/* ZynAddSubFX - a software synthesizer pADnote.cpp - The "pad" synthesizer Copyright (C) 2002-2005 Nasca Octavian Paul Author: Nasca Octavian Paul This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License (version 2 or later) for more details. You should have received a copy of the GNU General Public License (version 2) along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include "PADnote.h" #include "../Misc/Config.h" #include "../DSP/Filter.h" PADnote::PADnote(PADnoteParameters *parameters, Controller *ctl_, float freq, float velocity, int portamento_, int midinote, bool besilent) :SynthNote(freq, velocity, portamento_, midinote, besilent) { pars = parameters; ctl = ctl_; firsttime = true; setup(freq, velocity, portamento_, midinote); } void PADnote::setup(float freq, float velocity, int portamento_, int midinote, bool legato) { portamento = portamento_; this->velocity = velocity; finished_ = false; if(pars->Pfixedfreq == 0) basefreq = freq; else { basefreq = 440.0f; int fixedfreqET = pars->PfixedfreqET; if(fixedfreqET != 0) { //if the frequency varies according the keyboard note float tmp = (midinote - 69.0f) / 12.0f * (powf(2.0f, (fixedfreqET - 1) / 63.0f) - 1.0f); if(fixedfreqET <= 64) basefreq *= powf(2.0f, tmp); else basefreq *= powf(3.0f, tmp); } } firsttime = true; released = false; realfreq = basefreq; if(!legato) NoteGlobalPar.Detune = getdetune(pars->PDetuneType, pars->PCoarseDetune, pars->PDetune); //find out the closest note float logfreq = logf(basefreq * powf(2.0f, NoteGlobalPar.Detune / 1200.0f)); float mindist = fabs(logfreq - logf(pars->sample[0].basefreq + 0.0001f)); nsample = 0; for(int i = 1; i < PAD_MAX_SAMPLES; ++i) { if(pars->sample[i].smp == NULL) break; float dist = fabs(logfreq - logf(pars->sample[i].basefreq + 0.0001f)); if(dist < mindist) { nsample = i; mindist = dist; } } int size = pars->sample[nsample].size; if(size == 0) size = 1; if(!legato) { //not sure poshi_l = (int)(RND * (size - 1)); if(pars->PStereo != 0) poshi_r = (poshi_l + size / 2) % size; else poshi_r = poshi_l; poslo = 0.0f; } if(pars->PPanning == 0) NoteGlobalPar.Panning = RND; else NoteGlobalPar.Panning = pars->PPanning / 128.0f; NoteGlobalPar.FilterCenterPitch = pars->GlobalFilter->getfreq() //center freq + pars->PFilterVelocityScale / 127.0f * 6.0f //velocity sensing * (VelF(velocity, pars-> PFilterVelocityScaleFunction) - 1); if(!legato) { if(pars->PPunchStrength != 0) { NoteGlobalPar.Punch.Enabled = 1; NoteGlobalPar.Punch.t = 1.0f; //start from 1.0f and to 0.0f NoteGlobalPar.Punch.initialvalue = ((powf(10, 1.5f * pars->PPunchStrength / 127.0f) - 1.0f) * VelF(velocity, pars->PPunchVelocitySensing)); float time = powf(10, 3.0f * pars->PPunchTime / 127.0f) / 10000.0f; //0.1f .. 100 ms float stretch = powf(440.0f / freq, pars->PPunchStretch / 64.0f); NoteGlobalPar.Punch.dt = 1.0f / (time * synth->samplerate_f * stretch); } else NoteGlobalPar.Punch.Enabled = 0; NoteGlobalPar.FreqEnvelope = new Envelope(pars->FreqEnvelope, basefreq); NoteGlobalPar.FreqLfo = new LFO(pars->FreqLfo, basefreq); NoteGlobalPar.AmpEnvelope = new Envelope(pars->AmpEnvelope, basefreq); NoteGlobalPar.AmpLfo = new LFO(pars->AmpLfo, basefreq); } NoteGlobalPar.Volume = 4.0f * powf(0.1f, 3.0f * (1.0f - pars->PVolume / 96.0f)) //-60 dB .. 