From 7572164d7615414beefd5eff2b5ae83345bfbfe3 Mon Sep 17 00:00:00 2001 From: fundamental Date: Fri, 9 Oct 2009 17:31:42 -0400 Subject: [PATCH] Style: Restylized entire codebase Restylized entire codebase to deal with inconsistencies. This was done with an automated run of uncrustify, so there may be some odd formatting for now. The guidelines for formatting are in place at the sourceforge website and all known changes appear to fully match them. (cherry picked from commit 09ae8d044ad3352bec24f9bc3da5d35c3a3ba773) --- plugins/zynaddsubfx/ChangeLog | 4 + plugins/zynaddsubfx/src/Controls/Control.cpp | 10 +- plugins/zynaddsubfx/src/Controls/Control.h | 52 +- plugins/zynaddsubfx/src/Controls/DelayCtl.cpp | 13 +- plugins/zynaddsubfx/src/Controls/DelayCtl.h | 18 +- plugins/zynaddsubfx/src/DSP/AnalogFilter.cpp | 651 +++-- plugins/zynaddsubfx/src/DSP/AnalogFilter.h | 69 +- plugins/zynaddsubfx/src/DSP/FFTwrapper.cpp | 98 +- plugins/zynaddsubfx/src/DSP/FFTwrapper.h | 30 +- plugins/zynaddsubfx/src/DSP/Filter.cpp | 51 +- plugins/zynaddsubfx/src/DSP/Filter.h | 22 +- plugins/zynaddsubfx/src/DSP/Filter_.h | 18 +- plugins/zynaddsubfx/src/DSP/FormantFilter.cpp | 239 +- plugins/zynaddsubfx/src/DSP/FormantFilter.h | 48 +- plugins/zynaddsubfx/src/DSP/SVFilter.cpp | 184 +- plugins/zynaddsubfx/src/DSP/SVFilter.h | 59 +- plugins/zynaddsubfx/src/DSP/Unison.cpp | 264 +- plugins/zynaddsubfx/src/DSP/Unison.h | 65 +- plugins/zynaddsubfx/src/Effects/Alienwah.cpp | 234 +- plugins/zynaddsubfx/src/Effects/Alienwah.h | 78 +- plugins/zynaddsubfx/src/Effects/Chorus.cpp | 278 +- plugins/zynaddsubfx/src/Effects/Chorus.h | 146 +- .../zynaddsubfx/src/Effects/Distorsion.cpp | 492 ++-- plugins/zynaddsubfx/src/Effects/Distorsion.h | 66 +- .../zynaddsubfx/src/Effects/DynamicFilter.cpp | 346 +-- .../zynaddsubfx/src/Effects/DynamicFilter.h | 54 +- plugins/zynaddsubfx/src/Effects/EQ.cpp | 192 +- plugins/zynaddsubfx/src/Effects/EQ.h | 40 +- plugins/zynaddsubfx/src/Effects/Echo.cpp | 203 +- plugins/zynaddsubfx/src/Effects/Echo.h | 174 +- plugins/zynaddsubfx/src/Effects/Effect.cpp | 11 +- plugins/zynaddsubfx/src/Effects/Effect.h | 112 +- plugins/zynaddsubfx/src/Effects/EffectLFO.cpp | 114 +- plugins/zynaddsubfx/src/Effects/EffectLFO.h | 34 +- plugins/zynaddsubfx/src/Effects/EffectMgr.cpp | 289 +- plugins/zynaddsubfx/src/Effects/EffectMgr.h | 94 +- plugins/zynaddsubfx/src/Effects/Phaser.cpp | 577 ++-- plugins/zynaddsubfx/src/Effects/Phaser.h | 152 +- plugins/zynaddsubfx/src/Effects/Reverb.cpp | 1063 +++---- plugins/zynaddsubfx/src/Effects/Reverb.h | 270 +- plugins/zynaddsubfx/src/Input/ALSAMidiIn.cpp | 88 +- plugins/zynaddsubfx/src/Input/ALSAMidiIn.h | 24 +- plugins/zynaddsubfx/src/Input/MidiIn.cpp | 53 +- plugins/zynaddsubfx/src/Input/MidiIn.h | 28 +- plugins/zynaddsubfx/src/Input/NULLMidiIn.cpp | 14 +- plugins/zynaddsubfx/src/Input/NULLMidiIn.h | 26 +- plugins/zynaddsubfx/src/Input/OSSMidiIn.cpp | 107 +- plugins/zynaddsubfx/src/Input/OSSMidiIn.h | 27 +- plugins/zynaddsubfx/src/Input/WINMidiIn.cpp | 71 +- plugins/zynaddsubfx/src/Misc/Bank.cpp | 670 +++-- plugins/zynaddsubfx/src/Misc/Bank.h | 96 +- plugins/zynaddsubfx/src/Misc/Config.cpp | 410 +-- plugins/zynaddsubfx/src/Misc/Config.h | 68 +- plugins/zynaddsubfx/src/Misc/Control.h | 110 +- plugins/zynaddsubfx/src/Misc/Dump.cpp | 109 +- plugins/zynaddsubfx/src/Misc/Dump.h | 57 +- plugins/zynaddsubfx/src/Misc/LASHClient.cpp | 52 +- plugins/zynaddsubfx/src/Misc/LASHClient.h | 44 +- plugins/zynaddsubfx/src/Misc/Master.cpp | 902 +++--- plugins/zynaddsubfx/src/Misc/Master.h | 183 +- plugins/zynaddsubfx/src/Misc/Microtonal.cpp | 786 ++--- plugins/zynaddsubfx/src/Misc/Microtonal.h | 152 +- plugins/zynaddsubfx/src/Misc/Part.cpp | 1534 +++++----- plugins/zynaddsubfx/src/Misc/Part.h | 270 +- plugins/zynaddsubfx/src/Misc/Stereo.cpp | 17 +- plugins/zynaddsubfx/src/Misc/Stereo.h | 71 +- plugins/zynaddsubfx/src/Misc/Util.cpp | 83 +- plugins/zynaddsubfx/src/Misc/Util.h | 16 +- plugins/zynaddsubfx/src/Misc/XMLwrapper.cpp | 597 ++-- plugins/zynaddsubfx/src/Misc/XMLwrapper.h | 398 +-- .../src/Output/DSSIaudiooutput.cpp | 135 +- .../zynaddsubfx/src/Output/DSSIaudiooutput.h | 28 +- .../src/Output/JACK_RTaudiooutput.cpp | 231 +- .../src/Output/JACKaudiooutput.cpp | 144 +- .../zynaddsubfx/src/Output/JACKaudiooutput.h | 13 +- .../zynaddsubfx/src/Output/OSSaudiooutput.cpp | 94 +- .../zynaddsubfx/src/Output/OSSaudiooutput.h | 28 +- .../zynaddsubfx/src/Output/PAaudiooutput.cpp | 61 +- plugins/zynaddsubfx/src/Output/Recorder.cpp | 97 +- plugins/zynaddsubfx/src/Output/Recorder.h | 39 +- .../zynaddsubfx/src/Output/VSTaudiooutput.cpp | 43 +- .../zynaddsubfx/src/Output/VSTaudiooutput.h | 34 +- .../zynaddsubfx/src/Output/WAVaudiooutput.cpp | 102 +- .../zynaddsubfx/src/Output/WAVaudiooutput.h | 25 +- .../src/Params/ADnoteParameters.cpp | 825 +++--- .../zynaddsubfx/src/Params/ADnoteParameters.h | 130 +- plugins/zynaddsubfx/src/Params/Controller.cpp | 471 +-- plugins/zynaddsubfx/src/Params/Controller.h | 346 +-- .../zynaddsubfx/src/Params/EnvelopeParams.cpp | 361 +-- .../zynaddsubfx/src/Params/EnvelopeParams.h | 82 +- .../zynaddsubfx/src/Params/FilterParams.cpp | 439 +-- plugins/zynaddsubfx/src/Params/FilterParams.h | 102 +- plugins/zynaddsubfx/src/Params/LFOParams.cpp | 96 +- plugins/zynaddsubfx/src/Params/LFOParams.h | 65 +- .../src/Params/PADnoteParameters.cpp | 987 ++++--- .../src/Params/PADnoteParameters.h | 204 +- plugins/zynaddsubfx/src/Params/Presets.cpp | 131 +- plugins/zynaddsubfx/src/Params/Presets.h | 40 +- .../zynaddsubfx/src/Params/PresetsStore.cpp | 234 +- plugins/zynaddsubfx/src/Params/PresetsStore.h | 47 +- .../src/Params/SUBnoteParameters.cpp | 240 +- .../src/Params/SUBnoteParameters.h | 100 +- plugins/zynaddsubfx/src/Samples/AuSample.cpp | 8 +- plugins/zynaddsubfx/src/Samples/AuSample.h | 11 +- plugins/zynaddsubfx/src/Samples/FqSample.cpp | 8 +- plugins/zynaddsubfx/src/Samples/FqSample.h | 14 +- plugins/zynaddsubfx/src/Samples/Sample.cpp | 102 +- plugins/zynaddsubfx/src/Samples/Sample.h | 76 +- plugins/zynaddsubfx/src/Seq/MIDIEvents.cpp | 73 +- plugins/zynaddsubfx/src/Seq/MIDIEvents.h | 57 +- plugins/zynaddsubfx/src/Seq/MIDIFile.cpp | 433 +-- plugins/zynaddsubfx/src/Seq/MIDIFile.h | 84 +- plugins/zynaddsubfx/src/Seq/Sequencer.cpp | 151 +- plugins/zynaddsubfx/src/Seq/Sequencer.h | 83 +- plugins/zynaddsubfx/src/Synth/ADnote.cpp | 2526 ++++++++++------- plugins/zynaddsubfx/src/Synth/ADnote.h | 547 ++-- plugins/zynaddsubfx/src/Synth/Envelope.cpp | 208 +- plugins/zynaddsubfx/src/Synth/Envelope.h | 54 +- plugins/zynaddsubfx/src/Synth/LFO.cpp | 171 +- plugins/zynaddsubfx/src/Synth/LFO.h | 45 +- plugins/zynaddsubfx/src/Synth/OscilGen.cpp | 1832 ++++++------ plugins/zynaddsubfx/src/Synth/OscilGen.h | 219 +- plugins/zynaddsubfx/src/Synth/PADnote.cpp | 759 ++--- plugins/zynaddsubfx/src/Synth/PADnote.h | 157 +- plugins/zynaddsubfx/src/Synth/Resonance.cpp | 285 +- plugins/zynaddsubfx/src/Synth/Resonance.h | 55 +- plugins/zynaddsubfx/src/Synth/SUBnote.cpp | 929 +++--- plugins/zynaddsubfx/src/Synth/SUBnote.h | 139 +- plugins/zynaddsubfx/src/globals.h | 64 +- 129 files changed, 15751 insertions(+), 13290 deletions(-) diff --git a/plugins/zynaddsubfx/ChangeLog b/plugins/zynaddsubfx/ChangeLog index e5e14f96c..fc73cf1c4 100644 --- a/plugins/zynaddsubfx/ChangeLog +++ b/plugins/zynaddsubfx/ChangeLog @@ -953,3 +953,7 @@ 08 Oct 2009 (Mark McCurry) - Started to see if memset/memcpy offer performance benifits when widely used + - Added basic SUBnote test + +09 Oct 2009 (Mark McCurry) + - Restylized codebase with uncrustify diff --git a/plugins/zynaddsubfx/src/Controls/Control.cpp b/plugins/zynaddsubfx/src/Controls/Control.cpp index 36792fc63..d7cf5cb9d 100644 --- a/plugins/zynaddsubfx/src/Controls/Control.cpp +++ b/plugins/zynaddsubfx/src/Controls/Control.cpp @@ -22,19 +22,19 @@ #include "Control.h" Control::Control(char ndefaultval) - :defaultval(ndefaultval),lockqueue(-1),locked(false) + :defaultval(ndefaultval), lockqueue(-1), locked(false) {} void Control::lock() { - locked=true; - lockqueue=-1; + locked = true; + lockqueue = -1; } void Control::ulock() { - if (locked&&lockqueue>=0) + if(locked && (lockqueue >= 0)) setmVal(lockqueue); - locked=false; + locked = false; } diff --git a/plugins/zynaddsubfx/src/Controls/Control.h b/plugins/zynaddsubfx/src/Controls/Control.h index 2b6eaea77..931a4745c 100644 --- a/plugins/zynaddsubfx/src/Controls/Control.h +++ b/plugins/zynaddsubfx/src/Controls/Control.h @@ -25,33 +25,33 @@ /**A control for a parameter within the program*/ class Control { -public: - Control(char ndefaultval);/**\todo create proper initialization list*/ - ~Control() {}; - /**Return the string, which represents the internal value - * @return a string representation of the current value*/ - virtual std::string getString()const=0; - /**Set the Control to the given value - * @param nval A number 0-127*/ - virtual void setmVal(char nval)=0; - /**Return the midi value (aka the char) - * @return the current value*/ - virtual char getmVal()const=0; - /** Will lock the Control until it is ulocked - * - * Locking a Control will Stop it from having - * its internal data altered*/ - void lock(); - /** Will unlock the Control - * - * This will also update the Control - * if something attempted to update it while it was locked*/ - void ulock(); -private: - char defaultval;/** DelayCtl::DelayCtl() - :Control(64),value(64/127.0*1.5) {} /**\todo finishme*/ + :Control(64), value(64 / 127.0 * 1.5) {} /**\todo finishme*/ std::string DelayCtl::getString() const { std::ostringstream buf; - buf< #include "AnalogFilter.h" -AnalogFilter::AnalogFilter(unsigned char Ftype,REALTYPE Ffreq, REALTYPE Fq,unsigned char Fstages) +AnalogFilter::AnalogFilter(unsigned char Ftype, + REALTYPE Ffreq, + REALTYPE Fq, + unsigned char Fstages) { - stages=Fstages; - for (int i=0;i<3;i++) { - oldc[i]=0.0; - oldd[i]=0.0; - c[i]=0.0; - d[i]=0.0; - }; - type=Ftype; - freq=Ffreq; - q=Fq; - gain=1.0; - if (stages>=MAX_FILTER_STAGES) stages=MAX_FILTER_STAGES; + stages = Fstages; + for(int i = 0; i < 3; i++) { + oldc[i] = 0.0; + oldd[i] = 0.0; + c[i] = 0.0; + d[i] = 0.0; + } + type = Ftype; + freq = Ffreq; + q = Fq; + gain = 1.0; + if(stages >= MAX_FILTER_STAGES) + stages = MAX_FILTER_STAGES; cleanup(); - firsttime=0; - abovenq=0; - oldabovenq=0; - setfreq_and_q(Ffreq,Fq); - firsttime=1; - d[0]=0;//this is not used - outgain=1.0; -}; + firsttime = 0; + abovenq = 0; + oldabovenq = 0; + setfreq_and_q(Ffreq, Fq); + firsttime = 1; + d[0] = 0; //this is not used + outgain = 1.0; +} AnalogFilter::~AnalogFilter() -{ -}; +{} void AnalogFilter::cleanup() { - for (int i=0;ifreq; - if (freq>(SAMPLE_RATE/2-500.0)) { - freq=SAMPLE_RATE/2-500.0; - zerocoefs=1; - }; - if (freq<0.1) freq=0.1; + REALTYPE freq = this->freq; + if(freq > (SAMPLE_RATE / 2 - 500.0)) { + freq = SAMPLE_RATE / 2 - 500.0; + zerocoefs = 1; + } + if(freq < 0.1) + freq = 0.1; //do not allow bogus Q - if (q<0.0) q=0.0; - REALTYPE tmpq,tmpgain; - if (stages==0) { - tmpq=q; - tmpgain=gain; - } else { - tmpq=(q>1.0 ? pow(q,1.0/(stages+1)) : q); - tmpgain=pow(gain,1.0/(stages+1)); - }; + if(q < 0.0) + q = 0.0; + REALTYPE tmpq, tmpgain; + if(stages == 0) { + tmpq = q; + tmpgain = gain; + } + else { + tmpq = (q > 1.0 ? pow(q, 1.0 / (stages + 1)) : q); + tmpgain = pow(gain, 1.0 / (stages + 1)); + } //most of theese are implementations of //the "Cookbook formulae for audio EQ" by Robert Bristow-Johnson //The original location of the Cookbook is: //http://www.harmony-central.com/Computer/Programming/Audio-EQ-Cookbook.txt - switch (type) { - case 0://LPF 1 pole - if (zerocoefs==0) tmp=exp(-2.0*PI*freq/SAMPLE_RATE); - else tmp=0.0; - c[0]=1.0-tmp; - c[1]=0.0; - c[2]=0.0; - d[1]=tmp; - d[2]=0.0; - order=1; + switch(type) { + case 0: //LPF 1 pole + if(zerocoefs == 0) + tmp = exp(-2.0 * PI * freq / SAMPLE_RATE); + else + tmp = 0.0; + c[0] = 1.0 - tmp; + c[1] = 0.0; + c[2] = 0.0; + d[1] = tmp; + d[2] = 0.0; + order = 1; break; - case 1://HPF 1 pole - if (zerocoefs==0) tmp=exp(-2.0*PI*freq/SAMPLE_RATE); - else tmp=0.0; - c[0]=(1.0+tmp)/2.0; - c[1]=-(1.0+tmp)/2.0; - c[2]=0.0; - d[1]=tmp; - d[2]=0.0; - order=1; + case 1: //HPF 1 pole + if(zerocoefs == 0) + tmp = exp(-2.0 * PI * freq / SAMPLE_RATE); + else + tmp = 0.0; + c[0] = (1.0 + tmp) / 2.0; + c[1] = -(1.0 + tmp) / 2.0; + c[2] = 0.0; + d[1] = tmp; + d[2] = 0.0; + order = 1; break; - case 2://LPF 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - alpha=sn/(2*tmpq); - tmp=1+alpha; - c[0]=(1.0-cs)/2.0/tmp; - c[1]=(1.0-cs)/tmp; - c[2]=(1.0-cs)/2.0/tmp; - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha)/tmp*(-1); - } else { - c[0]=1.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + case 2: //LPF 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + alpha = sn / (2 * tmpq); + tmp = 1 + alpha; + c[0] = (1.0 - cs) / 2.0 / tmp; + c[1] = (1.0 - cs) / tmp; + c[2] = (1.0 - cs) / 2.0 / tmp; + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha) / tmp * (-1); + } + else { + c[0] = 1.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 3://HPF 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - alpha=sn/(2*tmpq); - tmp=1+alpha; - c[0]=(1.0+cs)/2.0/tmp; - c[1]=-(1.0+cs)/tmp; - c[2]=(1.0+cs)/2.0/tmp; - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha)/tmp*(-1); - } else { - c[0]=0.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + case 3: //HPF 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + alpha = sn / (2 * tmpq); + tmp = 1 + alpha; + c[0] = (1.0 + cs) / 2.0 / tmp; + c[1] = -(1.0 + cs) / tmp; + c[2] = (1.0 + cs) / 2.0 / tmp; + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha) / tmp * (-1); + } + else { + c[0] = 0.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 4://BPF 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - alpha=sn/(2*tmpq); - tmp=1+alpha; - c[0]=alpha/tmp*sqrt(tmpq+1); - c[1]=0; - c[2]=-alpha/tmp*sqrt(tmpq+1); - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha)/tmp*(-1); - } else { - c[0]=0.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + case 4: //BPF 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + alpha = sn / (2 * tmpq); + tmp = 1 + alpha; + c[0] = alpha / tmp *sqrt(tmpq + 1); + c[1] = 0; + c[2] = -alpha / tmp *sqrt(tmpq + 1); + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha) / tmp * (-1); + } + else { + c[0] = 0.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 5://NOTCH 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - alpha=sn/(2*sqrt(tmpq)); - tmp=1+alpha; - c[0]=1/tmp; - c[1]=-2*cs/tmp; - c[2]=1/tmp; - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha)/tmp*(-1); - } else { - c[0]=1.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + case 5: //NOTCH 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + alpha = sn / (2 * sqrt(tmpq)); + tmp = 1 + alpha; + c[0] = 1 / tmp; + c[1] = -2 * cs / tmp; + c[2] = 1 / tmp; + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha) / tmp * (-1); + } + else { + c[0] = 1.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 6://PEAK (2 poles) - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - tmpq*=3.0; - alpha=sn/(2*tmpq); - tmp=1+alpha/tmpgain; - c[0]=(1.0+alpha*tmpgain)/tmp; - c[1]=(-2.0*cs)/tmp; - c[2]=(1.0-alpha*tmpgain)/tmp; - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha/tmpgain)/tmp*(-1); - } else { - c[0]=1.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + case 6: //PEAK (2 poles) + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + tmpq *= 3.0; + alpha = sn / (2 * tmpq); + tmp = 1 + alpha / tmpgain; + c[0] = (1.0 + alpha * tmpgain) / tmp; + c[1] = (-2.0 * cs) / tmp; + c[2] = (1.0 - alpha * tmpgain) / tmp; + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha / tmpgain) / tmp * (-1); + } + else { + c[0] = 1.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 7://Low Shelf - 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - tmpq=sqrt(tmpq); - alpha=sn/(2*tmpq); - beta=sqrt(tmpgain)/tmpq; - tmp=(tmpgain+1.0)+(tmpgain-1.0)*cs+beta*sn; + case 7: //Low Shelf - 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + tmpq = sqrt(tmpq); + alpha = sn / (2 * tmpq); + beta = sqrt(tmpgain) / tmpq; + tmp = (tmpgain + 1.0) + (tmpgain - 1.0) * cs + beta * sn; - c[0]=tmpgain*((tmpgain+1.0)-(tmpgain-1.0)*cs+beta*sn)/tmp; - c[1]=2.0*tmpgain*((tmpgain-1.0)-(tmpgain+1.0)*cs)/tmp; - c[2]=tmpgain*((tmpgain+1.0)-(tmpgain-1.0)*cs-beta*sn)/tmp; - d[1]=-2.0*((tmpgain-1.0)+(tmpgain+1.0)*cs)/tmp*(-1); - d[2]=((tmpgain+1.0)+(tmpgain-1.0)*cs-beta*sn)/tmp*(-1); - } else { - c[0]=tmpgain; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + c[0] = tmpgain + * ((tmpgain + + 1.0) - (tmpgain - 1.0) * cs + beta * sn) / tmp; + c[1] = 2.0 * tmpgain + * ((tmpgain - 1.0) - (tmpgain + 1.0) * cs) / tmp; + c[2] = tmpgain + * ((tmpgain + + 1.0) - (tmpgain - 1.0) * cs - beta * sn) / tmp; + d[1] = -2.0 * ((tmpgain - 1.0) + (tmpgain + 1.0) * cs) / tmp * (-1); + d[2] = + ((tmpgain + + 1.0) + (tmpgain - 1.0) * cs - beta * sn) / tmp * (-1); + } + else { + c[0] = tmpgain; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - case 8://High Shelf - 2 poles - if (zerocoefs==0) { - omega=2*PI*freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - tmpq=sqrt(tmpq); - alpha=sn/(2*tmpq); - beta=sqrt(tmpgain)/tmpq; - tmp=(tmpgain+1.0)-(tmpgain-1.0)*cs+beta*sn; + case 8: //High Shelf - 2 poles + if(zerocoefs == 0) { + omega = 2 * PI * freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + tmpq = sqrt(tmpq); + alpha = sn / (2 * tmpq); + beta = sqrt(tmpgain) / tmpq; + tmp = (tmpgain + 1.0) - (tmpgain - 1.0) * cs + beta * sn; - c[0]=tmpgain*((tmpgain+1.0)+(tmpgain-1.0)*cs+beta*sn)/tmp; - c[1]=-2.0*tmpgain*((tmpgain-1.0)+(tmpgain+1.0)*cs)/tmp; - c[2]=tmpgain*((tmpgain+1.0)+(tmpgain-1.0)*cs-beta*sn)/tmp; - d[1]=2.0*((tmpgain-1.0)-(tmpgain+1.0)*cs)/tmp*(-1); - d[2]=((tmpgain+1.0)-(tmpgain-1.0)*cs-beta*sn)/tmp*(-1); - } else { - c[0]=1.0; - c[1]=0.0; - c[2]=0.0; - d[1]=0.0; - d[2]=0.0; - }; - order=2; + c[0] = tmpgain + * ((tmpgain + + 1.0) + (tmpgain - 1.0) * cs + beta * sn) / tmp; + c[1] = -2.0 * tmpgain + * ((tmpgain - 1.0) + (tmpgain + 1.0) * cs) / tmp; + c[2] = tmpgain + * ((tmpgain + + 1.0) + (tmpgain - 1.0) * cs - beta * sn) / tmp; + d[1] = 2.0 * ((tmpgain - 1.0) - (tmpgain + 1.0) * cs) / tmp * (-1); + d[2] = + ((tmpgain + + 1.0) - (tmpgain - 1.0) * cs - beta * sn) / tmp * (-1); + } + else { + c[0] = 1.0; + c[1] = 0.0; + c[2] = 0.0; + d[1] = 0.0; + d[2] = 0.0; + } + order = 2; break; - default://wrong type - type=0; + default: //wrong type + type = 0; computefiltercoefs(); break; - }; -}; + } +} void AnalogFilter::setfreq(REALTYPE frequency) { - if (frequency<0.1) frequency=0.1; - REALTYPE rap=freq/frequency; - if (rap<1.0) rap=1.0/rap; + if(frequency < 0.1) + frequency = 0.1; + REALTYPE rap = freq / frequency; + if(rap < 1.0) + rap = 1.0 / rap; - oldabovenq=abovenq; - abovenq=frequency>(SAMPLE_RATE/2-500.0); + oldabovenq = abovenq; + abovenq = frequency > (SAMPLE_RATE / 2 - 500.0); - int nyquistthresh=(abovenq^oldabovenq); + int nyquistthresh = (abovenq ^ oldabovenq); - if ((rap>3.0)||(nyquistthresh!=0)) {//if the frequency is changed fast, it needs interpolation (now, filter and coeficients backup) - for (int i=0;i<3;i++) { - oldc[i]=c[i]; - oldd[i]=d[i]; - }; - for (int i=0;i 3.0) || (nyquistthresh != 0)) { //if the frequency is changed fast, it needs interpolation (now, filter and coeficients backup) + for(int i = 0; i < 3; i++) { + oldc[i] = c[i]; + oldd[i] = d[i]; + } + for(int i = 0; i < MAX_FILTER_STAGES + 1; i++) { + oldx[i] = x[i]; + oldy[i] = y[i]; + } + if(firsttime == 0) + needsinterpolation = 1; + } + freq = frequency; computefiltercoefs(); - firsttime=0; + firsttime = 0; +} -}; - -void AnalogFilter::setfreq_and_q(REALTYPE frequency,REALTYPE q_) +void AnalogFilter::setfreq_and_q(REALTYPE frequency, REALTYPE q_) { - q=q_; + q = q_; setfreq(frequency); -}; +} void AnalogFilter::setq(REALTYPE q_) { - q=q_; + q = q_; computefiltercoefs(); -}; +} void AnalogFilter::settype(int type_) { - type=type_; + type = type_; computefiltercoefs(); -}; +} void AnalogFilter::setgain(REALTYPE dBgain) { - gain=dB2rap(dBgain); + gain = dB2rap(dBgain); computefiltercoefs(); -}; +} void AnalogFilter::setstages(int stages_) { - if (stages_>=MAX_FILTER_STAGES) stages_=MAX_FILTER_STAGES-1; - stages=stages_; + if(stages_ >= MAX_FILTER_STAGES) + stages_ = MAX_FILTER_STAGES - 1; + stages = stages_; cleanup(); computefiltercoefs(); -}; +} -void AnalogFilter::singlefilterout(REALTYPE *smp,fstage &x,fstage &y,REALTYPE *c,REALTYPE *d) +void AnalogFilter::singlefilterout(REALTYPE *smp, + fstage &x, + fstage &y, + REALTYPE *c, + REALTYPE *d) { - int i; + int i; REALTYPE y0; - if (order==1) {//First order filter - for (i=0;i1,1->2,etc.) - REALTYPE freq;//Frequency given in Hz - REALTYPE q; //Q factor (resonance or Q factor) - REALTYPE gain;//the gain of the filter (if are shelf/peak) filters + void singlefilterout(REALTYPE *smp, + fstage &x, + fstage &y, + REALTYPE *c, + REALTYPE *d); + void computefiltercoefs(); + int type; //The type of the filter (LPF1,HPF1,LPF2,HPF2...) + int stages; //how many times the filter is applied (0->1,1->2,etc.) + REALTYPE freq; //Frequency given in Hz + REALTYPE q; //Q factor (resonance or Q factor) + REALTYPE gain; //the gain of the filter (if are shelf/peak) filters - int order;//the order of the filter (number of poles) + int order; //the order of the filter (number of poles) - REALTYPE c[3],d[3];//coefficients + REALTYPE c[3], d[3]; //coefficients - REALTYPE oldc[3],oldd[3];//old coefficients(used only if some filter paremeters changes very fast, and it needs interpolation) + REALTYPE oldc[3], oldd[3]; //old coefficients(used only if some filter paremeters changes very fast, and it needs interpolation) - REALTYPE xd[3],yd[3];//used if the filter is applied more times - int needsinterpolation,firsttime;/**\todo see if bool works for these*/ - int abovenq;//this is 1 if the frequency is above the nyquist - int oldabovenq;//if the last time was above nyquist (used to see if it needs interpolation) + REALTYPE xd[3], yd[3]; //used if the filter is applied more times + int needsinterpolation, firsttime; /**\todo see if bool works for these*/ + int abovenq; //this is 1 if the frequency is above the nyquist + int oldabovenq; //if the last time was above nyquist (used to see if it needs interpolation) }; diff --git a/plugins/zynaddsubfx/src/DSP/FFTwrapper.cpp b/plugins/zynaddsubfx/src/DSP/FFTwrapper.cpp index cd338a9c6..d93c0c40c 100644 --- a/plugins/zynaddsubfx/src/DSP/FFTwrapper.cpp +++ b/plugins/zynaddsubfx/src/DSP/FFTwrapper.cpp @@ -25,17 +25,29 @@ FFTwrapper::FFTwrapper(int fftsize_) { - fftsize=fftsize_; - tmpfftdata1=new fftw_real[fftsize]; - tmpfftdata2=new fftw_real[fftsize]; + fftsize = fftsize_; + tmpfftdata1 = new fftw_real[fftsize]; + tmpfftdata2 = new fftw_real[fftsize]; #ifdef FFTW_VERSION_2 - planfftw=rfftw_create_plan(fftsize,FFTW_REAL_TO_COMPLEX,FFTW_ESTIMATE|FFTW_IN_PLACE); - planfftw_inv=rfftw_create_plan(fftsize,FFTW_COMPLEX_TO_REAL,FFTW_ESTIMATE|FFTW_IN_PLACE); + planfftw = rfftw_create_plan(fftsize, + FFTW_REAL_TO_COMPLEX, + FFTW_ESTIMATE | FFTW_IN_PLACE); + planfftw_inv = rfftw_create_plan(fftsize, + FFTW_COMPLEX_TO_REAL, + FFTW_ESTIMATE | FFTW_IN_PLACE); #else - planfftw=fftwf_plan_r2r_1d(fftsize,tmpfftdata1,tmpfftdata1,FFTW_R2HC,FFTW_ESTIMATE); - planfftw_inv=fftwf_plan_r2r_1d(fftsize,tmpfftdata2,tmpfftdata2,FFTW_HC2R,FFTW_ESTIMATE); + planfftw = fftwf_plan_r2r_1d(fftsize, + tmpfftdata1, + tmpfftdata1, + FFTW_R2HC, + FFTW_ESTIMATE); + planfftw_inv = fftwf_plan_r2r_1d(fftsize, + tmpfftdata2, + tmpfftdata2, + FFTW_HC2R, + FFTW_ESTIMATE); #endif -}; +} FFTwrapper::~FFTwrapper() { @@ -49,60 +61,67 @@ FFTwrapper::~FFTwrapper() delete [] tmpfftdata1; delete [] tmpfftdata2; -}; +} /* * do the Fast Fourier Transform */ -void FFTwrapper::smps2freqs(REALTYPE *smps,FFTFREQS freqs) +void FFTwrapper::smps2freqs(REALTYPE *smps, FFTFREQS freqs) { #ifdef FFTW_VERSION_2 - for (int i=0;ic = new REALTYPE[size]; f->s = new REALTYPE[size]; - for (int i=0; ic[i] = 0.0; f->s[i] = 0.0; } @@ -114,3 +133,4 @@ void deleteFFTFREQS(FFTFREQS *f) delete[] f->s; f->c = f->s = NULL; } + diff --git a/plugins/zynaddsubfx/src/DSP/FFTwrapper.h b/plugins/zynaddsubfx/src/DSP/FFTwrapper.h index fd529e14e..17d40805a 100644 --- a/plugins/zynaddsubfx/src/DSP/FFTwrapper.h +++ b/plugins/zynaddsubfx/src/DSP/FFTwrapper.h @@ -47,21 +47,21 @@ Hope all goes right." */ /**A wrapper for the FFTW library (Fast Fourier Transforms)*/ class FFTwrapper { -public: - /**Constructor - * @param fftsize The size of samples to be fed to fftw*/ - FFTwrapper(int fftsize_); - /**Destructor*/ - ~FFTwrapper(); - /**Convert Samples to Frequencies using Fourier Transform - * @param smps Pointer to Samples to be converted; has length fftsize_ - * @param freqs Structure FFTFREQS which stores the frequencies*/ - void smps2freqs(REALTYPE *smps,FFTFREQS freqs); - void freqs2smps(FFTFREQS freqs,REALTYPE *smps); -private: - int fftsize; - fftw_real *tmpfftdata1,*tmpfftdata2; - rfftw_plan planfftw,planfftw_inv; + public: + /**Constructor + * @param fftsize The size of samples to be fed to fftw*/ + FFTwrapper(int fftsize_); + /**Destructor*/ + ~FFTwrapper(); + /**Convert Samples to Frequencies using Fourier Transform + * @param smps Pointer to Samples to be converted; has length fftsize_ + * @param freqs Structure FFTFREQS which stores the frequencies*/ + void smps2freqs(REALTYPE *smps, FFTFREQS freqs); + void freqs2smps(FFTFREQS freqs, REALTYPE *smps); + private: + int fftsize; + fftw_real *tmpfftdata1, *tmpfftdata2; + rfftw_plan planfftw, planfftw_inv; }; void newFFTFREQS(FFTFREQS *f, int size); diff --git a/plugins/zynaddsubfx/src/DSP/Filter.cpp b/plugins/zynaddsubfx/src/DSP/Filter.cpp index f94a34214..d95abe448 100644 --- a/plugins/zynaddsubfx/src/DSP/Filter.cpp +++ b/plugins/zynaddsubfx/src/DSP/Filter.cpp @@ -27,56 +27,61 @@ Filter::Filter(FilterParams *pars) { - unsigned char Ftype=pars->Ptype; - unsigned char Fstages=pars->Pstages; + unsigned char Ftype = pars->Ptype; + unsigned char Fstages = pars->Pstages; - category=pars->Pcategory; + category = pars->Pcategory; - switch (category) { + switch(category) { case 1: - filter=new FormantFilter(pars); + filter = new FormantFilter(pars); break; case 2: - filter=new SVFilter(Ftype,1000.0,pars->getq(),Fstages); - filter->outgain=dB2rap(pars->getgain()); - if (filter->outgain>1.0) filter->outgain=sqrt(filter->outgain); + filter = new SVFilter(Ftype, 1000.0, pars->getq(), Fstages); + filter->outgain = dB2rap(pars->getgain()); + if(filter->outgain > 1.0) + filter->outgain = sqrt(filter->outgain); break; default: - filter=new AnalogFilter(Ftype,1000.0,pars->getq(),Fstages); - if ((Ftype>=6)&&(Ftype<=8)) filter->setgain(pars->getgain()); - else filter->outgain=dB2rap(pars->getgain()); + filter = new AnalogFilter(Ftype, 1000.0, pars->getq(), Fstages); + if((Ftype >= 6) && (Ftype <= 8)) + filter->setgain(pars->getgain()); + else + filter->outgain = dB2rap(pars->getgain()); break; - }; -}; + } +} Filter::~Filter() { delete (filter); -}; +} void Filter::filterout(REALTYPE *smp) { filter->filterout(smp); -}; +} void Filter::setfreq(REALTYPE frequency) { filter->setfreq(frequency); -}; +} -void Filter::setfreq_and_q(REALTYPE frequency,REALTYPE q_) +void Filter::setfreq_and_q(REALTYPE frequency, REALTYPE q_) { - filter->setfreq_and_q(frequency,q_); -}; + filter->setfreq_and_q(frequency, q_); +} void Filter::setq(REALTYPE q_) { filter->setq(q_); -}; +} REALTYPE Filter::getrealfreq(REALTYPE freqpitch) { - if ((category==0)||(category==2)) return(pow(2.0,freqpitch+9.96578428));//log2(1000)=9.95748 - else return(freqpitch); -}; + if((category == 0) || (category == 2)) + return pow(2.0, freqpitch + 9.96578428); //log2(1000)=9.95748 + else + return freqpitch; +} diff --git a/plugins/zynaddsubfx/src/DSP/Filter.h b/plugins/zynaddsubfx/src/DSP/Filter.h index 42bef55ce..b8f568b21 100644 --- a/plugins/zynaddsubfx/src/DSP/Filter.h +++ b/plugins/zynaddsubfx/src/DSP/Filter.h @@ -33,18 +33,18 @@ class Filter { -public: - Filter(FilterParams *pars); - ~Filter(); - void filterout(REALTYPE *smp); - void setfreq(REALTYPE frequency); - void setfreq_and_q(REALTYPE frequency,REALTYPE q_); - void setq(REALTYPE q_); + public: + Filter(FilterParams *pars); + ~Filter(); + void filterout(REALTYPE *smp); + void setfreq(REALTYPE frequency); + void setfreq_and_q(REALTYPE frequency, REALTYPE q_); + void setq(REALTYPE q_); - REALTYPE getrealfreq(REALTYPE freqpitch); -private: - Filter_ *filter; - unsigned char category; + REALTYPE getrealfreq(REALTYPE freqpitch); + private: + Filter_ *filter; + unsigned char category; }; diff --git a/plugins/zynaddsubfx/src/DSP/Filter_.h b/plugins/zynaddsubfx/src/DSP/Filter_.h index b3f2badc1..b577193f3 100644 --- a/plugins/zynaddsubfx/src/DSP/Filter_.h +++ b/plugins/zynaddsubfx/src/DSP/Filter_.h @@ -27,15 +27,15 @@ class Filter_ { -public: - virtual ~Filter_() {}; - virtual void filterout(REALTYPE *smp)=0; - virtual void setfreq(REALTYPE frequency)=0; - virtual void setfreq_and_q(REALTYPE frequency,REALTYPE q_)=0; - virtual void setq(REALTYPE q_)=0; - virtual void setgain(REALTYPE dBgain) {}; - REALTYPE outgain; -private: + public: + virtual ~Filter_() {} + virtual void filterout(REALTYPE *smp) = 0; + virtual void setfreq(REALTYPE frequency) = 0; + virtual void setfreq_and_q(REALTYPE frequency, REALTYPE q_) = 0; + virtual void setq(REALTYPE q_) = 0; + virtual void setgain(REALTYPE dBgain) {} + REALTYPE outgain; + private: }; diff --git a/plugins/zynaddsubfx/src/DSP/FormantFilter.cpp b/plugins/zynaddsubfx/src/DSP/FormantFilter.cpp index 297285648..39c1002d9 100644 --- a/plugins/zynaddsubfx/src/DSP/FormantFilter.cpp +++ b/plugins/zynaddsubfx/src/DSP/FormantFilter.cpp @@ -26,151 +26,202 @@ FormantFilter::FormantFilter(FilterParams *pars) { - numformants=pars->Pnumformants; - for (int i=0;iPstages); + numformants = pars->Pnumformants; + for(int i = 0; i < numformants; i++) + formant[i] = new AnalogFilter(4 /*BPF*/, 1000.0, 10.0, pars->Pstages); cleanup(); - inbuffer=new REALTYPE [SOUND_BUFFER_SIZE]; - tmpbuf=new REALTYPE [SOUND_BUFFER_SIZE]; + inbuffer = new REALTYPE [SOUND_BUFFER_SIZE]; + tmpbuf = new REALTYPE [SOUND_BUFFER_SIZE]; - for (int j=0;jgetformantfreq(pars->Pvowels[j].formants[i].freq); - formantpar[j][i].amp=pars->getformantamp(pars->Pvowels[j].formants[i].amp); - formantpar[j][i].q=pars->getformantq(pars->Pvowels[j].formants[i].q); - }; - for (int i=0;igetformantfreq( + pars->Pvowels[j].formants[i].freq); + formantpar[j][i].amp = pars->getformantamp( + pars->Pvowels[j].formants[i].amp); + formantpar[j][i].q = pars->getformantq( + pars->Pvowels[j].formants[i].q); + } + ; + for(int i = 0; i < FF_MAX_FORMANTS; i++) + oldformantamp[i] = 1.0; + for(int i = 0; i < numformants; i++) { + currentformants[i].freq = 1000.0; + currentformants[i].amp = 1.0; + currentformants[i].q = 2.0; + } - formantslowness=pow(1.0-(pars->Pformantslowness/128.0),3.0); + formantslowness = pow(1.0 - (pars->Pformantslowness / 128.0), 3.0); - sequencesize=pars->Psequencesize; - if (sequencesize==0) sequencesize=1; - for (int k=0;kPsequence[k].nvowel; + sequencesize = pars->Psequencesize; + if(sequencesize == 0) + sequencesize = 1; + for(int k = 0; k < sequencesize; k++) + sequence[k].nvowel = pars->Psequence[k].nvowel; - vowelclearness=pow(10.0,(pars->Pvowelclearness-32.0)/48.0); + vowelclearness = pow(10.0, (pars->Pvowelclearness - 32.0) / 48.0); - sequencestretch=pow(0.1,(pars->Psequencestretch-32.0)/48.0); - if (pars->Psequencereversed) sequencestretch*= -1.0; + sequencestretch = pow(0.1, (pars->Psequencestretch - 32.0) / 48.0); + if(pars->Psequencereversed) + sequencestretch *= -1.0; - outgain=dB2rap(pars->getgain()); + outgain = dB2rap(pars->getgain()); - oldinput=-1.0; - Qfactor=1.0; - oldQfactor=Qfactor; - firsttime=1; -}; + oldinput = -1.0; + Qfactor = 1.0; + oldQfactor = Qfactor; + firsttime = 1; +} FormantFilter::~FormantFilter() { - for (int i=0;icleanup(); -}; + for(int i = 0; i < numformants; i++) + formant[i]->cleanup(); +} void FormantFilter::setpos(REALTYPE input) { - int p1,p2; + int p1, p2; - if (firsttime!