double AudioTransportSource::getCurrentPosition() const
{
if (sampleRate > 0.0)
return getNextReadPosition() / sampleRate;
return 0.0;
}
//==============================================================================
void LoopingAudioSource::setNextReadPosition (int64 newPosition)
{
const ScopedLock sl (loopPosLock);
if (isLoopingBetweenTimes
&& getNextReadPosition() > loopStartSample
&& getNextReadPosition() < loopEndSample)
{
const int64 numLoopSamples = loopEndSample - loopStartSample;
if (newPosition > loopEndSample)
newPosition = loopStartSample + ((newPosition - loopEndSample) % numLoopSamples);
else if (newPosition < loopStartSample)
newPosition = loopEndSample - ((loopStartSample - newPosition) % numLoopSamples);
}
input->setNextReadPosition (newPosition);
}
//==============================================================================
void LoopingAudioSource::setLoopTimes (double startTime, double endTime)
{
jassert (endTime > startTime); // end time has to be after start!
{
const ScopedLock sl (loopPosLock);
loopStartTime = startTime;
loopEndTime = endTime;
loopStartSample = (int64) (startTime * currentSampleRate);
loopEndSample = (int64) (endTime * currentSampleRate);
}
// need to update read position based on new limits
setNextReadPosition (getNextReadPosition());
}
void LoopingAudioSource::getNextAudioBlock (const AudioSourceChannelInfo& info)
{
if (info.numSamples > 0)
{
if (isLoopingBetweenTimes)
{
const ScopedLock sl (loopPosLock);
const int64 newStart = getNextReadPosition();
int64 newEnd = loopStartSample + ((newStart + info.numSamples) % loopEndSample);
if (newStart > loopEndSample)
newEnd = newStart + info.numSamples;
if (newEnd > newStart)
{
input->getNextAudioBlock (info);
}
else
{
const int64 numEndSamps = loopEndSample - newStart;
const int64 numStartSamps = newEnd - loopStartSample;
tempInfo.startSample = 0;
tempInfo.numSamples = (int) numEndSamps;
input->getNextAudioBlock (tempInfo);
tempInfo.startSample = (int) numEndSamps;
tempInfo.numSamples = (int) numStartSamps;
input->setNextReadPosition (loopStartSample);
input->getNextAudioBlock (tempInfo);
for (int i = 0; i < info.buffer->getNumChannels(); ++i)
info.buffer->copyFrom (i, info.startSample,
tempBuffer,
i, 0, info.numSamples);
}
}
else
{
input->getNextAudioBlock (info);
}
}
}
void LoopMachine::getNextAudioBlockFixedBpm(const AudioSourceChannelInfo& bufferToFill) {
auto& transport = audioEngine.getTransport();
bool mainTransportPlaying = transport.isPlaying();
if (fixedBpmTransport.isPlaying() != mainTransportPlaying) {
if (mainTransportPlaying)
fixedBpmTransport.play();
else
fixedBpmTransport.stop();
}
fixedBpmTransport.updateTransport(bufferToFill.numSamples);
bufferToFill.clearActiveBufferRegion();
if (fixedBpmTransport.isPlaying()) {
float frameStartTicks = fixedBpmTransport.getFrameStartTicks();
float frameEndTicks = fixedBpmTransport.getFrameEndTicks();
float nextTick = (float) ((int)frameStartTicks + 1);
float fadeLengthTicks = fixedBpmTransport.millisToTicks(FADE_TIME_MS);
float fadeStartTicks = nextTick - fadeLengthTicks;
float fadeEndTicks = nextTick;
if (frameStartTicks < fadeStartTicks && frameEndTicks >= fadeStartTicks)
drainRingBuffer();
// std::cout << "MPD: CPP: LoopMachine::getNextAudioBlock: reality check! " << ((int)nextTick/4) << std::endl;
for (int groupIx = 0; groupIx < groupIxToLoopInfo.size(); groupIx++) {
int state = audioState[groupIx];
int prevState = prevAudioState[groupIx];
if (state == LOOP_INACTIVE && prevState == LOOP_INACTIVE) {
// we were doing nothing last period, and we're still doing nothing: do nothing
} else if (state == LOOP_INACTIVE && prevState != LOOP_INACTIVE) {
// for this loop group, we are fading out: going from an active loop to silence.
processFadeOut(groupIx, prevState, frameStartTicks, frameEndTicks, fadeStartTicks, fadeEndTicks, bufferToFill);
} else if (!wasPlaying || (state != LOOP_INACTIVE && prevState == LOOP_INACTIVE)) {
// for this loop group, we are fading in: going from silence to signal.
setReaderPos(groupIx, state, fadeStartTicks, frameStartTicks);
processFadeIn(groupIx, state, frameStartTicks, frameEndTicks, fadeStartTicks, fadeEndTicks, bufferToFill);
} else if (prevState != state) {
// for this loop group, the loop being played has switched: do a crossfade
processFadeOut(groupIx, prevState, frameStartTicks, frameEndTicks, fadeStartTicks, fadeEndTicks, bufferToFill);
setReaderPos(groupIx, state, fadeStartTicks, frameStartTicks);
processFadeIn(groupIx, state, frameStartTicks, frameEndTicks, fadeStartTicks, fadeEndTicks, bufferToFill);
} else {
// we're playing the same thing as in the last period.
if (!wasPlaying) {
auto src = (*groupIxToLoopInfo[groupIx])[state];
src->reader->setNextReadPosition(0);
}
processBlock(groupIx, state, 0, bufferToFill.numSamples, bufferToFill);
}
}
if (frameStartTicks < fadeEndTicks && frameEndTicks >= fadeEndTicks) {
bool changes = false;
for (int groupIx = 0; groupIx < groupIxToLoopInfo.size(); groupIx++) {
int state = audioState[groupIx];
if (state != LOOP_INACTIVE) {
auto type = (*groupIxToLoopInfo[groupIx])[state]->type;
auto src = (*groupIxToLoopInfo[groupIx])[state]->reader;
if (type == LoopType::ONE_SHOT && audioState[groupIx] != LOOP_INACTIVE && src != nullptr && src->getNextReadPosition() >= src->getTotalLength()) {
// (groupIx, prevState) is done playing.
// now we need to plop a message in the ring buffer
audioState[groupIx] = LOOP_INACTIVE;
userState[groupIx] = LOOP_INACTIVE;
int ix = ++endReserveIx & RINGBUF_SIZE_M1; // == ++reserveIx % RINGBUF_SIZE
endringbuf[ix][0] = groupIx;
endringbuf[ix][1] = state;
endCommitIx++;
changes = true;
src->setNextReadPosition(0);
// std::cout << "MPD: handling messaages audio thread" << std::endl;
}
}
}
if (changes)
sendChangeMessage();
std::memcpy(prevAudioState, audioState, sizeof(audioState));
wasPlaying = true;
}
// bufferToFill.buffer->applyGain(0, 0, bufferToFill.numSamples, 0.5);
// bufferToFill.buffer->applyGain(1, 0, bufferToFill.numSamples, 0.5);
// wasPlaying = true;
}
if (wasPlaying && !fixedBpmTransport.isPlaying())
wasPlaying = false;
}
