/// <summary>
/// The pitch was detected - add the record
/// </summary>
/// <param name="pitch"></param>
private void AddPitchRecord(float pitch)
{
var midiNote = 0;
var midiCents = 0;
PitchDsp.PitchToMidiNote(pitch, out midiNote, out midiCents);
var record = new PitchRecord();
record.RecordIndex = curPitchIndex;
record.Pitch = pitch;
record.MidiNote = midiNote;
record.MidiCents = midiCents;
curPitchRecord = record;
if (recordPitchRecords)
{
if (pitchRecordHistorySize > 0 && pitchRecords.Count >= pitchRecordHistorySize)
{
pitchRecords.RemoveAt(0);
}
pitchRecords.Add(record);
}
if (this.PitchDetected != null)
{
this.PitchDetected(this, record);
}
}
/// <summary>
/// The pitch was detected - add the record
/// </summary>
/// <param name="pitch"></param>
private PitchRecord AddPitchRecord(float pitch)
{
var midiNote = 0;
var midiCents = 0;
PitchDsp.PitchToMidiNote(pitch, out midiNote, out midiCents);
var record = new PitchRecord();
record.RecordIndex = m_curPitchIndex;
record.Pitch = pitch;
record.MidiNote = midiNote;
record.MidiCents = midiCents;
m_curPitchRecord = record;
if (m_recordPitchRecords)
{
if (m_pitchRecordHistorySize > 0 && m_pitchRecords.Count >= m_pitchRecordHistorySize)
{
m_pitchRecords.RemoveAt(0);
}
m_pitchRecords.Add(record);
}
//if (this.PitchDetected != null)
// this.PitchDetected(this, record);
return(record);
}
/// <summary>
/// The pitch was detected - add the record
/// </summary>
/// <param name="pitch"></param>
private void AddPitchRecord(float pitch)
{
var midiNote = 0;
var midiCents = 0;
PitchDsp.PitchToMidiNote(pitch, out midiNote, out midiCents);
var record = new PitchRecord
{
RecordIndex = m_curPitchIndex,
Pitch = pitch,
MidiNote = midiNote,
MidiCents = midiCents
};
m_curPitchRecord = record;
if (m_recordPitchRecords)
{
if (m_pitchRecordHistorySize > 0 && m_pitchRecords.Count >= m_pitchRecordHistorySize)
{
m_pitchRecords.RemoveAt(0);
}
m_pitchRecords.Add(record);
}
if (this.PitchDetected != null)
{
this.PitchDetected(this, record);
}
}
/// <summary>
/// Setup
/// </summary>
private void Setup()
{
if (m_sampleRate < 1.0f)
{
return;
}
m_dsp = new PitchDsp(m_sampleRate, kMinFreq, kMaxFreq, m_detectLevelThreshold);
m_iirFilterLoLo = new IIRFilter
{
Proto = IIRFilter.ProtoType.Butterworth,
Type = IIRFilter.FilterType.HP,
Order = 5,
FreqLow = 45.0f,
SampleRate = (float)m_sampleRate
};
m_iirFilterLoHi = new IIRFilter
{
Proto = IIRFilter.ProtoType.Butterworth,
Type = IIRFilter.FilterType.LP,
Order = 5,
FreqHigh = 280.0f,
SampleRate = (float)m_sampleRate
};
m_iirFilterHiLo = new IIRFilter
{
Proto = IIRFilter.ProtoType.Butterworth,
Type = IIRFilter.FilterType.HP,
Order = 5,
FreqLow = 45.0f,
SampleRate = (float)m_sampleRate
};
m_iirFilterHiHi = new IIRFilter
{
Proto = IIRFilter.ProtoType.Butterworth,
Type = IIRFilter.FilterType.LP,
Order = 5,
FreqHigh = 1500.0f,
SampleRate = (float)m_sampleRate
};
m_detectOverlapSamples = (int)(kDetectOverlapSec * m_sampleRate);
m_maxOverlapDiff = kMaxOctaveSecRate * kDetectOverlapSec;
m_pitchBufSize = (int)(((1.0f / (float)kMinFreq) * 2.0f + ((kAvgCount - 1) * kAvgOffset)) * m_sampleRate) + 16;
m_pitchBufLo = new float[m_pitchBufSize + m_detectOverlapSamples];
m_pitchBufHi = new float[m_pitchBufSize + m_detectOverlapSamples];
m_samplesPerPitchBlock = (int)Math.Round(m_sampleRate / m_pitchRecordsPerSecond);
m_circularBufferLo = new CircularBuffer <float>((int)(kCircularBufSaveTime * m_sampleRate + 0.5f) + 10000);
m_circularBufferHi = new CircularBuffer <float>((int)(kCircularBufSaveTime * m_sampleRate + 0.5f) + 10000);
}
private void setNumbers(float pitch)
{
if (pitch < 0)
{
pitch = 0;
}
// Set pitch
Pitch = pitch;
MidiNote = PitchDsp.PitchToMidiNote(pitch);
Note = PitchDsp.GetNoteName((int)MidiNote, true, true);
}
/// <summary>
/// Setup
/// </summary>
private void Setup()
{
if (sampleRate < 1.0f)
{
return;
}
dsp = new PitchDsp(sampleRate, kMinFreq, kMaxFreq, detectLevelThreshold);
iirFilterLoLo = new IIRFilter();
iirFilterLoLo.Proto = IIRFilter.ProtoType.Butterworth;
iirFilterLoLo.Type = IIRFilter.FilterType.HP;
iirFilterLoLo.Order = 5;
iirFilterLoLo.FreqLow = 45.0f;