=0) slowinput=input; - else slowinput=slowinput*(1.0-formantslowness)+input*formantslowness; + if(firsttime != 0) + slowinput = input; + else + slowinput = slowinput + * (1.0 - formantslowness) + input * formantslowness; - if ((fabs(oldinput-input)<0.001)&&(fabs(slowinput-input)<0.001)&& - (fabs(Qfactor-oldQfactor)<0.001)) { + if((fabs(oldinput - input) < 0.001) && (fabs(slowinput - input) < 0.001) + && (fabs(Qfactor - oldQfactor) < 0.001)) { // oldinput=input; daca setez asta, o sa faca probleme la schimbari foarte lente - firsttime=0; + firsttime = 0; return; - } else oldinput=input; + } + else + oldinput = input; - REALTYPE pos=fmod(input*sequencestretch,1.0); - if (pos<0.0) pos+=1.0; + REALTYPE pos = fmod(input * sequencestretch, 1.0); + if(pos < 0.0) + pos += 1.0; - F2I(pos*sequencesize,p2); - p1=p2-1; - if (p1<0) p1+=sequencesize; + F2I(pos * sequencesize, p2); + p1 = p2 - 1; + if(p1 < 0) + p1 += sequencesize; - pos=fmod(pos*sequencesize,1.0); - if (pos<0.0) pos=0.0; - else if (pos>1.0) pos=1.0; - pos=(atan((pos*2.0-1.0)*vowelclearness)/atan(vowelclearness)+1.0)*0.5; + pos = fmod(pos * sequencesize, 1.0); + if(pos < 0.0) + pos = 0.0; + else + if(pos > 1.0) + pos = 1.0; + pos = + (atan((pos * 2.0 + - 1.0) * vowelclearness) / atan(vowelclearness) + 1.0) * 0.5; - p1=sequence[p1].nvowel; - p2=sequence[p2].nvowel; + p1 = sequence[p1].nvowel; + p2 = sequence[p2].nvowel; - if (firsttime!=0) { - for (int i=0;isetfreq_and_q(currentformants[i].freq,currentformants[i].q*Qfactor); - oldformantamp[i]=currentformants[i].amp; - }; - firsttime=0; - } else { - for (int i=0;isetfreq_and_q(currentformants[i].freq, + currentformants[i].q * Qfactor); + oldformantamp[i] = currentformants[i].amp; + } + firsttime = 0; + } + else { + for(int i = 0; i < numformants; i++) { + currentformants[i].freq = currentformants[i].freq + * (1.0 - formantslowness) + + (formantpar[p1][i].freq + * (1.0 + - pos) + formantpar[p2][i].freq + * pos) * formantslowness; - currentformants[i].amp=currentformants[i].amp*(1.0-formantslowness) - +(formantpar[p1][i].amp*(1.0-pos)+formantpar[p2][i].amp*pos)*formantslowness; + currentformants[i].amp = currentformants[i].amp + * (1.0 - formantslowness) + + (formantpar[p1][i].amp + * (1.0 + - pos) + formantpar[p2][i].amp + * pos) * formantslowness; - currentformants[i].q=currentformants[i].q*(1.0-formantslowness) - +(formantpar[p1][i].q*(1.0-pos)+formantpar[p2][i].q*pos)*formantslowness; + currentformants[i].q = currentformants[i].q + * (1.0 - formantslowness) + + (formantpar[p1][i].q + * (1.0 + - pos) + formantpar[p2][i].q + * pos) * formantslowness; - formant[i]->setfreq_and_q(currentformants[i].freq,currentformants[i].q*Qfactor); - }; - }; + formant[i]->setfreq_and_q(currentformants[i].freq, + currentformants[i].q * Qfactor); + } + } - oldQfactor=Qfactor; -}; + oldQfactor = Qfactor; +} void FormantFilter::setfreq(REALTYPE frequency) { setpos(frequency); -}; +} void FormantFilter::setq(REALTYPE q_) { - Qfactor=q_; - for (int i=0;isetq(Qfactor*currentformants[i].q); -}; + Qfactor = q_; + for(int i = 0; i < numformants; i++) + formant[i]->setq(Qfactor * currentformants[i].q); +} -void FormantFilter::setfreq_and_q(REALTYPE frequency,REALTYPE q_) +void FormantFilter::setfreq_and_q(REALTYPE frequency, REALTYPE q_) { - Qfactor=q_; + Qfactor = q_; setpos(frequency); -}; +} void FormantFilter::filterout(REALTYPE *smp) { - int i,j; - for (i=0;ifilterout(tmpbuf); - if (ABOVE_AMPLITUDE_THRESHOLD(oldformantamp[j],currentformants[j].amp)) - for (i=0;i #include "SVFilter.h" -SVFilter::SVFilter(unsigned char Ftype,REALTYPE Ffreq, REALTYPE Fq,unsigned char Fstages) +SVFilter::SVFilter(unsigned char Ftype, + REALTYPE Ffreq, + REALTYPE Fq, + unsigned char Fstages) { - stages=Fstages; - type=Ftype; - freq=Ffreq; - q=Fq; - gain=1.0; - outgain=1.0; - needsinterpolation=0; - firsttime=1; - if (stages>=MAX_FILTER_STAGES) stages=MAX_FILTER_STAGES; + stages = Fstages; + type = Ftype; + freq = Ffreq; + q = Fq; + gain = 1.0; + outgain = 1.0; + needsinterpolation = 0; + firsttime = 1; + if(stages >= MAX_FILTER_STAGES) + stages = MAX_FILTER_STAGES; cleanup(); - setfreq_and_q(Ffreq,Fq); -}; + setfreq_and_q(Ffreq, Fq); +} SVFilter::~SVFilter() -{ -}; +{} void SVFilter::cleanup() { - for (int i=0;i0.99999) par.f=0.99999; - par.q=1.0-atan(sqrt(q))*2.0/PI; - par.q=pow(par.q,1.0/(stages+1)); - par.q_sqrt=sqrt(par.q); -}; + par.f = freq / SAMPLE_RATE * 4.0; + if(par.f > 0.99999) + par.f = 0.99999; + par.q = 1.0 - atan(sqrt(q)) * 2.0 / PI; + par.q = pow(par.q, 1.0 / (stages + 1)); + par.q_sqrt = sqrt(par.q); +} void SVFilter::setfreq(REALTYPE frequency) { - if (frequency<0.1) frequency=0.1; - REALTYPE rap=freq/frequency; - if (rap<1.0) rap=1.0/rap; + if(frequency < 0.1) + frequency = 0.1; + REALTYPE rap = freq / frequency; + if(rap < 1.0) + rap = 1.0 / rap; - oldabovenq=abovenq; - abovenq=frequency>(SAMPLE_RATE/2-500.0); + oldabovenq = abovenq; + abovenq = frequency > (SAMPLE_RATE / 2 - 500.0); - int nyquistthresh=(abovenq^oldabovenq); + int nyquistthresh = (abovenq ^ oldabovenq); - if ((rap>3.0)||(nyquistthresh!=0)) {//if the frequency is changed fast, it needs interpolation (now, filter and coeficients backup) - if (firsttime==0) needsinterpolation=1; - ipar=par; - }; - freq=frequency; + if((rap > 3.0) || (nyquistthresh != 0)) { //if the frequency is changed fast, it needs interpolation (now, filter and coeficients backup) + if(firsttime == 0) + needsinterpolation = 1; + ipar = par; + } + freq = frequency; computefiltercoefs(); - firsttime=0; + firsttime = 0; +} -}; - -void SVFilter::setfreq_and_q(REALTYPE frequency,REALTYPE q_) +void SVFilter::setfreq_and_q(REALTYPE frequency, REALTYPE q_) { - q=q_; + q = q_; setfreq(frequency); -}; +} void SVFilter::setq(REALTYPE q_) { - q=q_; + q = q_; computefiltercoefs(); -}; +} void SVFilter::settype(int type_) { - type=type_; + type = type_; computefiltercoefs(); -}; +} void SVFilter::setgain(REALTYPE dBgain) { - gain=dB2rap(dBgain); + gain = dB2rap(dBgain); computefiltercoefs(); -}; +} void SVFilter::setstages(int stages_) { - if (stages_>=MAX_FILTER_STAGES) stages_=MAX_FILTER_STAGES-1; - stages=stages_; + if(stages_ >= MAX_FILTER_STAGES) + stages_ = MAX_FILTER_STAGES - 1; + stages = stages_; cleanup(); computefiltercoefs(); -}; +} -void SVFilter::singlefilterout(REALTYPE *smp,fstage &x,parameters &par) +void SVFilter::singlefilterout(REALTYPE *smp, fstage &x, parameters &par) { int i; - REALTYPE *out=NULL; - switch (type) { + REALTYPE *out = NULL; + switch(type) { case 0: - out=&x.low; + out = &x.low; break; case 1: - out=&x.high; + out = &x.high; break; case 2: - out=&x.band; + out = &x.band; break; case 3: - out=&x.notch; + out = &x.notch; break; - }; + } - for (i=0;i1,1->2,etc.) - REALTYPE freq;//Frequency given in Hz - REALTYPE q; //Q factor (resonance or Q factor) - REALTYPE gain;//the gain of the filter (if are shelf/peak) filters + void singlefilterout(REALTYPE *smp, fstage &x, parameters &par); + void computefiltercoefs(); + int type; //The type of the filter (LPF1,HPF1,LPF2,HPF2...) + int stages; //how many times the filter is applied (0->1,1->2,etc.) + REALTYPE freq; //Frequency given in Hz + REALTYPE q; //Q factor (resonance or Q factor) + REALTYPE gain; //the gain of the filter (if are shelf/peak) filters - int abovenq;//this is 1 if the frequency is above the nyquist - int oldabovenq; - int needsinterpolation,firsttime; + int abovenq; //this is 1 if the frequency is above the nyquist + int oldabovenq; + int needsinterpolation, firsttime; }; diff --git a/plugins/zynaddsubfx/src/DSP/Unison.cpp b/plugins/zynaddsubfx/src/DSP/Unison.cpp index 9e80e0ef0..031a868c3 100644 --- a/plugins/zynaddsubfx/src/DSP/Unison.cpp +++ b/plugins/zynaddsubfx/src/DSP/Unison.cpp @@ -23,144 +23,170 @@ #include #include "Unison.h" -Unison::Unison(int update_period_samples_,REALTYPE max_delay_sec_){ - update_period_samples=update_period_samples_; - max_delay=(int)(max_delay_sec_*(REALTYPE)SAMPLE_RATE+1); - if (max_delay<10) max_delay=10; - delay_buffer=new REALTYPE[max_delay]; - delay_k=0; - base_freq=1.0; - unison_bandwidth_cents=10.0; +Unison::Unison(int update_period_samples_, REALTYPE max_delay_sec_) { + update_period_samples = update_period_samples_; + max_delay = (int)(max_delay_sec_ * (REALTYPE)SAMPLE_RATE + 1); + if(max_delay < 10) + max_delay = 10; + delay_buffer = new REALTYPE[max_delay]; + delay_k = 0; + base_freq = 1.0; + unison_bandwidth_cents = 10.0; - ZERO_REALTYPE(delay_buffer,max_delay); - - uv=NULL; - update_period_sample_k=0; - first_time=0; + ZERO_REALTYPE(delay_buffer, max_delay); - set_size(1); + uv = NULL; + update_period_sample_k = 0; + first_time = 0; -}; + set_size(1); +} -Unison::~Unison(){ - delete []delay_buffer; - if (uv) delete []uv; -}; +Unison::~Unison() { + delete [] delay_buffer; + if(uv) + delete [] uv; +} -void Unison::set_size(int new_size){ - if (new_size<1) new_size=1; - unison_size=new_size; - if (uv) delete []uv; - uv=new UnisonVoice[unison_size]; - first_time=true; - update_parameters(); -}; +void Unison::set_size(int new_size) { + if(new_size < 1) + new_size = 1; + unison_size = new_size; + if(uv) + delete [] uv; + uv = new UnisonVoice[unison_size]; + first_time = true; + update_parameters(); +} -void Unison::set_base_frequency(REALTYPE freq){ - base_freq=freq; - update_parameters(); -}; +void Unison::set_base_frequency(REALTYPE freq) { + base_freq = freq; + update_parameters(); +} -void Unison::set_bandwidth(REALTYPE bandwidth){ - if (bandwidth<0) bandwidth=0.0; - if (bandwidth>1200.0) bandwidth=1200.0; - - printf("bandwidth %g\n",bandwidth); -#warning: todo: if bandwidth is too small the audio will be self canceled (because of the sign change of the outputs) - unison_bandwidth_cents=bandwidth; - update_parameters(); -}; +void Unison::set_bandwidth(REALTYPE bandwidth) { + if(bandwidth < 0) + bandwidth = 0.0; + if(bandwidth > 1200.0) + bandwidth = 1200.0; -void Unison::update_parameters(){ - if (!uv) return; - REALTYPE increments_per_second=SAMPLE_RATE/(REALTYPE) update_period_samples; + printf("bandwidth %g\n", bandwidth); +#warning \ + : todo: if bandwidth is too small the audio will be self canceled (because of the sign change of the outputs) + unison_bandwidth_cents = bandwidth; + update_parameters(); +} + +void Unison::update_parameters() { + if(!uv) + return; + REALTYPE increments_per_second = SAMPLE_RATE + / (REALTYPE) update_period_samples; // printf("#%g, %g\n",increments_per_second,base_freq); - for (int i=0;i=max_delay-1) unison_amplitude_samples=max_delay-2; +#warning \ + todo: test if unison_amplitude_samples is to big and reallocate bigger memory + if(unison_amplitude_samples >= max_delay - 1) + unison_amplitude_samples = max_delay - 2; - update_unison_data(); -}; + update_unison_data(); +} -void Unison::process(int bufsize,REALTYPE *inbuf,REALTYPE *outbuf){ - if (!uv) return; - if (!outbuf) outbuf=inbuf; +void Unison::process(int bufsize, REALTYPE *inbuf, REALTYPE *outbuf) { + if(!uv) + return; + if(!outbuf) + outbuf = inbuf; - REALTYPE volume=1.0/sqrt(unison_size); - REALTYPE xpos_step=1.0/(REALTYPE) update_period_samples; - REALTYPE xpos=(REALTYPE) update_period_sample_k*xpos_step; - for (int i=0;i=update_period_samples) { - update_unison_data(); - update_period_sample_k=0; - xpos=0.0; - }; - xpos+=xpos_step; - REALTYPE in=inbuf[i],out=0.0; + REALTYPE volume = 1.0 / sqrt(unison_size); + REALTYPE xpos_step = 1.0 / (REALTYPE) update_period_samples; + REALTYPE xpos = (REALTYPE) update_period_sample_k * xpos_step; + for(int i = 0; i < bufsize; i++) { + if((update_period_sample_k++) >= update_period_samples) { + update_unison_data(); + update_period_sample_k = 0; + xpos = 0.0; + } + xpos += xpos_step; + REALTYPE in = inbuf[i], out = 0.0; - REALTYPE sign=1.0; - for (int k=0;k=max_delay) posi-=max_delay; - posf=pos-floor(pos); - out+=((1.0-posf)*delay_buffer[posi]+posf*delay_buffer[posi+1])*sign; - sign=-sign; - }; - outbuf[i]=out*volume; + REALTYPE sign = 1.0; + for(int k = 0; k < unison_size; k++) { + REALTYPE vpos = uv[k].realpos1 + * (1.0 - xpos) + uv[k].realpos2 * xpos; //optimize + REALTYPE pos = delay_k + max_delay - vpos - 1.0; //optimize + int posi; + REALTYPE posf; + F2I(pos, posi); //optimize! + if(posi >= max_delay) + posi -= max_delay; + posf = pos - floor(pos); + out += + ((1.0 + - posf) * delay_buffer[posi] + posf + * delay_buffer[posi + 1]) * sign; + sign = -sign; + } + outbuf[i] = out * volume; // printf("%d %g\n",i,outbuf[i]); - delay_buffer[delay_k]=in; - if ((++delay_k)>=max_delay) delay_k=0; - }; -}; + delay_buffer[delay_k] = in; + if((++delay_k) >= max_delay) + delay_k = 0; + } +} -void Unison::update_unison_data(){ - if (!uv) return; +void Unison::update_unison_data() { + if(!uv) + return; - for (int k=0;k=1.0){ - pos=1.0; - step=-step; - }; - REALTYPE vibratto_val=(pos-0.333333333*pos*pos*pos)*1.5;//make the vibratto lfo smoother -#warning I will use relative amplitude, so the delay might be bigger than the whole buffer -#warning I have to enlarge (reallocate) the buffer to make place for the whole delay - REALTYPE newval=1.0+0.5*(vibratto_val+1.0)*unison_amplitude_samples*uv[k].relative_amplitude; + for(int k = 0; k < unison_size; k++) { + REALTYPE pos = uv[k].position; + REALTYPE step = uv[k].step; + pos += step; + if(pos <= -1.0) { + pos = -1.0; + step = -step; + } + if(pos >= 1.0) { + pos = 1.0; + step = -step; + } + REALTYPE vibratto_val = (pos - 0.333333333 * pos * pos * pos) * 1.5; //make the vibratto lfo smoother +#warning \ + I will use relative amplitude, so the delay might be bigger than the whole buffer +#warning \ + I have to enlarge (reallocate) the buffer to make place for the whole delay + REALTYPE newval = 1.0 + 0.5 + * (vibratto_val + + 1.0) * unison_amplitude_samples + * uv[k].relative_amplitude; - if (first_time){ - uv[k].realpos1=uv[k].realpos2=newval; - }else{ - uv[k].realpos1=uv[k].realpos2; - uv[k].realpos2=newval; - }; + if(first_time) + uv[k].realpos1 = uv[k].realpos2 = newval; + else{ + uv[k].realpos1 = uv[k].realpos2; + uv[k].realpos2 = newval; + } - uv[k].position=pos; - uv[k].step=step; - }; - if (first_time) first_time=false; - -}; + uv[k].position = pos; + uv[k].step = step; + } + if(first_time) + first_time = false; +} diff --git a/plugins/zynaddsubfx/src/DSP/Unison.h b/plugins/zynaddsubfx/src/DSP/Unison.h index 896c40a63..d4254a114 100644 --- a/plugins/zynaddsubfx/src/DSP/Unison.h +++ b/plugins/zynaddsubfx/src/DSP/Unison.h @@ -27,42 +27,43 @@ #define UNISON_FREQ_SPAN 2.0 //how much the unison frequencies varies (always >= 1.0) -class Unison{ - public: - Unison(int update_period_samples_,REALTYPE max_delay_sec_); - ~Unison(); +class Unison +{ + public: + Unison(int update_period_samples_, REALTYPE max_delay_sec_); + ~Unison(); - void set_size(int new_size); - void set_base_frequency(REALTYPE freq); - void set_bandwidth(REALTYPE bandwidth_cents); + void set_size(int new_size); + void set_base_frequency(REALTYPE freq); + void set_bandwidth(REALTYPE bandwidth_cents); - void process(int bufsize,REALTYPE *inbuf,REALTYPE *outbuf=NULL); + void process(int bufsize, REALTYPE *inbuf, REALTYPE *outbuf = NULL); - private: - void update_parameters(); - void update_unison_data(); + private: + void update_parameters(); + void update_unison_data(); - int unison_size; - REALTYPE base_freq; - struct UnisonVoice{ - REALTYPE step,position;//base LFO - REALTYPE realpos1,realpos2; //the position regarding samples - REALTYPE relative_amplitude; - REALTYPE lin_fpos,lin_ffreq; - UnisonVoice(){ - position=RND*1.8-0.9; - realpos1=0.0; - realpos2=0.0; - step=0.0; - relative_amplitude=1.0; - }; - }*uv; - int update_period_samples,update_period_sample_k; - int max_delay,delay_k; - bool first_time; - REALTYPE *delay_buffer; - REALTYPE unison_amplitude_samples; - REALTYPE unison_bandwidth_cents; + int unison_size; + REALTYPE base_freq; + struct UnisonVoice { + REALTYPE step, position; //base LFO + REALTYPE realpos1, realpos2; //the position regarding samples + REALTYPE relative_amplitude; + REALTYPE lin_fpos, lin_ffreq; + UnisonVoice() { + position = RND * 1.8 - 0.9; + realpos1 = 0.0; + realpos2 = 0.0; + step = 0.0; + relative_amplitude = 1.0; + } + } *uv; + int update_period_samples, update_period_sample_k; + int max_delay, delay_k; + bool first_time; + REALTYPE *delay_buffer; + REALTYPE unison_amplitude_samples; + REALTYPE unison_bandwidth_cents; }; #endif diff --git a/plugins/zynaddsubfx/src/Effects/Alienwah.cpp b/plugins/zynaddsubfx/src/Effects/Alienwah.cpp index a4bf58e54..fb07d4f11 100644 --- a/plugins/zynaddsubfx/src/Effects/Alienwah.cpp +++ b/plugins/zynaddsubfx/src/Effects/Alienwah.cpp @@ -23,83 +23,87 @@ #include #include "Alienwah.h" -Alienwah::Alienwah(const int &insertion_,REALTYPE *const efxoutl_,REALTYPE *const efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0),oldl(NULL),oldr(NULL) +Alienwah::Alienwah(const int &insertion_, + REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0), oldl(NULL), oldr(NULL) { setpreset(Ppreset); cleanup(); - oldclfol=complex(fb,0.0); - oldclfor=complex(fb,0.0); -}; + oldclfol = complex(fb, 0.0); + oldclfor = complex(fb, 0.0); +} Alienwah::~Alienwah() { - if (oldl!=NULL) delete [] oldl; - if (oldr!=NULL) delete [] oldr ; -}; + if(oldl != NULL) + delete [] oldl; + if(oldr != NULL) + delete [] oldr; +} /* * Apply the effect */ -void Alienwah::out(REALTYPE *smpsl,REALTYPE *smpsr) +void Alienwah::out(REALTYPE *smpsl, REALTYPE *smpsr) { - REALTYPE lfol,lfor; //Left/Right LFOs - complex clfol,clfor,out,tmp; + REALTYPE lfol, lfor; //Left/Right LFOs + complex clfol, clfor, out, tmp; /**\todo Rework, as optimization can be used when the new complex type is * utilized. * Before all calculations needed to be done with individual REALTYPE, * but now they can be done together*/ - lfo.effectlfoout(&lfol,&lfor); - lfol*=depth*PI*2.0; - lfor*=depth*PI*2.0; - clfol=complex(cos(lfol+phase)*fb,sin(lfol+phase)*fb); //rework - clfor=complex(cos(lfor+phase)*fb,sin(lfor+phase)*fb); //rework + lfo.effectlfoout(&lfol, &lfor); + lfol *= depth * PI * 2.0; + lfor *= depth * PI * 2.0; + clfol = complex(cos(lfol + phase) * fb, sin(lfol + phase) * fb); //rework + clfor = complex(cos(lfor + phase) * fb, sin(lfor + phase) * fb); //rework - for (int i=0;i=Pdelay) oldk=0; + if(++oldk >= Pdelay) + oldk = 0; //LRcross - efxoutl[i]=l*(1.0-lrcross)+r*lrcross; - efxoutr[i]=r*(1.0-lrcross)+l*lrcross; - }; + efxoutl[i] = l * (1.0 - lrcross) + r * lrcross; + efxoutr[i] = r * (1.0 - lrcross) + l * lrcross; + } - oldclfol=clfol; - oldclfor=clfor; - -}; + oldclfol = clfol; + oldclfor = clfor; +} /* * Cleanup the effect */ void Alienwah::cleanup() { - for (int i=0;i(0.0,0.0); - oldr[i]=complex(0.0,0.0); - }; - oldk=0; -}; + for(int i = 0; i < Pdelay; i++) { + oldl[i] = complex(0.0, 0.0); + oldr[i] = complex(0.0, 0.0); + } + oldk = 0; +} /* @@ -108,81 +112,92 @@ void Alienwah::cleanup() void Alienwah::setdepth(const unsigned char &Pdepth) { - this->Pdepth=Pdepth; - depth=(Pdepth/127.0); -}; + this->Pdepth = Pdepth; + depth = (Pdepth / 127.0); +} void Alienwah::setfb(const unsigned char &Pfb) { - this->Pfb=Pfb; - fb=fabs((Pfb-64.0)/64.1); - fb=sqrt(fb); - if (fb<0.4) fb=0.4; - if (Pfb<64) fb=-fb; -}; + this->Pfb = Pfb; + fb = fabs((Pfb - 64.0) / 64.1); + fb = sqrt(fb); + if(fb < 0.4) + fb = 0.4; + if(Pfb < 64) + fb = -fb; +} void Alienwah::setvolume(const unsigned char &Pvolume) { - this->Pvolume=Pvolume; - outvolume=Pvolume/127.0; - if (insertion==0) volume=1.0; - else volume=outvolume; -}; + this->Pvolume = Pvolume; + outvolume = Pvolume / 127.0; + if(insertion == 0) + volume = 1.0; + else + volume = outvolume; +} void Alienwah::setpanning(const unsigned char &Ppanning) { - this->Ppanning=Ppanning; - panning=Ppanning/127.0; -}; + this->Ppanning = Ppanning; + panning = Ppanning / 127.0; +} void Alienwah::setlrcross(const unsigned char &Plrcross) { - this->Plrcross=Plrcross; - lrcross=Plrcross/127.0; -}; + this->Plrcross = Plrcross; + lrcross = Plrcross / 127.0; +} void Alienwah::setphase(const unsigned char &Pphase) { - this->Pphase=Pphase; - phase=(Pphase-64.0)/64.0*PI; -}; + this->Pphase = Pphase; + phase = (Pphase - 64.0) / 64.0 * PI; +} void Alienwah::setdelay(const unsigned char &Pdelay) { - if (oldl!=NULL) delete [] oldl; - if (oldr!=NULL) delete [] oldr; - if (Pdelay>=MAX_ALIENWAH_DELAY) this->Pdelay=MAX_ALIENWAH_DELAY; - else this->Pdelay=Pdelay; - oldl=new complex[Pdelay]; - oldr=new complex[Pdelay]; + if(oldl != NULL) + delete [] oldl; + if(oldr != NULL) + delete [] oldr; + if(Pdelay >= MAX_ALIENWAH_DELAY) + this->Pdelay = MAX_ALIENWAH_DELAY; + else + this->Pdelay = Pdelay; + oldl = new complex[Pdelay]; + oldr = new complex[Pdelay]; cleanup(); -}; +} void Alienwah::setpreset(unsigned char npreset) { - const int PRESET_SIZE=11; - const int NUM_PRESETS=4; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 11; + const int NUM_PRESETS = 4; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //AlienWah1 - {127,64,70,0,0,62,60,105,25,0,64}, + {127, 64, 70, 0, 0, 62, 60, 105, 25, 0, 64}, //AlienWah2 - {127,64,73,106,0,101,60,105,17,0,64}, + {127, 64, 73, 106, 0, 101, 60, 105, 17, 0, 64}, //AlienWah3 - {127,64,63,0,1,100,112,105,31,0,42}, + {127, 64, 63, 0, 1, 100, 112, 105, 31, 0, 42}, //AlienWah4 - {93,64,25,0,1,66,101,11,47,0,86} + {93, 64, 25, 0, 1, 66, 101, 11, 47, 0, 86} }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + if(insertion == 0) + changepar(0, presets[npreset][0] / 2); //lower the volume if this is system effect + Ppreset = npreset; +} -void Alienwah::changepar(const int &npar,const unsigned char &value) +void Alienwah::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; @@ -190,19 +205,19 @@ void Alienwah::changepar(const int &npar,const unsigned char &value) setpanning(value); break; case 2: - lfo.Pfreq=value; + lfo.Pfreq = value; lfo.updateparams(); break; case 3: - lfo.Prandomness=value; + lfo.Prandomness = value; lfo.updateparams(); break; case 4: - lfo.PLFOtype=value; + lfo.PLFOtype = value; lfo.updateparams(); break; case 5: - lfo.Pstereo=value; + lfo.Pstereo = value; lfo.updateparams(); break; case 6: @@ -220,48 +235,47 @@ void Alienwah::changepar(const int &npar,const unsigned char &value) case 10: setphase(value); break; - }; -}; + } +} -unsigned char Alienwah::getpar(const int &npar)const +unsigned char Alienwah::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; case 1: - return(Ppanning); + return Ppanning; break; case 2: - return(lfo.Pfreq); + return lfo.Pfreq; break; case 3: - return(lfo.Prandomness); + return lfo.Prandomness; break; case 4: - return(lfo.PLFOtype); + return lfo.PLFOtype; break; case 5: - return(lfo.Pstereo); + return lfo.Pstereo; break; case 6: - return(Pdepth); + return Pdepth; break; case 7: - return(Pfb); + return Pfb; break; case 8: - return(Pdelay); + return Pdelay; break; case 9: - return(Plrcross); + return Plrcross; break; case 10: - return(Pphase); + return Pphase; break; default: - return (0); - }; - -}; + return 0; + } +} diff --git a/plugins/zynaddsubfx/src/Effects/Alienwah.h b/plugins/zynaddsubfx/src/Effects/Alienwah.h index e813737bf..175c41f24 100644 --- a/plugins/zynaddsubfx/src/Effects/Alienwah.h +++ b/plugins/zynaddsubfx/src/Effects/Alienwah.h @@ -34,49 +34,51 @@ using namespace std; /**"AlienWah" Effect*/ class Alienwah:public Effect { -public: - /** - * Constructor - * @param insetion_ 1 for insertion Effect, 0 for others - * @param efxoutl_ Pointer to Alienwah's left channel output buffer - * @param efxoutr_ Pointer to Alienwah's left channel output buffer - * @return Initialized Alienwah - */ - Alienwah(const int &insetion_,REALTYPE *const efxoutl_,REALTYPE *const efxoutr_); - ~Alienwah(); - void out(REALTYPE *const smpsl,REALTYPE *const smpsr); + public: + /** + * Constructor + * @param insetion_ 1 for insertion Effect, 0 for others + * @param efxoutl_ Pointer to Alienwah's left channel output buffer + * @param efxoutr_ Pointer to Alienwah's left channel output buffer + * @return Initialized Alienwah + */ + Alienwah(const int &insetion_, + REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_); + ~Alienwah(); + void out(REALTYPE *const smpsl, REALTYPE *const smpsr); - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - void cleanup(); + void setpreset(unsigned char npreset); + void changepar(const int &npar, const unsigned char &value); + unsigned char getpar(const int &npar) const; + void cleanup(); -private: - //Alienwah Parameters - EffectLFO lfo;//lfo-ul Alienwah - unsigned char Pvolume; - unsigned char Ppanning; - unsigned char Pdepth;//the depth of the Alienwah - unsigned char Pfb;//feedback - unsigned char Plrcross;//feedback - unsigned char Pdelay; - unsigned char Pphase; + private: + //Alienwah Parameters + EffectLFO lfo; //lfo-ul Alienwah + unsigned char Pvolume; + unsigned char Ppanning; + unsigned char Pdepth; //the depth of the Alienwah + unsigned char Pfb; //feedback + unsigned char Plrcross; //feedback + unsigned char Pdelay; + unsigned char Pphase; - //Control Parameters - void setvolume(const unsigned char &Pvolume); - void setpanning(const unsigned char &Ppanning); - void setdepth(const unsigned char &Pdepth); - void setfb(const unsigned char &Pfb); - void setlrcross(const unsigned char &Plrcross); - void setdelay(const unsigned char &Pdelay); - void setphase(const unsigned char &Pphase); + //Control Parameters + void setvolume(const unsigned char &Pvolume); + void setpanning(const unsigned char &Ppanning); + void setdepth(const unsigned char &Pdepth); + void setfb(const unsigned char &Pfb); + void setlrcross(const unsigned char &Plrcross); + void setdelay(const unsigned char &Pdelay); + void setphase(const unsigned char &Pphase); - //Internal Values - REALTYPE panning,fb,depth,lrcross,phase; - complex *oldl,*oldr; - complex oldclfol,oldclfor; - int oldk; + //Internal Values + REALTYPE panning, fb, depth, lrcross, phase; + complex *oldl, *oldr; + complex oldclfol, oldclfor; + int oldk; }; #endif diff --git a/plugins/zynaddsubfx/src/Effects/Chorus.cpp b/plugins/zynaddsubfx/src/Effects/Chorus.cpp index 844e87f50..708c0cd75 100644 --- a/plugins/zynaddsubfx/src/Effects/Chorus.cpp +++ b/plugins/zynaddsubfx/src/Effects/Chorus.cpp @@ -26,26 +26,28 @@ using namespace std; -Chorus::Chorus(const int &insertion_,REALTYPE *const efxoutl_,REALTYPE *const efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0), - maxdelay((int)(MAX_CHORUS_DELAY/1000.0*SAMPLE_RATE)), - delaySample(maxdelay) +Chorus::Chorus(const int &insertion_, + REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0), + maxdelay((int)(MAX_CHORUS_DELAY / 1000.0 * SAMPLE_RATE)), + delaySample(maxdelay) { - dlk=0; - drk=0; + dlk = 0; + drk = 0; //maxdelay=(int)(MAX_CHORUS_DELAY/1000.0*SAMPLE_RATE); //delayl=new REALTYPE[maxdelay]; //delayr=new REALTYPE[maxdelay]; setpreset(Ppreset); - lfo.effectlfoout(&lfol,&lfor); - dl2=getdelay(lfol); - dr2=getdelay(lfor); + lfo.effectlfoout(&lfol, &lfor); + dl2 = getdelay(lfol); + dr2 = getdelay(lfor); cleanup(); -}; +} -Chorus::~Chorus() {}; +Chorus::~Chorus() {} /* * get the delay value in samples; xlfo is the current lfo value @@ -53,91 +55,100 @@ Chorus::~Chorus() {}; REALTYPE Chorus::getdelay(REALTYPE xlfo) { REALTYPE result; - if (Pflangemode==0) { - result=(delay+xlfo*depth)*SAMPLE_RATE; - } else result=0; + if(Pflangemode == 0) + result = (delay + xlfo * depth) * SAMPLE_RATE; + else + result = 0; //check if it is too big delay(caused bu errornous setdelay() and setdepth() /**\todo fix setdelay() and setdepth(), so this error cannot occur*/ - if ((result+0.5)>=maxdelay) { - cerr << "WARNING: Chorus.C::getdelay(..) too big delay (see setdelay and setdepth funcs.)\n"; - result=maxdelay-1.0; - }; - return(result); -}; + if((result + 0.5) >= maxdelay) { + cerr + << + "WARNING: Chorus.C::getdelay(..) too big delay (see setdelay and setdepth funcs.)\n"; + result = maxdelay - 1.0; + } + return result; +} /* * Apply the effect */ -void Chorus::out(REALTYPE *smpsl,REALTYPE *smpsr) +void Chorus::out(REALTYPE *smpsl, REALTYPE *smpsr) { - const Stereo input(AuSample(SOUND_BUFFER_SIZE,smpsl),AuSample(SOUND_BUFFER_SIZE,smpsr)); + const Stereo input(AuSample(SOUND_BUFFER_SIZE, smpsl), AuSample( + SOUND_BUFFER_SIZE, + smpsr)); out(input); } void Chorus::out(const Stereo &input) { - const REALTYPE one=1.0; - dl1=dl2; - dr1=dr2; - lfo.effectlfoout(&lfol,&lfor); + const REALTYPE one = 1.0; + dl1 = dl2; + dr1 = dr2; + lfo.effectlfoout(&lfol, &lfor); - dl2=getdelay(lfol); - dr2=getdelay(lfor); + dl2 = getdelay(lfol); + dr2 = getdelay(lfor); - for (int i=0;i tmpc(inl,inr); + Stereo tmpc(inl, inr); //REALTYPE r=inr; - inl=tmpc.l()*(1.0-lrcross)+tmpc.r()*lrcross; - inr=tmpc.r()*(1.0-lrcross)+tmpc.l()*lrcross; + inl = tmpc.l() * (1.0 - lrcross) + tmpc.r() * lrcross; + inr = tmpc.r() * (1.0 - lrcross) + tmpc.l() * lrcross; //Left channel //compute the delay in samples using linear interpolation between the lfo delays - mdel=(dl1*(SOUND_BUFFER_SIZE-i)+dl2*i)/SOUND_BUFFER_SIZE; - if (++dlk>=maxdelay) dlk=0; - REALTYPE tmp=dlk-mdel+maxdelay*2.0;//where should I get the sample from + mdel = (dl1 * (SOUND_BUFFER_SIZE - i) + dl2 * i) / SOUND_BUFFER_SIZE; + if(++dlk >= maxdelay) + dlk = 0; + REALTYPE tmp = dlk - mdel + maxdelay * 2.0; //where should I get the sample from - F2I(tmp,dlhi); - dlhi%=maxdelay; + F2I(tmp, dlhi); + dlhi %= maxdelay; - dlhi2=(dlhi-1+maxdelay)%maxdelay; - dllo=1.0-fmod(tmp,one); - efxoutl[i]=delaySample.l()[dlhi2]*dllo+delaySample.l()[dlhi]*(1.0-dllo); - delaySample.l()[dlk]=inl+efxoutl[i]*fb; + dlhi2 = (dlhi - 1 + maxdelay) % maxdelay; + dllo = 1.0 - fmod(tmp, one); + efxoutl[i] = delaySample.l()[dlhi2] * dllo + delaySample.l()[dlhi] + * (1.0 - dllo); + delaySample.l()[dlk] = inl + efxoutl[i] * fb; //Right channel //compute the delay in samples using linear interpolation between the lfo delays - mdel=(dr1*(SOUND_BUFFER_SIZE-i)+dr2*i)/SOUND_BUFFER_SIZE; - if (++drk>=maxdelay) drk=0; - tmp=drk*1.0-mdel+maxdelay*2.0;//where should I get the sample from + mdel = (dr1 * (SOUND_BUFFER_SIZE - i) + dr2 * i) / SOUND_BUFFER_SIZE; + if(++drk >= maxdelay) + drk = 0; + tmp = drk * 1.0 - mdel + maxdelay * 2.0; //where should I get the sample from - F2I(tmp,dlhi); - dlhi%=maxdelay; + F2I(tmp, dlhi); + dlhi %= maxdelay; - dlhi2=(dlhi-1+maxdelay)%maxdelay; - dllo=1.0-fmod(tmp,one); - efxoutr[i]=delaySample.r()[dlhi2]*dllo+delaySample.r()[dlhi]*(1.0-dllo); - delaySample.r()[dlk]=inr+efxoutr[i]*fb; + dlhi2 = (dlhi - 1 + maxdelay) % maxdelay; + dllo = 1.0 - fmod(tmp, one); + efxoutr[i] = delaySample.r()[dlhi2] * dllo + delaySample.r()[dlhi] + * (1.0 - dllo); + delaySample.r()[dlk] = inr + efxoutr[i] * fb; + } - }; - - if (Poutsub!