amuse/lib/SongState.cpp

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#include "amuse/SongState.hpp"
#include <cmath>
#include "amuse/Common.hpp"
#include "amuse/Sequencer.hpp"
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namespace amuse {
static uint16_t DecodeUnsignedValue(const unsigned char*& data) {
uint16_t ret;
if (data[0] & 0x80) {
ret = data[1] | ((data[0] & 0x7f) << 8);
data += 2;
} else {
ret = data[0];
data += 1;
}
return ret;
}
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static int16_t DecodeSignedValue(const unsigned char*& data) {
int16_t ret;
if (data[0] & 0x80) {
ret = data[1] | ((data[0] & 0x7f) << 8);
ret |= ((ret << 1) & 0x8000);
data += 2;
} else {
ret = int8_t(data[0] | ((data[0] << 1) & 0x80));
data += 1;
}
return ret;
}
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static std::pair<uint32_t, int32_t> DecodeDelta(const unsigned char*& data) {
std::pair<uint32_t, int32_t> ret = {};
do {
if (data[0] == 0x80 && data[1] == 0x00)
break;
ret.first += DecodeUnsignedValue(data);
ret.second = DecodeSignedValue(data);
} while (ret.second == 0);
return ret;
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}
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static uint32_t DecodeTime(const unsigned char*& data) {
uint32_t ret = 0;
while (true) {
uint16_t thisPart = SBig(*reinterpret_cast<const uint16_t*>(data));
uint16_t nextPart = *reinterpret_cast<const uint16_t*>(data + 2);
if (nextPart == 0) {
// Automatically consume no-op command as continued time
ret += thisPart;
data += 4;
continue;
}
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ret += thisPart;
data += 2;
break;
}
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return ret;
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}
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void SongState::Header::swapFromBig() {
m_trackIdxOff = SBig(m_trackIdxOff);
m_regionIdxOff = SBig(m_regionIdxOff);
m_chanMapOff = SBig(m_chanMapOff);
m_tempoTableOff = SBig(m_tempoTableOff);
m_initialTempo = SBig(m_initialTempo);
if (m_initialTempo & 0x80000000) {
for (int i = 0; i < 16; ++i)
m_loopStartTicks[i] = SBig(m_loopStartTicks[i]);
m_chanMapOff2 = SBig(m_chanMapOff2);
} else {
m_loopStartTicks[0] = SBig(m_loopStartTicks[0]);
}
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}
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void SongState::Header::swapToBig() {
m_trackIdxOff = SBig(m_trackIdxOff);
m_regionIdxOff = SBig(m_regionIdxOff);
m_chanMapOff = SBig(m_chanMapOff);
m_tempoTableOff = SBig(m_tempoTableOff);
m_initialTempo = SBig(m_initialTempo);
if (m_initialTempo & 0x00000080) {
for (int i = 0; i < 16; ++i)
m_loopStartTicks[i] = SBig(m_loopStartTicks[i]);
m_chanMapOff2 = SBig(m_chanMapOff2);
} else {
m_loopStartTicks[0] = SBig(m_loopStartTicks[0]);
}
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}
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SongState::Header& SongState::Header::operator=(const Header& other) {
m_trackIdxOff = other.m_trackIdxOff;
m_regionIdxOff = other.m_regionIdxOff;
m_chanMapOff = other.m_chanMapOff;
m_tempoTableOff = other.m_tempoTableOff;
m_initialTempo = other.m_initialTempo;
if (SBig(m_initialTempo) & 0x80000000) {
for (int i = 0; i < 16; ++i)
m_loopStartTicks[i] = other.m_loopStartTicks[i];
m_chanMapOff2 = other.m_chanMapOff2;
} else {
m_loopStartTicks[0] = other.m_loopStartTicks[0];
}
return *this;
}
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bool SongState::TrackRegion::indexDone(bool bigEndian, bool loop) const {
int16_t idx = (bigEndian ? SBig(m_regionIndex) : m_regionIndex);
return loop ? (idx == -1) : (idx < 0);
}
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bool SongState::TrackRegion::indexValid(bool bigEndian) const {
return (bigEndian ? SBig(m_regionIndex) : m_regionIndex) >= 0;
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}
