186 lines
4.9 KiB
C++
186 lines
4.9 KiB
C++
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#include "looper.hxx"
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#include "config.hxx"
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#include "jack.hxx"
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#include "audiobuffer.hxx"
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#include "eventhandler.hxx"
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#include "controllerupdater.hxx"
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extern Jack* jack;
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Looper::Looper(int t) :
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AudioProcessor(),
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TimeObserver(),
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track(t),
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uiUpdateConstant(44100/30.f),
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uiUpdateCounter(44100/30.f)
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{
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// pre-zero the internal sample
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//tmpRecordBuffer = (float*)malloc( sizeof(float) * MAX_BUFFER_SIZE );
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//memset( tmpRecordBuffer, 0, sizeof(float) * MAX_BUFFER_SIZE );
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for(int i = 0; i < 10; i++ )
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{
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clips[i] = LooperClip();
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}
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fpb = 22050;
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// init faust pitch shift variables
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fSamplingFreq = 44100;
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IOTA = 0;
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//tmpRecordBuffer.resize(MAX_BUFFER_SIZE);
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for (int i=0; i<65536; i++)
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fVec0[i] = 0;
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for (int i=0; i<2; i++)
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fRec0[i] = 0;
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semitoneShift = 0.0f;
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windowSize = 1000;
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crossfadeSize = 1000;
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}
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LooperClip* Looper::getClip(int scene)
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{
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return &clips[scene];
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}
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void Looper::setRequestedBuffer(int s, AudioBuffer* ab)
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{
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clips[s].setRequestedBuffer( ab );
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}
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void Looper::setSample(int scene, AudioBuffer* ab)
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{
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clips[scene].load( ab );
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char buffer [50];
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sprintf (buffer, "Looper setSample() writing to scene %i",scene);
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EventGuiPrint e( buffer );
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writeToGuiRingbuffer( &e );
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}
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void Looper::process(unsigned int nframes, Buffers* buffers)
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{
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// process each clip individually: this allows for playback of one clip,
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// while another clip records.
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for ( int clip = 0; clip < NSCENES; clip++ )
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{
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// handle state of clip, and do what needs doing:
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// record into buffer, play from buffer, etc
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if ( clips[clip].recording() )
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{
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if ( clips[clip].recordSpaceAvailable() < LOOPER_SAMPLES_BEFORE_REQUEST &&
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!clips[clip].newBufferInTransit() )
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{
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EventLooperClipRequestBuffer e( track, clip, clips[clip].audioBufferSize() + 44100 * 4);
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writeToGuiRingbuffer( &e );
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clips[clip].newBufferInTransit(true);
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}
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// copy data from input buffer to recording buffer
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float* input = buffers->audio[Buffers::MASTER_INPUT];
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clips[clip].record( nframes, input, 0 );
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}
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else if ( clips[clip].playing() )
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{
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// copy data into tmpBuffer, then pitch-stretch into track buffer
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long targetFrames = clips[clip].getBeats() * fpb;
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long actualFrames = clips[clip].getBufferLenght();
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float playSpeed = 1.0;
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if ( targetFrames != 0 && actualFrames != 0 )
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{
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playSpeed = float(actualFrames) / targetFrames;
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}
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float* out = buffers->audio[Buffers::TRACK_0 + track];
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for(unsigned int i = 0; i < nframes; i++ )
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{
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out[i] = clips[clip].getSample(playSpeed);
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}
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//printf("Looper %i playing(), speed = %f\n", track, playSpeed );
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if ( uiUpdateCounter > uiUpdateConstant )
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{
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jack->getControllerUpdater()->setTrackSceneProgress(track, clip, clips[clip].getProgress() );
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uiUpdateCounter = 0;
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}
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uiUpdateCounter += nframes;
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}
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}
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/*
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float playbackSpeed = endPoint / ( float(numBeats) * fpb );
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semitoneShift = -( 12 * log ( playbackSpeed ) / log (2) );
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if ( state == STATE_PLAYING ||
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state == STATE_STOP_QUEUED )
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{
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for(int i = 0; i < nframes; i++)
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{
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if ( playPoint < endPoint )
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{
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tmpBuffer[i] = sample[int(playPoint)] * gain;
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}
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playPoint += 1.0; //playbackSpeed;
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//out++ = sin( playPoint * 440 * 6.24 );
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*trk = tmpBuffer[i];
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*out++ = *trk++;
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}
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// now pitch-shift the audio in the buffer
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//pitchShift( nframes, &tmpBuffer[0], out);
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if ( uiUpdateCounter > uiUpdateConstant )
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{
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float prog = (float(playPoint) / (fpb*numBeats));
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EventLooperProgress e(track, prog );
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writeToGuiRingbuffer( &e );
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}
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uiUpdateCounter += nframes;
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}
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*/
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}
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void Looper::pitchShift(int count, float* input, float* output)
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{
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float fSlow0 = windowSize;
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float fSlow1 = ((1 + fSlow0) - powf(2,(0.08333333333333333f * semitoneShift)));
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float fSlow2 = (1.0f / crossfadeSize);
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float fSlow3 = (fSlow0 - 1);
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float* input0 = &input[0];
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//float* output0 = &output[0];
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for (int i=0; i<count; i++)
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{
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float fTemp0 = (float)input0[i];
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fVec0[IOTA&65535] = fTemp0;
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fRec0[0] = fmodf((fRec0[1] + fSlow1),fSlow0);
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int iTemp1 = int(fRec0[0]);
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int iTemp2 = (1 + iTemp1);
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float fTemp3 = min((fSlow2 * fRec0[0]), 1.f );
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float fTemp4 = (fSlow0 + fRec0[0]);
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int iTemp5 = int(fTemp4);
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*output++ += (float)(((1 - fTemp3) * (((fTemp4 - iTemp5) *
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fVec0[(IOTA-int((int((1 + iTemp5)) & 65535)))&65535]) + ((0 - ((
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fRec0[0] + fSlow3) - iTemp5)) * fVec0[(IOTA-int((iTemp5 & 65535)))
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&65535]))) + (fTemp3 * (((fRec0[0] - iTemp1) * fVec0[(IOTA-int((int(
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iTemp2) & 65535)))&65535]) + ((iTemp2 - fRec0[0]) * fVec0[(IOTA-int((
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iTemp1 & 65535)))&65535]))));
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fRec0[1] = fRec0[0];
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IOTA = IOTA+1;
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}
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}
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