=0) - for (int i=0;iPdepth=Pdepth; - depth=(pow(8.0,(Pdepth/127.0)*2.0)-1.0)/1000.0;//seconds -}; + this->Pdepth = Pdepth; + depth = (pow(8.0, (Pdepth / 127.0) * 2.0) - 1.0) / 1000.0; //seconds +} void Chorus::setdelay(const unsigned char &Pdelay) { - this->Pdelay=Pdelay; - delay=(pow(10.0,(Pdelay/127.0)*2.0)-1.0)/1000.0;//seconds -}; + this->Pdelay = Pdelay; + delay = (pow(10.0, (Pdelay / 127.0) * 2.0) - 1.0) / 1000.0; //seconds +} void Chorus::setfb(const unsigned char &Pfb) { - this->Pfb=Pfb; - fb=(Pfb-64.0)/64.1; -}; + this->Pfb = Pfb; + fb = (Pfb - 64.0) / 64.1; +} void Chorus::setvolume(const unsigned char &Pvolume) { - this->Pvolume=Pvolume; - outvolume=Pvolume/127.0; - if (insertion==0) volume=1.0; - else volume=outvolume; -}; + this->Pvolume = Pvolume; + outvolume = Pvolume / 127.0; + if(insertion == 0) + volume = 1.0; + else + volume = outvolume; +} void Chorus::setpanning(const unsigned char &Ppanning) { - this->Ppanning=Ppanning; - panning=Ppanning/127.0; -}; + this->Ppanning = Ppanning; + panning = Ppanning / 127.0; +} void Chorus::setlrcross(const unsigned char &Plrcross) { - this->Plrcross=Plrcross; - lrcross=Plrcross/127.0; -}; + this->Plrcross = Plrcross; + lrcross = Plrcross / 127.0; +} void Chorus::setpreset(unsigned char npreset) { - const int PRESET_SIZE=12; - const int NUM_PRESETS=10; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 12; + const int NUM_PRESETS = 10; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //Chorus1 - {64,64,50,0,0,90,40,85,64,119,0,0}, + {64, 64, 50, 0, 0, 90, 40, 85, 64, 119, 0, 0 }, //Chorus2 - {64,64,45,0,0,98,56,90,64,19,0,0}, + {64, 64, 45, 0, 0, 98, 56, 90, 64, 19, 0, 0 }, //Chorus3 - {64,64,29,0,1,42,97,95,90,127,0,0}, + {64, 64, 29, 0, 1, 42, 97, 95, 90, 127, 0, 0 }, //Celeste1 - {64,64,26,0,0,42,115,18,90,127,0,0}, + {64, 64, 26, 0, 0, 42, 115, 18, 90, 127, 0, 0 }, //Celeste2 - {64,64,29,117,0,50,115,9,31,127,0,1}, + {64, 64, 29, 117, 0, 50, 115, 9, 31, 127, 0, 1 }, //Flange1 - {64,64,57,0,0,60,23,3,62,0,0,0}, + {64, 64, 57, 0, 0, 60, 23, 3, 62, 0, 0, 0 }, //Flange2 - {64,64,33,34,1,40,35,3,109,0,0,0}, + {64, 64, 33, 34, 1, 40, 35, 3, 109, 0, 0, 0 }, //Flange3 - {64,64,53,34,1,94,35,3,54,0,0,1}, + {64, 64, 53, 34, 1, 94, 35, 3, 54, 0, 0, 1 }, //Flange4 - {64,64,40,0,1,62,12,19,97,0,0,0}, + {64, 64, 40, 0, 1, 62, 12, 19, 97, 0, 0, 0 }, //Flange5 - {64,64,55,105,0,24,39,19,17,0,0,1} + {64, 64, 55, 105, 0, 24, 39, 19, 17, 0, 0, 1 } }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + Ppreset = npreset; +} -void Chorus::changepar(const int &npar,const unsigned char &value) +void Chorus::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; @@ -231,19 +246,19 @@ void Chorus::changepar(const int &npar,const unsigned char &value) setpanning(value); break; case 2: - lfo.Pfreq=value; + lfo.Pfreq = value; lfo.updateparams(); break; case 3: - lfo.Prandomness=value; + lfo.Prandomness = value; lfo.updateparams(); break; case 4: - lfo.PLFOtype=value; + lfo.PLFOtype = value; lfo.updateparams(); break; case 5: - lfo.Pstereo=value; + lfo.Pstereo = value; lfo.updateparams(); break; case 6: @@ -259,58 +274,61 @@ void Chorus::changepar(const int &npar,const unsigned char &value) setlrcross(value); break; case 10: - if (value>1) Pflangemode=1; - else Pflangemode=value; + if(value > 1) + Pflangemode = 1; + else + Pflangemode = value; break; case 11: - if (value>1) Poutsub=1; - else Poutsub=value; + if(value > 1) + Poutsub = 1; + else + Poutsub = value; break; - }; -}; + } +} -unsigned char Chorus::getpar(const int &npar)const +unsigned char Chorus::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; case 1: - return(Ppanning); + return Ppanning; break; case 2: - return(lfo.Pfreq); + return lfo.Pfreq; break; case 3: - return(lfo.Prandomness); + return lfo.Prandomness; break; case 4: - return(lfo.PLFOtype); + return lfo.PLFOtype; break; case 5: - return(lfo.Pstereo); + return lfo.Pstereo; break; case 6: - return(Pdepth); + return Pdepth; break; case 7: - return(Pdelay); + return Pdelay; break; case 8: - return(Pfb); + return Pfb; break; case 9: - return(Plrcross); + return Plrcross; break; case 10: - return(Pflangemode); + return Pflangemode; break; case 11: - return(Poutsub); + return Poutsub; break; default: - return (0); - }; - -}; + return 0; + } +} diff --git a/plugins/zynaddsubfx/src/Effects/Chorus.h b/plugins/zynaddsubfx/src/Effects/Chorus.h index 488e4d85d..748ce5eaf 100644 --- a/plugins/zynaddsubfx/src/Effects/Chorus.h +++ b/plugins/zynaddsubfx/src/Effects/Chorus.h @@ -33,83 +33,83 @@ /**Chorus and Flange effects*/ class Chorus:public Effect { -public: - Chorus(const int &insetion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - /**Destructor*/ - ~Chorus(); - void out(REALTYPE *smpsl,REALTYPE *smpsr); - void out(const Stereo &input); - void setpreset(unsigned char npreset); - /** - * Sets the value of the chosen variable - * - * The possible parameters are: - * -# Volume - * -# Panning - * -# LFO Frequency - * -# LFO Randomness - * -# LFO Type - * -# LFO stereo - * -# Depth - * -# Delay - * -# Feedback - * -# Flange Mode - * -# Subtractive - * @param npar number of chosen parameter - * @param value the new value - */ - void changepar(const int &npar,const unsigned char &value); - /** - * Gets the value of the chosen variable - * - * The possible parameters are: - * -# Volume - * -# Panning - * -# LFO Frequency - * -# LFO Randomness - * -# LFO Type - * -# LFO stereo - * -# Depth - * -# Delay - * -# Feedback - * -# Flange Mode - * -# Subtractive - * @param npar number of chosen parameter - * @return the value of the parameter - */ - unsigned char getpar(const int &npar)const; - void cleanup(); + public: + Chorus(const int &insetion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_); + /**Destructor*/ + ~Chorus(); + void out(REALTYPE *smpsl, REALTYPE *smpsr); + void out(const Stereo &input); + void setpreset(unsigned char npreset); + /** + * Sets the value of the chosen variable + * + * The possible parameters are: + * -# Volume + * -# Panning + * -# LFO Frequency + * -# LFO Randomness + * -# LFO Type + * -# LFO stereo + * -# Depth + * -# Delay + * -# Feedback + * -# Flange Mode + * -# Subtractive + * @param npar number of chosen parameter + * @param value the new value + */ + void changepar(const int &npar, const unsigned char &value); + /** + * Gets the value of the chosen variable + * + * The possible parameters are: + * -# Volume + * -# Panning + * -# LFO Frequency + * -# LFO Randomness + * -# LFO Type + * -# LFO stereo + * -# Depth + * -# Delay + * -# Feedback + * -# Flange Mode + * -# Subtractive + * @param npar number of chosen parameter + * @return the value of the parameter + */ + unsigned char getpar(const int &npar) const; + void cleanup(); -private: - //Chorus Parameters - EffectLFO lfo;//lfo-ul chorus - unsigned char Pvolume; - unsigned char Ppanning; - unsigned char Pdepth;//the depth of the Chorus(ms) - unsigned char Pdelay;//the delay (ms) - unsigned char Pfb;//feedback - unsigned char Plrcross;//feedback - unsigned char Pflangemode;//how the LFO is scaled, to result chorus or flange - unsigned char Poutsub;//if I wish to substract the output instead of the adding it + private: + //Chorus Parameters + EffectLFO lfo; //lfo-ul chorus + unsigned char Pvolume; + unsigned char Ppanning; + unsigned char Pdepth; //the depth of the Chorus(ms) + unsigned char Pdelay; //the delay (ms) + unsigned char Pfb; //feedback + unsigned char Plrcross; //feedback + unsigned char Pflangemode; //how the LFO is scaled, to result chorus or flange + unsigned char Poutsub; //if I wish to substract the output instead of the adding it - //Parameter Controls - void setvolume(const unsigned char &Pvolume); - void setpanning(const unsigned char &Ppanning); - void setdepth(const unsigned char &Pdepth); - void setdelay(const unsigned char &Pdelay); - void setfb(const unsigned char &Pfb); - void setlrcross(const unsigned char &Plrcross); + //Parameter Controls + void setvolume(const unsigned char &Pvolume); + void setpanning(const unsigned char &Ppanning); + void setdepth(const unsigned char &Pdepth); + void setdelay(const unsigned char &Pdelay); + void setfb(const unsigned char &Pfb); + void setlrcross(const unsigned char &Plrcross); - //Internal Values - REALTYPE depth,delay,fb,lrcross,panning; - REALTYPE dl1,dl2,dr1,dr2,lfol,lfor; - int maxdelay; - Stereo delaySample; - //REALTYPE *delayl,*delayr; - int dlk,drk,dlhi,dlhi2; - REALTYPE getdelay(REALTYPE xlfo); - REALTYPE dllo,mdel; + //Internal Values + REALTYPE depth, delay, fb, lrcross, panning; + REALTYPE dl1, dl2, dr1, dr2, lfol, lfor; + int maxdelay; + Stereo delaySample; + //REALTYPE *delayl,*delayr; + int dlk, drk, dlhi, dlhi2; + REALTYPE getdelay(REALTYPE xlfo); + REALTYPE dllo, mdel; }; #endif diff --git a/plugins/zynaddsubfx/src/Effects/Distorsion.cpp b/plugins/zynaddsubfx/src/Effects/Distorsion.cpp index 6aeaab4fb..61fe9966b 100644 --- a/plugins/zynaddsubfx/src/Effects/Distorsion.cpp +++ b/plugins/zynaddsubfx/src/Effects/Distorsion.cpp @@ -28,159 +28,199 @@ * Waveshape (this is called by OscilGen::waveshape and Distorsion::process) */ -void waveshapesmps(int n,REALTYPE *smps,unsigned char type,unsigned char drive) +void waveshapesmps(int n, + REALTYPE *smps, + unsigned char type, + unsigned char drive) { - int i; - REALTYPE ws=drive/127.0; + int i; + REALTYPE ws = drive / 127.0; REALTYPE tmpv; - switch (type) { + switch(type) { case 1: - ws=pow(10,ws*ws*3.0)-1.0+0.001;//Arctangent - for (i=0;iws) { - if (tmp>=0.0) smps[i]=1.0; - else smps[i]=-1.0; - } else smps[i]/=ws; - }; + ws = pow(2.0, -ws * ws * 8.0); //Limiter + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i]; + if(fabs(tmp) > ws) { + if(tmp >= 0.0) + smps[i] = 1.0; + else + smps[i] = -1.0; + } + else + smps[i] /= ws; + } break; case 8: - ws=pow(2.0,-ws*ws*8.0); //Upper Limiter - for (i=0;iws) smps[i]=ws; - smps[i]*=2.0; - }; + ws = pow(2.0, -ws * ws * 8.0); //Upper Limiter + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i]; + if(tmp > ws) + smps[i] = ws; + smps[i] *= 2.0; + } break; case 9: - ws=pow(2.0,-ws*ws*8.0); //Lower Limiter - for (i=0;iws) { - if (tmp>=0.0) smps[i]=tmp-ws; - else smps[i]=tmp+ws; - } else smps[i]=0; - }; + ws = (pow(2.0, ws * 6.0) - 1.0) / pow(2.0, 6.0); //Inverse Limiter + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i]; + if(fabs(tmp) > ws) { + if(tmp >= 0.0) + smps[i] = tmp - ws; + else + smps[i] = tmp + ws; + } + else + smps[i] = 0; + } break; case 11: - ws=pow(5,ws*ws*1.0)-1.0;//Clip - for (i=0;i-2.0) && (tmp<1.0)) smps[i]=tmp*(1.0-tmp)*(tmp+2.0)/tmpv; - else smps[i]=0.0; - }; + ws = ws * ws * ws * 30 + 0.001; //Asym2 + if(ws < 0.3) + tmpv = ws; + else + tmpv = 1.0; + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i] * ws; + if((tmp > -2.0) && (tmp < 1.0)) + smps[i] = tmp * (1.0 - tmp) * (tmp + 2.0) / tmpv; + else + smps[i] = 0.0; + } break; case 13: - ws=ws*ws*ws*32.0+0.0001;//Pow2 - if (ws<1.0) tmpv=ws*(1+ws)/2.0; - else tmpv=1.0; - for (i=0;i-1.0)&&(tmp<1.618034)) smps[i]=tmp*(1.0-tmp)/tmpv; - else if (tmp>0.0) smps[i]=-1.0; - else smps[i]=-2.0; - }; + ws = ws * ws * ws * 32.0 + 0.0001; //Pow2 + if(ws < 1.0) + tmpv = ws * (1 + ws) / 2.0; + else + tmpv = 1.0; + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i] * ws; + if((tmp > -1.0) && (tmp < 1.618034)) + smps[i] = tmp * (1.0 - tmp) / tmpv; + else + if(tmp > 0.0) + smps[i] = -1.0; + else + smps[i] = -2.0; + } break; case 14: - ws=pow(ws,5.0)*80.0+0.0001;//sigmoid - if (ws>10.0) tmpv=0.5; - else tmpv=0.5-1.0/(exp(ws)+1.0); - for (i=0;i10.0) tmp=10.0; - tmp=0.5-1.0/(exp(tmp)+1.0); - smps[i]=tmp/tmpv; - }; + ws = pow(ws, 5.0) * 80.0 + 0.0001; //sigmoid + if(ws > 10.0) + tmpv = 0.5; + else + tmpv = 0.5 - 1.0 / (exp(ws) + 1.0); + for(i = 0; i < n; i++) { + REALTYPE tmp = smps[i] * ws; + if(tmp < -10.0) + tmp = -10.0; + else + if(tmp > 10.0) + tmp = 10.0; + tmp = 0.5 - 1.0 / (exp(tmp) + 1.0); + smps[i] = tmp / tmpv; + } break; /**\todo update to Distorsion::changepar (Ptype max) if there is added more waveshapings functions*/ - }; - -}; + } +} -Distorsion::Distorsion(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0) +Distorsion::Distorsion(const int &insertion_, + REALTYPE *efxoutl_, + REALTYPE *efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0) { - - lpfl=new AnalogFilter(2,22000,1,0); - lpfr=new AnalogFilter(2,22000,1,0); - hpfl=new AnalogFilter(3,20,1,0); - hpfr=new AnalogFilter(3,20,1,0); + lpfl = new AnalogFilter(2, 22000, 1, 0); + lpfr = new AnalogFilter(2, 22000, 1, 0); + hpfl = new AnalogFilter(3, 20, 1, 0); + hpfr = new AnalogFilter(3, 20, 1, 0); //default values - Pvolume=50; - Plrcross=40; - Pdrive=90; - Plevel=64; - Ptype=0; - Pnegate=0; - Plpf=127; - Phpf=0; - Pstereo=0; - Pprefiltering=0; + Pvolume = 50; + Plrcross = 40; + Pdrive = 90; + Plevel = 64; + Ptype = 0; + Pnegate = 0; + Plpf = 127; + Phpf = 0; + Pstereo = 0; + Pprefiltering = 0; setpreset(Ppreset); cleanup(); -}; +} Distorsion::~Distorsion() { @@ -188,8 +228,7 @@ Distorsion::~Distorsion() delete lpfr; delete hpfl; delete hpfr; - -}; +} /* * Cleanup the effect @@ -200,72 +239,77 @@ void Distorsion::cleanup() hpfl->cleanup(); lpfr->cleanup(); hpfr->cleanup(); -}; +} /* * Apply the filters */ -void Distorsion::applyfilters(REALTYPE *efxoutl,REALTYPE *efxoutr) +void Distorsion::applyfilters(REALTYPE *efxoutl, REALTYPE *efxoutr) { lpfl->filterout(efxoutl); hpfl->filterout(efxoutl); - if (Pstereo!=0) {//stereo + if(Pstereo != 0) { //stereo lpfr->filterout(efxoutr); hpfr->filterout(efxoutr); - }; - -}; + } +} /* * Effect output */ -void Distorsion::out(REALTYPE *smpsl,REALTYPE *smpsr) +void Distorsion::out(REALTYPE *smpsl, REALTYPE *smpsr) { - int i; - REALTYPE l,r,lout,rout; + int i; + REALTYPE l, r, lout, rout; - REALTYPE inputvol=pow(5.0,(Pdrive-32.0)/127.0); - if (Pnegate!=0) inputvol*=-1.0; + REALTYPE inputvol = pow(5.0, (Pdrive - 32.0) / 127.0); + if(Pnegate != 0) + inputvol *= -1.0; - if (Pstereo!=0) {//Stereo - for (i=0;iPvolume=Pvolume; + this->Pvolume = Pvolume; - if (insertion==0) { - outvolume=pow(0.01,(1.0-Pvolume/127.0))*4.0; - volume=1.0; - } else { - volume=outvolume=Pvolume/127.0; - }; - if (Pvolume==0) cleanup(); - -}; + if(insertion == 0) { + outvolume = pow(0.01, (1.0 - Pvolume / 127.0)) * 4.0; + volume = 1.0; + } + else + volume = outvolume = Pvolume / 127.0; + ; + if(Pvolume == 0) + cleanup(); +} void Distorsion::setpanning(const unsigned char &Ppanning) { - this->Ppanning=Ppanning; - panning=(Ppanning+0.5)/127.0; -}; + this->Ppanning = Ppanning; + panning = (Ppanning + 0.5) / 127.0; +} void Distorsion::setlrcross(const unsigned char &Plrcross) { - this->Plrcross=Plrcross; - lrcross=Plrcross/127.0*1.0; -}; + this->Plrcross = Plrcross; + lrcross = Plrcross / 127.0 * 1.0; +} void Distorsion::setlpf(const unsigned char &Plpf) { - this->Plpf=Plpf; - REALTYPE fr=exp(pow(Plpf/127.0,0.5)*log(25000.0))+40; + this->Plpf = Plpf; + REALTYPE fr = exp(pow(Plpf / 127.0, 0.5) * log(25000.0)) + 40; lpfl->setfreq(fr); lpfr->setfreq(fr); -}; +} void Distorsion::sethpf(const unsigned char &Phpf) { - this->Phpf=Phpf; - REALTYPE fr=exp(pow(Phpf/127.0,0.5)*log(25000.0))+20.0; + this->Phpf = Phpf; + REALTYPE fr = exp(pow(Phpf / 127.0, 0.5) * log(25000.0)) + 20.0; hpfl->setfreq(fr); hpfr->setfreq(fr); -}; +} void Distorsion::setpreset(unsigned char npreset) { - const int PRESET_SIZE=11; - const int NUM_PRESETS=6; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 11; + const int NUM_PRESETS = 6; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //Overdrive 1 - {127,64,35,56,70,0,0,96,0,0,0}, + {127, 64, 35, 56, 70, 0, 0, 96, 0, 0, 0 }, //Overdrive 2 - {127,64,35,29,75,1,0,127,0,0,0}, + {127, 64, 35, 29, 75, 1, 0, 127, 0, 0, 0 }, //A. Exciter 1 - {64,64,35,75,80,5,0,127,105,1,0}, + {64, 64, 35, 75, 80, 5, 0, 127, 105, 1, 0 }, //A. Exciter 2 - {64,64,35,85,62,1,0,127,118,1,0}, + {64, 64, 35, 85, 62, 1, 0, 127, 118, 1, 0 }, //Guitar Amp - {127,64,35,63,75,2,0,55,0,0,0}, + {127, 64, 35, 63, 75, 2, 0, 55, 0, 0, 0 }, //Quantisize - {127,64,35,88,75,4,0,127,0,1,0} + {127, 64, 35, 88, 75, 4, 0, 127, 0, 1, 0 } }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + if(insertion == 0) + changepar(0, (int) (presets[npreset][0] / 1.5)); //lower the volume if this is system effect + Ppreset = npreset; cleanup(); -}; +} -void Distorsion::changepar(const int &npar,const unsigned char &value) +void Distorsion::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; @@ -356,18 +404,22 @@ void Distorsion::changepar(const int &npar,const unsigned char &value) setlrcross(value); break; case 3: - Pdrive=value; + Pdrive = value; break; case 4: - Plevel=value; + Plevel = value; break; case 5: - if (value>13) Ptype=13;//this must be increased if more distorsion types are added - else Ptype=value; + if(value > 13) + Ptype = 13; //this must be increased if more distorsion types are added + else + Ptype = value; break; case 6: - if (value>1) Pnegate=1; - else Pnegate=value; + if(value > 1) + Pnegate = 1; + else + Pnegate = value; break; case 7: setlpf(value); @@ -376,52 +428,54 @@ void Distorsion::changepar(const int &npar,const unsigned char &value) sethpf(value); break; case 9: - if (value>1) Pstereo=1; - else Pstereo=value; + if(value > 1) + Pstereo = 1; + else + Pstereo = value; break; case 10: - Pprefiltering=value; + Pprefiltering = value; break; - }; -}; + } +} -unsigned char Distorsion::getpar(const int &npar)const +unsigned char Distorsion::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; case 1: - return(Ppanning); + return Ppanning; break; case 2: - return(Plrcross); + return Plrcross; break; case 3: - return(Pdrive); + return Pdrive; break; case 4: - return(Plevel); + return Plevel; break; case 5: - return(Ptype); + return Ptype; break; case 6: - return(Pnegate); + return Pnegate; break; case 7: - return(Plpf); + return Plpf; break; case 8: - return(Phpf); + return Phpf; break; case 9: - return(Pstereo); + return Pstereo; break; case 10: - return(Pprefiltering); + return Pprefiltering; break; - }; - return(0);//in case of bogus parameter number -}; + } + return 0; //in case of bogus parameter number +} diff --git a/plugins/zynaddsubfx/src/Effects/Distorsion.h b/plugins/zynaddsubfx/src/Effects/Distorsion.h index efe3b8287..8c082f13f 100644 --- a/plugins/zynaddsubfx/src/Effects/Distorsion.h +++ b/plugins/zynaddsubfx/src/Effects/Distorsion.h @@ -28,44 +28,46 @@ #include "Effect.h" //Waveshaping(called by Distorsion effect and waveshape from OscilGen) -void waveshapesmps(int n,REALTYPE *smps,unsigned char type,unsigned char drive); +void waveshapesmps(int n, + REALTYPE *smps, + unsigned char type, + unsigned char drive); /**Distortion Effect*/ class Distorsion:public Effect { -public: - Distorsion(const int &insertion,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - ~Distorsion(); - void out(REALTYPE *smpsl,REALTYPE *smpr); - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - void cleanup(); - void applyfilters(REALTYPE *efxoutl,REALTYPE *efxoutr); + public: + Distorsion(const int &insertion, REALTYPE *efxoutl_, REALTYPE *efxoutr_); + ~Distorsion(); + void out(REALTYPE *smpsl, REALTYPE *smpr); + void setpreset(unsigned char npreset); + void changepar(const int &npar, const unsigned char &value); + unsigned char getpar(const int &npar) const; + void cleanup(); + void applyfilters(REALTYPE *efxoutl, REALTYPE *efxoutr); -private: - //Parametrii - unsigned char Pvolume; //Volumul or E/R - unsigned char Ppanning;//Panning - unsigned char Plrcross;// L/R Mixing - unsigned char Pdrive; //the input amplification - unsigned char Plevel; //the output amplification - unsigned char Ptype; //Distorsion type - unsigned char Pnegate; //if the input is negated - unsigned char Plpf; //lowpass filter - unsigned char Phpf; //highpass filter - unsigned char Pstereo; //0=mono,1=stereo - unsigned char Pprefiltering;//if you want to do the filtering before the distorsion + private: + //Parametrii + unsigned char Pvolume; //Volumul or E/R + unsigned char Ppanning; //Panning + unsigned char Plrcross; // L/R Mixing + unsigned char Pdrive; //the input amplification + unsigned char Plevel; //the output amplification + unsigned char Ptype; //Distorsion type + unsigned char Pnegate; //if the input is negated + unsigned char Plpf; //lowpass filter + unsigned char Phpf; //highpass filter + unsigned char Pstereo; //0=mono,1=stereo + unsigned char Pprefiltering; //if you want to do the filtering before the distorsion - void setvolume(const unsigned char &Pvolume); - void setpanning(const unsigned char &Ppanning); - void setlrcross(const unsigned char &Plrcross); - void setlpf(const unsigned char &Plpf); - void sethpf(const unsigned char &Phpf); - - //Real Parameters - REALTYPE panning,lrcross; - AnalogFilter *lpfl,*lpfr,*hpfl,*hpfr; + void setvolume(const unsigned char &Pvolume); + void setpanning(const unsigned char &Ppanning); + void setlrcross(const unsigned char &Plrcross); + void setlpf(const unsigned char &Plpf); + void sethpf(const unsigned char &Phpf); + //Real Parameters + REALTYPE panning, lrcross; + AnalogFilter *lpfl, *lpfr, *hpfl, *hpfr; }; diff --git a/plugins/zynaddsubfx/src/Effects/DynamicFilter.cpp b/plugins/zynaddsubfx/src/Effects/DynamicFilter.cpp index b7b367ea3..1b2bb1eb0 100644 --- a/plugins/zynaddsubfx/src/Effects/DynamicFilter.cpp +++ b/plugins/zynaddsubfx/src/Effects/DynamicFilter.cpp @@ -23,74 +23,75 @@ #include #include "DynamicFilter.h" -DynamicFilter::DynamicFilter(int insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,new FilterParams(0,64,64),0), - Pvolume(110),Ppanning(64),Pdepth(0),Pampsns(90), - Pampsnsinv(0),Pampsmooth(60), - filterl(NULL),filterr(NULL) +DynamicFilter::DynamicFilter(int insertion_, + REALTYPE *efxoutl_, + REALTYPE *efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, new FilterParams(0, 64, 64), 0), + Pvolume(110), Ppanning(64), Pdepth(0), Pampsns(90), + Pampsnsinv(0), Pampsmooth(60), + filterl(NULL), filterr(NULL) { setpreset(Ppreset); cleanup(); -}; +} DynamicFilter::~DynamicFilter() { delete filterpars; delete filterl; delete filterr; -}; +} /* * Apply the effect */ -void DynamicFilter::out(REALTYPE *smpsl,REALTYPE *smpsr) +void DynamicFilter::out(REALTYPE *smpsl, REALTYPE *smpsr) { int i; - if (filterpars->changed) { - filterpars->changed=false; + if(filterpars->changed) { + filterpars->changed = false; cleanup(); - }; + } - REALTYPE lfol,lfor; - lfo.effectlfoout(&lfol,&lfor); - lfol*=depth*5.0; - lfor*=depth*5.0; - REALTYPE freq=filterpars->getfreq(); - REALTYPE q=filterpars->getq(); + REALTYPE lfol, lfor; + lfo.effectlfoout(&lfol, &lfor); + lfol *= depth * 5.0; + lfor *= depth * 5.0; + REALTYPE freq = filterpars->getfreq(); + REALTYPE q = filterpars->getq(); - for (i=0;igetrealfreq(freq+lfol+rms); - REALTYPE frr=filterr->getrealfreq(freq+lfor+rms); + REALTYPE frl = filterl->getrealfreq(freq + lfol + rms); + REALTYPE frr = filterr->getrealfreq(freq + lfor + rms); - filterl->setfreq_and_q(frl,q); - filterr->setfreq_and_q(frr,q); + filterl->setfreq_and_q(frl, q); + filterr->setfreq_and_q(frr, q); filterl->filterout(efxoutl); filterr->filterout(efxoutr); //panning - for (i=0;iPdepth=Pdepth; - depth=pow((Pdepth/127.0),2.0); -}; + this->Pdepth = Pdepth; + depth = pow((Pdepth / 127.0), 2.0); +} void DynamicFilter::setvolume(const unsigned char &Pvolume) { - this->Pvolume=Pvolume; - outvolume=Pvolume/127.0; - if (insertion==0) volume=1.0; - else volume=outvolume; -}; + this->Pvolume = Pvolume; + outvolume = Pvolume / 127.0; + if(insertion == 0) + volume = 1.0; + else + volume = outvolume; +} void DynamicFilter::setpanning(const unsigned char &Ppanning) { - this->Ppanning=Ppanning; - panning=Ppanning/127.0; -}; + this->Ppanning = Ppanning; + panning = Ppanning / 127.0; +} void DynamicFilter::setampsns(const unsigned char &Pampsns) { - ampsns=pow(Pampsns/127.0,2.5)*10.0; - if (Pampsnsinv!=0) ampsns=-ampsns; - ampsmooth=exp(-Pampsmooth/127.0*10.0)*0.99; - this->Pampsns=Pampsns; -}; + ampsns = pow(Pampsns / 127.0, 2.5) * 10.0; + if(Pampsnsinv != 0) + ampsns = -ampsns; + ampsmooth = exp(-Pampsmooth / 127.0 * 10.0) * 0.99; + this->Pampsns = Pampsns; +} void DynamicFilter::reinitfilter() { - if (filterl!=NULL) delete(filterl); - if (filterr!=NULL) delete(filterr); - filterl=new Filter(filterpars); - filterr=new Filter(filterpars); -}; + if(filterl != NULL) + delete (filterl); + if(filterr != NULL) + delete (filterr); + filterl = new Filter(filterpars); + filterr = new Filter(filterpars); +} void DynamicFilter::setpreset(unsigned char npreset) { - const int PRESET_SIZE=10; - const int NUM_PRESETS=5; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 10; + const int NUM_PRESETS = 5; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //WahWah - {110,64,80,0,0,64,0,90,0,60}, + {110, 64, 80, 0, 0, 64, 0, 90, 0, 60}, //AutoWah - {110,64,70,0,0,80,70,0,0,60}, + {110, 64, 70, 0, 0, 80, 70, 0, 0, 60}, //Sweep - {100,64,30,0,0,50,80,0,0,60}, + {100, 64, 30, 0, 0, 50, 80, 0, 0, 60}, //VocalMorph1 - {110,64,80,0,0,64,0,64,0,60}, + {110, 64, 80, 0, 0, 64, 0, 64, 0, 60}, //VocalMorph1 - {127,64,50,0,0,96,64,0,0,60} + {127, 64, 50, 0, 0, 96, 64, 0, 0, 60} }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); filterpars->defaults(); - switch (npreset) { + switch(npreset) { case 0: - filterpars->Pcategory=0; - filterpars->Ptype=2; - filterpars->Pfreq=45; - filterpars->Pq=64; - filterpars->Pstages=1; - filterpars->Pgain=64; + filterpars->Pcategory = 0; + filterpars->Ptype = 2; + filterpars->Pfreq = 45; + filterpars->Pq = 64; + filterpars->Pstages = 1; + filterpars->Pgain = 64; break; case 1: - filterpars->Pcategory=2; - filterpars->Ptype=0; - filterpars->Pfreq=72; - filterpars->Pq=64; - filterpars->Pstages=0; - filterpars->Pgain=64; + filterpars->Pcategory = 2; + filterpars->Ptype = 0; + filterpars->Pfreq = 72; + filterpars->Pq = 64; + filterpars->Pstages = 0; + filterpars->Pgain = 64; break; case 2: - filterpars->Pcategory=0; - filterpars->Ptype=4; - filterpars->Pfreq=64; - filterpars->Pq=64; - filterpars->Pstages=2; - filterpars->Pgain=64; + filterpars->Pcategory = 0; + filterpars->Ptype = 4; + filterpars->Pfreq = 64; + filterpars->Pq = 64; + filterpars->Pstages = 2; + filterpars->Pgain = 64; break; case 3: - filterpars->Pcategory=1; - filterpars->Ptype=0; - filterpars->Pfreq=50; - filterpars->Pq=70; - filterpars->Pstages=1; - filterpars->Pgain=64; + filterpars->Pcategory = 1; + filterpars->Ptype = 0; + filterpars->Pfreq = 50; + filterpars->Pq = 70; + filterpars->Pstages = 1; + filterpars->Pgain = 64; - filterpars->Psequencesize=2; + filterpars->Psequencesize = 2; // "I" - filterpars->Pvowels[0].formants[0].freq=34; - filterpars->Pvowels[0].formants[0].amp=127; - filterpars->Pvowels[0].formants[0].q=64; - filterpars->Pvowels[0].formants[1].freq=99; - filterpars->Pvowels[0].formants[1].amp=122; - filterpars->Pvowels[0].formants[1].q=64; - filterpars->Pvowels[0].formants[2].freq=108; - filterpars->Pvowels[0].formants[2].amp=112; - filterpars->Pvowels[0].formants[2].q=64; + filterpars->Pvowels[0].formants[0].freq = 34; + filterpars->Pvowels[0].formants[0].amp = 127; + filterpars->Pvowels[0].formants[0].q = 64; + filterpars->Pvowels[0].formants[1].freq = 99; + filterpars->Pvowels[0].formants[1].amp = 122; + filterpars->Pvowels[0].formants[1].q = 64; + filterpars->Pvowels[0].formants[2].freq = 108; + filterpars->Pvowels[0].formants[2].amp = 112; + filterpars->Pvowels[0].formants[2].q = 64; // "A" - filterpars->Pvowels[1].formants[0].freq=61; - filterpars->Pvowels[1].formants[0].amp=127; - filterpars->Pvowels[1].formants[0].q=64; - filterpars->Pvowels[1].formants[1].freq=71; - filterpars->Pvowels[1].formants[1].amp=121; - filterpars->Pvowels[1].formants[1].q=64; - filterpars->Pvowels[1].formants[2].freq=99; - filterpars->Pvowels[1].formants[2].amp=117; - filterpars->Pvowels[1].formants[2].q=64; + filterpars->Pvowels[1].formants[0].freq = 61; + filterpars->Pvowels[1].formants[0].amp = 127; + filterpars->Pvowels[1].formants[0].q = 64; + filterpars->Pvowels[1].formants[1].freq = 71; + filterpars->Pvowels[1].formants[1].amp = 121; + filterpars->Pvowels[1].formants[1].q = 64; + filterpars->Pvowels[1].formants[2].freq = 99; + filterpars->Pvowels[1].formants[2].amp = 117; + filterpars->Pvowels[1].formants[2].q = 64; break; case 4: - filterpars->Pcategory=1; - filterpars->Ptype=0; - filterpars->Pfreq=64; - filterpars->Pq=70; - filterpars->Pstages=1; - filterpars->Pgain=64; + filterpars->Pcategory = 1; + filterpars->Ptype = 0; + filterpars->Pfreq = 64; + filterpars->Pq = 70; + filterpars->Pstages = 1; + filterpars->Pgain = 64; - filterpars->Psequencesize=2; - filterpars->Pnumformants=2; - filterpars->Pvowelclearness=0; + filterpars->Psequencesize = 2; + filterpars->Pnumformants = 2; + filterpars->Pvowelclearness = 0; - filterpars->Pvowels[0].formants[0].freq=70; - filterpars->Pvowels[0].formants[0].amp=127; - filterpars->Pvowels[0].formants[0].q=64; - filterpars->Pvowels[0].formants[1].freq=80; - filterpars->Pvowels[0].formants[1].amp=122; - filterpars->Pvowels[0].formants[1].q=64; + filterpars->Pvowels[0].formants[0].freq = 70; + filterpars->Pvowels[0].formants[0].amp = 127; + filterpars->Pvowels[0].formants[0].q = 64; + filterpars->Pvowels[0].formants[1].freq = 80; + filterpars->Pvowels[0].formants[1].amp = 122; + filterpars->Pvowels[0].formants[1].q = 64; - filterpars->Pvowels[1].formants[0].freq=20; - filterpars->Pvowels[1].formants[0].amp=127; - filterpars->Pvowels[1].formants[0].q=64; - filterpars->Pvowels[1].formants[1].freq=100; - filterpars->Pvowels[1].formants[1].amp=121; - filterpars->Pvowels[1].formants[1].q=64; + filterpars->Pvowels[1].formants[0].freq = 20; + filterpars->Pvowels[1].formants[0].amp = 127; + filterpars->Pvowels[1].formants[0].q = 64; + filterpars->Pvowels[1].formants[1].freq = 100; + filterpars->Pvowels[1].formants[1].amp = 121; + filterpars->Pvowels[1].formants[1].q = 64; break; - }; + } // for (int i=0;i<5;i++){ // printf("freq=%d amp=%d q=%d\n",filterpars->Pvowels[0].formants[i].freq,filterpars->Pvowels[0].formants[i].amp,filterpars->Pvowels[0].formants[i].q); // }; - if (insertion==0) changepar(0,presets[npreset][0]/2);//lower the volume if this is system effect - Ppreset=npreset; + if(insertion == 0) + changepar(0, presets[npreset][0] / 2); //lower the volume if this is system effect + Ppreset = npreset; reinitfilter(); -}; +} -void DynamicFilter::changepar(const int &npar,const unsigned char &value) +void DynamicFilter::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; @@ -271,19 +280,19 @@ void DynamicFilter::changepar(const int &npar,const unsigned char &value) setpanning(value); break; case 2: - lfo.Pfreq=value; + lfo.Pfreq = value; lfo.updateparams(); break; case 3: - lfo.Prandomness=value; + lfo.Prandomness = value; lfo.updateparams(); break; case 4: - lfo.PLFOtype=value; + lfo.PLFOtype = value; lfo.updateparams(); break; case 5: - lfo.Pstereo=value; + lfo.Pstereo = value; lfo.updateparams(); break; case 6: @@ -293,52 +302,51 @@ void DynamicFilter::changepar(const int &npar,const unsigned char &value) setampsns(value); break; case 8: - Pampsnsinv=value; + Pampsnsinv = value; setampsns(Pampsns); break; case 9: - Pampsmooth=value; + Pampsmooth = value; setampsns(Pampsns); break; - }; -}; + } +} -unsigned char DynamicFilter::getpar(const int &npar)const +unsigned char DynamicFilter::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; case 1: - return(Ppanning); + return Ppanning; break; case 2: - return(lfo.Pfreq); + return lfo.Pfreq; break; case 3: - return(lfo.Prandomness); + return lfo.Prandomness; break; case 4: - return(lfo.PLFOtype); + return lfo.PLFOtype; break; case 5: - return(lfo.Pstereo); + return lfo.Pstereo; break; case 6: - return(Pdepth); + return Pdepth; break; case 7: - return(Pampsns); + return Pampsns; break; case 8: - return(Pampsnsinv); + return Pampsnsinv; break; case 9: - return(Pampsmooth); + return Pampsmooth; break; default: - return (0); - }; - -}; + return 0; + } +} diff --git a/plugins/zynaddsubfx/src/Effects/DynamicFilter.h b/plugins/zynaddsubfx/src/Effects/DynamicFilter.h index 9c547c332..2bb5fcd9b 100644 --- a/plugins/zynaddsubfx/src/Effects/DynamicFilter.h +++ b/plugins/zynaddsubfx/src/Effects/DynamicFilter.h @@ -30,42 +30,42 @@ /**DynamicFilter Effect*/ class DynamicFilter:public Effect { -public: - DynamicFilter(int insetion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - ~DynamicFilter(); - void out(REALTYPE *smpsl,REALTYPE *smpsr); + public: + DynamicFilter(int insetion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_); + ~DynamicFilter(); + void out(REALTYPE *smpsl, REALTYPE *smpsr); - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - void cleanup(); + void setpreset(unsigned char npreset); + void changepar(const int &npar, const unsigned char &value); + unsigned char getpar(const int &npar) const; + void cleanup(); // void setdryonly(); -private: - //Parametrii DynamicFilter - EffectLFO lfo;//lfo-ul DynamicFilter - unsigned char Pvolume; - unsigned char Ppanning; - unsigned char Pdepth;/** #include "EQ.h" -EQ::EQ(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0) +EQ::EQ(const int &insertion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0) { - - for (int i=0;icleanup(); filter[i].r->cleanup(); - }; -}; + } +} /* * Effect output */ -void EQ::out(REALTYPE *smpsl,REALTYPE *smpsr) +void EQ::out(REALTYPE *smpsl, REALTYPE *smpsr) { int i; - for (i=0;ifilterout(efxoutl); filter[i].r->filterout(efxoutr); - }; -}; + } +} /* @@ -84,131 +83,138 @@ void EQ::out(REALTYPE *smpsl,REALTYPE *smpsr) */ void EQ::setvolume(const unsigned char &Pvolume) { - this->Pvolume=Pvolume; + this->Pvolume = Pvolume; - outvolume=pow(0.005,(1.0-Pvolume/127.0))*10.0; - if (insertion==0) { - volume=1.0; - } else { - volume=outvolume; - }; - -}; + outvolume = pow(0.005, (1.0 - Pvolume / 127.0)) * 10.0; + if(insertion == 0) + volume = 1.0; + else + volume = outvolume; + ; +} void EQ::setpreset(unsigned char npreset) { - const int PRESET_SIZE=1; - const int NUM_PRESETS=2; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 1; + const int NUM_PRESETS = 2; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //EQ 1 {67}, //EQ 2 {67} }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + Ppreset = npreset; +} -void EQ::changepar(const int &npar,const unsigned char &value) +void EQ::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; - }; - if (npar<10) return; + } + if(npar < 10) + return; - int nb=(npar-10)/5;//number of the band (filter) - if (nb>=MAX_EQ_BANDS) return; - int bp=npar%5;//band paramenter + int nb = (npar - 10) / 5; //number of the band (filter) + if(nb >= MAX_EQ_BANDS) + return; + int bp = npar % 5; //band paramenter REALTYPE tmp; - switch (bp) { + switch(bp) { case 0: - filter[nb].Ptype=value; - if (value>9) filter[nb].Ptype=0;//has to be changed if more filters will be added - if (filter[nb].Ptype!