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int SongState::TrackRegion::indexLoop(bool bigEndian) const {
if ((bigEndian ? SBig(m_regionIndex) : m_regionIndex) != -2)
return -1;
return (bigEndian ? SBig(m_loopToRegion) : m_loopToRegion);
}
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void SongState::TempoChange::swapBig() {
m_tick = SBig(m_tick);
m_tempo = SBig(m_tempo);
}
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void SongState::Track::Header::swapBig() {
m_type = SBig(m_type);
m_pitchOff = SBig(m_pitchOff);
m_modOff = SBig(m_modOff);
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}
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SongState::Track::Track(SongState& parent, uint8_t midiChan, uint32_t loopStart, const TrackRegion* regions,
uint32_t tempo)
: m_parent(&parent)
, m_midiChan(midiChan)
, m_initRegion(regions)
, m_curRegion(nullptr)
, m_nextRegion(regions)
, m_loopStartTick(loopStart)
, m_tempo(tempo) {
resetTempo();
}
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void SongState::Track::setRegion(const TrackRegion* region) {
m_curRegion = region;
uint32_t regionIdx = (m_parent->m_bigEndian ? SBig(m_curRegion->m_regionIndex) : m_curRegion->m_regionIndex);
m_nextRegion = &m_curRegion[1];
m_data = m_parent->m_songData +
(m_parent->m_bigEndian ? SBig(m_parent->m_regionIdx[regionIdx]) : m_parent->m_regionIdx[regionIdx]);
Header header = *reinterpret_cast<const Header*>(m_data);
if (m_parent->m_bigEndian)
header.swapBig();
m_data += 12;
m_pitchWheelData = nullptr;
m_nextPitchTick = 0x7fffffff;
m_nextPitchDelta = 0;
m_pitchVal = 0;
if (header.m_pitchOff) {
m_pitchWheelData = m_parent->m_songData + header.m_pitchOff;
if (m_pitchWheelData[0] != 0x80 || m_pitchWheelData[1] != 0x00) {
auto delta = DecodeDelta(m_pitchWheelData);
m_nextPitchTick = m_curTick + delta.first;
m_nextPitchDelta = delta.second;
}
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}
m_modWheelData = nullptr;
m_nextModTick = 0x7fffffff;
m_nextModDelta = 0;
m_modVal = 0;
if (header.m_modOff) {
m_modWheelData = m_parent->m_songData + header.m_modOff;
if (m_modWheelData[0] != 0x80 || m_modWheelData[1] != 0x00) {
auto delta = DecodeDelta(m_modWheelData);
m_nextModTick = m_curTick + delta.first;
m_nextModDelta = delta.second;
}
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}
m_eventWaitCountdown = 0;
if (m_parent->m_sngVersion == 1) {
m_eventWaitCountdown = int32_t(DecodeTime(m_data));
} else {
int32_t absTick = (m_parent->m_bigEndian ? SBig(*reinterpret_cast<const int32_t*>(m_data))
: *reinterpret_cast<const int32_t*>(m_data));
m_eventWaitCountdown = absTick;
m_lastN64EventTick = absTick;
m_data += 4;
}
}
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void SongState::Track::advanceRegion() { setRegion(m_nextRegion); }
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int SongState::DetectVersion(const unsigned char* ptr, bool& isBig) {
isBig = ptr[0] == 0;
Header header = *reinterpret_cast<const Header*>(ptr);
if (isBig)
header.swapFromBig();
const uint32_t* trackIdx = reinterpret_cast<const uint32_t*>(ptr + header.m_trackIdxOff);
const uint32_t* regionIdxTable = reinterpret_cast<const uint32_t*>(ptr + header.m_regionIdxOff);
/* First determine maximum index of MIDI regions across all tracks */
uint32_t maxRegionIdx = 0;
for (int i = 0; i < 64; ++i) {
if (trackIdx[i]) {
const TrackRegion* region = nullptr;
const TrackRegion* nextRegion =
reinterpret_cast<const TrackRegion*>(ptr + (isBig ? SBig(trackIdx[i]) : trackIdx[i]));
/* Iterate all regions */
while (nextRegion->indexValid(isBig)) {
region = nextRegion;
uint32_t regionIdx = (isBig ? SBig(region->m_regionIndex) : region->m_regionIndex);
maxRegionIdx = std::max(maxRegionIdx, regionIdx);
nextRegion = &region[1];
}
}
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}
/* Perform 2 trials, first assuming revised format (more likely) */
int v = 1;
for (; v >= 0; --v) {
bool bad = false;
/* Validate all tracks */
