const
{
size_t ret = 0;
for (const auto& vox : m_chanVoxs)
ret += vox.second->getTotalVoices();
for (const auto& vox : m_keyoffVoxs)
ret += vox->getTotalVoices();
return ret;
}
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size_t Sequencer::getVoiceCount() const
{
size_t ret = 0;
for (const auto& chan : m_chanStates)
if (chan)
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ret += chan.getVoiceCount();
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return ret;
}
std::shared_ptr<Voice> Sequencer::ChannelState::keyOn(uint8_t note, uint8_t velocity)
{
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if (m_parent->m_songGroup && !m_page)
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return {};
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/* If portamento is enabled for voice, pre-empt spawning new voices */
if (std::shared_ptr<Voice> lastVoice = m_lastVoice.lock())
{
uint8_t lastNote = lastVoice->getLastNote();
if (lastVoice->doPortamento(note))
{
m_chanVoxs.erase(lastNote);
m_chanVoxs[note] = lastVoice;
return lastVoice;
}
}
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/* Ensure keyoff sent first */
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auto keySearch = m_chanVoxs.find(note);
if (keySearch != m_chanVoxs.cend())
{
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if (keySearch->second == m_lastVoice.lock())
m_lastVoice.reset();
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keySearch->second->keyOff();
keySearch->second->setPedal(false);
m_keyoffVoxs.emplace(std::move(keySearch->second));
m_chanVoxs.erase(keySearch);
}
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std::list<std::shared_ptr<Voice>>::iterator ret = m_parent->m_engine._allocateVoice(
m_parent->m_audioGroup, m_parent->m_groupId, NativeSampleRate, true, false, m_parent->m_studio);
if (*ret)
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{
m_chanVoxs[note] = *ret;
(*ret)->installCtrlValues(m_ctrlVals);
ObjectId oid;
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if (m_parent->m_songGroup)
oid = (m_parent->m_audioGroup.getDataFormat() == DataFormat::PC) ? m_page->objId : SBig(m_page->objId);
else if (m_parent->m_sfxMappings.size())
{
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size_t lookupIdx = note % m_parent->m_sfxMappings.size();
const SFXGroupIndex::SFXEntry* sfxEntry = m_parent->m_sfxMappings[lookupIdx];
oid = (m_parent->m_audioGroup.getDataFormat() == DataFormat::PC) ? sfxEntry->objId : SBig(sfxEntry->objId);
note = sfxEntry->defKey;
}
else
return {};
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if (!(*ret)->loadSoundObject(oid, 0, m_parent->m_ticksPerSec, note, velocity, m_ctrlVals[1]))
{
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m_parent->m_engine._destroyVoice(ret);
return {};
}
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(*ret)->setVolume(m_parent->m_curVol * m_curVol);
(*ret)->setReverbVol(m_ctrlVals[0x5b] / 127.f);
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(*ret)->setAuxBVol(m_ctrlVals[0x5d] / 127.f);
(*ret)->setPan(m_curPan);
(*ret)->setPitchWheel(m_curPitchWheel);
if (m_ctrlVals[64] > 64)
(*ret)->setPedal(true);
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m_lastVoice = *ret;
}
return *ret;
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}
std::shared_ptr<Voice> Sequencer::keyOn(uint8_t chan, uint8_t note, uint8_t velocity)
{
if (chan > 15)
return {};
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if (!m_chanStates[chan])
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m_chanStates[chan] = ChannelState(*this, chan);
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return m_chanStates[chan].keyOn(note, velocity);
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}
void Sequencer::ChannelState::keyOff(uint8_t note, uint8_t velocity)
{
auto keySearch = m_chanVoxs.find(note);
if (keySearch == m_chanVoxs.cend())
return;
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if (keySearch->second == m_lastVoice.lock())
m_lastVoice.reset();
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keySearch->second->keyOff();
m_keyoffVoxs.emplace(std::move(keySearch->second));
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m_chanVoxs.erase(keySearch);
}
void Sequencer::keyOff(uint8_t chan, uint8_t note, uint8_t velocity)
{
if (chan > 15 || !m_chanStates[chan])
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return;
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m_chanStates[chan].keyOff(note, velocity);
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}
void Sequencer::ChannelState::setCtrlValue(uint8_t ctrl, int8_t val)
{
m_ctrlVals[ctrl] = val;
for (const auto& vox : m_chanVoxs)
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vox.second->_notifyCtrlChange(ctrl, val);
for (const auto& vox : m_keyoffVoxs)
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vox->_notifyCtrlChange(ctrl, val);