=0) { - filter[nb].l->settype(value-1); - filter[nb].r->settype(value-1); - }; + filter[nb].Ptype = value; + if(value > 9) + filter[nb].Ptype = 0; //has to be changed if more filters will be added + if(filter[nb].Ptype != 0) { + filter[nb].l->settype(value - 1); + filter[nb].r->settype(value - 1); + } break; case 1: - filter[nb].Pfreq=value; - tmp=600.0*pow(30.0,(value-64.0)/64.0); + filter[nb].Pfreq = value; + tmp = 600.0 * pow(30.0, (value - 64.0) / 64.0); filter[nb].l->setfreq(tmp); filter[nb].r->setfreq(tmp); break; case 2: - filter[nb].Pgain=value; - tmp=30.0*(value-64.0)/64.0; + filter[nb].Pgain = value; + tmp = 30.0 * (value - 64.0) / 64.0; filter[nb].l->setgain(tmp); filter[nb].r->setgain(tmp); break; case 3: - filter[nb].Pq=value; - tmp=pow(30.0,(value-64.0)/64.0); + filter[nb].Pq = value; + tmp = pow(30.0, (value - 64.0) / 64.0); filter[nb].l->setq(tmp); filter[nb].r->setq(tmp); break; case 4: - filter[nb].Pstages=value; - if (value>=MAX_FILTER_STAGES) filter[nb].Pstages=MAX_FILTER_STAGES-1; + filter[nb].Pstages = value; + if(value >= MAX_FILTER_STAGES) + filter[nb].Pstages = MAX_FILTER_STAGES - 1; filter[nb].l->setstages(value); filter[nb].r->setstages(value); break; - }; -}; + } +} -unsigned char EQ::getpar(const int &npar)const +unsigned char EQ::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; - }; + } - if (npar<10) return(0); + if(npar < 10) + return 0; - int nb=(npar-10)/5;//number of the band (filter) - if (nb>=MAX_EQ_BANDS) return(0); - int bp=npar%5;//band paramenter - switch (bp) { + int nb = (npar - 10) / 5; //number of the band (filter) + if(nb >= MAX_EQ_BANDS) + return 0; + int bp = npar % 5; //band paramenter + switch(bp) { case 0: - return(filter[nb].Ptype); + return filter[nb].Ptype; break; case 1: - return(filter[nb].Pfreq); + return filter[nb].Pfreq; break; case 2: - return(filter[nb].Pgain); + return filter[nb].Pgain; break; case 3: - return(filter[nb].Pq); + return filter[nb].Pq; break; case 4: - return(filter[nb].Pstages); + return filter[nb].Pstages; break; - }; + } - return(0);//in case of bogus parameter number -}; + return 0; //in case of bogus parameter number +} REALTYPE EQ::getfreqresponse(REALTYPE freq) { - REALTYPE resp=1.0; - - for (int i=0;iH(freq); - }; - return(rap2dB(resp*outvolume)); -}; + REALTYPE resp = 1.0; + for(int i = 0; i < MAX_EQ_BANDS; i++) { + if(filter[i].Ptype == 0) + continue; + resp *= filter[i].l->H(freq); + } + return rap2dB(resp * outvolume); +} diff --git a/plugins/zynaddsubfx/src/Effects/EQ.h b/plugins/zynaddsubfx/src/Effects/EQ.h index 810dd6ee6..6f4130cd1 100644 --- a/plugins/zynaddsubfx/src/Effects/EQ.h +++ b/plugins/zynaddsubfx/src/Effects/EQ.h @@ -30,31 +30,29 @@ /**EQ Effect*/ class EQ:public Effect { -public: - EQ(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - ~EQ(); - void out(REALTYPE *smpsl,REALTYPE *smpr); - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - void cleanup(); - REALTYPE getfreqresponse(REALTYPE freq); -private: - //Parameters - unsigned char Pvolume;/** #include "Echo.h" -Echo::Echo(const int & insertion_,REALTYPE *const efxoutl_,REALTYPE *const efxoutr_) - : Effect(insertion_,efxoutl_,efxoutr_,NULL,0), - Pvolume(50),Ppanning(64),//Pdelay(60), - Plrdelay(100),Plrcross(100),Pfb(40),Phidamp(60), - lrdelay(0),delaySample(1),old(0.0) +Echo::Echo(const int &insertion_, + REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0), + Pvolume(50), Ppanning(64), //Pdelay(60), + Plrdelay(100), Plrcross(100), Pfb(40), Phidamp(60), + lrdelay(0), delaySample(1), old(0.0) { setpreset(Ppreset); } @@ -42,7 +44,7 @@ void Echo::cleanup() { delaySample.l().clear(); delaySample.r().clear(); - old=Stereo(0.0); + old = Stereo(0.0); } @@ -52,85 +54,91 @@ void Echo::cleanup() void Echo::initdelays() { /**\todo make this adjust insted of destroy old delays*/ - kl=0; - kr=0; - dl=(int)(1+delay.getiVal()*SAMPLE_RATE-lrdelay); - if (dl<1) dl=1; - dr=(int)(1+delay.getiVal()*SAMPLE_RATE+lrdelay); - if (dr<1) dr=1; + kl = 0; + kr = 0; + dl = (int)(1 + delay.getiVal() * SAMPLE_RATE - lrdelay); + if(dl < 1) + dl = 1; + dr = (int)(1 + delay.getiVal() * SAMPLE_RATE + lrdelay); + if(dr < 1) + dr = 1; - delaySample.l()=AuSample(dl); - delaySample.r()=AuSample(dr); + delaySample.l() = AuSample(dl); + delaySample.r() = AuSample(dr); - old=Stereo(0.0); + old = Stereo(0.0); } /* * Effect output */ -void Echo::out(REALTYPE *const smpsl,REALTYPE *const smpsr) +void Echo::out(REALTYPE *const smpsl, REALTYPE *const smpsr) { - Stereo input(AuSample(SOUND_BUFFER_SIZE,smpsl),AuSample(SOUND_BUFFER_SIZE,smpsr)); + Stereo input(AuSample(SOUND_BUFFER_SIZE, smpsl), AuSample( + SOUND_BUFFER_SIZE, + smpsr)); out(input); } void Echo::out(const Stereo &input) { //void Echo::out(const Stereo & input){ //ideal - REALTYPE l,r,ldl,rdl;/**\todo move l+r->? ldl+rdl->?*/ + REALTYPE l, r, ldl, rdl; /**\todo move l+r->? ldl+rdl->?*/ - for (int i=0;i=dl) kl=0; - if (++kr>=dr) kr=0; - }; + delaySample.l()[kl] = ldl = ldl * hidamp + old.l() * (1.0 - hidamp); + delaySample.r()[kr] = rdl = rdl * hidamp + old.r() * (1.0 - hidamp); + old.l() = ldl; + old.r() = rdl; + if(++kl >= dl) + kl = 0; + if(++kr >= dr) + kr = 0; + } } /* * Parameter control */ -void Echo::setvolume(const unsigned char & Pvolume) +void Echo::setvolume(const unsigned char &Pvolume) { - this->Pvolume=Pvolume; - - if (insertion==0) { - outvolume=pow(0.01,(1.0-Pvolume/127.0))*4.0; - volume=1.0; - } else { - volume=outvolume=Pvolume/127.0; - }; - if (Pvolume==0) cleanup(); + this->Pvolume = Pvolume; + if(insertion == 0) { + outvolume = pow(0.01, (1.0 - Pvolume / 127.0)) * 4.0; + volume = 1.0; + } + else + volume = outvolume = Pvolume / 127.0; + ; + if(Pvolume == 0) + cleanup(); } -void Echo::setpanning(const unsigned char & Ppanning) +void Echo::setpanning(const unsigned char &Ppanning) { - this->Ppanning=Ppanning; - panning=(Ppanning+0.5)/127.0; + this->Ppanning = Ppanning; + panning = (Ppanning + 0.5) / 127.0; } -void Echo::setdelay(const unsigned char & Pdelay) +void Echo::setdelay(const unsigned char &Pdelay) { delay.setmVal(Pdelay); //this->Pdelay=Pdelay; @@ -138,71 +146,76 @@ void Echo::setdelay(const unsigned char & Pdelay) initdelays(); } -void Echo::setlrdelay(const unsigned char & Plrdelay) +void Echo::setlrdelay(const unsigned char &Plrdelay) { REALTYPE tmp; - this->Plrdelay=Plrdelay; - tmp=(pow(2,fabs(Plrdelay-64.0)/64.0*9)-1.0)/1000.0*SAMPLE_RATE; - if (Plrdelay<64.0) tmp=-tmp; - lrdelay=(int) tmp; + this->Plrdelay = Plrdelay; + tmp = + (pow(2, fabs(Plrdelay - 64.0) / 64.0 * 9) - 1.0) / 1000.0 * SAMPLE_RATE; + if(Plrdelay < 64.0) + tmp = -tmp; + lrdelay = (int) tmp; initdelays(); } -void Echo::setlrcross(const unsigned char & Plrcross) +void Echo::setlrcross(const unsigned char &Plrcross) { - this->Plrcross=Plrcross; - lrcross=Plrcross/127.0*1.0; + this->Plrcross = Plrcross; + lrcross = Plrcross / 127.0 * 1.0; } -void Echo::setfb(const unsigned char & Pfb) +void Echo::setfb(const unsigned char &Pfb) { - this->Pfb=Pfb; - fb=Pfb/128.0; + this->Pfb = Pfb; + fb = Pfb / 128.0; } -void Echo::sethidamp(const unsigned char & Phidamp) +void Echo::sethidamp(const unsigned char &Phidamp) { - this->Phidamp=Phidamp; - hidamp=1.0-Phidamp/127.0; + this->Phidamp = Phidamp; + hidamp = 1.0 - Phidamp / 127.0; } void Echo::setpreset(unsigned char npreset) { /**\todo see if the preset array can be replaced with a struct or a class*/ - const int PRESET_SIZE=7; - const int NUM_PRESETS=9; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ + const int PRESET_SIZE = 7; + const int NUM_PRESETS = 9; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { //Echo 1 - {67,64,35,64,30,59,0}, + {67, 64, 35, 64, 30, 59, 0 }, //Echo 2 - {67,64,21,64,30,59,0}, + {67, 64, 21, 64, 30, 59, 0 }, //Echo 3 - {67,75,60,64,30,59,10}, + {67, 75, 60, 64, 30, 59, 10 }, //Simple Echo - {67,60,44,64,30,0,0}, + {67, 60, 44, 64, 30, 0, 0 }, //Canyon - {67,60,102,50,30,82,48}, + {67, 60, 102, 50, 30, 82, 48 }, //Panning Echo 1 - {67,64,44,17,0,82,24}, + {67, 64, 44, 17, 0, 82, 24 }, //Panning Echo 2 - {81,60,46,118,100,68,18}, + {81, 60, 46, 118, 100, 68, 18 }, //Panning Echo 3 - {81,60,26,100,127,67,36}, + {81, 60, 26, 100, 127, 67, 36 }, //Feedback Echo - {62,64,28,64,100,90,55} + {62, 64, 28, 64, 100, 90, 55 } }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + if(insertion) + setvolume(presets[npreset][0] / 2); //lower the volume if this is insertion effect + Ppreset = npreset; } -void Echo::changepar(const int & npar,const unsigned char & value) +void Echo::changepar(const int &npar, const unsigned char &value) { - switch (npar) { + switch(npar) { case 0: setvolume(value); break; @@ -224,34 +237,34 @@ void Echo::changepar(const int & npar,const unsigned char & value) case 6: sethidamp(value); break; - }; + } } -unsigned char Echo::getpar(const int & npar)const +unsigned char Echo::getpar(const int &npar) const { - switch (npar) { + switch(npar) { case 0: - return(Pvolume); + return Pvolume; break; case 1: - return(Ppanning); + return Ppanning; break; case 2: - return(delay.getmVal()); + return delay.getmVal(); break; case 3: - return(Plrdelay); + return Plrdelay; break; case 4: - return(Plrcross); + return Plrcross; break; case 5: - return(Pfb); + return Pfb; break; case 6: - return(Phidamp); + return Phidamp; break; - }; - return(0);// in case of bogus parameter number + } + return 0; // in case of bogus parameter number } diff --git a/plugins/zynaddsubfx/src/Effects/Echo.h b/plugins/zynaddsubfx/src/Effects/Echo.h index 5ed429609..4dbe40925 100644 --- a/plugins/zynaddsubfx/src/Effects/Echo.h +++ b/plugins/zynaddsubfx/src/Effects/Echo.h @@ -32,105 +32,107 @@ /**Echo Effect*/ class Echo:public Effect { -public: + public: - /** - * The Constructor For Echo - * @param insertion_ integer to determine if Echo is an insertion effect - * or not - * @param efxoutl_ Effect out Left Channel - * @param efxoutr_ Effect out Right Channel - * @return An initialized Echo Object - */ - Echo(const int & insertion_,REALTYPE *const efxoutl_,REALTYPE *const efxoutr_); + /** + * The Constructor For Echo + * @param insertion_ integer to determine if Echo is an insertion effect + * or not + * @param efxoutl_ Effect out Left Channel + * @param efxoutr_ Effect out Right Channel + * @return An initialized Echo Object + */ + Echo(const int &insertion_, + REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_); - /** - * The destructor - */ - ~Echo(); + /** + * The destructor + */ + ~Echo(); - /** - * Outputs the echo to efxoutl and efxoutr - * @param smpsl Sample from Left channel - * @param smpsr Sample from Right channel - * \todo try to figure out if smpsl should be const *const - * or not (It should be) - */ - void out(REALTYPE *const smpsl,REALTYPE *const smpr); - void out(const Stereo &input); + /** + * Outputs the echo to efxoutl and efxoutr + * @param smpsl Sample from Left channel + * @param smpsr Sample from Right channel + * \todo try to figure out if smpsl should be const *const + * or not (It should be) + */ + void out(REALTYPE *const smpsl, REALTYPE *const smpr); + void out(const Stereo &input); - /** - * Sets the state of Echo to the specified preset - * @param npreset number of chosen preset - */ - void setpreset(unsigned char npreset); + /** + * Sets the state of Echo to the specified preset + * @param npreset number of chosen preset + */ + void setpreset(unsigned char npreset); - /** - * Sets the value of the chosen variable - * - * The possible parameters are: - * -# Volume - * -# Panning - * -# Delay - * -# L/R Delay - * -# L/R Crossover - * -# Feedback - * -# Dampening - * @param npar number of chosen parameter - * @param value the new value - */ - void changepar(const int & npar,const unsigned char & value); + /** + * Sets the value of the chosen variable + * + * The possible parameters are: + * -# Volume + * -# Panning + * -# Delay + * -# L/R Delay + * -# L/R Crossover + * -# Feedback + * -# Dampening + * @param npar number of chosen parameter + * @param value the new value + */ + void changepar(const int &npar, const unsigned char &value); - /** - * Gets the specified parameter - * - * The possible parameters are - * -# Volume - * -# Panning - * -# Delay - * -# L/R Delay - * -# L/R Crossover - * -# Feedback - * -# Dampening - * @param npar number of chosen parameter - * @return value of parameter - */ - unsigned char getpar(const int & npar)const; + /** + * Gets the specified parameter + * + * The possible parameters are + * -# Volume + * -# Panning + * -# Delay + * -# L/R Delay + * -# L/R Crossover + * -# Feedback + * -# Dampening + * @param npar number of chosen parameter + * @return value of parameter + */ + unsigned char getpar(const int &npar) const; - int getnumparams(); + int getnumparams(); - /**Zeros out the state of the Echo*/ - void cleanup(); + /**Zeros out the state of the Echo*/ + void cleanup(); - /**\todo This function needs to be implemented or the prototype should be removed*/ - void setdryonly(); -private: - //Parameters - char Pvolume;/**<#1 Volume or Dry/Wetness*/ - char Ppanning;/**<#2 Panning*/ - DelayCtl delay;/**<#3 Delay of the Echo*/ - char Plrdelay;/**<#4 L/R delay difference*/ - char Plrcross;/**<#5 L/R Mixing*/ - char Pfb;/**<#6Feedback*/ - char Phidamp;/**<#7Dampening of the Echo*/ + /**\todo This function needs to be implemented or the prototype should be removed*/ + void setdryonly(); + private: + //Parameters + char Pvolume; /**<#1 Volume or Dry/Wetness*/ + char Ppanning; /**<#2 Panning*/ + DelayCtl delay; /**<#3 Delay of the Echo*/ + char Plrdelay; /**<#4 L/R delay difference*/ + char Plrcross; /**<#5 L/R Mixing*/ + char Pfb; /**<#6Feedback*/ + char Phidamp; /**<#7Dampening of the Echo*/ - void setvolume(const unsigned char & Pvolume); - void setpanning(const unsigned char & Ppanning); - void setdelay(const unsigned char & Pdelay); - void setlrdelay(const unsigned char & Plrdelay); - void setlrcross(const unsigned char & Plrcross); - void setfb(const unsigned char & Pfb); - void sethidamp(const unsigned char & Phidamp); + void setvolume(const unsigned char &Pvolume); + void setpanning(const unsigned char &Ppanning); + void setdelay(const unsigned char &Pdelay); + void setlrdelay(const unsigned char &Plrdelay); + void setlrcross(const unsigned char &Plrcross); + void setfb(const unsigned char &Pfb); + void sethidamp(const unsigned char &Phidamp); - //Real Parameters - REALTYPE panning,lrcross,fb,hidamp; //needs better names - int dl,dr,lrdelay; //needs better names + //Real Parameters + REALTYPE panning, lrcross, fb, hidamp; //needs better names + int dl, dr, lrdelay; //needs better names - void initdelays(); - Stereo delaySample; - Stereo old; + void initdelays(); + Stereo delaySample; + Stereo old; - int kl,kr; + int kl, kr; }; #endif diff --git a/plugins/zynaddsubfx/src/Effects/Effect.cpp b/plugins/zynaddsubfx/src/Effects/Effect.cpp index b0b4dac30..0a17ebdc4 100644 --- a/plugins/zynaddsubfx/src/Effects/Effect.cpp +++ b/plugins/zynaddsubfx/src/Effects/Effect.cpp @@ -23,8 +23,9 @@ #include "Effect.h" -Effect::Effect(bool insertion_,REALTYPE *const efxoutl_, - REALTYPE *const efxoutr_,FilterParams *filterpars_, - const unsigned char & Ppreset_) - :Ppreset(Ppreset_),efxoutl(efxoutl_),efxoutr(efxoutr_), - filterpars(filterpars_),insertion(insertion_) {} +Effect::Effect(bool insertion_, REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_, FilterParams *filterpars_, + const unsigned char &Ppreset_) + :Ppreset(Ppreset_), efxoutl(efxoutl_), efxoutr(efxoutr_), + filterpars(filterpars_), insertion(insertion_) {} + diff --git a/plugins/zynaddsubfx/src/Effects/Effect.h b/plugins/zynaddsubfx/src/Effects/Effect.h index 0da3d8317..7f769ead8 100644 --- a/plugins/zynaddsubfx/src/Effects/Effect.h +++ b/plugins/zynaddsubfx/src/Effects/Effect.h @@ -31,71 +31,71 @@ /**this class is inherited by the all effects(Reverb, Echo, ..)*/ class Effect { -public: - /** - * Effect Constructor - * @param insertion_ 1 when it is an insertion Effect and 0 when it - * is not an insertion Effect - * @param efxoutl_ Effect output buffer Left channel - * @param efxoutr_ Effect output buffer Right channel - * @param filterpars_ pointer to FilterParams array - * @param Ppreset_ chosen preset - * @return Initialized Effect object*/ - Effect(bool insertion_,REALTYPE *const efxoutl_, - REALTYPE *const efxoutr_,FilterParams *filterpars_, - const unsigned char & Ppreset_); - /**Deconstructor - * - * Deconstructs the Effect and releases any resouces that it has - * allocated for itself*/ - virtual ~Effect() {}; - /** - * Choose a preset - * @param npreset number of chosen preset*/ - virtual void setpreset(unsigned char npreset)=0; - /**Change parameter npar to value - * @param npar chosen parameter - * @param value chosen new value*/ - virtual void changepar(const int &npar,const unsigned char &value)=0; - /**Get the value of parameter npar - * @param npar chosen parameter - * @return the value of the parameter in an unsigned char or 0 if it - * does not exist*/ - virtual unsigned char getpar(const int &npar)const=0; - /**Output result of effect based on the given buffers - * - * This method should result in the effect generating its results - * and placing them into the efxoutl and efxoutr buffers. - * Every Effect should overide this method. - * - * @param smpsl Input buffer for the Left channel - * @param smpsr Input buffer for the Right channel - */ - virtual void out(REALTYPE *const smpsl,REALTYPE *const smpsr)=0; - /**Reset the state of the effect*/ - virtual void cleanup() {}; - /**This is only used for EQ (for user interface)*/ - virtual REALTYPE getfreqresponse(REALTYPE freq) { - return (0); - }; + public: + /** + * Effect Constructor + * @param insertion_ 1 when it is an insertion Effect and 0 when it + * is not an insertion Effect + * @param efxoutl_ Effect output buffer Left channel + * @param efxoutr_ Effect output buffer Right channel + * @param filterpars_ pointer to FilterParams array + * @param Ppreset_ chosen preset + * @return Initialized Effect object*/ + Effect(bool insertion_, REALTYPE *const efxoutl_, + REALTYPE *const efxoutr_, FilterParams *filterpars_, + const unsigned char &Ppreset_); + /**Deconstructor + * + * Deconstructs the Effect and releases any resouces that it has + * allocated for itself*/ + virtual ~Effect() {} + /** + * Choose a preset + * @param npreset number of chosen preset*/ + virtual void setpreset(unsigned char npreset) = 0; + /**Change parameter npar to value + * @param npar chosen parameter + * @param value chosen new value*/ + virtual void changepar(const int &npar, const unsigned char &value) = 0; + /**Get the value of parameter npar + * @param npar chosen parameter + * @return the value of the parameter in an unsigned char or 0 if it + * does not exist*/ + virtual unsigned char getpar(const int &npar) const = 0; + /**Output result of effect based on the given buffers + * + * This method should result in the effect generating its results + * and placing them into the efxoutl and efxoutr buffers. + * Every Effect should overide this method. + * + * @param smpsl Input buffer for the Left channel + * @param smpsr Input buffer for the Right channel + */ + virtual void out(REALTYPE *const smpsl, REALTYPE *const smpsr) = 0; + /**Reset the state of the effect*/ + virtual void cleanup() {} + /**This is only used for EQ (for user interface)*/ + virtual REALTYPE getfreqresponse(REALTYPE freq) { + return 0; + } - unsigned char Ppreset;/**0.49999999) incx=0.499999999; //Limit the Frequency + REALTYPE lfofreq = (pow(2, Pfreq / 127.0 * 10.0) - 1.0) * 0.03; + incx = fabs(lfofreq) * (REALTYPE)SOUND_BUFFER_SIZE / (REALTYPE)SAMPLE_RATE; + if(incx > 0.49999999) + incx = 0.499999999; //Limit the Frequency - lfornd=Prandomness/127.0; - if (lfornd<0.0) lfornd=0.0; - else if (lfornd>1.0) lfornd=1.0; + lfornd = Prandomness / 127.0; + if(lfornd < 0.0) + lfornd = 0.0; + else + if(lfornd > 1.0) + lfornd = 1.0; - if (PLFOtype>1) PLFOtype=1;//this has to be updated if more lfo's are added - lfotype=PLFOtype; + if(PLFOtype > 1) + PLFOtype = 1; //this has to be updated if more lfo's are added + lfotype = PLFOtype; - xr=fmod(xl+(Pstereo-64.0)/127.0+1.0,1.0); -}; + xr = fmod(xl + (Pstereo - 64.0) / 127.0 + 1.0, 1.0); +} /* @@ -74,44 +78,50 @@ void EffectLFO::updateparams() REALTYPE EffectLFO::getlfoshape(REALTYPE x) { REALTYPE out; - switch (lfotype) { + switch(lfotype) { case 1: //EffectLFO_TRIANGLE - if ((x>0.0)&&(x<0.25)) out=4.0*x; - else if ((x>0.25)&&(x<0.75)) out=2-4*x; - else out=4.0*x-4.0; + if((x > 0.0) && (x < 0.25)) + out = 4.0 * x; + else + if((x > 0.25) && (x < 0.75)) + out = 2 - 4 * x; + else + out = 4.0 * x - 4.0; break; - /**\todo more to be added here; also ::updateparams() need to be updated (to allow more lfotypes)*/ + /**\todo more to be added here; also ::updateparams() need to be updated (to allow more lfotypes)*/ default: - out=cos(x*2*PI);//EffectLFO_SINE - }; - return(out); -}; + out = cos(x * 2 * PI); //EffectLFO_SINE + } + return out; +} /* * LFO output */ -void EffectLFO::effectlfoout(REALTYPE *outl,REALTYPE *outr) +void EffectLFO::effectlfoout(REALTYPE *outl, REALTYPE *outr) { REALTYPE out; - out=getlfoshape(xl); - if ((lfotype==0)||(lfotype==1)) out*=(ampl1+xl*(ampl2-ampl1)); - xl+=incx; - if (xl>1.0) { - xl-=1.0; - ampl1=ampl2; - ampl2=(1.0-lfornd)+lfornd*RND; - }; - *outl=(out+1.0)*0.5; + out = getlfoshape(xl); + if((lfotype == 0) || (lfotype == 1)) + out *= (ampl1 + xl * (ampl2 - ampl1)); + xl += incx; + if(xl > 1.0) { + xl -= 1.0; + ampl1 = ampl2; + ampl2 = (1.0 - lfornd) + lfornd * RND; + } + *outl = (out + 1.0) * 0.5; - out=getlfoshape(xr); - if ((lfotype==0)||(lfotype==1)) out*=(ampr1+xr*(ampr2-ampr1)); - xr+=incx; - if (xr>1.0) { - xr-=1.0; - ampr1=ampr2; - ampr2=(1.0-lfornd)+lfornd*RND; - }; - *outr=(out+1.0)*0.5; -}; + out = getlfoshape(xr); + if((lfotype == 0) || (lfotype == 1)) + out *= (ampr1 + xr * (ampr2 - ampr1)); + xr += incx; + if(xr > 1.0) { + xr -= 1.0; + ampr1 = ampr2; + ampr2 = (1.0 - lfornd) + lfornd * RND; + } + *outr = (out + 1.0) * 0.5; +} diff --git a/plugins/zynaddsubfx/src/Effects/EffectLFO.h b/plugins/zynaddsubfx/src/Effects/EffectLFO.h index 54a595110..cc14d6652 100644 --- a/plugins/zynaddsubfx/src/Effects/EffectLFO.h +++ b/plugins/zynaddsubfx/src/Effects/EffectLFO.h @@ -28,24 +28,24 @@ * \todo see if this should inherit LFO*/ class EffectLFO { -public: - EffectLFO(); - ~EffectLFO(); - void effectlfoout(REALTYPE *outl,REALTYPE *outr); - void updateparams(); - unsigned char Pfreq; - unsigned char Prandomness; - unsigned char PLFOtype; - unsigned char Pstereo;//"64"=0 -private: - REALTYPE getlfoshape(REALTYPE x); + public: + EffectLFO(); + ~EffectLFO(); + void effectlfoout(REALTYPE *outl, REALTYPE *outr); + void updateparams(); + unsigned char Pfreq; + unsigned char Prandomness; + unsigned char PLFOtype; + unsigned char Pstereo; //"64"=0 + private: + REALTYPE getlfoshape(REALTYPE x); - REALTYPE xl,xr; - REALTYPE incx; - REALTYPE ampl1,ampl2,ampr1,ampr2;//necessary for "randomness" - REALTYPE lfointensity; - REALTYPE lfornd; - char lfotype; /**\todo GET RID OF CHAR (replace with short or enum)*/ + REALTYPE xl, xr; + REALTYPE incx; + REALTYPE ampl1, ampl2, ampr1, ampr2; //necessary for "randomness" + REALTYPE lfointensity; + REALTYPE lfornd; + char lfotype; /**\todo GET RID OF CHAR (replace with short or enum)*/ }; diff --git a/plugins/zynaddsubfx/src/Effects/EffectMgr.cpp b/plugins/zynaddsubfx/src/Effects/EffectMgr.cpp index 081101184..cbb44c02f 100644 --- a/plugins/zynaddsubfx/src/Effects/EffectMgr.cpp +++ b/plugins/zynaddsubfx/src/Effects/EffectMgr.cpp @@ -22,11 +22,11 @@ #include "EffectMgr.h" -EffectMgr::EffectMgr(int insertion_,pthread_mutex_t *mutex_) - :insertion(insertion_), - efxoutl(new REALTYPE[SOUND_BUFFER_SIZE]), - efxoutr(new REALTYPE[SOUND_BUFFER_SIZE]), - filterpars(NULL),nefx(0),efx(NULL),mutex(mutex_),dryonly(false) +EffectMgr::EffectMgr(int insertion_, pthread_mutex_t *mutex_) + :insertion(insertion_), + efxoutl(new REALTYPE[SOUND_BUFFER_SIZE]), + efxoutr(new REALTYPE[SOUND_BUFFER_SIZE]), + filterpars(NULL), nefx(0), efx(NULL), mutex(mutex_), dryonly(false) { setpresettype("Peffect"); /**\todo Figure out what this is doing * , as it might be another leaky abstraction.*/ @@ -36,10 +36,10 @@ EffectMgr::EffectMgr(int insertion_,pthread_mutex_t *mutex_) // mutex=mutex_; // efxoutl=new REALTYPE[SOUND_BUFFER_SIZE]; // efxoutr=new REALTYPE[SOUND_BUFFER_SIZE]; - for (int i=0;ifilterpars; + if(efx != NULL) + filterpars = efx->filterpars; } /* @@ -112,7 +116,7 @@ void EffectMgr::changeeffect(int nefx_) */ int EffectMgr::geteffect() { - return (nefx); + return nefx; } /* @@ -120,7 +124,8 @@ int EffectMgr::geteffect() */ void EffectMgr::cleanup() { - if (efx!=NULL) efx->cleanup(); + if(efx != NULL) + efx->cleanup(); } @@ -130,8 +135,10 @@ void EffectMgr::cleanup() unsigned char EffectMgr::getpreset() { - if (efx!=NULL) return(efx->Ppreset); - else return(0); + if(efx != NULL) + return efx->Ppreset; + else + return 0; } /* @@ -139,7 +146,8 @@ unsigned char EffectMgr::getpreset() */ void EffectMgr::changepreset_nolock(unsigned char npreset) { - if (efx!=NULL) efx->setpreset(npreset); + if(efx != NULL) + efx->setpreset(npreset); } /* @@ -156,19 +164,20 @@ void EffectMgr::changepreset(unsigned char npreset) /* * Change a parameter of the current effect */ -void EffectMgr::seteffectpar_nolock(int npar,unsigned char value) +void EffectMgr::seteffectpar_nolock(int npar, unsigned char value) { - if (efx==NULL) return; - efx->changepar(npar,value); + if(efx == NULL) + return; + efx->changepar(npar, value); } /* * Change a parameter of the current effect (with thread locking) */ -void EffectMgr::seteffectpar(int npar,unsigned char value) +void EffectMgr::seteffectpar(int npar, unsigned char value) { pthread_mutex_lock(mutex); - seteffectpar_nolock(npar,value); + seteffectpar_nolock(npar, value); pthread_mutex_unlock(mutex); } @@ -177,80 +186,85 @@ void EffectMgr::seteffectpar(int npar,unsigned char value) */ unsigned char EffectMgr::geteffectpar(int npar) { - if (efx==NULL) return(0); - return(efx->getpar(npar)); + if(efx == NULL) + return 0; + return efx->getpar(npar); } /* * Apply the effect */ -void EffectMgr::out(REALTYPE *smpsl,REALTYPE *smpsr) +void EffectMgr::out(REALTYPE *smpsl, REALTYPE *smpsr) { int i; - if (efx==NULL) { - if (insertion==0) - for (i=0;iout(smpsl,smpsr); + } + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + smpsl[i] += denormalkillbuf[i]; + smpsr[i] += denormalkillbuf[i]; + efxoutl[i] = 0.0; + efxoutr[i] = 0.0; + } + efx->out(smpsl, smpsr); - REALTYPE volume=efx->volume; + REALTYPE volume = efx->volume; - if (nefx==7) {//this is need only for the EQ effect + if(nefx == 7) { //this is need only for the EQ effect /**\todo figure out why*/ - for (i=0;ioutvolume); + if(efx == NULL) + return 1.0; + else + return efx->outvolume; } @@ -268,65 +284,72 @@ REALTYPE EffectMgr::sysefxgetvolume() */ REALTYPE EffectMgr::getEQfreqresponse(REALTYPE freq) { - if (nefx==7) return(efx->getfreqresponse(freq)); - else return(0.0); + if(nefx == 7) + return efx->getfreqresponse(freq); + else + return 0.0; } void EffectMgr::setdryonly(bool value) { - dryonly=value; + dryonly = value; } void EffectMgr::add2XML(XMLwrapper *xml) { - xml->addpar("type",geteffect()); + xml->addpar("type", geteffect()); - if ((efx==NULL)||(geteffect()==0)) return; - xml->addpar("preset",efx->Ppreset); + if((efx == NULL) || (geteffect() == 0)) + return; + xml->addpar("preset", efx->Ppreset); xml->beginbranch("EFFECT_PARAMETERS"); - for (int n=0;n<128;n++) { /**\todo evaluate who should oversee saving - * and loading of parameters*/ - int par=geteffectpar(n); - if (par==0) continue; - xml->beginbranch("par_no",n); - xml->addpar("par",par); + for(int n = 0; n < 128; n++) { + /**\todo evaluate who should oversee saving + * and loading of parameters*/ + int par = geteffectpar(n); + if(par == 0) + continue; + xml->beginbranch("par_no", n); + xml->addpar("par", par); xml->endbranch(); - }; - if (filterpars!=NULL) { + } + if(filterpars != NULL) { xml->beginbranch("FILTER"); filterpars->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); } void EffectMgr::getfromXML(XMLwrapper *xml) { - changeeffect(xml->getpar127("type",geteffect())); + changeeffect(xml->getpar127("type", geteffect())); - if ((efx==NULL)||(geteffect()==0)) return; + if((efx == NULL) || (geteffect() == 0)) + return; - efx->Ppreset=xml->getpar127("preset",efx->Ppreset); + efx->Ppreset = xml->getpar127("preset", efx->Ppreset); - if (xml->enterbranch("EFFECT_PARAMETERS")) { - for (int n=0;n<128;n++) { - seteffectpar_nolock(n,0);//erase effect parameter - if (xml->enterbranch("par_no",n)==0) continue; + if(xml->enterbranch("EFFECT_PARAMETERS")) { + for(int n = 0; n < 128; n++) { + seteffectpar_nolock(n, 0); //erase effect parameter + if(xml->enterbranch("par_no", n) == 0) + continue; - int par=geteffectpar(n); - seteffectpar_nolock(n,xml->getpar127("par",par)); + int par = geteffectpar(n); + seteffectpar_nolock(n, xml->getpar127("par", par)); xml->exitbranch(); - }; - if (filterpars!=NULL) { - if (xml->enterbranch("FILTER")) { + } + if(filterpars != NULL) { + if(xml->enterbranch("FILTER")) { filterpars->getfromXML(xml); xml->exitbranch(); - }; - }; + } + } xml->exitbranch(); - }; + } cleanup(); } diff --git a/plugins/zynaddsubfx/src/Effects/EffectMgr.h b/plugins/zynaddsubfx/src/Effects/EffectMgr.h index dd5d52ce6..2a1257707 100644 --- a/plugins/zynaddsubfx/src/Effects/EffectMgr.h +++ b/plugins/zynaddsubfx/src/Effects/EffectMgr.h @@ -41,62 +41,62 @@ /**Effect manager, an interface betwen the program and effects*/ class EffectMgr:public Presets { -public: - EffectMgr(int insertion_,pthread_mutex_t *mutex_); - ~EffectMgr(); + public: + EffectMgr(int insertion_, pthread_mutex_t *mutex_); + ~EffectMgr(); - void add2XML(XMLwrapper *xml); - void defaults(); - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + void getfromXML(XMLwrapper *xml); - void out(REALTYPE *smpsl,REALTYPE *smpsr); + void out(REALTYPE *smpsl, REALTYPE *smpsr); - void setdryonly(bool value); + void setdryonly(bool value); - /**get the output(to speakers) volume of the systemeffect*/ - REALTYPE sysefxgetvolume(); + /**get the output(to speakers) volume of the systemeffect*/ + REALTYPE sysefxgetvolume(); - void cleanup();/** -#include "Phaser.h" -#define PHASER_LFO_SHAPE 2 - -Phaser::Phaser(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0),old(1),oldgain(0.0) -{ - setpreset(Ppreset); - cleanup(); -}; - -Phaser::~Phaser() -{ -}; - - -/* - * Effect output - */ -void Phaser::out(REALTYPE *smpsl,REALTYPE *smpsr) -{ - int i,j; - REALTYPE lfol,lfor,lgain,rgain,tmp; - - lfo.effectlfoout(&lfol,&lfor); - lgain=lfol; - rgain=lfor; - lgain=(exp(lgain*PHASER_LFO_SHAPE)-1)/(exp(PHASER_LFO_SHAPE)-1.0); - rgain=(exp(rgain*PHASER_LFO_SHAPE)-1)/(exp(PHASER_LFO_SHAPE)-1.0); - - - lgain=1.0-phase*(1.0-depth)-(1.0-phase)*lgain*depth; - rgain=1.0-phase*(1.0-depth)-(1.0-phase)*rgain*depth; - - if (lgain>1.0) lgain=1.0; - else if (lgain<0.0) lgain=0.0; - if (rgain>1.0) rgain=1.0; - else if (rgain<0.0) rgain=0.0; - - for (i=0;i(lgain,rgain); - - if (Poutsub!