for (int i = 0; i < 64; ++i) {
if (trackIdx[i]) {
const TrackRegion* region = nullptr;
const TrackRegion* nextRegion =
reinterpret_cast<const TrackRegion*>(ptr + (isBig ? SBig(trackIdx[i]) : trackIdx[i]));
/* Iterate all regions */
while (nextRegion->indexValid(isBig)) {
region = nextRegion;
uint32_t regionIdx = (isBig ? SBig(region->m_regionIndex) : region->m_regionIndex);
nextRegion = &region[1];
const unsigned char* data = ptr + (isBig ? SBig(regionIdxTable[regionIdx]) : regionIdxTable[regionIdx]);
/* Can't reliably validate final region */
if (regionIdx == maxRegionIdx)
continue;
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/* Expected end pointer (next region) */
const unsigned char* expectedEnd =
ptr + (isBig ? SBig(regionIdxTable[regionIdx + 1]) : regionIdxTable[regionIdx + 1]);
auto header2 = *reinterpret_cast<const Track::Header*>(data);
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if (isBig)
header2.swapBig();
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data += 12;
/* continuous pitch data */
if (header2.m_pitchOff) {
const unsigned char* dptr = ptr + header2.m_pitchOff;
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while (dptr[0] != 0x80 || dptr[1] != 0x00)
DecodeDelta(dptr);
dptr += 2;
if (dptr >= (expectedEnd - 4) && (dptr <= expectedEnd))
continue;
}
/* continuous modulation data */
if (header2.m_modOff) {
const unsigned char* dptr = ptr + header2.m_modOff;
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while (dptr[0] != 0x80 || dptr[1] != 0x00)
DecodeDelta(dptr);
dptr += 2;
if (dptr >= (expectedEnd - 4) && (dptr <= expectedEnd))
continue;
}
/* Loop through as many commands as we can for this time period */
if (v == 1) {
/* Revised */
while (true) {
/* Delta time */
DecodeTime(data);
/* Load next command */
if (*reinterpret_cast<const uint16_t*>(data) == 0xffff) {
/* End of channel */
data += 2;
break;
} else if (data[0] & 0x80 && data[1] & 0x80) {
/* Control change */
data += 2;
} else if (data[0] & 0x80) {
/* Program change */
data += 2;
} else {
/* Note */
data += 4;
}
}
} else {
/* Legacy */
while (true) {
/* Delta-time */
data += 4;
/* Load next command */
if (*reinterpret_cast<const uint16_t*>(&data[2]) == 0xffff) {
/* End of channel */
data += 4;
break;
} else {
if ((data[2] & 0x80) != 0x80) {
/* Note */
} else if (data[2] & 0x80 && data[3] & 0x80) {
/* Control change */
} else if (data[2] & 0x80) {
/* Program change */
}
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data += 4;
}
}
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}
if (data < (expectedEnd - 4) || (data > expectedEnd)) {
bad = true;
break;
}
}
if (bad)
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break;
}
}
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if (bad)
continue;
break;
}
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return v;
}
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bool SongState::initialize(const unsigned char* ptr, bool loop) {
m_loop = loop;
m_sngVersion = DetectVersion(ptr, m_bigEndian);
if (m_sngVersion < 0)
return false;
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m_songData = ptr;
m_header = *reinterpret_cast<const Header*>(ptr);
if (m_bigEndian)
m_header.swapFromBig();
const uint32_t* trackIdx = reinterpret_cast<const uint32_t*>(ptr + m_header.m_trackIdxOff);
m_regionIdx = reinterpret_cast<const uint32_t*>(ptr + m_header.m_regionIdxOff);
const uint8_t* chanMap = reinterpret_cast<const uint8_t*>(ptr + m_header.m_chanMapOff);
/* Initialize all tracks */
for (int i = 0; i < 64; ++i) {
if (trackIdx[i]) {
const TrackRegion* region =
reinterpret_cast<const TrackRegion*>(ptr + (m_bigEndian ? SBig(trackIdx[i]) : trackIdx[i]));
uint8_t chan = chanMap[i];
uint32_t loopStart =
(m_header.m_initialTempo & 0x80000000) ? m_header.m_loopStartTicks[chan] : m_header.m_loopStartTicks[0];
m_tracks[i] = Track(*this, chan, loopStart, region, m_header.m_initialTempo & 0x7fffffff);