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switch (ctrl)
{
case 7:
setVolume(val / 127.f);
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break;
case 10:
setPan(val / 64.f - 1.f);
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break;
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default:
break;
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}
}
bool Sequencer::ChannelState::programChange(int8_t prog)
{
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if (m_parent->m_songGroup)
{
if (m_chanId == 9)
{
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auto it = m_parent->m_songGroup->m_drumPages.find(prog);
if (it != m_parent->m_songGroup->m_drumPages.cend())
{
m_page = it->second;
m_curProgram = prog;
return true;
}
}
else
{
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auto it = m_parent->m_songGroup->m_normPages.find(prog);
if (it != m_parent->m_songGroup->m_normPages.cend())
{
m_page = it->second;
m_curProgram = prog;
return true;
}
}
}
return false;
}
void Sequencer::ChannelState::nextProgram()
{
int newProg = m_curProgram;
while ((newProg += 1) <= 127)
if (programChange(newProg))
break;
}
void Sequencer::ChannelState::prevProgram()
{
int newProg = m_curProgram;
while ((newProg -= 1) >= 0)
if (programChange(newProg))
break;
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}
void Sequencer::setCtrlValue(uint8_t chan, uint8_t ctrl, int8_t val)
{
if (chan > 15)
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return;
if (ctrl == 0x66)
{
printf("Loop Start\n");
}
else if (ctrl == 0x67)
{
printf("Loop End\n");
}
if (!m_chanStates[chan])
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m_chanStates[chan] = ChannelState(*this, chan);
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m_chanStates[chan].setCtrlValue(ctrl, val);
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}
void Sequencer::ChannelState::setPitchWheel(float pitchWheel)
{
m_curPitchWheel = pitchWheel;
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for (const auto& vox : m_chanVoxs)
vox.second->setPitchWheel(pitchWheel);
for (const auto& vox : m_keyoffVoxs)
vox->setPitchWheel(pitchWheel);
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}
void Sequencer::setPitchWheel(uint8_t chan, float pitchWheel)
{
if (chan > 15)
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return;
if (!m_chanStates[chan])
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m_chanStates[chan] = ChannelState(*this, chan);
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m_chanStates[chan].setPitchWheel(pitchWheel);
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}
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void Sequencer::setTempo(double ticksPerSec) { m_ticksPerSec = ticksPerSec; }
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void Sequencer::ChannelState::allOff()
{
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for (auto it = m_chanVoxs.begin(); it != m_chanVoxs.end();)
{
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if (it->second == m_lastVoice.lock())
m_lastVoice.reset();
it->second->keyOff();
m_keyoffVoxs.emplace(std::move(it->second));
it = m_chanVoxs.erase(it);
}
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}
void Sequencer::allOff(bool now)
{
if (now)
for (auto& chan : m_chanStates)
{
if (chan)
{
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for (const auto& vox : chan.m_chanVoxs)
vox.second->kill();
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for (const auto& vox : chan.m_keyoffVoxs)
vox->kill();
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chan.m_chanVoxs.clear();
chan.m_keyoffVoxs.clear();
}
}
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else
for (auto& chan : m_chanStates)
if (chan)
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chan.allOff();
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}
void Sequencer::allOff(uint8_t chan, bool now)
{
if (chan > 15 || !m_chanStates[chan])
return;
if (now)
{
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for (const auto& vox : m_chanStates[chan].m_chanVoxs)
vox.second->kill();
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for (const auto& vox : m_chanStates[chan].m_keyoffVoxs)
vox->kill();
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m_chanStates[chan].m_chanVoxs.clear();
m_chanStates[chan].m_keyoffVoxs.clear();
}
else
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m_chanStates[chan].allOff();
}
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void Sequencer::ChannelState::killKeygroup(uint8_t kg, bool now)
{
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for (auto it = m_chanVoxs.begin(); it != m_chanVoxs.end();)
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{
Voice* vox = it->second.get();
if (vox->m_keygroup == kg)
{
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if (it->second == m_lastVoice.lock())
m_lastVoice.reset();
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if (now)
{