=0) - for (i=0;i(0.0); - old.l().clear(); - old.r().clear(); -}; - -/* - * Parameter control - */ -void Phaser::setdepth(const unsigned char &Pdepth) -{ - this->Pdepth=Pdepth; - depth=(Pdepth/127.0); -}; - - -void Phaser::setfb(const unsigned char &Pfb) -{ - this->Pfb=Pfb; - fb=(Pfb-64.0)/64.1; -}; - -void Phaser::setvolume(const unsigned char &Pvolume) -{ - this->Pvolume=Pvolume; - outvolume=Pvolume/127.0; - if (insertion==0) volume=1.0; - else volume=outvolume; -}; - -void Phaser::setpanning(const unsigned char &Ppanning) -{ - this->Ppanning=Ppanning; - panning=Ppanning/127.0; -}; - -void Phaser::setlrcross(const unsigned char &Plrcross) -{ - this->Plrcross=Plrcross; - lrcross=Plrcross/127.0; -}; - -void Phaser::setstages(const unsigned char &Pstages) -{ - if (Pstages>=MAX_PHASER_STAGES) this->Pstages=MAX_PHASER_STAGES-1; - else this->Pstages=Pstages; - old=Stereo(Pstages*2); - cleanup(); -}; - -void Phaser::setphase(const unsigned char &Pphase) -{ - this->Pphase=Pphase; - phase=(Pphase/127.0); -}; - - -void Phaser::setpreset(unsigned char npreset) -{ - const int PRESET_SIZE=12; - const int NUM_PRESETS=6; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ - //Phaser1 - {64,64,36,0,0,64,110,64,1,0,0,20}, - //Phaser2 - {64,64,35,0,0,88,40,64,3,0,0,20}, - //Phaser3 - {64,64,31,0,0,66,68,107,2,0,0,20}, - //Phaser4 - {39,64,22,0,0,66,67,10,5,0,1,20}, - //Phaser5 - {64,64,20,0,1,110,67,78,10,0,0,20}, - //Phaser6 - {64,64,53,100,0,58,37,78,3,0,0,20} - }; - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n1) Poutsub=1; - else Poutsub=value; - break; - case 11: - setphase(value); - break; - }; -}; - -unsigned char Phaser::getpar(const int &npar)const -{ - switch (npar) { - case 0: - return(Pvolume); - break; - case 1: - return(Ppanning); - break; - case 2: - return(lfo.Pfreq); - break; - case 3: - return(lfo.Prandomness); - break; - case 4: - return(lfo.PLFOtype); - break; - case 5: - return(lfo.Pstereo); - break; - case 6: - return(Pdepth); - break; - case 7: - return(Pfb); - break; - case 8: - return(Pstages); - break; - case 9: - return(Plrcross); - break; - case 10: - return(Poutsub); - break; - case 11: - return(Pphase); - break; - default: - return (0); - }; - -}; - +/* + ZynAddSubFX - a software synthesizer + + Phaser.C - Phaser effect + 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 "Phaser.h" +#define PHASER_LFO_SHAPE 2 + +Phaser::Phaser(const int &insertion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0), old(1), oldgain(0.0) +{ + setpreset(Ppreset); + cleanup(); +} + +Phaser::~Phaser() +{} + + +/* + * Effect output + */ +void Phaser::out(REALTYPE *smpsl, REALTYPE *smpsr) +{ + int i, j; + REALTYPE lfol, lfor, lgain, rgain, tmp; + + lfo.effectlfoout(&lfol, &lfor); + lgain = lfol; + rgain = lfor; + lgain = (exp(lgain * PHASER_LFO_SHAPE) - 1) / (exp(PHASER_LFO_SHAPE) - 1.0); + rgain = (exp(rgain * PHASER_LFO_SHAPE) - 1) / (exp(PHASER_LFO_SHAPE) - 1.0); + + + lgain = 1.0 - phase * (1.0 - depth) - (1.0 - phase) * lgain * depth; + rgain = 1.0 - phase * (1.0 - depth) - (1.0 - phase) * rgain * depth; + + if(lgain > 1.0) + lgain = 1.0; + else + if(lgain < 0.0) + lgain = 0.0; + if(rgain > 1.0) + rgain = 1.0; + else + if(rgain < 0.0) + rgain = 0.0; + + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + REALTYPE x = (REALTYPE) i / SOUND_BUFFER_SIZE; + REALTYPE x1 = 1.0 - x; + REALTYPE gl = lgain * x + oldgain.left() * x1; + REALTYPE gr = rgain * x + oldgain.right() * x1; + REALTYPE inl = smpsl[i] * panning + fbl; + REALTYPE inr = smpsr[i] * (1.0 - panning) + fbr; + + //Left channel + for(j = 0; j < Pstages * 2; j++) { //Phasing routine + tmp = old.left()[j]; + old.left()[j] = gl * tmp + inl; + inl = tmp - gl *old.left()[j]; + } + //Right channel + for(j = 0; j < Pstages * 2; j++) { //Phasing routine + tmp = old.right()[j]; + old.right()[j] = gr * tmp + inr; + inr = tmp - gr *old.right()[j]; + } + //Left/Right crossing + REALTYPE l = inl; + REALTYPE r = inr; + inl = l * (1.0 - lrcross) + r * lrcross; + inr = r * (1.0 - lrcross) + l * lrcross; + + fbl = inl * fb; + fbr = inr * fb; + efxoutl[i] = inl; + efxoutr[i] = inr; + } + + oldgain = Stereo(lgain, rgain); + + if(Poutsub != 0) + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + efxoutl[i] *= -1.0; + efxoutr[i] *= -1.0; + } + ; +} + +/* + * Cleanup the effect + */ +void Phaser::cleanup() +{ + fbl = 0.0; + fbr = 0.0; + oldgain = Stereo(0.0); + old.l().clear(); + old.r().clear(); +} + +/* + * Parameter control + */ +void Phaser::setdepth(const unsigned char &Pdepth) +{ + this->Pdepth = Pdepth; + depth = (Pdepth / 127.0); +} + + +void Phaser::setfb(const unsigned char &Pfb) +{ + this->Pfb = Pfb; + fb = (Pfb - 64.0) / 64.1; +} + +void Phaser::setvolume(const unsigned char &Pvolume) +{ + this->Pvolume = Pvolume; + outvolume = Pvolume / 127.0; + if(insertion == 0) + volume = 1.0; + else + volume = outvolume; +} + +void Phaser::setpanning(const unsigned char &Ppanning) +{ + this->Ppanning = Ppanning; + panning = Ppanning / 127.0; +} + +void Phaser::setlrcross(const unsigned char &Plrcross) +{ + this->Plrcross = Plrcross; + lrcross = Plrcross / 127.0; +} + +void Phaser::setstages(const unsigned char &Pstages) +{ + if(Pstages >= MAX_PHASER_STAGES) + this->Pstages = MAX_PHASER_STAGES - 1; + else + this->Pstages = Pstages; + old = Stereo(Pstages * 2); + cleanup(); +} + +void Phaser::setphase(const unsigned char &Pphase) +{ + this->Pphase = Pphase; + phase = (Pphase / 127.0); +} + + +void Phaser::setpreset(unsigned char npreset) +{ + const int PRESET_SIZE = 12; + const int NUM_PRESETS = 6; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { + //Phaser1 + {64, 64, 36, 0, 0, 64, 110, 64, 1, 0, 0, 20}, + //Phaser2 + {64, 64, 35, 0, 0, 88, 40, 64, 3, 0, 0, 20}, + //Phaser3 + {64, 64, 31, 0, 0, 66, 68, 107, 2, 0, 0, 20}, + //Phaser4 + {39, 64, 22, 0, 0, 66, 67, 10, 5, 0, 1, 20}, + //Phaser5 + {64, 64, 20, 0, 1, 110, 67, 78, 10, 0, 0, 20}, + //Phaser6 + {64, 64, 53, 100, 0, 58, 37, 78, 3, 0, 0, 20} + }; + if(npreset >= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + Ppreset = npreset; +} + + +void Phaser::changepar(const int &npar, const unsigned char &value) +{ + switch(npar) { + case 0: + setvolume(value); + break; + case 1: + setpanning(value); + break; + case 2: + lfo.Pfreq = value; + lfo.updateparams(); + break; + case 3: + lfo.Prandomness = value; + lfo.updateparams(); + break; + case 4: + lfo.PLFOtype = value; + lfo.updateparams(); + break; + case 5: + lfo.Pstereo = value; + lfo.updateparams(); + break; + case 6: + setdepth(value); + break; + case 7: + setfb(value); + break; + case 8: + setstages(value); + break; + case 9: + setlrcross(value); + break; + case 10: + if(value > 1) + Poutsub = 1; + else + Poutsub = value; + break; + case 11: + setphase(value); + break; + } +} + +unsigned char Phaser::getpar(const int &npar) const +{ + switch(npar) { + case 0: + return Pvolume; + break; + case 1: + return Ppanning; + break; + case 2: + return lfo.Pfreq; + break; + case 3: + return lfo.Prandomness; + break; + case 4: + return lfo.PLFOtype; + break; + case 5: + return lfo.Pstereo; + break; + case 6: + return Pdepth; + break; + case 7: + return Pfb; + break; + case 8: + return Pstages; + break; + case 9: + return Plrcross; + break; + case 10: + return Poutsub; + break; + case 11: + return Pphase; + break; + default: + return 0; + } +} + diff --git a/plugins/zynaddsubfx/src/Effects/Phaser.h b/plugins/zynaddsubfx/src/Effects/Phaser.h index 700af3dfc..30370a8c6 100644 --- a/plugins/zynaddsubfx/src/Effects/Phaser.h +++ b/plugins/zynaddsubfx/src/Effects/Phaser.h @@ -1,76 +1,76 @@ -/* - ZynAddSubFX - a software synthesizer - - Phaser.h - Phaser effect - 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 - -*/ - -#ifndef PHASER_H -#define PHASER_H -#include "../globals.h" -#include "../Misc/Stereo.h" -#include "../Samples/AuSample.h" -#include "Effect.h" -#include "EffectLFO.h" - -#define MAX_PHASER_STAGES 12 -/**Phaser Effect*/ -class Phaser:public Effect -{ -public: - Phaser(const int &insetion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - ~Phaser(); - void out(REALTYPE *smpsl,REALTYPE *smpsr); - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - void cleanup(); - void setdryonly(); - -private: - //Parametrii Phaser - EffectLFO lfo;/** old; - //REALTYPE oldlgain,oldrgain; - Stereo oldgain; -}; - -#endif - +/* + ZynAddSubFX - a software synthesizer + + Phaser.h - Phaser effect + 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 + +*/ + +#ifndef PHASER_H +#define PHASER_H +#include "../globals.h" +#include "../Misc/Stereo.h" +#include "../Samples/AuSample.h" +#include "Effect.h" +#include "EffectLFO.h" + +#define MAX_PHASER_STAGES 12 +/**Phaser Effect*/ +class Phaser:public Effect +{ + public: + Phaser(const int &insetion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_); + ~Phaser(); + void out(REALTYPE *smpsl, REALTYPE *smpsr); + void setpreset(unsigned char npreset); + void changepar(const int &npar, const unsigned char &value); + unsigned char getpar(const int &npar) const; + void cleanup(); + void setdryonly(); + + private: + //Parametrii Phaser + EffectLFO lfo; /** old; + //REALTYPE oldlgain,oldrgain; + Stereo oldgain; +}; + +#endif + diff --git a/plugins/zynaddsubfx/src/Effects/Reverb.cpp b/plugins/zynaddsubfx/src/Effects/Reverb.cpp index 8b91c054d..27b0a554b 100644 --- a/plugins/zynaddsubfx/src/Effects/Reverb.cpp +++ b/plugins/zynaddsubfx/src/Effects/Reverb.cpp @@ -1,506 +1,557 @@ -/* - ZynAddSubFX - a software synthesizer - - Reverb.C - Reverberation effect - 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 "Reverb.h" - -/**\todo: EarlyReflections,Prdelay,Perbalance */ - -Reverb::Reverb(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_) - :Effect(insertion_,efxoutl_,efxoutr_,NULL,0) -{ - inputbuf=new REALTYPE[SOUND_BUFFER_SIZE]; - - bandwidth=NULL; - - //defaults - Pvolume=48; - Ppan=64; - Ptime=64; - Pidelay=40; - Pidelayfb=0; - Prdelay=0; - Plpf=127; - Phpf=0; - Perbalance=64; - Plohidamp=80; - Ptype=1; - Proomsize=64; - Pbandwidth=30; - roomsize=1.0; - rs=1.0; - - for (int i=0;icleanup(); - if (lpf!=NULL) lpf->cleanup(); - -}; - -/* - * Process one channel; 0=left,1=right - */ -void Reverb::processmono(int ch,REALTYPE *output) -{ - int i,j; - REALTYPE fbout,tmp; - /**\todo: implement the high part from lohidamp*/ - - for (j=REV_COMBS*ch;j=comblength) ck=0; - }; - - combk[j]=ck; - lpcomb[j]=lpcombj; - }; - - for (j=REV_APS*ch;j=aplength) ak=0; - }; - apk[j]=ak; - }; -}; - -/* - * Effect output - */ -void Reverb::out(REALTYPE *smps_l, REALTYPE *smps_r) -{ - int i; - if ((Pvolume==0)&&(insertion!=0)) return; - - for (i=0;i=idelaylen) { - idelayk=0; - }; - }; - }; - - if (bandwidth) bandwidth->process(SOUND_BUFFER_SIZE,inputbuf); - - if (lpf!=NULL) lpf->filterout(inputbuf); - if (hpf!=NULL) hpf->filterout(inputbuf); - - processmono(0,efxoutl);//left - processmono(1,efxoutr);//right - - REALTYPE lvol=rs/REV_COMBS*pan; - REALTYPE rvol=rs/REV_COMBS*(1.0-pan); - if (insertion!=0) { - lvol*=2; - rvol*=2; - }; - for (int i=0;iPvolume=Pvolume; - if (insertion==0) { - outvolume=pow(0.01,(1.0-Pvolume/127.0))*4.0; - volume=1.0; - } else { - volume=outvolume=Pvolume/127.0; - if (Pvolume==0) cleanup(); - }; -}; - -void Reverb::setpan(const unsigned char &Ppan) -{ - this->Ppan=Ppan; - pan=(REALTYPE)Ppan/127.0; -}; - -void Reverb::settime(const unsigned char &Ptime) -{ - int i; - REALTYPE t; - this->Ptime=Ptime; - t=pow(60.0,(REALTYPE)Ptime/127.0)-0.97; - - for (i=0;iPlohidamp=Plohidamp; - if (Plohidamp==64) { - lohidamptype=0; - lohifb=0.0; - } else { - if (Plohidamp<64) lohidamptype=1; - if (Plohidamp>64) lohidamptype=2; - x=fabs((REALTYPE)(Plohidamp-64)/64.1); - lohifb=x*x; - }; -}; - -void Reverb::setidelay(const unsigned char &Pidelay) -{ - REALTYPE delay; - this->Pidelay=Pidelay; - delay=pow(50*Pidelay/127.0,2)-1.0; - - if (idelay!=NULL) delete []idelay; - idelay=NULL; - - idelaylen=(int) (SAMPLE_RATE*delay/1000); - if (idelaylen>1) { - idelayk=0; - idelay=new REALTYPE[idelaylen]; - for (int i=0;iPidelayfb=Pidelayfb; - idelayfb=Pidelayfb/128.0; -}; - -void Reverb::sethpf(const unsigned char &Phpf) -{ - this->Phpf=Phpf; - if (Phpf==0) {//No HighPass - if (hpf!=NULL) delete hpf; - hpf=NULL; - } else { - REALTYPE fr=exp(pow(Phpf/127.0,0.5)*log(10000.0))+20.0; - if (hpf==NULL) hpf=new AnalogFilter(3,fr,1,0); - else hpf->setfreq(fr); - }; -}; - -void Reverb::setlpf(const unsigned char &Plpf) -{ - this->Plpf=Plpf; - if (Plpf==127) {//No LowPass - if (lpf!=NULL) delete lpf; - lpf=NULL; - } else { - REALTYPE fr=exp(pow(Plpf/127.0,0.5)*log(25000.0))+40; - if (lpf==NULL) lpf=new AnalogFilter(2,fr,1,0); - else lpf->setfreq(fr); - }; -}; - -void Reverb::settype(unsigned char Ptype) -{ - const int NUM_TYPES=3; - int combtunings[NUM_TYPES][REV_COMBS]={ - //this is unused (for random) - {0,0,0,0,0,0,0,0}, - //Freeverb by Jezar at Dreampoint - {1116,1188,1277,1356,1422,1491,1557,1617}, - //Freeverb by Jezar at Dreampoint //duplicate - {1116,1188,1277,1356,1422,1491,1557,1617} - }; - int aptunings[NUM_TYPES][REV_APS]={ - //this is unused (for random) - {0,0,0,0}, - //Freeverb by Jezar at Dreampoint - {225,341,441,556}, - //Freeverb by Jezar at Dreampoint (duplicate) - {225,341,441,556} - }; - - if (Ptype>=NUM_TYPES) Ptype=NUM_TYPES-1; - this->Ptype=Ptype; - - REALTYPE tmp; - for (int i=0;iREV_COMBS) tmp+=23.0; - tmp*=SAMPLE_RATE/44100.0;//adjust the combs according to the samplerate - if (tmp<10) tmp=10; - - comblen[i]=(int) tmp; - combk[i]=0; - lpcomb[i]=0; - if (comb[i]!=NULL) delete []comb[i]; - comb[i]=new REALTYPE[comblen[i]]; - }; - - for (int i=0;iREV_APS) tmp+=23.0; - tmp*=SAMPLE_RATE/44100.0;//adjust the combs according to the samplerate - if (tmp<10) tmp=10; - aplen[i]=(int) tmp; - apk[i]=0; - if (ap[i]!=NULL) delete []ap[i]; - ap[i]=new REALTYPE[aplen[i]]; - }; - settime(Ptime); - cleanup(); - if (bandwidth) delete bandwidth; - bandwidth=NULL; - if (Ptype==2){//bandwidth - bandwidth=new Unison(SOUND_BUFFER_SIZE/4+1,2.0); - bandwidth->set_size(50); - bandwidth->set_base_frequency(1.0); -#warning sa schimb size-ul - }; -}; - -void Reverb::setroomsize(const unsigned char &Proomsize) -{ - this->Proomsize=Proomsize; - if (Proomsize==0) this->Proomsize=64;//this is because the older versions consider roomsize=0 - roomsize=(this->Proomsize-64.0)/64.0; - if (roomsize>0.0) roomsize*=2.0; - roomsize=pow(10.0,roomsize); - rs=sqrt(roomsize); - settype(Ptype); -}; - -void Reverb::setbandwidth(const unsigned char &Pbandwidth){ - this->Pbandwidth=Pbandwidth; - REALTYPE v=Pbandwidth/127.0; - if (bandwidth) bandwidth->set_bandwidth(pow(v,2.0)*200.0); -}; - -void Reverb::setpreset(unsigned char npreset) -{ - const int PRESET_SIZE=13; - const int NUM_PRESETS=13; - unsigned char presets[NUM_PRESETS][PRESET_SIZE]={ - //Cathedral1 - {80,64,63,24,0,0,0,85,5,83,1,64,20}, - //Cathedral2 - {80,64,69,35,0,0,0,127,0,71,0,64,20}, - //Cathedral3 - {80,64,69,24,0,0,0,127,75,78,1,85,20}, - //Hall1 - {90,64,51,10,0,0,0,127,21,78,1,64,20}, - //Hall2 - {90,64,53,20,0,0,0,127,75,71,1,64,20}, - //Room1 - {100,64,33,0,0,0,0,127,0,106,0,30,20}, - //Room2 - {100,64,21,26,0,0,0,62,0,77,1,45,20}, - //Basement - {110,64,14,0,0,0,0,127,5,71,0,25,20}, - //Tunnel - {85,80,84,20,42,0,0,51,0,78,1,105,20}, - //Echoed1 - {95,64,26,60,71,0,0,114,0,64,1,64,20}, - //Echoed2 - {90,64,40,88,71,0,0,114,0,88,1,64,20}, - //VeryLong1 - {90,64,93,15,0,0,0,114,0,77,0,95,20}, - //VeryLong2 - {90,64,111,30,0,0,0,114,90,74,1,80,20} - }; - - if (npreset>=NUM_PRESETS) npreset=NUM_PRESETS-1; - for (int n=0;n +#include "Reverb.h" + +/**\todo: EarlyReflections,Prdelay,Perbalance */ + +Reverb::Reverb(const int &insertion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_) + :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0) +{ + inputbuf = new REALTYPE[SOUND_BUFFER_SIZE]; + + bandwidth = NULL; + + //defaults + Pvolume = 48; + Ppan = 64; + Ptime = 64; + Pidelay = 40; + Pidelayfb = 0; + Prdelay = 0; + Plpf = 127; + Phpf = 0; + Perbalance = 64; + Plohidamp = 80; + Ptype = 1; + Proomsize = 64; + Pbandwidth = 30; + roomsize = 1.0; + rs = 1.0; + + for(int i = 0; i < REV_COMBS * 2; i++) { + comblen[i] = 800 + (int)(RND * 1400); + combk[i] = 0; + lpcomb[i] = 0; + combfb[i] = -0.97; + comb[i] = NULL; + } + + for(int i = 0; i < REV_APS * 2; i++) { + aplen[i] = 500 + (int)(RND * 500); + apk[i] = 0; + ap[i] = NULL; + } + + lpf = NULL; + hpf = NULL; //no filter + idelay = NULL; + + setpreset(Ppreset); + cleanup(); //do not call this before the comb initialisation +} + + +Reverb::~Reverb() +{ + int i; + if(idelay != NULL) + delete [] idelay; + if(hpf != NULL) + delete hpf; + if(lpf != NULL) + delete lpf; + + for(i = 0; i < REV_APS * 2; i++) + delete [] ap[i]; + for(i = 0; i < REV_COMBS * 2; i++) + delete [] comb[i]; + + delete [] inputbuf; + if(bandwidth) + delete bandwidth; +} + +/* + * Cleanup the effect + */ +void Reverb::cleanup() +{ + int i, j; + for(i = 0; i < REV_COMBS * 2; i++) { + lpcomb[i] = 0.0; + for(j = 0; j < comblen[i]; j++) + comb[i][j] = 0.0; + } + + for(i = 0; i < REV_APS * 2; i++) + for(j = 0; j < aplen[i]; j++) + ap[i][j] = 0.0; + + if(idelay != NULL) + for(i = 0; i < idelaylen; i++) + idelay[i] = 0.0; + + if(hpf != NULL) + hpf->cleanup(); + if(lpf != NULL) + lpf->cleanup(); +} + +/* + * Process one channel; 0=left,1=right + */ +void Reverb::processmono(int ch, REALTYPE *output) +{ + int i, j; + REALTYPE fbout, tmp; + /**\todo: implement the high part from lohidamp*/ + + for(j = REV_COMBS * ch; j < REV_COMBS * (ch + 1); j++) { + int ck = combk[j]; + int comblength = comblen[j]; + REALTYPE lpcombj = lpcomb[j]; + + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + fbout = comb[j][ck] * combfb[j]; + fbout = fbout * (1.0 - lohifb) + lpcombj * lohifb; + lpcombj = fbout; + + comb[j][ck] = inputbuf[i] + fbout; + output[i] += fbout; + + if((++ck) >= comblength) + ck = 0; + } + + combk[j] = ck; + lpcomb[j] = lpcombj; + } + + for(j = REV_APS * ch; j < REV_APS * (1 + ch); j++) { + int ak = apk[j]; + int aplength = aplen[j]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmp = ap[j][ak]; + ap[j][ak] = 0.7 * tmp + output[i]; + output[i] = tmp - 0.7 * ap[j][ak]; + if((++ak) >= aplength) + ak = 0; + } + apk[j] = ak; + } +} + +/* + * Effect output + */ +void Reverb::out(REALTYPE *smps_l, REALTYPE *smps_r) +{ + int i; + if((Pvolume == 0) && (insertion != 0)) + return; + + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + inputbuf[i] = (smps_l[i] + smps_r[i]) / 2.0; + ; + + if(idelay != NULL) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + //Initial delay r + REALTYPE tmp = inputbuf[i] + idelay[idelayk] * idelayfb; + inputbuf[i] = idelay[idelayk]; + idelay[idelayk] = tmp; + idelayk++; + if(idelayk >= idelaylen) + idelayk = 0; + ; + } + } + + if(bandwidth) + bandwidth->process(SOUND_BUFFER_SIZE, inputbuf); + + if(lpf != NULL) + lpf->filterout(inputbuf); + if(hpf != NULL) + hpf->filterout(inputbuf); + + processmono(0, efxoutl); //left + processmono(1, efxoutr); //right + + REALTYPE lvol = rs / REV_COMBS * pan; + REALTYPE rvol = rs / REV_COMBS * (1.0 - pan); + if(insertion != 0) { + lvol *= 2; + rvol *= 2; + } + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + efxoutl[i] *= lvol; + efxoutr[i] *= rvol; + } +} + + +/* + * Parameter control + */ +void Reverb::setvolume(const unsigned char &Pvolume) +{ + this->Pvolume = Pvolume; + if(insertion == 0) { + outvolume = pow(0.01, (1.0 - Pvolume / 127.0)) * 4.0; + volume = 1.0; + } + else { + volume = outvolume = Pvolume / 127.0; + if(Pvolume == 0) + cleanup(); + } +} + +void Reverb::setpan(const unsigned char &Ppan) +{ + this->Ppan = Ppan; + pan = (REALTYPE)Ppan / 127.0; +} + +void Reverb::settime(const unsigned char &Ptime) +{ + int i; + REALTYPE t; + this->Ptime = Ptime; + t = pow(60.0, (REALTYPE)Ptime / 127.0) - 0.97; + + for(i = 0; i < REV_COMBS * 2; i++) + combfb[i] = + -exp((REALTYPE)comblen[i] / (REALTYPE)SAMPLE_RATE * log(0.001) / t); + //the feedback is negative because it removes the DC + ; +} + +void Reverb::setlohidamp(unsigned char Plohidamp) +{ + REALTYPE x; + + if(Plohidamp < 64) + Plohidamp = 64; //remove this when the high part from lohidamp will be added + + this->Plohidamp = Plohidamp; + if(Plohidamp == 64) { + lohidamptype = 0; + lohifb = 0.0; + } + else { + if(Plohidamp < 64) + lohidamptype = 1; + if(Plohidamp > 64) + lohidamptype = 2; + x = fabs((REALTYPE)(Plohidamp - 64) / 64.1); + lohifb = x * x; + } +} + +void Reverb::setidelay(const unsigned char &Pidelay) +{ + REALTYPE delay; + this->Pidelay = Pidelay; + delay = pow(50 * Pidelay / 127.0, 2) - 1.0; + + if(idelay != NULL) + delete [] idelay; + idelay = NULL; + + idelaylen = (int) (SAMPLE_RATE * delay / 1000); + if(idelaylen > 1) { + idelayk = 0; + idelay = new REALTYPE[idelaylen]; + for(int i = 0; i < idelaylen; i++) + idelay[i] = 0.0; + } +} + +void Reverb::setidelayfb(const unsigned char &Pidelayfb) +{ + this->Pidelayfb = Pidelayfb; + idelayfb = Pidelayfb / 128.0; +} + +void Reverb::sethpf(const unsigned char &Phpf) +{ + this->Phpf = Phpf; + if(Phpf == 0) { //No HighPass + if(hpf != NULL) + delete hpf; + hpf = NULL; + } + else { + REALTYPE fr = exp(pow(Phpf / 127.0, 0.5) * log(10000.0)) + 20.0; + if(hpf == NULL) + hpf = new AnalogFilter(3, fr, 1, 0); + else + hpf->setfreq(fr); + } +} + +void Reverb::setlpf(const unsigned char &Plpf) +{ + this->Plpf = Plpf; + if(Plpf == 127) { //No LowPass + if(lpf != NULL) + delete lpf; + lpf = NULL; + } + else { + REALTYPE fr = exp(pow(Plpf / 127.0, 0.5) * log(25000.0)) + 40; + if(lpf == NULL) + lpf = new AnalogFilter(2, fr, 1, 0); + else + lpf->setfreq(fr); + } +} + +void Reverb::settype(unsigned char Ptype) +{ + const int NUM_TYPES = 3; + int combtunings[NUM_TYPES][REV_COMBS] = { + //this is unused (for random) + {0, 0, 0, 0, 0, 0, 0, 0 }, + //Freeverb by Jezar at Dreampoint + {1116, 1188, 1277, 1356, 1422, 1491, 1557, 1617 }, + //Freeverb by Jezar at Dreampoint //duplicate + {1116, 1188, 1277, 1356, 1422, 1491, 1557, 1617 } + }; + int aptunings[NUM_TYPES][REV_APS] = { + //this is unused (for random) + {0, 0, 0, 0 }, + //Freeverb by Jezar at Dreampoint + {225, 341, 441, 556 }, + //Freeverb by Jezar at Dreampoint (duplicate) + {225, 341, 441, 556 } + }; + + if(Ptype >= NUM_TYPES) + Ptype = NUM_TYPES - 1; + this->Ptype = Ptype; + + REALTYPE tmp; + for(int i = 0; i < REV_COMBS * 2; i++) { + if(Ptype == 0) + tmp = 800.0 + (int)(RND * 1400.0); + else + tmp = combtunings[Ptype][i % REV_COMBS]; + tmp *= roomsize; + if(i > REV_COMBS) + tmp += 23.0; + tmp *= SAMPLE_RATE / 44100.0; //adjust the combs according to the samplerate + if(tmp < 10) + tmp = 10; + + comblen[i] = (int) tmp; + combk[i] = 0; + lpcomb[i] = 0; + if(comb[i] != NULL) + delete [] comb[i]; + comb[i] = new REALTYPE[comblen[i]]; + } + + for(int i = 0; i < REV_APS * 2; i++) { + if(Ptype == 0) + tmp = 500 + (int)(RND * 500); + else + tmp = aptunings[Ptype][i % REV_APS]; + tmp *= roomsize; + if(i > REV_APS) + tmp += 23.0; + tmp *= SAMPLE_RATE / 44100.0; //adjust the combs according to the samplerate + if(tmp < 10) + tmp = 10; + aplen[i] = (int) tmp; + apk[i] = 0; + if(ap[i] != NULL) + delete [] ap[i]; + ap[i] = new REALTYPE[aplen[i]]; + } + settime(Ptime); + cleanup(); + if(bandwidth) + delete bandwidth; + bandwidth = NULL; + if(Ptype == 2) { //bandwidth + bandwidth = new Unison(SOUND_BUFFER_SIZE / 4 + 1, 2.0); + bandwidth->set_size(50); + bandwidth->set_base_frequency(1.0); +#warning sa schimb size-ul + } +} + +void Reverb::setroomsize(const unsigned char &Proomsize) +{ + this->Proomsize = Proomsize; + if(Proomsize == 0) + this->Proomsize = 64; //this is because the older versions consider roomsize=0 + roomsize = (this->Proomsize - 64.0) / 64.0; + if(roomsize > 0.0) + roomsize *= 2.0; + roomsize = pow(10.0, roomsize); + rs = sqrt(roomsize); + settype(Ptype); +} + +void Reverb::setbandwidth(const unsigned char &Pbandwidth) { + this->Pbandwidth = Pbandwidth; + REALTYPE v = Pbandwidth / 127.0; + if(bandwidth) + bandwidth->set_bandwidth(pow(v, 2.0) * 200.0); +} + +void Reverb::setpreset(unsigned char npreset) +{ + const int PRESET_SIZE = 13; + const int NUM_PRESETS = 13; + unsigned char presets[NUM_PRESETS][PRESET_SIZE] = { + //Cathedral1 + {80, 64, 63, 24, 0, 0, 0, 85, 5, 83, 1, 64, 20 }, + //Cathedral2 + {80, 64, 69, 35, 0, 0, 0, 127, 0, 71, 0, 64, 20 }, + //Cathedral3 + {80, 64, 69, 24, 0, 0, 0, 127, 75, 78, 1, 85, 20 }, + //Hall1 + {90, 64, 51, 10, 0, 0, 0, 127, 21, 78, 1, 64, 20 }, + //Hall2 + {90, 64, 53, 20, 0, 0, 0, 127, 75, 71, 1, 64, 20 }, + //Room1 + {100, 64, 33, 0, 0, 0, 0, 127, 0, 106, 0, 30, 20 }, + //Room2 + {100, 64, 21, 26, 0, 0, 0, 62, 0, 77, 1, 45, 20 }, + //Basement + {110, 64, 14, 0, 0, 0, 0, 127, 5, 71, 0, 25, 20 }, + //Tunnel + {85, 80, 84, 20, 42, 0, 0, 51, 0, 78, 1, 105, 20 }, + //Echoed1 + {95, 64, 26, 60, 71, 0, 0, 114, 0, 64, 1, 64, 20 }, + //Echoed2 + {90, 64, 40, 88, 71, 0, 0, 114, 0, 88, 1, 64, 20 }, + //VeryLong1 + {90, 64, 93, 15, 0, 0, 0, 114, 0, 77, 0, 95, 20 }, + //VeryLong2 + {90, 64, 111, 30, 0, 0, 0, 114, 90, 74, 1, 80, 20 } + }; + + if(npreset >= NUM_PRESETS) + npreset = NUM_PRESETS - 1; + for(int n = 0; n < PRESET_SIZE; n++) + changepar(n, presets[npreset][n]); + if(insertion != 0) + changepar(0, presets[npreset][0] / 2); //lower the volume if reverb is insertion effect + Ppreset = npreset; +} + + +void Reverb::changepar(const int &npar, const unsigned char &value) +{ + switch(npar) { + case 0: + setvolume(value); + break; + case 1: + setpan(value); + break; + case 2: + settime(value); + break; + case 3: + setidelay(value); + break; + case 4: + setidelayfb(value); + break; +// case 5: setrdelay(value); +// break; +// case 6: seterbalance(value); +// break; + case 7: + setlpf(value); + break; + case 8: + sethpf(value); + break; + case 9: + setlohidamp(value); + break; + case 10: + settype(value); + break; + case 11: + setroomsize(value); + break; + case 12: + setbandwidth(value); + break; + } +} + +unsigned char Reverb::getpar(const int &npar) const +{ + switch(npar) { + case 0: + return Pvolume; + break; + case 1: + return Ppan; + break; + case 2: + return Ptime; + break; + case 3: + return Pidelay; + break; + case 4: + return Pidelayfb; + break; +// case 5: return(Prdelay); +// break; +// case 6: return(Perbalance); +// break; + case 7: + return Plpf; + break; + case 8: + return Phpf; + break; + case 9: + return Plohidamp; + break; + case 10: + return Ptype; + break; + case 11: + return Proomsize; + break; + case 12: + return Pbandwidth; + break; + } + return 0; //in case of bogus "parameter" +} + diff --git a/plugins/zynaddsubfx/src/Effects/Reverb.h b/plugins/zynaddsubfx/src/Effects/Reverb.h index 82ca96a6b..d94f0bcef 100644 --- a/plugins/zynaddsubfx/src/Effects/Reverb.h +++ b/plugins/zynaddsubfx/src/Effects/Reverb.h @@ -1,135 +1,135 @@ -/* - ZynAddSubFX - a software synthesizer - - Reverb.h - Reverberation effect - Copyright (C) 2002-2009 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 - -*/ - -#ifndef REVERB_H -#define REVERB_H - -#include -#include "../globals.h" -#include "../DSP/AnalogFilter.h" -#include "../DSP/FFTwrapper.h" -#include "../DSP/Unison.h" -#include "Effect.h" - -#define REV_COMBS 8 -#define REV_APS 4 - -/**Creates Reverberation Effects*/ - -class Reverb:public Effect -{ -public: - Reverb(const int &insertion_,REALTYPE *efxoutl_,REALTYPE *efxoutr_); - ~Reverb(); - void out(REALTYPE *smps_l,REALTYPE *smps_r); - void cleanup(); - - void setpreset(unsigned char npreset); - void changepar(const int &npar,const unsigned char &value); - unsigned char getpar(const int &npar)const; - -private: - //Parametrii - /**Amount of the reverb*/ - unsigned char Pvolume; - - /**Left/Right Panning*/ - unsigned char Ppan; - - /**duration of reverb*/ - unsigned char Ptime; - - /**Initial delay*/ - unsigned char Pidelay; - - /**Initial delay feedback*/ - unsigned char Pidelayfb; - - /**delay between ER/Reverbs*/ - unsigned char Prdelay; - - /**EarlyReflections/Reverb Balance*/ - unsigned char Perbalance; - - /**HighPassFilter*/ - unsigned char Plpf; - - /**LowPassFilter*/ - unsigned char Phpf; - - /**Low/HighFrequency Damping - * \todo 0..63 lpf,64=off,65..127=hpf(TODO)*/ - unsigned char Plohidamp; - - /**Reverb type*/ - unsigned char Ptype; - - /**Room Size*/ - unsigned char Proomsize; - - /**Bandwidth */ - unsigned char Pbandwidth; - - //parameter control - void setvolume(const unsigned char &Pvolume); - void setpan(const unsigned char &Ppan); - void settime(const unsigned char &Ptime); - void setlohidamp(unsigned char Plohidamp); - void setidelay(const unsigned char &Pidelay); - void setidelayfb(const unsigned char &Pidelayfb); - void sethpf(const unsigned char &Phpf); - void setlpf(const unsigned char &Plpf); - void settype( unsigned char Ptype); - void setroomsize(const unsigned char &Proomsize); - void setbandwidth(const unsigned char &Pbandwidth); - - REALTYPE pan,erbalance; - //Parameters - int lohidamptype;/**<0=disable,1=highdamp(lowpass),2=lowdamp(highpass)*/ - int idelaylen,rdelaylen; - int idelayk; - REALTYPE lohifb,idelayfb,roomsize,rs;//rs is used to "normalise" the volume according to the roomsize - int comblen[REV_COMBS*2]; - int aplen[REV_APS*2]; - Unison *bandwidth; - - //Internal Variables - - REALTYPE *comb[REV_COMBS*2]; - - int combk[REV_COMBS*2]; - REALTYPE combfb[REV_COMBS*2];/** +#include "../globals.h" +#include "../DSP/AnalogFilter.h" +#include "../DSP/FFTwrapper.h" +#include "../DSP/Unison.h" +#include "Effect.h" + +#define REV_COMBS 8 +#define REV_APS 4 + +/**Creates Reverberation Effects*/ + +class Reverb:public Effect +{ + public: + Reverb(const int &insertion_, REALTYPE *efxoutl_, REALTYPE *efxoutr_); + ~Reverb(); + void out(REALTYPE *smps_l, REALTYPE *smps_r); + void cleanup(); + + void setpreset(unsigned char npreset); + void changepar(const int &npar, const unsigned char &value); + unsigned char getpar(const int &npar) const; + + private: + //Parametrii + /**Amount of the reverb*/ + unsigned char Pvolume; + + /**Left/Right Panning*/ + unsigned char Ppan; + + /**duration of reverb*/ + unsigned char Ptime; + + /**Initial delay*/ + unsigned char Pidelay; + + /**Initial delay feedback*/ + unsigned char Pidelayfb; + + /**delay between ER/Reverbs*/ + unsigned char Prdelay; + + /**EarlyReflections/Reverb Balance*/ + unsigned char Perbalance; + + /**HighPassFilter*/ + unsigned char Plpf; + + /**LowPassFilter*/ + unsigned char Phpf; + + /**Low/HighFrequency Damping + * \todo 0..63 lpf,64=off,65..127=hpf(TODO)*/ + unsigned char Plohidamp; + + /**Reverb type*/ + unsigned char Ptype; + + /**Room Size*/ + unsigned char Proomsize; + + /**Bandwidth */ + unsigned char Pbandwidth; + + //parameter control + void setvolume(const unsigned char &Pvolume); + void setpan(const unsigned char &Ppan); + void settime(const unsigned char &Ptime); + void setlohidamp(unsigned char Plohidamp); + void setidelay(const unsigned char &Pidelay); + void setidelayfb(const unsigned char &Pidelayfb); + void sethpf(const unsigned char &Phpf); + void setlpf(const unsigned char &Plpf); + void settype(unsigned char Ptype); + void setroomsize(const unsigned char &Proomsize); + void setbandwidth(const unsigned char &Pbandwidth); + + REALTYPE pan, erbalance; + //Parameters + int