void BeatCounterAudioProcessor::processBlock(AudioSampleBuffer &buffer, MidiBuffer &midiMessages) {
TeragonPluginBase::processBlock(buffer, midiMessages);
for(int i = 0; i < buffer.getNumSamples(); ++i) {
float currentSample = *buffer.getSampleData(0, i);
double currentSampleAmplitude;
if(filterEnabled) {
// This relies on the sample rate which may not be available during initialization
if(filterConstant == 0.0) {
filterConstant = calculateFilterConstant(getSampleRate(), filterFrequency->getValue());
}
// Basic lowpass filter (feedback)
filterOutput += (currentSample - filterOutput) / filterConstant;
currentSampleAmplitude = fabs(filterOutput);
}
else {
currentSampleAmplitude = fabs(currentSample);
}
// Find highest peak in the current period
if(currentSampleAmplitude > highestAmplitudeInPeriod) {
highestAmplitudeInPeriod = currentSampleAmplitude;
// Is it also the highest value since we started?
if(currentSampleAmplitude > highestAmplitude) {
highestAmplitude = currentSampleAmplitude;
}
}
// Downsample by skipping samples
if(--samplesToSkip <= 0) {
// Beat amplitude trigger has been detected
if(highestAmplitudeInPeriod >= (highestAmplitude * tolerance->getValue() / 100.0) &&
highestAmplitudeInPeriod > kSilenceThreshold) {
// First sample inside of a beat?
if(!currentlyInsideBeat && numSamplesSinceLastBeat > cooldownPeriodInSamples) {
currentlyInsideBeat = true;
double bpm = (getSampleRate() * 60.0f) / ((beatLengthRunningAverage + numSamplesSinceLastBeat) / 2);
// Check for half-beat patterns. For instance, a song which has a kick drum
// at around 70 BPM but an actual tempo of 140 BPM (hello, dubstep!).
double doubledBpm = bpm * 2.0;
if(doubledBpm > minimumAllowedBpm && doubledBpm < maximumAllowedBpm) {
bpm = doubledBpm;
}
beatLengthRunningAverage += numSamplesSinceLastBeat;
beatLengthRunningAverage /= 2;
numSamplesSinceLastBeat = 0;
// Check to see that this tempo is within the limits allowed
if(bpm > minimumAllowedBpm && bpm < maximumAllowedBpm) {
bpmHistory.push_back(bpm);
parameters.set("Beat Triggered", 1.0f);
parameters.set("Current BPM", bpm);
// Do total BPM and Reset?
if(numSamplesProcessed > period->getValue() * getSampleRate()) {
// Take advantage of this trigger point to do a tempo check and adjust the minimum
// and maximum BPM ranges accordingly.
if(useHostTempo->getValue()) {
minimumAllowedBpm = getHostTempo() - kHostTempoLinkToleranceInBpm;
maximumAllowedBpm = getHostTempo() + kHostTempoLinkToleranceInBpm;
cooldownPeriodInSamples = (unsigned long)(getSampleRate() * (60.0 / maximumAllowedBpm));
}
runningBpm = 0.0;
for(unsigned int historyIndex = 0; historyIndex < bpmHistory.size(); ++historyIndex) {
runningBpm += bpmHistory.at(historyIndex);
}
runningBpm /= (double)bpmHistory.size();
bpmHistory.clear();
numSamplesProcessed = 0;
parameters.set("Running BPM", runningBpm);
}
}
else {
// Outside of bpm threshold, ignore
}
}
else {
// Not the first beat mark
currentlyInsideBeat = false;
}
}
else {
// Were we just in a beat?
if(currentlyInsideBeat) {
currentlyInsideBeat = false;
}
}
samplesToSkip = kDownsampleFactor;
highestAmplitudeInPeriod = 0.0;
}
++numSamplesProcessed;
++numSamplesSinceLastBeat;
}
}
void BeatCounter::processBlock(AudioSampleBuffer& buffer, MidiBuffer& midiMessages) {
for(int i = 0; i < buffer.getNumSamples(); ++i) {
float* currentSample = buffer.getSampleData(0, i);
double currentSampleAmplitude = 0.0f;
if(this->isAutofilterEnabled) {
// Basic lowpass filter (feedback)
this->autofilterOutput += (*currentSample - this->autofilterOutput) / this->autofilterConstant;
currentSampleAmplitude = fabs(this->autofilterOutput);
}
else {
currentSampleAmplitude = fabs(*currentSample);
}
// Find highest peak in downsampled area ("bar")
if(*currentSample > m_bar_high_point) {
m_bar_high_point = *currentSample;
// Find highest averaging value for testing period
if(*currentSample > m_high_point) {
m_high_point = *currentSample;
}
}
// Process one "bar"
if(--m_skip_count <= 0) {
// Calculate average point
m_bar_samp_avg /= m_downsample_rate;
// Beat amplitude/frequency has been detected
if(m_bar_samp_avg >= (m_bar_high_avg * this->tolerance / 100.0) &&
m_bar_high_point >= (m_high_point * this->tolerance / 100.0) &&
m_bar_high_point > kSilenceThreshold) {
// First bar in a beat?
if(!m_beat_state && m_beat_samples > m_dupe_interval) {
m_beat_state = true;
double bpm = (getSampleRate() * 60.0f) / ((m_last_avg + m_beat_samples) / 2);
// Check for half-beat patterns
double hbpm = bpm * 2.0;
if(hbpm > m_min_bpm && hbpm < m_max_bpm) {
bpm = hbpm;
}
// See if we're inside the threshhold
if(bpm > m_min_bpm && bpm < m_max_bpm) {
this->currentBpm = bpm;
m_last_avg += m_beat_samples;
m_last_avg /= 2;
m_beat_samples = 0;
bpmHistory.push_back(bpm);
// Do total BPM and Reset?
if(m_num_samples_processed > (this->periodSizeInSamples * getSampleRate())) {
// Take advantage of this trigger point to do a tempo check
if(this->linkWithHostTempo) {
m_min_bpm = getHostTempo() - kHostTempoLinkToleranceInBpm;
m_max_bpm = getHostTempo() + kHostTempoLinkToleranceInBpm;
m_dupe_interval = (long)(getSampleRate() * (float)(60.0f / (float)m_max_bpm));
}
this->runningBpm = 0.0;
for(unsigned int bpmHistoryIndex = 0; bpmHistoryIndex < bpmHistory.size(); ++bpmHistoryIndex) {
this->runningBpm += bpmHistory.at(bpmHistoryIndex);
}
bpmHistory.clear();
m_num_samples_processed = 0;
}
}
else {
// Outside of bpm threshhold
// TODO: Unset BPM Display in GUI
m_last_avg += m_beat_samples;
m_last_avg /= 2;
m_beat_samples = 0;
}
}
else {
// Not the first beat mark
m_beat_state = false;
}
}
else {
// Were we just in a beat?
if(m_beat_state) {
m_beat_state = false;
}
}
m_skip_count = m_downsample_rate;
m_bar_high_point = 0.0;
m_bar_samp_avg = 0.0;
}
else {
m_bar_samp_avg += *currentSample;
}
++m_num_samples_processed;
++m_beat_samples;
}
}