it = m_chanVoxs.erase(it);
continue;
}
vox->keyOff();
m_keyoffVoxs.emplace(std::move(it->second));
it = m_chanVoxs.erase(it);
continue;
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}
++it;
}
if (now)
{
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for (auto it = m_keyoffVoxs.begin(); it != m_keyoffVoxs.end();)
{
Voice* vox = it->get();
if (vox->m_keygroup == kg)
{
it = m_keyoffVoxs.erase(it);
continue;
}
++it;
}
}
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}
void Sequencer::killKeygroup(uint8_t kg, bool now)
{
for (auto& chan : m_chanStates)
if (chan)
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chan.killKeygroup(kg, now);
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}
std::shared_ptr<Voice> Sequencer::ChannelState::findVoice(int vid)
{
for (const auto& vox : m_chanVoxs)
if (vox.second->vid() == vid)
return vox.second;
for (const auto& vox : m_keyoffVoxs)
if (vox->vid() == vid)
return vox;
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return {};
}
std::shared_ptr<Voice> Sequencer::findVoice(int vid)
{
for (auto& chan : m_chanStates)
{
if (chan)
{
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std::shared_ptr<Voice> ret = chan.findVoice(vid);
if (ret)
return ret;
}
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}
return {};
}
void Sequencer::ChannelState::sendMacroMessage(ObjectId macroId, int32_t val)
{
for (const auto& v : m_chanVoxs)
{
Voice* vox = v.second.get();
if (vox->getObjectId() == macroId)
vox->message(val);
}
for (const auto& v : m_keyoffVoxs)
{
Voice* vox = v.get();
if (vox->getObjectId() == macroId)
vox->message(val);
}
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}
void Sequencer::sendMacroMessage(ObjectId macroId, int32_t val)
{
for (auto& chan : m_chanStates)
if (chan)
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chan.sendMacroMessage(macroId, val);
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}
void Sequencer::playSong(const unsigned char* arrData, bool dieOnEnd)
{
m_arrData = arrData;
m_dieOnEnd = dieOnEnd;
m_songState.initialize(arrData);
setTempo(m_songState.getTempo() * 384 / 60);
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m_state = SequencerState::Playing;
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}
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void Sequencer::stopSong(float fadeTime, bool now)
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{
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if (fadeTime == 0.f)
{
allOff(now);
m_arrData = nullptr;
m_state = SequencerState::Interactive;
}
else
{
m_stopFadeTime = fadeTime;
m_stopFadeBeginVol = m_curVol;
}
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}
void Sequencer::ChannelState::setVolume(float vol)
{
m_curVol = vol;
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float voxVol = m_parent->m_curVol * m_curVol;
for (const auto& v : m_chanVoxs)
{
Voice* vox = v.second.get();
vox->setVolume(voxVol);
}
for (const auto& v : m_keyoffVoxs)
{
Voice* vox = v.get();
vox->setVolume(voxVol);
}
}
void Sequencer::ChannelState::setPan(float pan)
{
m_curPan = pan;
for (const auto& v : m_chanVoxs)
{
Voice* vox = v.second.get();
vox->setPan(m_curPan);
}
for (const auto& v : m_keyoffVoxs)
{
Voice* vox = v.get();
vox->setPan(m_curPan);
}
}
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void Sequencer::setVolume(float vol, float fadeTime)
{
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if (fadeTime == 0.f)
{
m_curVol = vol;
for (auto& chan : m_chanStates)
if (chan)
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chan.setVolume(chan.m_curVol);
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}
else
{
m_volFadeTime = fadeTime;
m_volFadeTarget = vol;
m_volFadeStart = m_curVol;
}
}
int8_t Sequencer::getChanProgram(int8_t chanId) const
{
if (chanId > 15)
return 0;
if (!m_chanStates[chanId])
{
if (!m_midiSetup)
return 0;
return m_midiSetup[chanId].programNo;
}
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return m_chanStates[chanId].m_curProgram;
}
bool Sequencer::setChanProgram(int8_t chanId, int8_t prog)
{
if (chanId > 15)
return false;
if (!m_chanStates[chanId])
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m_chanStates[chanId] = ChannelState(*this, chanId);
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return m_chanStates[chanId].programChange(prog);
}
void Sequencer::nextChanProgram(int8_t chanId)
{
if (chanId > 15)
return;
if (!m_chanStates[chanId])
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m_chanStates[chanId] = ChannelState(*this, chanId);
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return m_chanStates[chanId].nextProgram();
}
void Sequencer::prevChanProgram(int8_t chanId)
{
if (chanId > 15)
return;
if (!m_chanStates[chanId])
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m_chanStates[chanId] = ChannelState(*this, chanId);
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return m_chanStates[chanId].prevProgram();
}
}