} else
m_tracks[i] = Track();
}
m_songState = SongPlayState::Playing;
return true;
}
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void SongState::Track::resetTempo() {
if (m_parent->m_header.m_tempoTableOff)
m_tempoPtr = reinterpret_cast<const TempoChange*>(m_parent->m_songData + m_parent->m_header.m_tempoTableOff);
else
m_tempoPtr = nullptr;
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}
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bool SongState::Track::advance(Sequencer& seq, double dt) {
m_remDt += dt;
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/* Compute ticks to compute based on current tempo */
double ticksPerSecond = m_tempo * 384 / 60;
uint32_t ticks = uint32_t(std::floor(m_remDt * ticksPerSecond));
/* See if there's an upcoming tempo change in this interval */
while (m_tempoPtr && m_tempoPtr->m_tick != 0xffffffff) {
TempoChange change = *m_tempoPtr;
if (m_parent->m_bigEndian)
change.swapBig();
if (m_curTick + ticks > change.m_tick)
ticks = change.m_tick - m_curTick;
if (ticks <= 0) {
/* Turn over tempo */
m_tempo = change.m_tempo & 0x7fffffff;
ticksPerSecond = m_tempo * 384 / 60;
ticks = uint32_t(std::floor(m_remDt * ticksPerSecond));
seq.setTempo(m_midiChan, m_tempo * 384 / 60.0);
++m_tempoPtr;
continue;
}
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break;
}
m_remDt -= ticks / ticksPerSecond;
uint32_t endTick = m_curTick + ticks;
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/* Advance region if needed */
while (m_nextRegion->indexValid(m_parent->m_bigEndian)) {
uint32_t nextRegTick = (m_parent->m_bigEndian ? SBig(m_nextRegion->m_startTick) : m_nextRegion->m_startTick);
if (uint32_t(endTick) > nextRegTick)
advanceRegion();
else
break;
}
/* Stop finished notes */
for (int i = 0; i < 128; ++i) {
if (m_remNoteLengths[i] > 0) {
m_remNoteLengths[i] -= ticks;
if (m_remNoteLengths[i] <= 0)
seq.keyOff(m_midiChan, i, 0);
}
}
if (m_data) {
/* Update continuous pitch data */
if (m_pitchWheelData) {
int32_t pitchTick = m_curTick;
int32_t remPitchTicks = ticks;
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while (pitchTick < int32_t(endTick)) {
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/* See if there's an upcoming pitch change in this interval */
int32_t nextTick = m_nextPitchTick;
if (pitchTick + remPitchTicks > nextTick) {
/* Update pitch */
m_pitchVal += m_nextPitchDelta;
seq.setPitchWheel(m_midiChan, std::clamp(m_pitchVal / 8191.f, -1.f, 1.f));
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if (m_pitchWheelData[0] != 0x80 || m_pitchWheelData[1] != 0x00) {
auto delta = DecodeDelta(m_pitchWheelData);
m_nextPitchTick += delta.first;
m_nextPitchDelta = delta.second;
} else {
m_nextPitchTick = 0x7fffffff;
}
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}
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remPitchTicks -= (nextTick - pitchTick);
pitchTick = nextTick;
}
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}
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/* Update continuous modulation data */
if (m_modWheelData) {
int32_t modTick = m_curTick;
int32_t remModTicks = ticks;
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while (modTick < int32_t(endTick)) {
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/* See if there's an upcoming modulation change in this interval */
int32_t nextTick = m_nextModTick;
if (modTick + remModTicks > nextTick) {
/* Update modulation */
m_modVal += m_nextModDelta;
seq.setCtrlValue(m_midiChan, 1, int8_t(std::clamp(m_modVal / 127, 0, 127)));
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if (m_modWheelData[0] != 0x80 || m_modWheelData[1] != 0x00) {
auto delta = DecodeDelta(m_modWheelData);
m_nextModTick += delta.first;
m_nextModDelta = delta.second;
} else {
m_nextModTick = 0x7fffffff;
}
}
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remModTicks -= (nextTick - modTick);
modTick = nextTick;
}
}