iirFilterLoLo.SampleRate = (float)sampleRate;
iirFilterLoHi = new IIRFilter();
iirFilterLoHi.Proto = IIRFilter.ProtoType.Butterworth;
iirFilterLoHi.Type = IIRFilter.FilterType.LP;
iirFilterLoHi.Order = 5;
iirFilterLoHi.FreqHigh = 280.0f;
iirFilterLoHi.SampleRate = (float)sampleRate;
iirFilterHiLo = new IIRFilter();
iirFilterHiLo.Proto = IIRFilter.ProtoType.Butterworth;
iirFilterHiLo.Type = IIRFilter.FilterType.HP;
iirFilterHiLo.Order = 5;
iirFilterHiLo.FreqLow = 45.0f;
iirFilterHiLo.SampleRate = (float)sampleRate;
iirFilterHiHi = new IIRFilter();
iirFilterHiHi.Proto = IIRFilter.ProtoType.Butterworth;
iirFilterHiHi.Type = IIRFilter.FilterType.LP;
iirFilterHiHi.Order = 5;
iirFilterHiHi.FreqHigh = 1500.0f;
iirFilterHiHi.SampleRate = (float)sampleRate;
detectOverlapSamples = (int)(kDetectOverlapSec * sampleRate);
maxOverlapDiff = kMaxOctaveSecRate * kDetectOverlapSec;
pitchBufSize = (int)(((1.0f / (float)kMinFreq) * 2.0f + ((kAvgCount - 1) * kAvgOffset)) * sampleRate) + 16;
pitchBufLo = new float[pitchBufSize + detectOverlapSamples];
pitchBufHi = new float[pitchBufSize + detectOverlapSamples];
samplesPerPitchBlock = (int)Math.Round(sampleRate / pitchRecordsPerSecond);
circularBufferLo = new CircularBuffer <float>((int)(kCircularBufSaveTime * sampleRate + 0.5f) + 10000);
circularBufferHi = new CircularBuffer <float>((int)(kCircularBufSaveTime * sampleRate + 0.5f) + 10000);
}
/// <summary>
/// Write data into the buffer
/// </summary>
/// <param name="m_pInBuffer"></param>
/// <param name="count"></param>
/// <returns></returns>
public int WriteBuffer(T[] m_pInBuffer, int count)
{
count = Math.Min(count, m_bufSize);
var startPos = m_availBuf != m_bufSize ? m_availBuf : m_begBufOffset;
var pass1Count = Math.Min(count, m_bufSize - startPos);
var pass2Count = count - pass1Count;
PitchDsp.CopyBuffer(m_pInBuffer, 0, m_buffer, startPos, pass1Count);
if (pass2Count > 0)
{
PitchDsp.CopyBuffer(m_pInBuffer, pass1Count, m_buffer, 0, pass2Count);
}
if (pass2Count == 0)
{
// did not wrap around
if (m_availBuf != m_bufSize)
{
m_availBuf += count; // have never wrapped around
}
else
{
m_begBufOffset += count;
m_startPos += count;
}
}
else
{
// wrapped around
if (m_availBuf != m_bufSize)
{
m_startPos += pass2Count; // first time wrap-around
}
else
{
m_startPos += count;
}
m_begBufOffset = pass2Count;
m_availBuf = m_bufSize;
}
return(count);
}
/// <summary>
/// Write data into the buffer
/// </summary>
/// <param name="m_pInBuffer"></param>
/// <param name="count"></param>
/// <returns></returns>
public int WriteBuffer(T[] m_pInBuffer, int count)
{
count = Math.Min(count, bufSize);
var startPos = availBuf != bufSize ? availBuf : begBufOffset;
var pass1Count = Math.Min(count, bufSize - startPos);
var pass2Count = count - pass1Count;
PitchDsp.CopyBuffer(m_pInBuffer, 0, buffer, startPos, pass1Count);
if (pass2Count > 0)
{
PitchDsp.CopyBuffer(m_pInBuffer, pass1Count, buffer, 0, pass2Count);
}
if (pass2Count == 0)
{
// did not wrap around
if (availBuf != bufSize)
{
availBuf += count; // have never wrapped around
}
else
{
begBufOffset += count;
startPosition += count;
}
}
else
{
// wrapped around
if (availBuf != bufSize)
{
startPosition += pass2Count; // first time wrap-around
}
else
{
startPosition += count;
}
begBufOffset = pass2Count;
availBuf = bufSize;
}
return(count);
}
/// <summary>
/// Read from the buffer
/// </summary>
/// <param name="outBuffer"></param>
/// <param name="startRead"></param>
/// <param name="readCount"></param>
/// <returns></returns>
public bool ReadBuffer(T[] outBuffer, long startRead, int readCount)
{
var endRead = (int)(startRead + readCount);
var endAvail = (int)(m_startPos + m_availBuf);
if (startRead < m_startPos || endRead > endAvail)
{
return(false);
}
var startReadPos = (int)(((startRead - m_startPos) + m_begBufOffset) % m_bufSize);
var block1Samples = Math.Min(readCount, m_bufSize - startReadPos);
var block2Samples = readCount - block1Samples;
PitchDsp.CopyBuffer(m_buffer, startReadPos, outBuffer, 0, block1Samples);
if (block2Samples > 0)
{
PitchDsp.CopyBuffer(m_buffer, 0, outBuffer, block1Samples, block2Samples);
}
return(true);
}