lohidamptype; /**<0=disable,1=highdamp(lowpass),2=lowdamp(highpass)*/ + int idelaylen, rdelaylen; + int idelayk; + REALTYPE lohifb, idelayfb, roomsize, rs; //rs is used to "normalise" the volume according to the roomsize + int comblen[REV_COMBS * 2]; + int aplen[REV_APS * 2]; + Unison *bandwidth; + + //Internal Variables + + REALTYPE *comb[REV_COMBS * 2]; + + int combk[REV_COMBS * 2]; + REALTYPE combfb[REV_COMBS * 2]; /**type) { + if(midievent == NULL) + return; + switch(midievent->type) { case SND_SEQ_EVENT_NOTEON: - cmdtype=MidiNoteON; - cmdchan=midievent->data.note.channel; - cmdparams[0]=midievent->data.note.note; - cmdparams[1]=midievent->data.note.velocity; + cmdtype = MidiNoteON; + cmdchan = midievent->data.note.channel; + cmdparams[0] = midievent->data.note.note; + cmdparams[1] = midievent->data.note.velocity; break; case SND_SEQ_EVENT_NOTEOFF: - cmdtype=MidiNoteOFF; - cmdchan=midievent->data.note.channel; - cmdparams[0]=midievent->data.note.note; + cmdtype = MidiNoteOFF; + cmdchan = midievent->data.note.channel; + cmdparams[0] = midievent->data.note.note; break; case SND_SEQ_EVENT_PITCHBEND: - cmdtype=MidiController; - cmdchan=midievent->data.control.channel; - cmdparams[0]=C_pitchwheel;//Pitch Bend - cmdparams[1]=midievent->data.control.value; + cmdtype = MidiController; + cmdchan = midievent->data.control.channel; + cmdparams[0] = C_pitchwheel; //Pitch Bend + cmdparams[1] = midievent->data.control.value; break; case SND_SEQ_EVENT_CONTROLLER: - cmdtype=MidiController; - cmdchan=midievent->data.control.channel; - cmdparams[0]=getcontroller(midievent->data.control.param); - cmdparams[1]=midievent->data.control.value; + cmdtype = MidiController; + cmdchan = midievent->data.control.channel; + cmdparams[0] = getcontroller(midievent->data.control.param); + cmdparams[1] = midievent->data.control.value; //fprintf(stderr,"t=%d val=%d\n",midievent->data.control.param,midievent->data.control.value); break; - - }; -}; + } +} int ALSAMidiIn::getalsaid() { - if (midi_handle) { - snd_seq_client_info_t* seq_info; + if(midi_handle) { + snd_seq_client_info_t *seq_info; snd_seq_client_info_malloc(&seq_info); snd_seq_get_client_info(midi_handle, seq_info); int id = snd_seq_client_info_get_client(seq_info); diff --git a/plugins/zynaddsubfx/src/Input/ALSAMidiIn.h b/plugins/zynaddsubfx/src/Input/ALSAMidiIn.h index e4671014f..cea61fb36 100644 --- a/plugins/zynaddsubfx/src/Input/ALSAMidiIn.h +++ b/plugins/zynaddsubfx/src/Input/ALSAMidiIn.h @@ -30,19 +30,21 @@ /**Midi input for ALSA (this creates an ALSA virtual port)*/ class ALSAMidiIn:public MidiIn { -public: - /**Constructor*/ - ALSAMidiIn(); - /**Destructor*/ - ~ALSAMidiIn(); + public: + /**Constructor*/ + ALSAMidiIn(); + /**Destructor*/ + ~ALSAMidiIn(); - void getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams); - /**Get the ALSA id - * @return ALSA id*/ - int getalsaid(); + void getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams); + /**Get the ALSA id + * @return ALSA id*/ + int getalsaid(); -private: - snd_seq_t *midi_handle; + private: + snd_seq_t *midi_handle; }; #endif diff --git a/plugins/zynaddsubfx/src/Input/MidiIn.cpp b/plugins/zynaddsubfx/src/Input/MidiIn.cpp index 2355b3a64..90df75d95 100644 --- a/plugins/zynaddsubfx/src/Input/MidiIn.cpp +++ b/plugins/zynaddsubfx/src/Input/MidiIn.cpp @@ -26,70 +26,71 @@ int MidiIn::getcontroller(unsigned char b) { /**\todo there might be a better way to do this*/ - int ctl=C_NULL; - switch (b) { + int ctl = C_NULL; + switch(b) { case 1: - ctl=C_modwheel;//Modulation Wheel + ctl = C_modwheel; //Modulation Wheel break; case 7: - ctl=C_volume;//Volume + ctl = C_volume; //Volume break; case 10: - ctl=C_panning;//Panning + ctl = C_panning; //Panning break; case 11: - ctl=C_expression;//Expression + ctl = C_expression; //Expression break; case 64: - ctl=C_sustain;//Sustain pedal + ctl = C_sustain; //Sustain pedal break; case 65: - ctl=C_portamento;//Portamento + ctl = C_portamento; //Portamento break; case 71: - ctl=C_filterq;//Filter Q (Sound Timbre) + ctl = C_filterq; //Filter Q (Sound Timbre) break; case 74: - ctl=C_filtercutoff;//Filter Cutoff (Brightness) + ctl = C_filtercutoff; //Filter Cutoff (Brightness) break; case 75: - ctl=C_bandwidth;//BandWidth + ctl = C_bandwidth; //BandWidth break; case 76: - ctl=C_fmamp;//FM amplitude + ctl = C_fmamp; //FM amplitude break; case 77: - ctl=C_resonance_center;//Resonance Center Frequency + ctl = C_resonance_center; //Resonance Center Frequency break; case 78: - ctl=C_resonance_bandwidth;//Resonance Bandwith + ctl = C_resonance_bandwidth; //Resonance Bandwith break; case 120: - ctl=C_allsoundsoff;//All Sounds OFF + ctl = C_allsoundsoff; //All Sounds OFF break; case 121: - ctl=C_resetallcontrollers;//Reset All Controllers + ctl = C_resetallcontrollers; //Reset All Controllers break; case 123: - ctl=C_allnotesoff;//All Notes OFF + ctl = C_allnotesoff; //All Notes OFF break; - //RPN and NRPN + //RPN and NRPN case 0x06: - ctl=C_dataentryhi;//Data Entry (Coarse) + ctl = C_dataentryhi; //Data Entry (Coarse) break; case 0x26: - ctl=C_dataentrylo;//Data Entry (Fine) + ctl = C_dataentrylo; //Data Entry (Fine) break; case 99: - ctl=C_nrpnhi;//NRPN (Coarse) + ctl = C_nrpnhi; //NRPN (Coarse) break; case 98: - ctl=C_nrpnlo;//NRPN (Fine) + ctl = C_nrpnlo; //NRPN (Fine) break; default: - ctl=C_NULL;//unknown controller + ctl = C_NULL; //unknown controller //fprintf(stderr,"Controller=%d , par=%d\n",midievent->data.control.param,cmdparams[1]); break; - }; - return(ctl); -}; + } + return ctl; +} + diff --git a/plugins/zynaddsubfx/src/Input/MidiIn.h b/plugins/zynaddsubfx/src/Input/MidiIn.h index f02d10e76..5d978eaeb 100644 --- a/plugins/zynaddsubfx/src/Input/MidiIn.h +++ b/plugins/zynaddsubfx/src/Input/MidiIn.h @@ -25,23 +25,27 @@ #include "../globals.h" -enum MidiCmdType {MidiNull,MidiNoteOFF,MidiNoteON,MidiController}; +enum MidiCmdType { + MidiNull, MidiNoteOFF, MidiNoteON, MidiController +}; #define MP_MAX_BYTES 4000 //in case of loooong SYS_EXes /**This class is inherited by all the Midi input classes*/ class MidiIn { -public: - /**Get the command,channel and parameters of the MIDI - * - * \todo make pure virtual - * @param cmdtype the referece to the variable that will store the type - * @param cmdchan the channel for the event - * @param parameters for the event*/ - virtual void getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams)=0; - int getcontroller(unsigned char b); -protected: - bool inputok;/**<1 if I can read midi bytes from input ports*/ + public: + /**Get the command,channel and parameters of the MIDI + * + * \todo make pure virtual + * @param cmdtype the referece to the variable that will store the type + * @param cmdchan the channel for the event + * @param parameters for the event*/ + virtual void getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams) = 0; + int getcontroller(unsigned char b); + protected: + bool inputok; /**<1 if I can read midi bytes from input ports*/ }; #endif diff --git a/plugins/zynaddsubfx/src/Input/NULLMidiIn.cpp b/plugins/zynaddsubfx/src/Input/NULLMidiIn.cpp index 2a727ac7e..22ee76d75 100644 --- a/plugins/zynaddsubfx/src/Input/NULLMidiIn.cpp +++ b/plugins/zynaddsubfx/src/Input/NULLMidiIn.cpp @@ -23,19 +23,19 @@ #include "NULLMidiIn.h" NULLMidiIn::NULLMidiIn() -{ -}; +{} NULLMidiIn::~NULLMidiIn() -{ -}; +{} /* * Get the midi command,channel and parameters * It returns MidiNull because it is a dummy driver */ -void NULLMidiIn::getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams) +void NULLMidiIn::getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams) { - cmdtype=MidiNull; -}; + cmdtype = MidiNull; +} diff --git a/plugins/zynaddsubfx/src/Input/NULLMidiIn.h b/plugins/zynaddsubfx/src/Input/NULLMidiIn.h index 636302c57..72cef4ad0 100644 --- a/plugins/zynaddsubfx/src/Input/NULLMidiIn.h +++ b/plugins/zynaddsubfx/src/Input/NULLMidiIn.h @@ -29,19 +29,21 @@ /**a dummy Midi port*/ class NULLMidiIn:public MidiIn { -public: - /**Dummy Constructor - * \todo see if the default constructor would work here*/ - NULLMidiIn(); - /**Dummy Destructor - * \todo see if the default destructor would work here*/ - ~NULLMidiIn(); - /**Get the midi command,channel and parameters - * It returns MidiNull because it is a dummy driver - */ - void getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams); + public: + /**Dummy Constructor + * \todo see if the default constructor would work here*/ + NULLMidiIn(); + /**Dummy Destructor + * \todo see if the default destructor would work here*/ + ~NULLMidiIn(); + /**Get the midi command,channel and parameters + * It returns MidiNull because it is a dummy driver + */ + void getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams); -private: + private: }; #endif diff --git a/plugins/zynaddsubfx/src/Input/OSSMidiIn.cpp b/plugins/zynaddsubfx/src/Input/OSSMidiIn.cpp index 440775abd..b278ae6bf 100644 --- a/plugins/zynaddsubfx/src/Input/OSSMidiIn.cpp +++ b/plugins/zynaddsubfx/src/Input/OSSMidiIn.cpp @@ -33,88 +33,91 @@ OSSMidiIn::OSSMidiIn() { - inputok=false; - midi_handle=open(config.cfg.LinuxOSSSeqInDev,O_RDONLY,0); - if (midi_handle!=-1) inputok=true; + inputok = false; + midi_handle = open(config.cfg.LinuxOSSSeqInDev, O_RDONLY, 0); + if(midi_handle != -1) + inputok = true; - lastmidicmd=0; - cmdtype=0; - cmdchan=0; - -}; + lastmidicmd = 0; + cmdtype = 0; + cmdchan = 0; +} OSSMidiIn::~OSSMidiIn() { close(midi_handle); -}; +} unsigned char OSSMidiIn::readbyte() { unsigned char tmp[4]; - read(midi_handle,&tmp[0],1); - while (tmp[0]!=SEQ_MIDIPUTC) { - read(midi_handle,&tmp[0],4); + read(midi_handle, &tmp[0], 1); + while(tmp[0] != SEQ_MIDIPUTC) { + read(midi_handle, &tmp[0], 4); } - return(tmp[1]); -}; + return tmp[1]; +} unsigned char OSSMidiIn::getmidibyte() { unsigned char b; do { - b=readbyte(); - } while (b==0xfe);//drops the Active Sense Messages - return(b); -}; + b = readbyte(); + } while(b == 0xfe); //drops the Active Sense Messages + return b; +} /* * Get the midi command,channel and parameters */ -void OSSMidiIn::getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams) +void OSSMidiIn::getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams) { - unsigned char tmp,i; - if (inputok==false) { - cmdtype=MidiNull; + unsigned char tmp, i; + if(inputok == false) { + cmdtype = MidiNull; return; } - i=0; - if (lastmidicmd==0) {//asteapta prima data pana cand vine prima comanda midi - while (tmp<0x80) tmp=getmidibyte(); - lastmidicmd=tmp; + i = 0; + if(lastmidicmd == 0) { //asteapta prima data pana cand vine prima comanda midi + while(tmp < 0x80) + tmp = getmidibyte(); + lastmidicmd = tmp; } - tmp=getmidibyte(); + tmp = getmidibyte(); - if (tmp>=0x80) { - lastmidicmd=tmp; - tmp=getmidibyte(); + if(tmp >= 0x80) { + lastmidicmd = tmp; + tmp = getmidibyte(); } - if ((lastmidicmd>=0x80)&&(lastmidicmd<=0x8f)) {//Note OFF - cmdtype=MidiNoteOFF; - cmdchan=lastmidicmd%16; - cmdparams[0]=tmp;//note number + if((lastmidicmd >= 0x80) && (lastmidicmd <= 0x8f)) { //Note OFF + cmdtype = MidiNoteOFF; + cmdchan = lastmidicmd % 16; + cmdparams[0] = tmp; //note number } - if ((lastmidicmd>=0x90)&&(lastmidicmd<=0x9f)) {//Note ON - cmdtype=MidiNoteON; - cmdchan=lastmidicmd%16; - cmdparams[0]=tmp;//note number - cmdparams[1]=getmidibyte();//velocity - if (cmdparams[1]==0) cmdtype=MidiNoteOFF;//if velocity==0 then is note off + if((lastmidicmd >= 0x90) && (lastmidicmd <= 0x9f)) { //Note ON + cmdtype = MidiNoteON; + cmdchan = lastmidicmd % 16; + cmdparams[0] = tmp; //note number + cmdparams[1] = getmidibyte(); //velocity + if(cmdparams[1] == 0) + cmdtype = MidiNoteOFF; //if velocity==0 then is note off } - if ((lastmidicmd>=0xB0)&&(lastmidicmd<=0xBF)) {//Controllers - cmdtype=MidiController; - cmdchan=lastmidicmd%16; - cmdparams[0]=getcontroller(tmp); - cmdparams[1]=getmidibyte(); + if((lastmidicmd >= 0xB0) && (lastmidicmd <= 0xBF)) { //Controllers + cmdtype = MidiController; + cmdchan = lastmidicmd % 16; + cmdparams[0] = getcontroller(tmp); + cmdparams[1] = getmidibyte(); } - if ((lastmidicmd>=0xE0)&&(lastmidicmd<=0xEF)) {//Pitch Wheel - cmdtype=MidiController; - cmdchan=lastmidicmd%16; - cmdparams[0]=C_pitchwheel; - cmdparams[1]=(tmp+getmidibyte()*(int) 128)-8192;//hope this is correct + if((lastmidicmd >= 0xE0) && (lastmidicmd <= 0xEF)) { //Pitch Wheel + cmdtype = MidiController; + cmdchan = lastmidicmd % 16; + cmdparams[0] = C_pitchwheel; + cmdparams[1] = (tmp + getmidibyte() * (int) 128) - 8192; //hope this is correct } -}; - +} diff --git a/plugins/zynaddsubfx/src/Input/OSSMidiIn.h b/plugins/zynaddsubfx/src/Input/OSSMidiIn.h index 7626950ed..a3b56f51b 100644 --- a/plugins/zynaddsubfx/src/Input/OSSMidiIn.h +++ b/plugins/zynaddsubfx/src/Input/OSSMidiIn.h @@ -27,21 +27,22 @@ class OSSMidiIn:public MidiIn { -public: - OSSMidiIn(); - ~OSSMidiIn(); - unsigned char getmidibyte(); - unsigned char readbyte(); + public: + OSSMidiIn(); + ~OSSMidiIn(); + unsigned char getmidibyte(); + unsigned char readbyte(); - //Midi parser - void getmidicmd(MidiCmdType &cmdtype,unsigned char &cmdchan,int *cmdparams); - unsigned char cmdtype;//the Message Type (noteon,noteof,sysex..) - unsigned char cmdchan;//the channel number - -private: - int midi_handle; - unsigned char lastmidicmd;//last byte (>=80) received from the Midi + //Midi parser + void getmidicmd(MidiCmdType &cmdtype, + unsigned char &cmdchan, + int *cmdparams); + unsigned char cmdtype; //the Message Type (noteon,noteof,sysex..) + unsigned char cmdchan; //the channel number + private: + int midi_handle; + unsigned char lastmidicmd; //last byte (>=80) received from the Midi }; diff --git a/plugins/zynaddsubfx/src/Input/WINMidiIn.cpp b/plugins/zynaddsubfx/src/Input/WINMidiIn.cpp index 155aa7375..e8462457d 100644 --- a/plugins/zynaddsubfx/src/Input/WINMidiIn.cpp +++ b/plugins/zynaddsubfx/src/Input/WINMidiIn.cpp @@ -32,56 +32,63 @@ Master *winmaster; HMIDIIN winmidiinhandle; -MidiIn midictl;//used to convert the controllers to ZynAddSubFX controllers +MidiIn midictl; //used to convert the controllers to ZynAddSubFX controllers -void CALLBACK WinMidiInProc(HMIDIIN hMidiIn,UINT wMsg,DWORD dwInstance, - DWORD dwParam1,DWORD dwParam2) +void CALLBACK WinMidiInProc(HMIDIIN hMidiIn, UINT wMsg, DWORD dwInstance, + DWORD dwParam1, DWORD dwParam2) { - int midicommand=MidiNull; - if (wMsg==MIM_DATA) { - int cmd,par1,par2; - cmd=dwParam1&0xff; - if (cmd==0xfe) return; - par1=(dwParam1>>8)&0xff; - par2=dwParam1>>16; + int midicommand = MidiNull; + if(wMsg == MIM_DATA) { + int cmd, par1, par2; + cmd = dwParam1 & 0xff; + if(cmd == 0xfe) + return; + par1 = (dwParam1 >> 8) & 0xff; + par2 = dwParam1 >> 16; //printf("%x %x %x\n",cmd,par1,par2);fflush(stdout); - int cmdchan=cmd&0x0f; - int cmdtype=(cmd>>4)&0x0f; + int cmdchan = cmd & 0x0f; + int cmdtype = (cmd >> 4) & 0x0f; - int tmp=0; + int tmp = 0; pthread_mutex_lock(&winmaster->mutex); - switch (cmdtype) { - case(0x8)://noteon - winmaster->NoteOff(cmdchan,par1); + switch(cmdtype) { + case (0x8): //noteon + winmaster->NoteOff(cmdchan, par1); break; - case(0x9)://noteoff - winmaster->NoteOn(cmdchan,par1,par2&0xff); + case (0x9): //noteoff + winmaster->NoteOn(cmdchan, par1, par2 & 0xff); break; - case(0xb)://controller - winmaster->SetController(cmdchan,midictl.getcontroller(par1),par2&0xff); + case (0xb): //controller + winmaster->SetController(cmdchan, midictl.getcontroller( + par1), par2 & 0xff); break; - case(0xe)://pitch wheel - tmp=(par1+par2*(long int) 128)-8192; - winmaster->SetController(cmdchan,C_pitchwheel,tmp); + case (0xe): //pitch wheel + tmp = (par1 + par2 * (long int) 128) - 8192; + winmaster->SetController(cmdchan, C_pitchwheel, tmp); break; default: break; - }; + } pthread_mutex_unlock(&winmaster->mutex); - - }; -}; + } +} void InitWinMidi(Master *master_) { - winmaster=master_; + winmaster = master_; - long int result=midiInOpen(&winmidiinhandle,config.cfg.WindowsMidiInId,(DWORD)WinMidiInProc,0,CALLBACK_FUNCTION); - result=midiInStart(winmidiinhandle); -}; + long int result = + midiInOpen(&winmidiinhandle, + config.cfg.WindowsMidiInId, + (DWORD)WinMidiInProc, + 0, + CALLBACK_FUNCTION); + result = midiInStart(winmidiinhandle); +} void StopWinMidi() { midiInStop(winmidiinhandle); midiInClose(winmidiinhandle); -}; +} + diff --git a/plugins/zynaddsubfx/src/Misc/Bank.cpp b/plugins/zynaddsubfx/src/Misc/Bank.cpp index 03ef09442..256184736 100644 --- a/plugins/zynaddsubfx/src/Misc/Bank.cpp +++ b/plugins/zynaddsubfx/src/Misc/Bank.cpp @@ -41,183 +41,213 @@ Bank::Bank() { + ZERO(defaultinsname, PART_MAX_NAME_LEN); + snprintf(defaultinsname, PART_MAX_NAME_LEN, "%s", " "); - - ZERO(defaultinsname,PART_MAX_NAME_LEN); - snprintf(defaultinsname,PART_MAX_NAME_LEN,"%s"," "); - - for (int i=0;i=0) snprintf(tmpfilename,100,"%4d-%s",newslot+1,newname); - else snprintf(tmpfilename,100,"%4d-%s",ninstrument+1,newname); + ZERO(newfilename, 1001); + ZERO(tmpfilename, 101); + if(newslot >= 0) + snprintf(tmpfilename, 100, "%4d-%s", newslot + 1, newname); + else + snprintf(tmpfilename, 100, "%4d-%s", ninstrument + 1, newname); //add the zeroes at the start of filename - for (int i=0;i<4;i++) if (tmpfilename[i]==' ') tmpfilename[i]='0'; + for(int i = 0; i < 4; i++) + if(tmpfilename[i] == ' ') + tmpfilename[i] = '0'; //make the filenames legal - for (int i=0;i<(int) strlen(tmpfilename);i++) { - char c=tmpfilename[i]; - if ((c>='0')&&(c<='9')) continue; - if ((c>='A')&&(c<='Z')) continue; - if ((c>='a')&&(c<='z')) continue; - if ((c=='-')||(c==' ')) continue; + for(int i = 0; i < (int) strlen(tmpfilename); i++) { + char c = tmpfilename[i]; + if((c >= '0') && (c <= '9')) + continue; + if((c >= 'A') && (c <= 'Z')) + continue; + if((c >= 'a') && (c <= 'z')) + continue; + if((c == '-') || (c == ' ')) + continue; - tmpfilename[i]='_'; - }; + tmpfilename[i] = '_'; + } - snprintf(newfilename,1000,"%s/%s.xiz",dirname,tmpfilename); + snprintf(newfilename, 1000, "%s/%s.xiz", dirname, tmpfilename); // printf("rename %s -> %s\n",ins[ninstrument].filename,newfilename);////////////// - rename(ins[ninstrument].filename,newfilename); - if (ins[ninstrument].filename) delete []ins[ninstrument].filename; - ins[ninstrument].filename=new char[strlen(newfilename)+5]; - snprintf(ins[ninstrument].filename,strlen(newfilename)+1,"%s",newfilename); - snprintf(ins[ninstrument].name,PART_MAX_NAME_LEN,"%s",&tmpfilename[5]); - -}; + rename(ins[ninstrument].filename, newfilename); + if(ins[ninstrument].filename) + delete [] ins[ninstrument].filename; + ins[ninstrument].filename = new char[strlen(newfilename) + 5]; + snprintf(ins[ninstrument].filename, strlen( + newfilename) + 1, "%s", newfilename); + snprintf(ins[ninstrument].name, PART_MAX_NAME_LEN, "%s", &tmpfilename[5]); +} /* * Check if there is no instrument on a slot from the bank */ int Bank::emptyslot(unsigned int ninstrument) { - if (ninstrument>=BANK_SIZE) return (1); - if (ins[ninstrument].filename==NULL) return(1); + if(ninstrument >= BANK_SIZE) + return 1; + if(ins[ninstrument].filename == NULL) + return 1; - if (ins[ninstrument].used) return (0); - else return(1); -}; + if(ins[ninstrument].used) + return 0; + else + return 1; +} /* * Removes the instrument from the bank */ void Bank::clearslot(unsigned int ninstrument) { - if (emptyslot(ninstrument)) return; + if(emptyslot(ninstrument)) + return; // printf("remove %s \n",ins[ninstrument].filename);//////////////////////// remove(ins[ninstrument].filename); deletefrombank(ninstrument); -}; +} /* * Save the instrument to a slot */ -void Bank::savetoslot(unsigned int ninstrument,Part *part) +void Bank::savetoslot(unsigned int ninstrument, Part *part) { clearslot(ninstrument); - const int maxfilename=200; - char tmpfilename[maxfilename+20]; - ZERO(tmpfilename,maxfilename+20); + const int maxfilename = 200; + char tmpfilename[maxfilename + 20]; + ZERO(tmpfilename, maxfilename + 20); - snprintf(tmpfilename,maxfilename,"%4d-%s",ninstrument+1,(char *)part->Pname); + snprintf(tmpfilename, + maxfilename, + "%4d-%s", + ninstrument + 1, + (char *)part->Pname); //add the zeroes at the start of filename - for (int i=0;i<4;i++) if (tmpfilename[i]==' ') tmpfilename[i]='0'; + for(int i = 0; i < 4; i++) + if(tmpfilename[i] == ' ') + tmpfilename[i] = '0'; //make the filenames legal - for (int i=0;i<(int)strlen(tmpfilename);i++) { - char c=tmpfilename[i]; - if ((c>='0')&&(c<='9')) continue; - if ((c>='A')&&(c<='Z')) continue; - if ((c>='a')&&(c<='z')) continue; - if ((c=='-')||(c==' ')) continue; + for(int i = 0; i < (int)strlen(tmpfilename); i++) { + char c = tmpfilename[i]; + if((c >= '0') && (c <= '9')) + continue; + if((c >= 'A') && (c <= 'Z')) + continue; + if((c >= 'a') && (c <= 'z')) + continue; + if((c == '-') || (c == ' ')) + continue; - tmpfilename[i]='_'; - }; + tmpfilename[i] = '_'; + } - strncat(tmpfilename,".xiz",maxfilename+10); + strncat(tmpfilename, ".xiz", maxfilename + 10); - int fnsize=strlen(dirname)+strlen(tmpfilename)+10; - char *filename=new char[fnsize+4]; - ZERO(filename,fnsize+2); + int fnsize = strlen(dirname) + strlen(tmpfilename) + 10; + char *filename = new char[fnsize + 4]; + ZERO(filename, fnsize + 2); - snprintf(filename,fnsize,"%s/%s",dirname,tmpfilename); + snprintf(filename, fnsize, "%s/%s", dirname, tmpfilename); remove(filename); part->saveXML(filename); - addtobank(ninstrument,tmpfilename,(char *) part->Pname); + addtobank(ninstrument, tmpfilename, (char *) part->Pname); - delete[]filename; -}; + delete[] filename; +} /* * Loads the instrument from the bank */ -void Bank::loadfromslot(unsigned int ninstrument,Part *part) +void Bank::loadfromslot(unsigned int ninstrument, Part *part) { - if (emptyslot(ninstrument)) return; + if(emptyslot(ninstrument)) + return; part->defaultsinstrument(); // printf("load: %s\n",ins[ninstrument].filename); part->loadXMLinstrument(ins[ninstrument].filename); - -}; +} /* @@ -225,160 +255,173 @@ void Bank::loadfromslot(unsigned int ninstrument,Part *part) */ int Bank::loadbank(const char *bankdirname) { - DIR *dir=opendir(bankdirname); + DIR *dir = opendir(bankdirname); clearbank(); - if (dir==NULL) return(-1); + if(dir == NULL) + return -1; - if (dirname!=NULL) delete[]dirname; - dirname=new char[strlen(bankdirname)+1]; - snprintf(dirname,strlen(bankdirname)+1,"%s",bankdirname); + if(dirname != NULL) + delete[] dirname; + dirname = new char[strlen(bankdirname) + 1]; + snprintf(dirname, strlen(bankdirname) + 1, "%s", bankdirname); - bankfiletitle=dirname; + bankfiletitle = dirname; // printf("loadbank %s/\n",bankdirname); struct dirent *fn; - while ((fn=readdir(dir))) { - const char *filename= fn->d_name; + while((fn = readdir(dir))) { + const char *filename = fn->d_name; //sa verific daca e si extensia dorita - if (strstr(filename,INSTRUMENT_EXTENSION)==NULL) continue; + if(strstr(filename, INSTRUMENT_EXTENSION) == NULL) + continue; //verify if the name is like this NNNN-name (where N is a digit) - int no=0; - unsigned int startname=0; + int no = 0; + unsigned int startname = 0; - for (unsigned int i=0;i<4;i++) { - if (strlen(filename)<=i) break; + for(unsigned int i = 0; i < 4; i++) { + if(strlen(filename) <= i) + break; - if ((filename[i]>='0')&&(filename[i]<='9')) { - no=no*10+(filename[i]-'0'); + if((filename[i] >= '0') && (filename[i] <= '9')) { + no = no * 10 + (filename[i] - '0'); startname++; - }; - }; + } + } - if ((startname+1)=2;i--) { - if (name[i]=='.') { - name[i]='\0'; + for(int i = strlen(name) - 1; i >= 2; i--) { + if(name[i] == '.') { + name[i] = '\0'; break; - }; - }; + } + } - if (no!=0) {//the instrument position in the bank is found - addtobank(no-1,filename,&name[startname]); - } else { - addtobank(-1,filename,name); - }; - - }; + if(no != 0) //the instrument position in the bank is found + addtobank(no - 1, filename, &name[startname]); + else + addtobank(-1, filename, name); + ; + } closedir(dir); - if (dirname!=NULL) { - sprintf(config.cfg.currentBankDir,"%s",dirname); - }; + if(dirname != NULL) + sprintf(config.cfg.currentBankDir, "%s", dirname); + ; - return(0); -}; + return 0; +} /* * Makes a new bank, put it on a file and makes it current bank */ int Bank::newbank(const char *newbankdirname) { - int result; + int result; char tmpfilename[MAX_STRING_SIZE]; char bankdir[MAX_STRING_SIZE]; - snprintf(bankdir,MAX_STRING_SIZE,"%s",config.cfg.bankRootDirList[0]); + snprintf(bankdir, MAX_STRING_SIZE, "%s", config.cfg.bankRootDirList[0]); - if (((bankdir[strlen(bankdir)-1])!='/')&&((bankdir[strlen(bankdir)-1])!='\\')) { - strncat(bankdir,"/",MAX_STRING_SIZE); - }; - strncat(bankdir,newbankdirname,MAX_STRING_SIZE); + if(((bankdir[strlen(bankdir) - 1]) != '/') + && ((bankdir[strlen(bankdir) - 1]) != '\\')) + strncat(bankdir, "/", MAX_STRING_SIZE); + ; + strncat(bankdir, newbankdirname, MAX_STRING_SIZE); #ifdef OS_WINDOWS - result=mkdir(bankdir); + result = mkdir(bankdir); #else - result=mkdir(bankdir,S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); + result = mkdir(bankdir, S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); #endif - if (result<0) return(-1); + if(result < 0) + return -1; - snprintf(tmpfilename,MAX_STRING_SIZE,"%s/%s",bankdir,FORCE_BANK_DIR_FILE); + snprintf(tmpfilename, + MAX_STRING_SIZE, + "%s/%s", + bankdir, + FORCE_BANK_DIR_FILE); // printf("%s\n",tmpfilename); - FILE *tmpfile=fopen(tmpfilename,"w+"); + FILE *tmpfile = fopen(tmpfilename, "w+"); fclose(tmpfile); - return(loadbank(bankdir)); -}; + return loadbank(bankdir); +} /* * Check if the bank is locked (i.e. the file opened was readonly) */ int Bank::locked() { - return(dirname==NULL); -}; + return dirname == NULL; +} /* * Swaps a slot with another */ void Bank::swapslot(unsigned int n1, unsigned int n2) { - if ((n1==n2)||(locked())) return; - if (emptyslot(n1)&&(emptyslot(n2))) return; - if (emptyslot(n1)) {//change n1 to n2 in order to make - int tmp=n2; - n2=n1; - n1=tmp; - }; + if((n1 == n2) || (locked())) + return; + if(emptyslot(n1) && (emptyslot(n2))) + return; + if(emptyslot(n1)) { //change n1 to n2 in order to make + int tmp = n2; + n2 = n1; + n1 = tmp; + } - if (emptyslot(n2)) {//this is just a movement from slot1 to slot2 - setname(n1,getname(n1),n2); - ins[n2]=ins[n1]; - ins[n1].used=false; - ins[n1].name[0]='\0'; - ins[n1].filename=NULL; - ins[n1].info.PADsynth_used=0; - } else {//if both slots are used - if (strcmp(ins[n1].name,ins[n2].name)==0) {//change the name of the second instrument if the name are equal - strncat(ins[n2].name,"2",PART_MAX_NAME_LEN); - }; - setname(n1,getname(n1),n2); - setname(n2,getname(n2),n1); + if(emptyslot(n2)) { //this is just a movement from slot1 to slot2 + setname(n1, getname(n1), n2); + ins[n2] = ins[n1]; + ins[n1].used = false; + ins[n1].name[0] = '\0'; + ins[n1].filename = NULL; + ins[n1].info.PADsynth_used = 0; + } + else { //if both slots are used + if(strcmp(ins[n1].name, ins[n2].name) == 0) //change the name of the second instrument if the name are equal + strncat(ins[n2].name, "2", PART_MAX_NAME_LEN); + ; + setname(n1, getname(n1), n2); + setname(n2, getname(n2), n1); ins_t tmp; - tmp.used=true; - strcpy(tmp.name,ins[n2].name); - char *tmpfilename=ins[n2].filename; - bool padsynth_used=ins[n2].info.PADsynth_used; + tmp.used = true; + strcpy(tmp.name, ins[n2].name); + char *tmpfilename = ins[n2].filename; + bool padsynth_used = ins[n2].info.PADsynth_used; - ins[n2]=ins[n1]; - strcpy(ins[n1].name,tmp.name); - ins[n1].filename=tmpfilename; - ins[n1].info.PADsynth_used=padsynth_used; - }; - -}; + ins[n2] = ins[n1]; + strcpy(ins[n1].name, tmp.name); + ins[n1].filename = tmpfilename; + ins[n1].info.PADsynth_used = padsynth_used; + } +} //a helper function that compares 2 banks[] arrays -int Bank_compar(const void *a,const void *b) +int Bank_compar(const void *a, const void *b) { - struct Bank::bankstruct *bank1= (Bank::bankstruct *)a; - struct Bank::bankstruct *bank2= (Bank::bankstruct *)b; - if (((bank1->name)==NULL)||((bank2->name)==NULL)) return(0); + struct Bank::bankstruct *bank1 = (Bank::bankstruct *)a; + struct Bank::bankstruct *bank2 = (Bank::bankstruct *)b; + if(((bank1->name) == NULL) || ((bank2->name) == NULL)) + return 0; - int result=strcasecmp(bank1->name,bank2->name); - return(result<0); -}; + int result = strcasecmp(bank1->name, bank2->name); + return result < 0; +} /* @@ -387,56 +430,61 @@ int Bank_compar(const void *a,const void *b) void Bank::rescanforbanks() { - for (int i=0;id_name; - if (dirname[0]=='.') continue; + while((fn = readdir(dir))) { + const char *dirname = fn->d_name; + if(dirname[0] == '.') + continue; - snprintf(bank.dir,maxdirsize,"%s%s%s/",rootdir,separator,dirname); - snprintf(bank.name,maxdirsize,"%s",dirname); + snprintf(bank.dir, maxdirsize, "%s%s%s/", rootdir, separator, dirname); + snprintf(bank.name, maxdirsize, "%s", dirname); //find out if the directory contains at least 1 instrument - bool isbank=false; + bool isbank = false; - DIR *d=opendir(bank.dir); - if (d==NULL) continue; + DIR *d = opendir(bank.dir); + if(d == NULL) + continue; struct dirent *fname; - while ((fname=readdir(d))) { - if ((strstr(fname->d_name,INSTRUMENT_EXTENSION)!=NULL)|| - (strstr(fname->d_name,FORCE_BANK_DIR_FILE)!=NULL)) { - isbank=true; - break;//aici as putea pune in loc de break un update la un counter care imi arata nr. de instrumente din bank - }; - }; + while((fname = readdir(d))) { + if((strstr(fname->d_name, INSTRUMENT_EXTENSION) != NULL) + || (strstr(fname->d_name, FORCE_BANK_DIR_FILE) != NULL)) { + isbank = true; + break; //aici as putea pune in loc de break un update la un counter care imi arata nr. de instrumente din bank + } + } closedir(d); - if (isbank) { - int pos=-1; - for (int i=1;i=0) { - banks[pos].name=new char[maxdirsize]; - banks[pos].dir=new char[maxdirsize]; - snprintf(banks[pos].name,maxdirsize,"%s",bank.name); - snprintf(banks[pos].dir,maxdirsize,"%s",bank.dir); - }; - - }; - - }; + if(pos >= 0) { + banks[pos].name = new char[maxdirsize]; + banks[pos].dir = new char[maxdirsize]; + snprintf(banks[pos].name, maxdirsize, "%s", bank.name); + snprintf(banks[pos].dir, maxdirsize, "%s", bank.dir); + } + } + } closedir(dir); - -}; +} void Bank::clearbank() { - for (int i=0;i=0)&&(pos=BANK_SIZE) pos=-1; + if((pos >= 0) && (pos < BANK_SIZE)) { + if(ins[pos].used) + pos = -1; //force it to find a new free position + } + else + if(pos >= BANK_SIZE) + pos = -1; - if (pos<0) {//find a free position - for (int i=BANK_SIZE-1;i>=0;i--) - if (!ins[i].used) { - pos=i; + if(pos < 0) { //find a free position + for(int i = BANK_SIZE - 1; i >= 0; i--) + if(!ins[i].used) { + pos = i; break; - }; + } + ; + } - }; - - if (pos<0) return (-1);//the bank is full + if(pos < 0) + return -1; //the bank is full // printf("%s %d\n",filename,pos); deletefrombank(pos); - ins[pos].used=true; - snprintf(ins[pos].name,PART_MAX_NAME_LEN,"%s",name); + ins[pos].used = true; + snprintf(ins[pos].name, PART_MAX_NAME_LEN, "%s", name); - snprintf(tmpinsname[pos],PART_MAX_NAME_LEN+10," "); + snprintf(tmpinsname[pos], PART_MAX_NAME_LEN + 10, " "); - int len=strlen(filename)+1+strlen(dirname); - ins[pos].filename=new char[len+2]; - ins[pos].filename[len+1]=0; - snprintf(ins[pos].filename,len+1,"%s/%s",dirname,filename); + int len = strlen(filename) + 1 + strlen(dirname); + ins[pos].filename = new char[len + 2]; + ins[pos].filename[len + 1] = 0; + snprintf(ins[pos].filename, len + 1, "%s/%s", dirname, filename); //see if PADsynth is used - if (config.cfg.CheckPADsynth) { - XMLwrapper *xml=new XMLwrapper(); + if(config.cfg.CheckPADsynth) { + XMLwrapper *xml = new XMLwrapper(); xml->loadXMLfile(ins[pos].filename); - ins[pos].info.PADsynth_used=xml->hasPadSynth(); + ins[pos].info.PADsynth_used = xml->hasPadSynth(); delete xml; - } else ins[pos].info.PADsynth_used=false; + } + else + ins[pos].info.PADsynth_used = false; - return(0); -}; + return 0; +} bool Bank::isPADsynth_used(unsigned int ninstrument) { - if (config.cfg.CheckPADsynth==0) return(0); - else return(ins[ninstrument].info.PADsynth_used); -}; + if(config.cfg.CheckPADsynth == 0) + return 0; + else + return ins[ninstrument].info.PADsynth_used; +} void Bank::deletefrombank(int pos) { - if ((pos<0)||(pos>=BANK_SIZE)) return; - ins[pos].used=false; - ZERO(ins[pos].name,PART_MAX_NAME_LEN+1); - if (ins[pos].filename!