0 dB * VelF(velocity, pars->PAmpVelocityScaleFunction); //velocity sensing NoteGlobalPar.AmpEnvelope->envout_dB(); //discard the first envelope output globaloldamplitude = globalnewamplitude = NoteGlobalPar.Volume * NoteGlobalPar.AmpEnvelope-> envout_dB() * NoteGlobalPar.AmpLfo->amplfoout(); if(!legato) { NoteGlobalPar.GlobalFilterL = Filter::generate(pars->GlobalFilter); NoteGlobalPar.GlobalFilterR = Filter::generate(pars->GlobalFilter); NoteGlobalPar.FilterEnvelope = new Envelope(pars->FilterEnvelope, basefreq); NoteGlobalPar.FilterLfo = new LFO(pars->FilterLfo, basefreq); } NoteGlobalPar.FilterQ = pars->GlobalFilter->getq(); NoteGlobalPar.FilterFreqTracking = pars->GlobalFilter->getfreqtracking( basefreq); if(pars->sample[nsample].smp == NULL) { finished_ = true; return; } } void PADnote::legatonote(float freq, float velocity, int portamento_, int midinote, bool externcall) { // Manage legato stuff if(legato.update(freq, velocity, portamento_, midinote, externcall)) return; setup(freq, velocity, portamento_, midinote, true); } PADnote::~PADnote() { delete (NoteGlobalPar.FreqEnvelope); delete (NoteGlobalPar.FreqLfo); delete (NoteGlobalPar.AmpEnvelope); delete (NoteGlobalPar.AmpLfo); delete (NoteGlobalPar.GlobalFilterL); delete (NoteGlobalPar.GlobalFilterR); delete (NoteGlobalPar.FilterEnvelope); delete (NoteGlobalPar.FilterLfo); } inline void PADnote::fadein(float *smps) { int zerocrossings = 0; for(int i = 1; i < synth->buffersize; ++i) if((smps[i - 1] < 0.0f) && (smps[i] > 0.0f)) zerocrossings++; //this is only the possitive crossings float tmp = (synth->buffersize_f - 1.0f) / (zerocrossings + 1) / 3.0f; if(tmp < 8.0f) tmp = 8.0f; int n; F2I(tmp, n); //how many samples is the fade-in if(n > synth->buffersize) n = synth->buffersize; for(int i = 0; i < n; ++i) { //fade-in float tmp = 0.5f - cosf((float)i / (float) n * PI) * 0.5f; smps[i] *= tmp; } } void PADnote::computecurrentparameters() { float globalpitch, globalfilterpitch; globalpitch = 0.01f * (NoteGlobalPar.FreqEnvelope->envout() + NoteGlobalPar.FreqLfo->lfoout() * ctl->modwheel.relmod + NoteGlobalPar.Detune); globaloldamplitude = globalnewamplitude; globalnewamplitude = NoteGlobalPar.Volume * NoteGlobalPar.AmpEnvelope->envout_dB() * NoteGlobalPar.AmpLfo->amplfoout(); globalfilterpitch = NoteGlobalPar.FilterEnvelope->envout() + NoteGlobalPar.FilterLfo->lfoout() + NoteGlobalPar.FilterCenterPitch; float tmpfilterfreq = globalfilterpitch + ctl->filtercutoff.relfreq + NoteGlobalPar.FilterFreqTracking; tmpfilterfreq = Filter::getrealfreq(tmpfilterfreq); float globalfilterq = NoteGlobalPar.FilterQ * ctl->filterq.relq; NoteGlobalPar.GlobalFilterL->setfreq_and_q(tmpfilterfreq, globalfilterq); NoteGlobalPar.GlobalFilterR->setfreq_and_q(tmpfilterfreq, globalfilterq); //compute the portamento, if it is used by this note float portamentofreqrap = 1.0f; if(portamento != 0) { //this voice use portamento portamentofreqrap = ctl->portamento.freqrap; if(ctl->portamento.used == 0) //the portamento has finished portamento = 0; //this note is no longer "portamented" ; } realfreq = basefreq * portamentofreqrap * powf(2.0f, globalpitch / 12.0f) * ctl->pitchwheel.relfreq; } int PADnote::Compute_Linear(float *outl, float *outr, int freqhi, float freqlo) { float *smps = pars->sample[nsample].smp; if(smps == NULL) { finished_ = true; return 1; } int size = pars->sample[nsample].size; for(int i = 0; i < synth->buffersize; ++i) { poshi_l += freqhi; poshi_r += freqhi; poslo += freqlo; if(poslo >= 1.0f) { poshi_l += 1; poshi_r += 1; poslo -= 1.0f; } if(poshi_l >= size) poshi_l %= size; if(poshi_r >= size) poshi_r %= size; outl[i] = smps[poshi_l] * (1.0f - poslo) + smps[poshi_l + 1] * poslo; outr[i] = smps[poshi_r] * (1.0f - poslo) + smps[poshi_r + 1] * poslo; } return 1; } int PADnote::Compute_Cubic(float *outl, float *outr, int freqhi, float freqlo) { float *smps = pars->sample[nsample].smp; if(smps == NULL) { finished_ = true; return 1; } int size = pars->sample[nsample].size; float xm1, x0, x1, x2, a, b, c; for(int i = 0; i < synth->buffersize; ++i) { poshi_l += freqhi; poshi_r += freqhi; poslo += freqlo; if(poslo >= 1.0f) { poshi_l += 1; poshi_r += 1; poslo -= 1.0f; } if(poshi_l >= size) poshi_l %= size; if(poshi_r >= size) poshi_r %= size; //left xm1 = smps[poshi_l]; x0 = smps[poshi_l + 1]; x1 = smps[poshi_l + 2]; x2 = smps[poshi_l + 3]; a = (3.0f * (x0 - x1) - xm1 + x2) * 0.5f; b = 2.0f * x1 + xm1 - (5.0f * x0 + x2) * 0.5f; c = (x1 - xm1) * 0.5f; outl[i] = (((a * poslo) + b) * poslo + c) * poslo + x0; //right xm1 = smps[poshi_r]; x0 = smps[poshi_r + 1]; x1 = smps[poshi_r + 2]; x2 = smps[poshi_r + 3]; a = (3.0f * (x0 - x1) - xm1 + x2) * 0.5f; b = 2.0f * x1 + xm1 - (5.0f * x0 + x2) * 0.5f; c = (x1 - xm1) * 0.5f; outr[i] = (((a * poslo) + b) * poslo + c) * poslo + x0; } return 1; } int PADnote::noteout(float *outl, float *outr) { computecurrentparameters(); float *smps = pars->sample[nsample].smp; if(smps == NULL) { for(int i = 0; i < synth->buffersize; ++i) { outl[i] = 0.0f; outr[i] = 0.0f; } return 1; } float smpfreq = pars->sample[nsample].basefreq; float freqrap = realfreq / smpfreq; int freqhi = (int) (floor(freqrap)); float freqlo = freqrap - floor(freqrap); if(config.cfg.Interpolation) Compute_Cubic(outl, outr, freqhi, freqlo); else Compute_Linear(outl, outr, freqhi, freqlo); if(firsttime) { fadein(outl); fadein(outr); firsttime = false; } NoteGlobalPar.GlobalFilterL->filterout(outl); NoteGlobalPar.GlobalFilterR->filterout(outr); //Apply the punch if(NoteGlobalPar.Punch.Enabled != 0) for(int i = 0; i < synth->buffersize; ++i) { float punchamp = NoteGlobalPar.Punch.initialvalue * NoteGlobalPar.Punch.t + 1.0f; outl[i] *= punchamp; outr[i] *= punchamp; NoteGlobalPar.Punch.t -= NoteGlobalPar.Punch.dt; if(NoteGlobalPar.Punch.t < 0.0f) { NoteGlobalPar.Punch.Enabled = 0; break; } } if(ABOVE_AMPLITUDE_THRESHOLD(globaloldamplitude, globalnewamplitude)) // Amplitude Interpolation for(int i = 0; i < synth->buffersize; ++i) { float tmpvol = INTERPOLATE_AMPLITUDE(globaloldamplitude, globalnewamplitude, i, synth->buffersize); outl[i] *= tmpvol * NoteGlobalPar.Panning; outr[i] *= tmpvol * (1.0f - NoteGlobalPar.Panning); } else for(int i = 0; i < synth->buffersize; ++i) { outl[i] *= globalnewamplitude * NoteGlobalPar.Panning; outr[i] *= globalnewamplitude * (1.0f - NoteGlobalPar.Panning); } // Apply legato-specific sound signal modifications legato.apply(*this, outl, outr); // Check if the global amplitude is finished. // If it does, disable the note if(NoteGlobalPar.AmpEnvelope->finished() != 0) { for(int i = 0; i < synth->buffersize; ++i) { //fade-out float tmp = 1.0f - (float)i / synth->buffersize_f; outl[i] *= tmp; outr[i] *= tmp; } finished_ = 1; } return 1; } int PADnote::finished() const { return finished_; } void PADnote::relasekey() { NoteGlobalPar.FreqEnvelope->relasekey(); NoteGlobalPar.FilterEnvelope->relasekey(); NoteGlobalPar.AmpEnvelope->relasekey(); }