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/* Loop through as many commands as we can for this time period */
if (m_parent->m_sngVersion == 1) {
/* Revision */
while (true) {
/* Advance wait timer if active, returning if waiting */
if (m_eventWaitCountdown) {
m_eventWaitCountdown -= ticks;
ticks = 0;
if (m_eventWaitCountdown > 0)
break;
}
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/* Load next command */
if (*reinterpret_cast<const uint16_t*>(m_data) == 0xffff) {
/* End of channel */
m_data = nullptr;
break;
} else if (m_data[0] & 0x80 && m_data[1] & 0x80) {
/* Control change */
uint8_t val = m_data[0] & 0x7f;
uint8_t ctrl = m_data[1] & 0x7f;
seq.setCtrlValue(m_midiChan, ctrl, val);
m_data += 2;
} else if (m_data[0] & 0x80) {
/* Program change */
uint8_t prog = m_data[0] & 0x7f;
seq.setChanProgram(m_midiChan, prog);
m_data += 2;
} else {
/* Note */
uint8_t note = m_data[0] & 0x7f;
uint8_t vel = m_data[1] & 0x7f;
uint16_t length = (m_parent->m_bigEndian ? SBig(*reinterpret_cast<const uint16_t*>(m_data + 2))
: *reinterpret_cast<const uint16_t*>(m_data + 2));
seq.keyOn(m_midiChan, note, vel);
if (length == 0)
seq.keyOff(m_midiChan, note, 0);
m_remNoteLengths[note] = length;
m_data += 4;
}
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/* Set next delta-time */
m_eventWaitCountdown += int32_t(DecodeTime(m_data));
}
} else {
/* Legacy */
while (true) {
/* Advance wait timer if active, returning if waiting */
if (m_eventWaitCountdown) {
m_eventWaitCountdown -= ticks;
ticks = 0;
if (m_eventWaitCountdown > 0)
break;
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}
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/* Load next command */
if (*reinterpret_cast<const uint16_t*>(&m_data[2]) == 0xffff) {
/* End of channel */
m_data = nullptr;
break;
} else {
if ((m_data[2] & 0x80) != 0x80) {
/* Note */
uint16_t length = (m_parent->m_bigEndian ? SBig(*reinterpret_cast<const uint16_t*>(m_data))
: *reinterpret_cast<const uint16_t*>(m_data));
uint8_t note = m_data[2] & 0x7f;
uint8_t vel = m_data[3] & 0x7f;
seq.keyOn(m_midiChan, note, vel);
if (length == 0)
seq.keyOff(m_midiChan, note, 0);
m_remNoteLengths[note] = length;
} else if (m_data[2] & 0x80 && m_data[3] & 0x80) {
/* Control change */
uint8_t val = m_data[2] & 0x7f;
uint8_t ctrl = m_data[3] & 0x7f;
seq.setCtrlValue(m_midiChan, ctrl, val);
} else if (m_data[2] & 0x80) {
/* Program change */
uint8_t prog = m_data[2] & 0x7f;
seq.setChanProgram(m_midiChan, prog);
}
m_data += 4;
}
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/* Set next delta-time */
int32_t absTick = (m_parent->m_bigEndian ? SBig(*reinterpret_cast<const int32_t*>(m_data))
: *reinterpret_cast<const int32_t*>(m_data));
m_eventWaitCountdown += absTick - m_lastN64EventTick;
m_lastN64EventTick = absTick;
m_data += 4;
}
}
}
m_curTick = endTick;
/* Handle loop end */
if (m_parent->m_loop) {
int loopTo;
if ((loopTo = m_nextRegion->indexLoop(m_parent->m_bigEndian)) != -1) {
uint32_t loopEndTick = (m_parent->m_bigEndian ? SBig(m_nextRegion->m_startTick) : m_nextRegion->m_startTick);
if (uint32_t(endTick) > loopEndTick) {
m_nextRegion = &m_initRegion[loopTo];
m_curRegion = nullptr;
m_data = nullptr;
m_curTick = m_loopStartTick;
resetTempo();
return false;
}
}
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}
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if (!m_data)
return m_nextRegion->indexDone(m_parent->m_bigEndian, m_parent->m_loop);
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return false;
}
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bool SongState::advance(Sequencer& seq, double dt) {
/* Stopped */
if (m_songState == SongPlayState::Stopped)
return true;
/* Advance all tracks */
bool done = true;
for (Track& trk : m_tracks)
if (trk)
done &= trk.advance(seq, dt);
if (done)
m_songState = SongPlayState::Stopped;
return done;
}
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} // namespace amuse