=NULL) { - delete []ins[pos].filename; - ins[pos].filename=NULL; - }; + if((pos < 0) || (pos >= BANK_SIZE)) + return; + ins[pos].used = false; + ZERO(ins[pos].name, PART_MAX_NAME_LEN + 1); + if(ins[pos].filename != NULL) { + delete [] ins[pos].filename; + ins[pos].filename = NULL; + } - ZERO(tmpinsname[pos],PART_MAX_NAME_LEN+20); - -}; + ZERO(tmpinsname[pos], PART_MAX_NAME_LEN + 20); +} diff --git a/plugins/zynaddsubfx/src/Misc/Bank.h b/plugins/zynaddsubfx/src/Misc/Bank.h index 8359b541b..81acc3dec 100644 --- a/plugins/zynaddsubfx/src/Misc/Bank.h +++ b/plugins/zynaddsubfx/src/Misc/Bank.h @@ -38,70 +38,70 @@ * \todo add in strings to replace char* */ class Bank { -public: - /**Constructor*/ - Bank(); - ~Bank(); - char *getname(unsigned int ninstrument); - char *getnamenumbered(unsigned int ninstrument); - void setname(unsigned int ninstrument,const char *newname,int newslot);//if newslot==-1 then this is ignored, else it will be put on that slot - bool isPADsynth_used(unsigned int ninstrument); + public: + /**Constructor*/ + Bank(); + ~Bank(); + char *getname(unsigned int ninstrument); + char *getnamenumbered(unsigned int ninstrument); + void setname(unsigned int ninstrument, const char *newname, int newslot); //if newslot==-1 then this is ignored, else it will be put on that slot + bool isPADsynth_used(unsigned int ninstrument); - /**returns 0 if the slot is not empty or 1 if the slot is empty - * \todo start using bool before facepalm*/ - int emptyslot(unsigned int ninstrument); + /**returns 0 if the slot is not empty or 1 if the slot is empty + * \todo start using bool before facepalm*/ + int emptyslot(unsigned int ninstrument); - /**Empties out the selected slot*/ - void clearslot(unsigned int ninstrument); - /**Saves the given Part to slot*/ - void savetoslot(unsigned int ninstrument,Part *part); - /**Loads the given slot into a Part*/ - void loadfromslot(unsigned int ninstrument,Part *part); + /**Empties out the selected slot*/ + void clearslot(unsigned int ninstrument); + /**Saves the given Part to slot*/ + void savetoslot(unsigned int ninstrument, Part *part); + /**Loads the given slot into a Part*/ + void loadfromslot(unsigned int ninstrument, Part *part); - /**Swaps Slots*/ - void swapslot(unsigned int n1,unsigned int n2); + /**Swaps Slots*/ + void swapslot(unsigned int n1, unsigned int n2); - int loadbank(const char *bankdirname); - int newbank(const char *newbankdirname); + int loadbank(const char *bankdirname); + int newbank(const char *newbankdirname); - char *bankfiletitle; //this is shown on the UI of the bank (the title of the window) - int locked(); + char *bankfiletitle; //this is shown on the UI of the bank (the title of the window) + int locked(); - void rescanforbanks(); + void rescanforbanks(); - struct bankstruct { - char *dir; - char *name; - }; + struct bankstruct { + char *dir; + char *name; + }; - bankstruct banks[MAX_NUM_BANKS]; + bankstruct banks[MAX_NUM_BANKS]; -private: + private: - //it adds a filename to the bank - //if pos is -1 it try to find a position - //returns -1 if the bank is full, or 0 if the instrument was added - int addtobank(int pos,const char* filename,const char* name); + //it adds a filename to the bank + //if pos is -1 it try to find a position + //returns -1 if the bank is full, or 0 if the instrument was added + int addtobank(int pos, const char *filename, const char *name); - void deletefrombank(int pos); + void deletefrombank(int pos); - void clearbank(); + void clearbank(); - char defaultinsname[PART_MAX_NAME_LEN]; - char tmpinsname[BANK_SIZE][PART_MAX_NAME_LEN+20];//this keeps the numbered names + char defaultinsname[PART_MAX_NAME_LEN]; + char tmpinsname[BANK_SIZE][PART_MAX_NAME_LEN + 20]; //this keeps the numbered names - struct ins_t { - bool used; - char name[PART_MAX_NAME_LEN+1]; - char *filename; - struct { - bool PADsynth_used; - } info; - }ins[BANK_SIZE]; + struct ins_t { + bool used; + char name[PART_MAX_NAME_LEN + 1]; + char *filename; + struct { + bool PADsynth_used; + } info; + } ins[BANK_SIZE]; - char *dirname; + char *dirname; - void scanrootdir(char *rootdir);//scans a root dir for banks + void scanrootdir(char *rootdir); //scans a root dir for banks }; #endif diff --git a/plugins/zynaddsubfx/src/Misc/Config.cpp b/plugins/zynaddsubfx/src/Misc/Config.cpp index 9a290158c..94966e4af 100644 --- a/plugins/zynaddsubfx/src/Misc/Config.cpp +++ b/plugins/zynaddsubfx/src/Misc/Config.cpp @@ -33,309 +33,369 @@ #include "XMLwrapper.h" Config::Config() -{ -}; +{} void Config::init() { - maxstringsize=MAX_STRING_SIZE;//for ui + maxstringsize = MAX_STRING_SIZE; //for ui //defaults - cfg.SampleRate=44100; - cfg.SoundBufferSize=256; - cfg.OscilSize=1024; - cfg.SwapStereo=0; + cfg.SampleRate = 44100; + cfg.SoundBufferSize = 256; + cfg.OscilSize = 1024; + cfg.SwapStereo = 0; - cfg.LinuxOSSWaveOutDev=new char[MAX_STRING_SIZE]; - snprintf(cfg.LinuxOSSWaveOutDev,MAX_STRING_SIZE,"/dev/dsp"); - cfg.LinuxOSSSeqInDev=new char[MAX_STRING_SIZE]; - snprintf(cfg.LinuxOSSSeqInDev,MAX_STRING_SIZE,"/dev/sequencer"); + cfg.LinuxOSSWaveOutDev = new char[MAX_STRING_SIZE]; + snprintf(cfg.LinuxOSSWaveOutDev, MAX_STRING_SIZE, "/dev/dsp"); + cfg.LinuxOSSSeqInDev = new char[MAX_STRING_SIZE]; + snprintf(cfg.LinuxOSSSeqInDev, MAX_STRING_SIZE, "/dev/sequencer"); - cfg.DumpFile=new char[MAX_STRING_SIZE]; - snprintf(cfg.DumpFile,MAX_STRING_SIZE,"zynaddsubfx_dump.txt"); + cfg.DumpFile = new char[MAX_STRING_SIZE]; + snprintf(cfg.DumpFile, MAX_STRING_SIZE, "zynaddsubfx_dump.txt"); - cfg.WindowsWaveOutId=0; - cfg.WindowsMidiInId=0; + cfg.WindowsWaveOutId = 0; + cfg.WindowsMidiInId = 0; - cfg.BankUIAutoClose=0; - cfg.DumpNotesToFile=0; - cfg.DumpAppend=1; + cfg.BankUIAutoClose = 0; + cfg.DumpNotesToFile = 0; + cfg.DumpAppend = 1; - cfg.GzipCompression=3; + cfg.GzipCompression = 3; - cfg.Interpolation=0; - cfg.CheckPADsynth=1; + cfg.Interpolation = 0; + cfg.CheckPADsynth = 1; - cfg.UserInterfaceMode=0; - cfg.VirKeybLayout=1; - winwavemax=1; - winmidimax=1; + cfg.UserInterfaceMode = 0; + cfg.VirKeybLayout = 1; + winwavemax = 1; + winmidimax = 1; //try to find out how many input midi devices are there #ifdef WINMIDIIN - winmidimax=midiInGetNumDevs(); - if (winmidimax==0) winmidimax=1; + winmidimax = midiInGetNumDevs(); + if(winmidimax == 0) + winmidimax = 1; #endif - winmididevices=new winmidionedevice[winmidimax]; - for (int i=0;iloadXMLfile(filename)<0) return; - if (xmlcfg->enterbranch("CONFIGURATION")) { - cfg.SampleRate=xmlcfg->getpar("sample_rate",cfg.SampleRate,4000,1024000); - cfg.SoundBufferSize=xmlcfg->getpar("sound_buffer_size",cfg.SoundBufferSize,16,8192); - cfg.OscilSize=xmlcfg->getpar("oscil_size",cfg.OscilSize,MAX_AD_HARMONICS*2,131072); - cfg.SwapStereo=xmlcfg->getpar("swap_stereo",cfg.SwapStereo,0,1); - cfg.BankUIAutoClose=xmlcfg->getpar("bank_window_auto_close",cfg.BankUIAutoClose,0,1); + XMLwrapper *xmlcfg = new XMLwrapper(); + if(xmlcfg->loadXMLfile(filename) < 0) + return; + if(xmlcfg->enterbranch("CONFIGURATION")) { + cfg.SampleRate = xmlcfg->getpar("sample_rate", + cfg.SampleRate, + 4000, + 1024000); + cfg.SoundBufferSize = xmlcfg->getpar("sound_buffer_size", + cfg.SoundBufferSize, + 16, + 8192); + cfg.OscilSize = xmlcfg->getpar("oscil_size", + cfg.OscilSize, + MAX_AD_HARMONICS * 2, + 131072); + cfg.SwapStereo = xmlcfg->getpar("swap_stereo", + cfg.SwapStereo, + 0, + 1); + cfg.BankUIAutoClose = xmlcfg->getpar("bank_window_auto_close", + cfg.BankUIAutoClose, + 0, + 1); - cfg.DumpNotesToFile=xmlcfg->getpar("dump_notes_to_file",cfg.DumpNotesToFile,0,1); - cfg.DumpAppend=xmlcfg->getpar("dump_append",cfg.DumpAppend,0,1); - xmlcfg->getparstr("dump_file",cfg.DumpFile,MAX_STRING_SIZE); + cfg.DumpNotesToFile = xmlcfg->getpar("dump_notes_to_file", + cfg.DumpNotesToFile, + 0, + 1); + cfg.DumpAppend = xmlcfg->getpar("dump_append", + cfg.DumpAppend, + 0, + 1); + xmlcfg->getparstr("dump_file", cfg.DumpFile, MAX_STRING_SIZE); - cfg.GzipCompression=xmlcfg->getpar("gzip_compression",cfg.GzipCompression,0,9); + cfg.GzipCompression = xmlcfg->getpar("gzip_compression", + cfg.GzipCompression, + 0, + 9); - xmlcfg->getparstr("bank_current",cfg.currentBankDir,MAX_STRING_SIZE); - cfg.Interpolation=xmlcfg->getpar("interpolation",cfg.Interpolation,0,1); + xmlcfg->getparstr("bank_current", cfg.currentBankDir, MAX_STRING_SIZE); + cfg.Interpolation = xmlcfg->getpar("interpolation", + cfg.Interpolation, + 0, + 1); - cfg.CheckPADsynth=xmlcfg->getpar("check_pad_synth",cfg.CheckPADsynth,0,1); + cfg.CheckPADsynth = xmlcfg->getpar("check_pad_synth", + cfg.CheckPADsynth, + 0, + 1); - cfg.UserInterfaceMode=xmlcfg->getpar("user_interface_mode",cfg.UserInterfaceMode,0,2); - cfg.VirKeybLayout=xmlcfg->getpar("virtual_keyboard_layout",cfg.VirKeybLayout,0,10); + cfg.UserInterfaceMode = xmlcfg->getpar("user_interface_mode", + cfg.UserInterfaceMode, + 0, + 2); + cfg.VirKeybLayout = xmlcfg->getpar("virtual_keyboard_layout", + cfg.VirKeybLayout, + 0, + 10); //get bankroot dirs - for (int i=0;ienterbranch("BANKROOT",i)) { - cfg.bankRootDirList[i]=new char[MAX_STRING_SIZE]; - xmlcfg->getparstr("bank_root",cfg.bankRootDirList[i],MAX_STRING_SIZE); + for(int i = 0; i < MAX_BANK_ROOT_DIRS; i++) { + if(xmlcfg->enterbranch("BANKROOT", i)) { + cfg.bankRootDirList[i] = new char[MAX_STRING_SIZE]; + xmlcfg->getparstr("bank_root", + cfg.bankRootDirList[i], + MAX_STRING_SIZE); xmlcfg->exitbranch(); - }; - }; + } + } //get preset root dirs - for (int i=0;ienterbranch("PRESETSROOT",i)) { - cfg.presetsDirList[i]=new char[MAX_STRING_SIZE]; - xmlcfg->getparstr("presets_root",cfg.presetsDirList[i],MAX_STRING_SIZE); + for(int i = 0; i < MAX_BANK_ROOT_DIRS; i++) { + if(xmlcfg->enterbranch("PRESETSROOT", i)) { + cfg.presetsDirList[i] = new char[MAX_STRING_SIZE]; + xmlcfg->getparstr("presets_root", + cfg.presetsDirList[i], + MAX_STRING_SIZE); xmlcfg->exitbranch(); - }; - }; + } + } //linux stuff - xmlcfg->getparstr("linux_oss_wave_out_dev",cfg.LinuxOSSWaveOutDev,MAX_STRING_SIZE); - xmlcfg->getparstr("linux_oss_seq_in_dev",cfg.LinuxOSSSeqInDev,MAX_STRING_SIZE); + xmlcfg->getparstr("linux_oss_wave_out_dev", + cfg.LinuxOSSWaveOutDev, + MAX_STRING_SIZE); + xmlcfg->getparstr("linux_oss_seq_in_dev", + cfg.LinuxOSSSeqInDev, + MAX_STRING_SIZE); //windows stuff - cfg.WindowsWaveOutId=xmlcfg->getpar("windows_wave_out_id",cfg.WindowsWaveOutId,0,winwavemax); - cfg.WindowsMidiInId=xmlcfg->getpar("windows_midi_in_id",cfg.WindowsMidiInId,0,winmidimax); + cfg.WindowsWaveOutId = xmlcfg->getpar("windows_wave_out_id", + cfg.WindowsWaveOutId, + 0, + winwavemax); + cfg.WindowsMidiInId = xmlcfg->getpar("windows_midi_in_id", + cfg.WindowsMidiInId, + 0, + winmidimax); xmlcfg->exitbranch(); - }; - delete(xmlcfg); + } + delete (xmlcfg); - cfg.OscilSize=(int) pow(2,ceil(log (cfg.OscilSize-1.0)/log(2.0))); - -}; + cfg.OscilSize = (int) pow(2, ceil(log(cfg.OscilSize - 1.0) / log(2.0))); +} void Config::saveConfig(const char *filename) { - XMLwrapper *xmlcfg=new XMLwrapper(); + XMLwrapper *xmlcfg = new XMLwrapper(); xmlcfg->beginbranch("CONFIGURATION"); - xmlcfg->addpar("sample_rate",cfg.SampleRate); - xmlcfg->addpar("sound_buffer_size",cfg.SoundBufferSize); - xmlcfg->addpar("oscil_size",cfg.OscilSize); - xmlcfg->addpar("swap_stereo",cfg.SwapStereo); - xmlcfg->addpar("bank_window_auto_close",cfg.BankUIAutoClose); + xmlcfg->addpar("sample_rate", cfg.SampleRate); + xmlcfg->addpar("sound_buffer_size", cfg.SoundBufferSize); + xmlcfg->addpar("oscil_size", cfg.OscilSize); + xmlcfg->addpar("swap_stereo", cfg.SwapStereo); + xmlcfg->addpar("bank_window_auto_close", cfg.BankUIAutoClose); - xmlcfg->addpar("dump_notes_to_file",cfg.DumpNotesToFile); - xmlcfg->addpar("dump_append",cfg.DumpAppend); - xmlcfg->addparstr("dump_file",cfg.DumpFile); + xmlcfg->addpar("dump_notes_to_file", cfg.DumpNotesToFile); + xmlcfg->addpar("dump_append", cfg.DumpAppend); + xmlcfg->addparstr("dump_file", cfg.DumpFile); - xmlcfg->addpar("gzip_compression",cfg.GzipCompression); + xmlcfg->addpar("gzip_compression", cfg.GzipCompression); - xmlcfg->addpar("check_pad_synth",cfg.CheckPADsynth); + xmlcfg->addpar("check_pad_synth", cfg.CheckPADsynth); - xmlcfg->addparstr("bank_current",cfg.currentBankDir); + xmlcfg->addparstr("bank_current", cfg.currentBankDir); - xmlcfg->addpar("user_interface_mode",cfg.UserInterfaceMode); - xmlcfg->addpar("virtual_keyboard_layout",cfg.VirKeybLayout); + xmlcfg->addpar("user_interface_mode", cfg.UserInterfaceMode); + xmlcfg->addpar("virtual_keyboard_layout", cfg.VirKeybLayout); - for (int i=0;ibeginbranch("BANKROOT",i); - xmlcfg->addparstr("bank_root",cfg.bankRootDirList[i]); + for(int i = 0; i < MAX_BANK_ROOT_DIRS; i++) + if(cfg.bankRootDirList[i] != NULL) { + xmlcfg->beginbranch("BANKROOT", i); + xmlcfg->addparstr("bank_root", cfg.bankRootDirList[i]); xmlcfg->endbranch(); - }; + } + ; - for (int i=0;ibeginbranch("PRESETSROOT",i); - xmlcfg->addparstr("presets_root",cfg.presetsDirList[i]); + for(int i = 0; i < MAX_BANK_ROOT_DIRS; i++) + if(cfg.presetsDirList[i] != NULL) { + xmlcfg->beginbranch("PRESETSROOT", i); + xmlcfg->addparstr("presets_root", cfg.presetsDirList[i]); xmlcfg->endbranch(); - }; + } + ; - xmlcfg->addpar("interpolation",cfg.Interpolation); + xmlcfg->addpar("interpolation", cfg.Interpolation); //linux stuff - xmlcfg->addparstr("linux_oss_wave_out_dev",cfg.LinuxOSSWaveOutDev); - xmlcfg->addparstr("linux_oss_seq_in_dev",cfg.LinuxOSSSeqInDev); + xmlcfg->addparstr("linux_oss_wave_out_dev", cfg.LinuxOSSWaveOutDev); + xmlcfg->addparstr("linux_oss_seq_in_dev", cfg.LinuxOSSSeqInDev); //windows stuff - xmlcfg->addpar("windows_wave_out_id",cfg.WindowsWaveOutId); - xmlcfg->addpar("windows_midi_in_id",cfg.WindowsMidiInId); + xmlcfg->addpar("windows_wave_out_id", cfg.WindowsWaveOutId); + xmlcfg->addpar("windows_midi_in_id", cfg.WindowsMidiInId); xmlcfg->endbranch(); - int tmp=cfg.GzipCompression; - cfg.GzipCompression=0; + int tmp = cfg.GzipCompression; + cfg.GzipCompression = 0; xmlcfg->saveXMLfile(filename); - cfg.GzipCompression=tmp; + cfg.GzipCompression = tmp; - delete(xmlcfg); -}; + delete (xmlcfg); +} void Config::getConfigFileName(char *name, int namesize) { - name[0]=0; + name[0] = 0; #ifdef OS_LINUX - snprintf(name,namesize,"%s%s",getenv("HOME"),"/.zynaddsubfxXML.cfg"); + snprintf(name, namesize, "%s%s", getenv("HOME"), "/.zynaddsubfxXML.cfg"); #else - snprintf(name,namesize,"%s","zynaddsubfxXML.cfg"); + snprintf(name, namesize, "%s", "zynaddsubfxXML.cfg"); #endif - -}; +} diff --git a/plugins/zynaddsubfx/src/Misc/Config.h b/plugins/zynaddsubfx/src/Misc/Config.h index 9d4fef615..f08505d80 100644 --- a/plugins/zynaddsubfx/src/Misc/Config.h +++ b/plugins/zynaddsubfx/src/Misc/Config.h @@ -29,43 +29,43 @@ /**Configuration file functions*/ class Config { -public: - /** Constructor*/ - Config(); - /** Destructor*/ - ~Config(); - struct { - char *LinuxOSSWaveOutDev,*LinuxOSSSeqInDev; - int SampleRate,SoundBufferSize,OscilSize,SwapStereo; - int WindowsWaveOutId,WindowsMidiInId; - int BankUIAutoClose; - int DumpNotesToFile,DumpAppend; - int GzipCompression; - int Interpolation; - char *DumpFile; - char *bankRootDirList[MAX_BANK_ROOT_DIRS],*currentBankDir; - char *presetsDirList[MAX_BANK_ROOT_DIRS]; - int CheckPADsynth; - int UserInterfaceMode; - int VirKeybLayout; - } cfg; - int winwavemax,winmidimax;//number of wave/midi devices on Windows - int maxstringsize; + public: + /** Constructor*/ + Config(); + /** Destructor*/ + ~Config(); + struct { + char *LinuxOSSWaveOutDev, *LinuxOSSSeqInDev; + int SampleRate, SoundBufferSize, OscilSize, SwapStereo; + int WindowsWaveOutId, WindowsMidiInId; + int BankUIAutoClose; + int DumpNotesToFile, DumpAppend; + int GzipCompression; + int Interpolation; + char *DumpFile; + char *bankRootDirList[MAX_BANK_ROOT_DIRS], *currentBankDir; + char *presetsDirList[MAX_BANK_ROOT_DIRS]; + int CheckPADsynth; + int UserInterfaceMode; + int VirKeybLayout; + } cfg; + int winwavemax, winmidimax; //number of wave/midi devices on Windows + int maxstringsize; - struct winmidionedevice { - char *name; - }; - winmidionedevice *winmididevices; + struct winmidionedevice { + char *name; + }; + winmidionedevice *winmididevices; - void clearbankrootdirlist(); - void clearpresetsdirlist(); - void init(); - void save(); + void clearbankrootdirlist(); + void clearpresetsdirlist(); + void init(); + void save(); -private: - void readConfig(const char *filename); - void saveConfig(const char *filename); - void getConfigFileName(char *name,int namesize); + private: + void readConfig(const char *filename); + void saveConfig(const char *filename); + void getConfigFileName(char *name, int namesize); }; #endif diff --git a/plugins/zynaddsubfx/src/Misc/Control.h b/plugins/zynaddsubfx/src/Misc/Control.h index 780d4b9e6..297e6f0da 100644 --- a/plugins/zynaddsubfx/src/Misc/Control.h +++ b/plugins/zynaddsubfx/src/Misc/Control.h @@ -27,74 +27,74 @@ class Control { -public: - /** - * The parent is the logical owner of this control. Parent should only - * be null for the root node. - * The id is a string uniquely identifying this control within the - * context of the parent control. No spaces or dots are allowed in this - * id. - * Children id's are denoted by ., so that one - * can refer to any control in the hierarchy by separating them with - * dots. Example: Main.AddSynth.FrequencyLFO.Amplitude - */ - Control(Control *parent, string id); + public: + /** + * The parent is the logical owner of this control. Parent should only + * be null for the root node. + * The id is a string uniquely identifying this control within the + * context of the parent control. No spaces or dots are allowed in this + * id. + * Children id's are denoted by ., so that one + * can refer to any control in the hierarchy by separating them with + * dots. Example: Main.AddSynth.FrequencyLFO.Amplitude + */ + Control(Control *parent, string id); - /** - * Will recursively get the XML representation for all the subcontrols. - * Used for saving to file and copy-pasting settings - */ - string getXMLRepresentation(); + /** + * Will recursively get the XML representation for all the subcontrols. + * Used for saving to file and copy-pasting settings + */ + string getXMLRepresentation(); - /** - * Set the value of this (and possibly subcomponents as well) based on - * a xml description. - */ - void restoreFromXML(string xml); + /** + * Set the value of this (and possibly subcomponents as well) based on + * a xml description. + */ + void restoreFromXML(string xml); - /** - * Register a controluser. This will cause this user to be notified - * whenever the contents of the control changes. - */ - void registerControlUser(ControlUser *user); - - /** - * This should return a string representation of the controls internal - * value - */ - virtual string getStringRepresentation() = 0; + /** + * Register a controluser. This will cause this user to be notified + * whenever the contents of the control changes. + */ + void registerControlUser(ControlUser *user); + /** + * This should return a string representation of the controls internal + * value + */ + virtual string getStringRepresentation() = 0; }; -class FloatControl : public Control +class FloatControl:public Control { -public: - /** - * Set the value of this control. If the ControlUser variable is set, - * then this user will not be updated with the new value. This is to - * avoid setting a value being set back to the source that set it - * (which would be redundant, or possibly causing infinite setValue - * loops). - * NOTE: this function is thread-safe (using a mutex internally) - */ - void setValue(float value, ControlUser *user = NULL); + public: + /** + * Set the value of this control. If the ControlUser variable is set, + * then this user will not be updated with the new value. This is to + * avoid setting a value being set back to the source that set it + * (which would be redundant, or possibly causing infinite setValue + * loops). + * NOTE: this function is thread-safe (using a mutex internally) + */ + void setValue(float value, ControlUser *user = NULL); - /** - * Reimplemented from Control - */ - virtual string getStringRepresentation(); + /** + * Reimplemented from Control + */ + virtual string getStringRepresentation(); - float value(); + float value(); }; class ControlUser { -public: - /** - * Pure virtual method, to notify the controluser that the value has - * been changed internally, and needs to be read again. - */ - virtual void controlUpdated(Control *control) = 0; + public: + /** + * Pure virtual method, to notify the controluser that the value has + * been changed internally, and needs to be read again. + */ + virtual void controlUpdated(Control *control) = 0; }; #endif /* _CONTROL_H_ */ + diff --git a/plugins/zynaddsubfx/src/Misc/Dump.cpp b/plugins/zynaddsubfx/src/Misc/Dump.cpp index cb1728ec6..4c13c9464 100644 --- a/plugins/zynaddsubfx/src/Misc/Dump.cpp +++ b/plugins/zynaddsubfx/src/Misc/Dump.cpp @@ -28,80 +28,97 @@ Dump dump; Dump::Dump() { - file=NULL; - tick=0; - k=0; - keyspressed=0; -}; + file = NULL; + tick = 0; + k = 0; + keyspressed = 0; +} Dump::~Dump() { - if (file!=NULL) { - double duration=(double)tick*(double) SOUND_BUFFER_SIZE/(double) SAMPLE_RATE; - fprintf(file,"\n# statistics: duration = %d seconds; keyspressed = %d\n\n\n\n",(int) duration,keyspressed); + if(file != NULL) { + double duration = (double)tick * (double) SOUND_BUFFER_SIZE + / (double) SAMPLE_RATE; + fprintf( + file, + "\n# statistics: duration = %d seconds; keyspressed = %d\n\n\n\n", + (int) duration, + keyspressed); fclose(file); - }; -}; + } +} void Dump::startnow() { - if (file!=NULL) return;//the file is already open + if(file != NULL) + return; //the file is already open - if (config.cfg.DumpNotesToFile!=0) { - if (config.cfg.DumpAppend!=0) file=fopen(config.cfg.DumpFile,"a"); - else file=fopen(config.cfg.DumpFile,"w"); - if (file==NULL) return; - if (config.cfg.DumpAppend!=0) fprintf(file,"%s","#************************************\n"); + if(config.cfg.DumpNotesToFile != 0) { + if(config.cfg.DumpAppend != 0) + file = fopen(config.cfg.DumpFile, "a"); + else + file = fopen(config.cfg.DumpFile, "w"); + if(file == NULL) + return; + if(config.cfg.DumpAppend != 0) + fprintf(file, "%s", "#************************************\n"); - time_t tm=time(NULL); + time_t tm = time(NULL); - fprintf(file,"#date/time = %s\n",ctime(&tm)); - fprintf(file,"#1 tick = %g milliseconds\n",SOUND_BUFFER_SIZE*1000.0/SAMPLE_RATE); - fprintf(file,"SAMPLERATE = %d\n",SAMPLE_RATE); - fprintf(file,"TICKSIZE = %d #samples\n",SOUND_BUFFER_SIZE); - fprintf(file,"\n\nSTART\n"); - }; -}; + fprintf(file, "#date/time = %s\n", ctime(&tm)); + fprintf(file, + "#1 tick = %g milliseconds\n", + SOUND_BUFFER_SIZE * 1000.0 / SAMPLE_RATE); + fprintf(file, "SAMPLERATE = %d\n", SAMPLE_RATE); + fprintf(file, "TICKSIZE = %d #samples\n", SOUND_BUFFER_SIZE); + fprintf(file, "\n\nSTART\n"); + } +} void Dump::inctick() { tick++; -}; +} -void Dump::dumpnote(char chan,char note, char vel) +void Dump::dumpnote(char chan, char note, char vel) { - if (file==NULL) return; - if (note==0) return; - if (vel==0) fprintf(file,"n %d -> %d %d \n",tick,chan,note);//note off - else fprintf(file,"N %d -> %d %d %d \n",tick,chan,note,vel);//note on + if(file == NULL) + return; + if(note == 0) + return; + if(vel == 0) + fprintf(file, "n %d -> %d %d \n", tick, chan, note); //note off + else + fprintf(file, "N %d -> %d %d %d \n", tick, chan, note, vel); //note on - if (vel!=0) keyspressed++; + if(vel != 0) + keyspressed++; #ifndef JACKAUDIOOUT - if (k++>25) { + if(k++ > 25) { fflush(file); - k=0; - }; + k = 0; + } #endif -}; +} -void Dump::dumpcontroller(char chan,unsigned int type,int par) +void Dump::dumpcontroller(char chan, unsigned int type, int par) { - if (file==NULL) return; - switch (type) { + if(file == NULL) + return; + switch(type) { case C_pitchwheel: - fprintf(file,"P %d -> %d %d\n",tick,chan,par); + fprintf(file, "P %d -> %d %d\n", tick, chan, par); break; default: - fprintf(file,"C %d -> %d %d %d\n",tick,chan,type,par); + fprintf(file, "C %d -> %d %d %d\n", tick, chan, type, par); break; - }; + } #ifndef JACKAUDIOOUT - if (k++>25) { + if(k++ > 25) { fflush(file); - k=0; - }; + k = 0; + } #endif -}; - +} diff --git a/plugins/zynaddsubfx/src/Misc/Dump.h b/plugins/zynaddsubfx/src/Misc/Dump.h index d285eb936..392fd407b 100644 --- a/plugins/zynaddsubfx/src/Misc/Dump.h +++ b/plugins/zynaddsubfx/src/Misc/Dump.h @@ -30,34 +30,35 @@ * \todo upgrade from stdio to iostream*/ class Dump { -public: - /**Constructor*/ - Dump(); - /**Destructor - * Closes the dumpfile*/ - ~Dump(); - /**Open dumpfile and prepare it for dumps - * \todo see if this fits better in the constructor*/ - void startnow(); - /**Tick the timestamp*/ - void inctick(); - /**Dump Note to dumpfile - * @param chan The channel of the note - * @param note The note - * @param vel The velocity of the note*/ - void dumpnote(char chan,char note, char vel); - /** Dump the Controller - * @param chan The channel of the Controller - * @param type The type - * @param par The value of the controller - * \todo figure out what type is exactly meaning*/ - void dumpcontroller(char chan,unsigned int type,int par); + public: + /**Constructor*/ + Dump(); + /**Destructor + * Closes the dumpfile*/ + ~Dump(); + /**Open dumpfile and prepare it for dumps + * \todo see if this fits better in the constructor*/ + void startnow(); + /**Tick the timestamp*/ + void inctick(); + /**Dump Note to dumpfile + * @param chan The channel of the note + * @param note The note + * @param vel The velocity of the note*/ + void dumpnote(char chan, char note, char vel); + /** Dump the Controller + * @param chan The channel of the Controller + * @param type The type + * @param par The value of the controller + * \todo figure out what type is exactly meaning*/ + void dumpcontroller(char chan, unsigned int type, int par); -private: - FILE *file; - int tick; - int k;//This appears to be a constant used to flush the file - //periodically when JACK is used - int keyspressed; + private: + FILE *file; + int tick; + int k; //This appears to be a constant used to flush the file + //periodically when JACK is used + int keyspressed; }; #endif + diff --git a/plugins/zynaddsubfx/src/Misc/LASHClient.cpp b/plugins/zynaddsubfx/src/Misc/LASHClient.cpp index 3434a05fb..a21461f29 100644 --- a/plugins/zynaddsubfx/src/Misc/LASHClient.cpp +++ b/plugins/zynaddsubfx/src/Misc/LASHClient.cpp @@ -26,7 +26,7 @@ #include "LASHClient.h" -LASHClient::LASHClient(int* argc, char*** argv) +LASHClient::LASHClient(int *argc, char ***argv) { client = lash_init(lash_extract_args(argc, argv), "ZynAddSubFX", LASH_Config_File, LASH_PROTOCOL(2, 0)); @@ -35,56 +35,54 @@ LASHClient::LASHClient(int* argc, char*** argv) void LASHClient::setalsaid(int id) { - if (lash_enabled(client)) { - if (id != -1) + if(lash_enabled(client)) + if(id != -1) lash_alsa_client_id(client, id); - } } -void LASHClient::setjackname(const char* name) +void LASHClient::setjackname(const char *name) { - if (lash_enabled(client)) { - if (name != NULL) { + if(lash_enabled(client)) + if(name != NULL) { lash_jack_client_name(client, name); lash_event_t *event = lash_event_new_with_type(LASH_Client_Name); lash_event_set_string(event, name); lash_send_event(client, event); } - } } -LASHClient::Event LASHClient::checkevents(std::string& filename) +LASHClient::Event LASHClient::checkevents(std::string &filename) { - - if (!lash_enabled(client)) + if(!lash_enabled(client)) return NoEvent; Event received = NoEvent; - lash_event_t* event; - while (event = lash_get_event(client)) { - + lash_event_t *event; + while(event = lash_get_event(client)) { // save - if (lash_event_get_type(event) == LASH_Save_File) { - std::cerr<<"LASH event: LASH_Save_File"<defaults(); - part[npart]->Prcvchn=npart%NUM_MIDI_CHANNELS; - }; + part[npart]->Prcvchn = npart % NUM_MIDI_CHANNELS; + } - partonoff(0,1);//enable the first part + partonoff(0, 1); //enable the first part - for (int nefx=0;nefxdefaults(); - Pinsparts[nefx]=-1; - }; + Pinsparts[nefx] = -1; + } //System Effects init - for (int nefx=0;nefxdefaults(); - for (int npart=0;npartchangeeffect(1); microtonal.defaults(); ShutUp(); -}; +} /* * Note On Messages (velocity=0 for NoteOff) */ -void Master::NoteOn(unsigned char chan,unsigned char note,unsigned char velocity) +void Master::NoteOn(unsigned char chan, + unsigned char note, + unsigned char velocity) { - dump.dumpnote(chan,note,velocity); + dump.dumpnote(chan, note, velocity); - noteon(chan,note,velocity); -}; + noteon(chan, note, velocity); +} /* * Internal Note On (velocity=0 for NoteOff) */ -void Master::noteon(unsigned char chan,unsigned char note,unsigned char velocity) +void Master::noteon(unsigned char chan, + unsigned char note, + unsigned char velocity) { int npart; - if (velocity!=0) { - for (npart=0;npartPrcvchn) { - fakepeakpart[npart]=velocity*2; - if (part[npart]->Penabled!=0) part[npart]->NoteOn(note,velocity,keyshift); - }; - }; - } else { - this->NoteOff(chan,note); - }; + if(velocity != 0) { + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) { + if(chan == part[npart]->Prcvchn) { + fakepeakpart[npart] = velocity * 2; + if(part[npart]->Penabled != 0) + part[npart]->NoteOn(note, velocity, keyshift); + } + } + } + else + this->NoteOff(chan, note); + ; HDDRecorder.triggernow(); -}; +} /* * Note Off Messages */ -void Master::NoteOff(unsigned char chan,unsigned char note) +void Master::NoteOff(unsigned char chan, unsigned char note) { - dump.dumpnote(chan,note,0); + dump.dumpnote(chan, note, 0); - noteoff(chan,note); -}; + noteoff(chan, note); +} /* * Internal Note Off */ -void Master::noteoff(unsigned char chan,unsigned char note) +void Master::noteoff(unsigned char chan, unsigned char note) { int npart; - for (npart=0;npartPrcvchn) && (part[npart]->Penabled!=0)) + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) + if((chan == part[npart]->Prcvchn) && (part[npart]->Penabled != 0)) part[npart]->NoteOff(note); - }; -}; + ; +} /* * Controllers */ -void Master::SetController(unsigned char chan,unsigned int type,int par) +void Master::SetController(unsigned char chan, unsigned int type, int par) { - dump.dumpcontroller(chan,type,par); + dump.dumpcontroller(chan, type, par); - setcontroller(chan,type,par); -}; + setcontroller(chan, type, par); +} /* * Internal Controllers */ -void Master::setcontroller(unsigned char chan,unsigned int type,int par) +void Master::setcontroller(unsigned char chan, unsigned int type, int par) { - if ((type==C_dataentryhi)||(type==C_dataentrylo)|| - (type==C_nrpnhi)||(type==C_nrpnlo)) {//Process RPN and NRPN by the Master (ignore the chan) - ctl.setparameternumber(type,par); + if((type == C_dataentryhi) || (type == C_dataentrylo) + || (type == C_nrpnhi) || (type == C_nrpnlo)) { //Process RPN and NRPN by the Master (ignore the chan) + ctl.setparameternumber(type, par); - int parhi=-1,parlo=-1,valhi=-1,vallo=-1; - if (ctl.getnrpn(&parhi,&parlo,&valhi,&vallo)==0) {//this is NRPN + int parhi = -1, parlo = -1, valhi = -1, vallo = -1; + if(ctl.getnrpn(&parhi, &parlo, &valhi, &vallo) == 0) //this is NRPN //fprintf(stderr,"rcv. NRPN: %d %d %d %d\n",parhi,parlo,valhi,vallo); - switch (parhi) { - case 0x04://System Effects - if (parloseteffectpar_nolock(valhi,vallo); - }; + switch(parhi) { + case 0x04: //System Effects + if(parlo < NUM_SYS_EFX) + sysefx[parlo]->seteffectpar_nolock(valhi, vallo); + ; break; - case 0x08://Insertion Effects - if (parloseteffectpar_nolock(valhi,vallo); - }; + case 0x08: //Insertion Effects + if(parlo < NUM_INS_EFX) + insefx[parlo]->seteffectpar_nolock(valhi, vallo); + ; break; + } + ; + } + else { //other controllers + for(int npart = 0; npart < NUM_MIDI_PARTS; npart++) //Send the controller to all part assigned to the channel + if((chan == part[npart]->Prcvchn) && (part[npart]->Penabled != 0)) + part[npart]->SetController(type, par); + ; - }; - }; - } else {//other controllers - for (int npart=0;npartPrcvchn) && (part[npart]->Penabled!=0)) - part[npart]->SetController(type,par); - }; - - if (type==C_allsoundsoff) { //cleanup insertion/system FX - for (int nefx=0;nefxcleanup(); - } - for (int nefx=0;nefxcleanup(); - } } - }; -}; + } +} /* * Enable/Disable a part */ -void Master::partonoff(int npart,int what) +void Master::partonoff(int npart, int what) { - if (npart>=NUM_MIDI_PARTS) return; - if (what==0) {//disable part - fakepeakpart[npart]=0; - part[npart]->Penabled=0; + if(npart >= NUM_MIDI_PARTS) + return; + if(what == 0) { //disable part + fakepeakpart[npart] = 0; + part[npart]->Penabled = 0; part[npart]->cleanup(); - for (int nefx=0;nefxcleanup(); - }; - }; - } else {//enabled - part[npart]->Penabled=1; - fakepeakpart[npart]=0; - }; -}; + ; + } + } + else { //enabled + part[npart]->Penabled = 1; + fakepeakpart[npart] = 0; + } +} /* * Master audio out (the final sound) */ -void Master::AudioOut(REALTYPE *outl,REALTYPE *outr) +void Master::AudioOut(REALTYPE *outl, REALTYPE *outr) { - int i,npart,nefx; + int i, npart, nefx; /* //test!!!!!!!!!!!!! se poate bloca aici (mutex) if (seq.play){ - int type,par1,par2,again,midichan; - int ntrack=1; + int type,par1,par2,again,midichan; + int ntrack=1; // do{ - again=seq.getevent(ntrack,&midichan,&type,&par1,&par2); - if (type>0) { + again=seq.getevent(ntrack,&midichan,&type,&par1,&par2); + if (type>0) { // printf("aaa\n"); - if (type==1){//note_on or note_off - if (par2!=0) NoteOn(midichan,par1,par2); - else NoteOff(midichan,par1); - }; - }; + if (type==1){//note_on or note_off + if (par2!=0) NoteOn(midichan,par1,par2); + else NoteOff(midichan,par1); + }; + }; // } while (again); }; */ @@ -265,250 +271,287 @@ void Master::AudioOut(REALTYPE *outl,REALTYPE *outr) //Swaps the Left channel with Right Channel (if it is asked for) - if (swaplr!=0) { - REALTYPE *tmp=outl; - outl=outr; - outr=tmp; - }; + if(swaplr != 0) { + REALTYPE *tmp = outl; + outl = outr; + outr = tmp; + } //clean up the output samples - for (i=0;ipartoutl,partoutr - for (npart=0;npartPenabled!=0) part[npart]->ComputePartSmps(); + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) + if(part[npart]->Penabled != 0) + part[npart]->ComputePartSmps(); //Insertion effects - for (nefx=0;nefx=0) { - int efxpart=Pinsparts[nefx]; - if (part[efxpart]->Penabled!=0) - insefx[nefx]->out(part[efxpart]->partoutl,part[efxpart]->partoutr); - }; - }; + for(nefx = 0; nefx < NUM_INS_EFX; nefx++) { + if(Pinsparts[nefx] >= 0) { + int efxpart = Pinsparts[nefx]; + if(part[efxpart]->Penabled != 0) + insefx[nefx]->out(part[efxpart]->partoutl, + part[efxpart]->partoutr); + } + } //Apply the part volumes and pannings (after insertion effects) - for (npart=0;npartPenabled==0) continue; + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) { + if(part[npart]->Penabled == 0) + continue; - REALTYPE newvol_l=part[npart]->volume; - REALTYPE newvol_r=part[npart]->volume; - REALTYPE oldvol_l=part[npart]->oldvolumel; - REALTYPE oldvol_r=part[npart]->oldvolumer; - REALTYPE pan=part[npart]->panning; - if (pan<0.5) newvol_l*=pan*2.0; - else newvol_r*=(1.0-pan)*2.0; + REALTYPE newvol_l = part[npart]->volume; + REALTYPE newvol_r = part[npart]->volume; + REALTYPE oldvol_l = part[npart]->oldvolumel; + REALTYPE oldvol_r = part[npart]->oldvolumer; + REALTYPE pan = part[npart]->panning; + if(pan < 0.5) + newvol_l *= pan * 2.0; + else + newvol_r *= (1.0 - pan) * 2.0; - if (ABOVE_AMPLITUDE_THRESHOLD(oldvol_l,newvol_l)|| - ABOVE_AMPLITUDE_THRESHOLD(oldvol_r,newvol_r)) {//the volume or the panning has changed and needs interpolation - - for (i=0;ipartoutl[i]*=vol_l; - part[npart]->partoutr[i]*=vol_r; - }; - part[npart]->oldvolumel=newvol_l; - part[npart]->oldvolumer=newvol_r; - - } else { - for (i=0;ipartoutl[i]*=newvol_l; - part[npart]->partoutr[i]*=newvol_r; - }; - }; - }; + if(ABOVE_AMPLITUDE_THRESHOLD(oldvol_l, newvol_l) + || ABOVE_AMPLITUDE_THRESHOLD(oldvol_r, newvol_r)) { //the volume or the panning has changed and needs interpolation + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + REALTYPE vol_l = INTERPOLATE_AMPLITUDE(oldvol_l, + newvol_l, + i, + SOUND_BUFFER_SIZE); + REALTYPE vol_r = INTERPOLATE_AMPLITUDE(oldvol_r, + newvol_r, + i, + SOUND_BUFFER_SIZE); + part[npart]->partoutl[i] *= vol_l; + part[npart]->partoutr[i] *= vol_r; + } + part[npart]->oldvolumel = newvol_l; + part[npart]->oldvolumer = newvol_r; + } + else { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { //the volume did not changed + part[npart]->partoutl[i] *= newvol_l; + part[npart]->partoutr[i] *= newvol_r; + } + } + } //System effects - for (nefx=0;nefxgeteffect()==0) continue;//the effect is disabled + for(nefx = 0; nefx < NUM_SYS_EFX; nefx++) { + if(sysefx[nefx]->geteffect() == 0) + continue; //the effect is disabled //Clean up the samples used by the system effects - for (i=0;iPenabled==0) continue; + if(part[npart]->Penabled == 0) + continue; //the output volume of each part to system effect - REALTYPE vol=sysefxvol[nefx][npart]; - for (i=0;ipartoutl[i]*vol; - tmpmixr[i]+=part[npart]->partoutr[i]*vol; - }; - }; + REALTYPE vol = sysefxvol[nefx][npart]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmpmixl[i] += part[npart]->partoutl[i] * vol; + tmpmixr[i] += part[npart]->partoutr[i] * vol; + } + } // system effect send to next ones - for (int nefxfrom=0;nefxfromefxoutl[i]*v; - tmpmixr[i]+=sysefx[nefxfrom]->efxoutr[i]*v; - }; - }; - }; + for(int nefxfrom = 0; nefxfrom < nefx; nefxfrom++) { + if(Psysefxsend[nefxfrom][nefx] != 0) { + REALTYPE v = sysefxsend[nefxfrom][nefx]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmpmixl[i] += sysefx[nefxfrom]->efxoutl[i] * v; + tmpmixr[i] += sysefx[nefxfrom]->efxoutr[i] * v; + } + } + } - sysefx[nefx]->out(tmpmixl,tmpmixr); + sysefx[nefx]->out(tmpmixl, tmpmixr); //Add the System Effect to sound output - REALTYPE outvol=sysefx[nefx]->sysefxgetvolume(); - for (i=0;isysefxgetvolume(); + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + outl[i] += tmpmixl[i] * outvol; + outr[i] += tmpmixr[i] * outvol; + } + } //Mix all parts - for (npart=0;npartpartoutl[i]; - outr[i]+=part[npart]->partoutr[i]; - }; - }; + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { //the volume did not changed + outl[i] += part[npart]->partoutl[i]; + outr[i] += part[npart]->partoutr[i]; + } + } //Insertion effects for Master Out - for (nefx=0;nefxout(outl,outr); - }; + for(nefx = 0; nefx < NUM_INS_EFX; nefx++) + if(Pinsparts[nefx] == -2) + insefx[nefx]->out(outl, outr); + ; //Master Volume - for (i=0;ivuoutpeakl) vuoutpeakl=fabs(outl[i]); - if (fabs(outr[i])>vuoutpeakr) vuoutpeakr=fabs(outr[i]); - }; - if ((vuoutpeakl>1.0)||(vuoutpeakr>1.0)) vuclipped=1; - if (vumaxoutpeakl vuoutpeakl) + vuoutpeakl = fabs(outl[i]); + if(fabs(outr[i]) > vuoutpeakr) + vuoutpeakr = fabs(outr[i]); + } + if((vuoutpeakl > 1.0) || (vuoutpeakr > 1.0)) + vuclipped = 1; + if(vumaxoutpeakl < vuoutpeakl) + vumaxoutpeakl = vuoutpeakl; + if(vumaxoutpeakr < vuoutpeakr) + vumaxoutpeakr = vuoutpeakr; //RMS Peak computation (for vumeters) - vurmspeakl=1e-12; - vurmspeakr=1e-12; - for (i=0;iPenabled!=0) { - REALTYPE *outl=part[npart]->partoutl, - *outr=part[npart]->partoutr; - for (i=0;ivuoutpeakpart[npart]) vuoutpeakpart[npart]=tmp; - }; - vuoutpeakpart[npart]*=volume; - } else { - if (fakepeakpart[npart]>1) fakepeakpart[npart]--; - }; - }; + for(npart = 0; npart < NUM_MIDI_PARTS; npart++) { + vuoutpeakpart[npart] = 1.0e-12; + if(part[npart]->Penabled != 0) { + REALTYPE *outl = part[npart]->partoutl, + *outr = part[npart]->partoutr; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + REALTYPE tmp = fabs(outl[i] + outr[i]); + if(tmp > vuoutpeakpart[npart]) + vuoutpeakpart[npart] = tmp; + } + vuoutpeakpart[npart] *= volume; + } + else + if(fakepeakpart[npart] > 1) + fakepeakpart[npart]--; + ; + } //Shutup if it is asked (with fade-out) - if (shutup!=0) { - for (i=0;i=SOUND_BUFFER_SIZE) { - AudioOut(&audiooutl[0],&audiooutr[0]); - ksoundbuffersample=0; - }; - }; - } else {//Resample - int ksample=0; - REALTYPE srinc=SAMPLE_RATE/(REALTYPE)samplerate; + if(ksoundbuffersample >= SOUND_BUFFER_SIZE) { + AudioOut(&audiooutl[0], &audiooutr[0]); + ksoundbuffersample = 0; + } + } + } + else { //Resample + int ksample = 0; + REALTYPE srinc = SAMPLE_RATE / (REALTYPE)samplerate; - while (ksample=1.0) { - ksoundbuffersample+=(int) floor(ksoundbuffersamplelow); - ksoundbuffersamplelow=ksoundbuffersamplelow-floor(ksoundbuffersamplelow); - }; + ksoundbuffersamplelow += srinc; + if(ksoundbuffersamplelow >= 1.0) { + ksoundbuffersample += (int) floor(ksoundbuffersamplelow); + ksoundbuffersamplelow = ksoundbuffersamplelow - floor( + ksoundbuffersamplelow); + } - if (ksoundbuffersample>=SOUND_BUFFER_SIZE) { - oldsamplel=audiooutl[SOUND_BUFFER_SIZE-1]; - oldsampler=audiooutr[SOUND_BUFFER_SIZE-1]; - AudioOut(&audiooutl[0],&audiooutr[0]); - ksoundbuffersample=0; - }; - }; - }; -}; + if(ksoundbuffersample >= SOUND_BUFFER_SIZE) { + oldsamplel = audiooutl[SOUND_BUFFER_SIZE - 1]; + oldsampler = audiooutr[SOUND_BUFFER_SIZE - 1]; + AudioOut(&audiooutl[0], &audiooutr[0]); + ksoundbuffersample = 0; + } + } + } +} Master::~Master() { - for (int npart=0;npartcleanup(); - fakepeakpart[npart]=0; - }; - for (int nefx=0;nefxcleanup(); - for (int nefx=0;nefxcleanup(); + fakepeakpart[npart] = 0; + } + for(int nefx = 0; nefx < NUM_INS_EFX; nefx++) + insefx[nefx]->cleanup(); + for(int nefx = 0; nefx < NUM_SYS_EFX; nefx++) + sysefx[nefx]->cleanup(); vuresetpeaks(); - shutup=0; -}; + shutup = 0; +} /* @@ -570,81 +615,80 @@ void Master::ShutUp() */ void Master::vuresetpeaks() { - vuoutpeakl=1e-9; - vuoutpeakr=1e-9; - vumaxoutpeakl=1e-9; - vumaxoutpeakr=1e-9; - vuclipped=0; -}; + vuoutpeakl = 1e-9; + vuoutpeakr = 1e-9; + vumaxoutpeakl = 1e-9; + vumaxoutpeakr = 1e-9; + vuclipped = 0; +} void Master::applyparameters() { - for (int npart=0;npartapplyparameters(); - }; -}; + ; +} void Master::add2XML(XMLwrapper *xml) { - xml->addpar("volume",Pvolume); - xml->addpar("key_shift",Pkeyshift); - xml->addparbool("nrpn_receive",ctl.NRPN.receive); + xml->addpar("volume", Pvolume); + xml->addpar("key_shift", Pkeyshift); + xml->addparbool("nrpn_receive", ctl.NRPN.receive); xml->beginbranch("MICROTONAL"); microtonal.add2XML(xml); xml->endbranch(); - for (int npart=0;npartbeginbranch("PART",npart); + for(int npart = 0; npart < NUM_MIDI_PARTS; npart++) { + xml->beginbranch("PART", npart); part[npart]->add2XML(xml); xml->endbranch(); - }; + } xml->beginbranch("SYSTEM_EFFECTS"); - for (int nefx=0;nefxbeginbranch("SYSTEM_EFFECT",nefx); + for(int nefx = 0; nefx < NUM_SYS_EFX; nefx++) { + xml->beginbranch("SYSTEM_EFFECT", nefx); xml->beginbranch("EFFECT"); sysefx[nefx]->add2XML(xml); xml->endbranch(); - for (int pefx=0;pefxbeginbranch("VOLUME",pefx); - xml->addpar("vol",Psysefxvol[nefx][pefx]); + for(int pefx = 0; pefx < NUM_MIDI_PARTS; pefx++) { + xml->beginbranch("VOLUME", pefx); + xml->addpar("vol", Psysefxvol[nefx][pefx]); xml->endbranch(); - }; + } - for (int tonefx=nefx+1;tonefxbeginbranch("SENDTO",tonefx); - xml->addpar("send_vol",Psysefxsend[nefx][tonefx]); + for(int tonefx = nefx + 1; tonefx < NUM_SYS_EFX; tonefx++) { + xml->beginbranch("SENDTO", tonefx); + xml->addpar("send_vol", Psysefxsend[nefx][tonefx]); xml->endbranch(); - }; + } xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("INSERTION_EFFECTS"); - for (int nefx=0;nefxbeginbranch("INSERTION_EFFECT",nefx); - xml->addpar("part",Pinsparts[nefx]); + for(int nefx = 0; nefx < NUM_INS_EFX; nefx++) { + xml->beginbranch("INSERTION_EFFECT", nefx); + xml->addpar("part", Pinsparts[nefx]); xml->beginbranch("EFFECT"); insefx[nefx]->add2XML(xml); xml->endbranch(); xml->endbranch(); - }; + } xml->endbranch(); - -}; +} int Master::getalldata(char **data) { - XMLwrapper *xml=new XMLwrapper(); + XMLwrapper *xml = new XMLwrapper(); xml->beginbranch("MASTER"); @@ -654,20 +698,21 @@ int Master::getalldata(char **data) xml->endbranch(); - *data=xml->getXMLdata(); + *data = xml->getXMLdata(); delete (xml); - return(strlen(*data)+1); -}; + return strlen(*data) + 1; +} -void Master::putalldata(char *data,int size) +void Master::putalldata(char *data, int size) { - XMLwrapper *xml=new XMLwrapper(); - if (!xml->putXMLdata(data)) { - delete(xml); + XMLwrapper *xml = new XMLwrapper(); + if(!xml->putXMLdata(data)) { + delete (xml); return; - }; + } - if (xml->enterbranch("MASTER")==0) return; + if(xml->enterbranch("MASTER") == 0) + return; pthread_mutex_lock(&mutex); getfromXML(xml); @@ -675,104 +720,109 @@ void Master::putalldata(char *data,int size) xml->exitbranch(); - delete(xml); -}; + delete (xml); +} int Master::saveXML(const char *filename) { - XMLwrapper *xml=new XMLwrapper(); + XMLwrapper *xml = new XMLwrapper(); xml->beginbranch("MASTER"); add2XML(xml); xml->endbranch(); - int result=xml->saveXMLfile(filename); + int result = xml->saveXMLfile(filename); delete (xml); - return(result); -}; + return result; +} int Master::loadXML(const char *filename) { - XMLwrapper *xml=new XMLwrapper(); - if (xml->loadXMLfile(filename)<0) { - delete(xml); - return(-1); - }; + XMLwrapper *xml = new XMLwrapper(); + if(xml->loadXMLfile(filename) < 0) { + delete (xml); + return -1; + } - if (xml->enterbranch("MASTER")==0) return(-10); + if(xml->enterbranch("MASTER") == 0) + return -10; getfromXML(xml); xml->exitbranch(); - delete(xml); - return(0); -}; + delete (xml); + return 0; +} void Master::getfromXML(XMLwrapper *xml) { - setPvolume(xml->getpar127("volume",Pvolume)); - setPkeyshift(xml->getpar127("key_shift",Pkeyshift)); - ctl.NRPN.receive=xml->getparbool("nrpn_receive",ctl.NRPN.receive); + setPvolume(xml->getpar127("volume", Pvolume)); + setPkeyshift(xml->getpar127("key_shift", Pkeyshift)); + ctl.NRPN.receive = xml->getparbool("nrpn_receive", ctl.NRPN.receive); - part[0]->Penabled=0; - for (int npart=0;npartenterbranch("PART",npart)==0) continue; + part[0]->Penabled = 0; + for(int npart = 0; npart < NUM_MIDI_PARTS; npart++) { + if(xml->enterbranch("PART", npart) == 0) + continue; part[npart]->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("MICROTONAL")) { + if(xml->enterbranch("MICROTONAL")) { microtonal.getfromXML(xml); xml->exitbranch(); - }; + } sysefx[0]->changeeffect(0); - if (xml->enterbranch("SYSTEM_EFFECTS")) { - for (int nefx=0;nefxenterbranch("SYSTEM_EFFECT",nefx)==0) continue; - if (xml->enterbranch("EFFECT")) { + if(xml->enterbranch("SYSTEM_EFFECTS")) { + for(int nefx = 0; nefx < NUM_SYS_EFX; nefx++) { + if(xml->enterbranch("SYSTEM_EFFECT", nefx) == 0) + continue; + if(xml->enterbranch("EFFECT")) { sysefx[nefx]->getfromXML(xml); xml->exitbranch(); - }; + } - for (int partefx=0;partefxenterbranch("VOLUME",partefx)==0) continue; - setPsysefxvol(partefx,nefx,xml->getpar127("vol",Psysefxvol[partefx][nefx])); + for(int partefx = 0; partefx < NUM_MIDI_PARTS; partefx++) { + if(xml->enterbranch("VOLUME", partefx) == 0) + continue; + setPsysefxvol(partefx, nefx, + xml->getpar127("vol", Psysefxvol[partefx][nefx])); xml->exitbranch(); - }; + } - for (int tonefx=nefx+1;tonefxenterbranch("SENDTO",tonefx)==0) continue; - setPsysefxsend(nefx,tonefx,xml->getpar127("send_vol",Psysefxsend[nefx][tonefx])); + for(int tonefx = nefx + 1; tonefx < NUM_SYS_EFX; tonefx++) { + if(xml->enterbranch("SENDTO", tonefx) == 0) + continue; + setPsysefxsend(nefx, tonefx, + xml->getpar127("send_vol", + Psysefxsend[nefx][tonefx])); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("INSERTION_EFFECTS")) { - for (int nefx=0;nefxenterbranch("INSERTION_EFFECT",nefx)==0) continue; - Pinsparts[nefx]=xml->getpar("part",Pinsparts[nefx],-2,NUM_MIDI_PARTS); - if (xml->enterbranch("EFFECT")) { + if(xml->enterbranch("INSERTION_EFFECTS")) { + for(int nefx = 0; nefx < NUM_INS_EFX; nefx++) { + if(xml->enterbranch("INSERTION_EFFECT", nefx) == 0) + continue; + Pinsparts[nefx] = xml->getpar("part", + Pinsparts[nefx], + -2, + NUM_MIDI_PARTS); + if(xml->enterbranch("EFFECT")) { insefx[nefx]->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - - }; + } xml->exitbranch(); - }; - - -}; - - - + } +} diff --git a/plugins/zynaddsubfx/src/Misc/Master.h b/plugins/zynaddsubfx/src/Misc/Master.h index 69f1a1ec2..eb4752245 100644 --- a/plugins/zynaddsubfx/src/Misc/Master.h +++ b/plugins/zynaddsubfx/src/Misc/Master.h @@ -40,129 +40,136 @@ extern Dump dump; * process them with system/insertion effects and mix them */ class Master { -public: - /** Constructor*/ - Master(); - /** Destructor*/ - ~Master(); + public: + /** Constructor*/ + Master(); + /** Destructor*/ + ~Master(); - /**Saves all settings to a XML file - * @return 0 for ok or <0 if there is an error*/ - int saveXML(const char *filename); + /**Saves all settings to a XML file + * @return 0 for ok or <0 if there is an error*/ + int saveXML(const char *filename); - /**This adds the parameters to the XML data*/ - void add2XML(XMLwrapper *xml); + /**This adds the parameters to the XML data*/ + void add2XML(XMLwrapper *xml); - void defaults(); + void defaults(); - /**loads all settings from a XML file - * @return 0 for ok or -1 if there is an error*/ - int loadXML(const char *filename); - void applyparameters(); + /**loads all settings from a XML file + * @return 0 for ok or -1 if there is an error*/ + int loadXML(const char *filename); + void applyparameters(); - void getfromXML(XMLwrapper *xml); + void getfromXML(XMLwrapper *xml); - /**get all data to a newly allocated array (used for VST) - * @return the datasize*/ - int getalldata(char **data); - /**put all data from the *data array to zynaddsubfx parameters (used for VST)*/ - void putalldata(char *data,int size); + /**get all data to a newly allocated array (used for VST) + * @return the datasize*/ + int getalldata(char **data); + /**put all data from the *data array to zynaddsubfx parameters (used for VST)*/ + void putalldata(char *data, int size); - //Midi IN - void NoteOn(unsigned char chan,unsigned char note,unsigned char velocity); - void NoteOff(unsigned char chan,unsigned char note); - void SetController(unsigned char chan,unsigned int type,int par); - //void NRPN... + //Midi IN + void NoteOn(unsigned char chan, + unsigned char note, + unsigned char velocity); + void NoteOff(unsigned char chan, unsigned char note); + void SetController(unsigned char chan, unsigned int type, int par); + //void NRPN... - void ShutUp(); - int shutup; + void ShutUp(); + int shutup; - /**Audio Output*/ - void AudioOut(REALTYPE *outl,REALTYPE *outr); - /**Audio Output (for callback mode). This allows the program to be controled by an external program*/ - void GetAudioOutSamples(int nsamples,int samplerate,REALTYPE *outl,REALTYPE *outr); + /**Audio Output*/ + void AudioOut(REALTYPE *outl, REALTYPE *outr); + /**Audio Output (for callback mode). This allows the program to be controled by an external program*/ + void GetAudioOutSamples(int nsamples, + int samplerate, + REALTYPE *outl, + REALTYPE *outr); - void partonoff(int npart,int what); + void partonoff(int npart, int what); - /**parts \todo see if this can be made to be dynamic*/ - Part *part[NUM_MIDI_PARTS]; + /**parts \todo see if this can be made to be dynamic*/ + Part *part[NUM_MIDI_PARTS]; - //parameters - unsigned char Pvolume; - unsigned char Pkeyshift; - unsigned char Psysefxvol[NUM_SYS_EFX][NUM_MIDI_PARTS]; - unsigned char Psysefxsend[NUM_SYS_EFX][NUM_SYS_EFX]; + //parameters + unsigned char Pvolume; + unsigned char Pkeyshift; + unsigned char Psysefxvol[NUM_SYS_EFX][NUM_MIDI_PARTS]; + unsigned char Psysefxsend[NUM_SYS_EFX][NUM_SYS_EFX]; - //parameters control - void setPvolume(char Pvolume_); - void setPkeyshift(char Pkeyshift_); - void setPsysefxvol(int Ppart,int Pefx,char Pvol); - void setPsysefxsend(int Pefxfrom,int Pefxto,char Pvol); + //parameters control + void setPvolume(char Pvolume_); + void setPkeyshift(char Pkeyshift_); + void setPsysefxvol(int Ppart, int Pefx, char Pvol); + void setPsysefxsend(int Pefxfrom, int Pefxto, char Pvol); - //effects - EffectMgr *sysefx[NUM_SYS_EFX];//system - EffectMgr *insefx[NUM_INS_EFX];//insertion + //effects + EffectMgr *sysefx[NUM_SYS_EFX]; //system + EffectMgr *insefx[NUM_INS_EFX]; //insertion // void swapcopyeffects(int what,int type,int neff1,int neff2); - //HDD recorder - Recorder HDDRecorder; + //HDD recorder + Recorder HDDRecorder; - //part that's apply the insertion effect; -1 to disable - short int Pinsparts[NUM_INS_EFX]; + //part that's apply the insertion effect; -1 to disable + short int Pinsparts[NUM_INS_EFX]; - //peaks for VU-meter - void vuresetpeaks(); - REALTYPE vuoutpeakl,vuoutpeakr,vumaxoutpeakl,vumaxoutpeakr,vurmspeakl,vurmspeakr; - int vuclipped; + //peaks for VU-meter + void vuresetpeaks(); + REALTYPE vuoutpeakl, vuoutpeakr, vumaxoutpeakl, vumaxoutpeakr, + vurmspeakl, vurmspeakr; + int vuclipped; - //peaks for part VU-meters - REALTYPE vuoutpeakpart[NUM_MIDI_PARTS]; - unsigned char fakepeakpart[NUM_MIDI_PARTS];//this is used to compute the "peak" when the part is disabled + //peaks for part VU-meters + REALTYPE vuoutpeakpart[NUM_MIDI_PARTS]; + unsigned char fakepeakpart[NUM_MIDI_PARTS]; //this is used to compute the "peak" when the part is disabled - Controller ctl; - int swaplr;//1 if L and R are swapped + Controller ctl; + int swaplr; //1 if L and R are swapped - //Sequencer - Sequencer seq; + //Sequencer + Sequencer seq; - //other objects - Microtonal microtonal; - Bank bank; + //other objects + Microtonal microtonal; + Bank bank; - FFTwrapper *fft; - pthread_mutex_t mutex; + FFTwrapper *fft; + pthread_mutex_t mutex; -private: - REALTYPE volume; - REALTYPE sysefxvol[NUM_SYS_EFX][NUM_MIDI_PARTS]; - REALTYPE sysefxsend[NUM_SYS_EFX][NUM_SYS_EFX]; + private: + REALTYPE volume; + REALTYPE sysefxvol[NUM_SYS_EFX][NUM_MIDI_PARTS]; + REALTYPE sysefxsend[NUM_SYS_EFX][NUM_SYS_EFX]; - //Temporary mixing samples for part samples which is sent to system effect - REALTYPE *tmpmixl; - REALTYPE *tmpmixr; + //Temporary mixing samples for part samples which is sent to system effect + REALTYPE *tmpmixl; + REALTYPE *tmpmixr; - int keyshift; + int keyshift; - //Audio Output samples (if it used GetAudioOutSamples - eg. for Jack output; elsewhere is unused) - REALTYPE *audiooutl; - REALTYPE *audiooutr; + //Audio Output samples (if it used GetAudioOutSamples - eg. for Jack output; elsewhere is unused) + REALTYPE *audiooutl; + REALTYPE *audiooutr; - int ksoundbuffersample;//this is used to know if there is need to call AudioOut by GetAudioOutSamples method - REALTYPE ksoundbuffersamplelow;//this is used for resampling (eg. if Jack samplerate!= SAMPLE_RATE) - REALTYPE oldsamplel,oldsampler;//this is used for resampling - - //These are called by the NoteOn, NoteOff,SetController (which are from external sources like MIDI, Virtual Keyboard) - //and are called by internal parts of the program (like sequencer) - void noteon(unsigned char chan,unsigned char note,unsigned char velocity); - void noteoff(unsigned char chan,unsigned char note); - void setcontroller(unsigned char chan,unsigned int type,int par); + int ksoundbuffersample; //this is used to know if there is need to call AudioOut by GetAudioOutSamples method + REALTYPE ksoundbuffersamplelow; //this is used for resampling (eg. if Jack samplerate!= SAMPLE_RATE) + REALTYPE oldsamplel, oldsampler; //this is used for resampling + //These are called by the NoteOn, NoteOff,SetController (which are from external sources like MIDI, Virtual Keyboard) + //and are called by internal parts of the program (like sequencer) + void noteon(unsigned char chan, + unsigned char note, + unsigned char velocity); + void noteoff(unsigned char chan, unsigned char note); + void setcontroller(unsigned char chan, unsigned int type, int par); }; diff --git a/plugins/zynaddsubfx/src/Misc/Microtonal.cpp b/plugins/zynaddsubfx/src/Misc/Microtonal.cpp index b389059c8..e84ee8e64 100644 --- a/plugins/zynaddsubfx/src/Misc/Microtonal.cpp +++ b/plugins/zynaddsubfx/src/Misc/Microtonal.cpp @@ -28,158 +28,190 @@ Microtonal::Microtonal() { - Pname=new unsigned char[MICROTONAL_MAX_NAME_LEN]; - Pcomment=new unsigned char[MICROTONAL_MAX_NAME_LEN]; + Pname = new unsigned char[MICROTONAL_MAX_NAME_LEN]; + Pcomment = new unsigned char[MICROTONAL_MAX_NAME_LEN]; defaults(); -}; +} void Microtonal::defaults() { - Pinvertupdown=0; - Pinvertupdowncenter=60; - octavesize=12; - Penabled=0; - PAnote=69; - PAfreq=440.0; - Pscaleshift=64; + Pinvertupdown = 0; + Pinvertupdowncenter = 60; + octavesize = 12; + Penabled = 0; + PAnote = 69; + PAfreq = 440.0; + Pscaleshift = 64; - Pfirstkey=0; - Plastkey=127; - Pmiddlenote=60; - Pmapsize=12; - Pmappingenabled=0; + Pfirstkey = 0; + Plastkey = 127; + Pmiddlenote = 60; + Pmapsize = 12; + Pmappingenabled = 0; - for (int i=0;i<128;i++) Pmapping[i]=i; + for(int i = 0; i < 128; i++) + Pmapping[i] = i; - for (int i=0;iPlastkey)) return (-1.0); + if(Pmappingenabled != 0) { + if((note < Pfirstkey) || (note > Plastkey)) + return -1.0; //Compute how many mapped keys are from middle note to reference note //and find out the proportion between the freq. of middle note and "A" note - int tmp=PAnote-Pmiddlenote,minus=0; - if (tmp<0) { - tmp=-tmp; - minus=1; - }; - int deltanote=0; - for (int i=0;i=0) deltanote++; - REALTYPE rap_anote_middlenote=(deltanote==0) ? (1.0) : (octave[(deltanote-1)%octavesize].tuning); - if (deltanote!=0) rap_anote_middlenote*=pow(octave[octavesize-1].tuning,(deltanote-1)/octavesize); - if (minus!=0) rap_anote_middlenote=1.0/rap_anote_middlenote; + int tmp = PAnote - Pmiddlenote, minus = 0; + if(tmp < 0) { + tmp = -tmp; + minus = 1; + } + int deltanote = 0; + for(int i = 0; i < tmp; i++) + if(Pmapping[i % Pmapsize] >= 0) + deltanote++; + REALTYPE rap_anote_middlenote = + (deltanote == + 0) ? (1.0) : (octave[(deltanote - 1) % octavesize].tuning); + if(deltanote != 0) + rap_anote_middlenote *= + pow(octave[octavesize - 1].tuning, (deltanote - 1) / octavesize); + if(minus != 0) + rap_anote_middlenote = 1.0 / rap_anote_middlenote; //Convert from note (midi) to degree (note from the tunning) - int degoct=(note-(int)Pmiddlenote+(int) Pmapsize*200)/(int)Pmapsize-200; - int degkey=(note-Pmiddlenote+(int)Pmapsize*100)%Pmapsize; - degkey=Pmapping[degkey]; - if (degkey<0) return(-1.0);//this key is not mapped + int degoct = + (note - (int)Pmiddlenote + (int) Pmapsize + * 200) / (int)Pmapsize - 200; + int degkey = (note - Pmiddlenote + (int)Pmapsize * 100) % Pmapsize; + degkey = Pmapping[degkey]; + if(degkey < 0) + return -1.0; //this key is not mapped //invert the keyboard upside-down if it is asked for //TODO: do the right way by using Pinvertupdowncenter - if (Pinvertupdown!=0) { - degkey=octavesize-degkey-1; - degoct=-degoct; - }; + if(Pinvertupdown != 0) { + degkey = octavesize - degkey - 1; + degoct = -degoct; + } //compute the frequency of the note - degkey=degkey+scaleshift; - degoct+=degkey/octavesize; - degkey%=octavesize; + degkey = degkey + scaleshift; + degoct += degkey / octavesize; + degkey %= octavesize; - REALTYPE freq=(degkey==0) ? (1.0):octave[degkey-1].tuning; - freq*=pow(octave[octavesize-1].tuning,degoct); - freq*=PAfreq/rap_anote_middlenote; - freq*=globalfinedetunerap; - if (scaleshift!=0) freq/=octave[scaleshift-1].tuning; - return(freq*rap_keyshift); - } else {//if the mapping is disabled - int nt=note-PAnote+scaleshift; - int ntkey=(nt+(int)octavesize*100)%octavesize; - int ntoct=(nt-ntkey)/octavesize; + REALTYPE freq = (degkey == 0) ? (1.0) : octave[degkey - 1].tuning; + freq *= pow(octave[octavesize - 1].tuning, degoct); + freq *= PAfreq / rap_anote_middlenote; + freq *= globalfinedetunerap; + if(scaleshift != 0) + freq /= octave[scaleshift - 1].tuning; + return freq * rap_keyshift; + } + else { //if the mapping is disabled + int nt = note - PAnote + scaleshift; + int ntkey = (nt + (int)octavesize * 100) % octavesize; + int ntoct = (nt - ntkey) / octavesize; - REALTYPE oct=octave[octavesize-1].tuning; - REALTYPE freq=octave[(ntkey+octavesize-1)%octavesize].tuning*pow(oct,ntoct)*PAfreq; - if (ntkey==0) freq/=oct; - if (scaleshift!=0) freq/=octave[scaleshift-1].tuning; + REALTYPE oct = octave[octavesize - 1].tuning; + REALTYPE freq = + octave[(ntkey + octavesize - 1) % octavesize].tuning *pow(oct, + ntoct) + * PAfreq; + if(ntkey == 0) + freq /= oct; + if(scaleshift != 0) + freq /= octave[scaleshift - 1].tuning; // fprintf(stderr,"note=%d freq=%.3f cents=%d\n",note,freq,(int)floor(log(freq/PAfreq)/log(2.0)*1200.0+0.5)); - freq*=globalfinedetunerap; - return(freq*rap_keyshift); - }; -}; + freq *= globalfinedetunerap; + return freq * rap_keyshift; + } +} bool Microtonal::operator==(const Microtonal µ) const { - return(!(*this!=micro)); + return !(*this != micro); } bool Microtonal::operator!=(const Microtonal µ) const { - //A simple macro to test equality MiCRotonal EQuals (not the perfect //approach, but good enough) -#define MCREQ( x ) if(x!=micro.x)return true; +#define MCREQ(x) if(x != micro.x) \ + return true; //for floats -#define FMCREQ( x ) if(!((xmicro.x-0.0001)))return true; +#define FMCREQ(x) if(!((x < micro.x + 0.0001) && (x > micro.x - 0.0001))) \ + return true; MCREQ(Pinvertupdown); MCREQ(Pinvertupdowncenter); @@ -195,18 +227,18 @@ bool Microtonal::operator!=(const Microtonal µ) const MCREQ(Pmapsize); MCREQ(Pmappingenabled); - for (int i=0;i<128;i++) + for(int i = 0; i < 128; i++) MCREQ(Pmapping[i]); - for (int i=0;iPname,(const char *)micro.Pname)) + if(strcmp((const char *)this->Pname, (const char *)micro.Pname)) return true; - if(strcmp((const char *)this->Pcomment,(const char *)micro.Pcomment)) + if(strcmp((const char *)this->Pcomment, (const char *)micro.Pcomment)) return true; MCREQ(Pglobalfinedetune); return false; @@ -214,384 +246,442 @@ bool Microtonal::operator!=(const Microtonal µ) const //undefine macros, as they are no longer needed #undef MCREQ #undef FMCREQ - } /* * Convert a line to tunings; returns -1 if it ok */ -int Microtonal::linetotunings(unsigned int nline,const char *line) +int Microtonal::linetotunings(unsigned int nline, const char *line) { - int x1=-1,x2=-1,type=-1; - REALTYPE x=-1.0,tmp,tuning=1.0; - if (strstr(line,"/")==NULL) { - if (strstr(line,".")==NULL) {// M case (M=M/1) - sscanf(line,"%d",&x1); - x2=1; - type=2;//division - } else {// float number case - sscanf(line,"%f",&x); - if (x<0.000001) return(1); - type=1;//float type(cents) - }; - } else {// M/N case - sscanf(line,"%d/%d",&x1,&x2); - if ((x1<0)||(x2<0)) return(1); - if (x2==0) x2=1; - type=2;//division - }; + int x1 = -1, x2 = -1, type = -1; + REALTYPE x = -1.0, tmp, tuning = 1.0; + if(strstr(line, "/") == NULL) { + if(strstr(line, ".") == NULL) { // M case (M=M/1) + sscanf(line, "%d", &x1); + x2 = 1; + type = 2; //division + } + else { // float number case + sscanf(line, "%f", &x); + if(x < 0.000001) + return 1; + type = 1; //float type(cents) + } + } + else { // M/N case + sscanf(line, "%d/%d", &x1, &x2); + if((x1 < 0) || (x2 < 0)) + return 1; + if(x2 == 0) + x2 = 1; + type = 2; //division + } - if (x1<=0) x1=1;//not allow zero frequency sounds (consider 0 as 1) + if(x1 <= 0) + x1 = 1; //not allow zero frequency sounds (consider 0 as 1) //convert to float if the number are too big - if ((type==2)&&((x1>(128*128*128-1))||(x2>(128*128*128-1)))) { - type=1; - x=((REALTYPE) x1)/x2; - }; - switch (type) { + if((type == 2) + && ((x1 > (128 * 128 * 128 - 1)) || (x2 > (128 * 128 * 128 - 1)))) { + type = 1; + x = ((REALTYPE) x1) / x2; + } + switch(type) { case 1: - x1=(int) floor(x); - tmp=fmod(x,1.0); - x2=(int) (floor (tmp*1e6)); - tuning=pow(2.0,x/1200.0); + x1 = (int) floor(x); + tmp = fmod(x, 1.0); + x2 = (int) (floor(tmp * 1e6)); + tuning = pow(2.0, x / 1200.0); break; case 2: - x=((REALTYPE)x1)/x2; - tuning=x; + x = ((REALTYPE)x1) / x2; + tuning = x; break; - }; + } - tmpoctave[nline].tuning=tuning; - tmpoctave[nline].type=type; - tmpoctave[nline].x1=x1; - tmpoctave[nline].x2=x2; + tmpoctave[nline].tuning = tuning; + tmpoctave[nline].type = type; + tmpoctave[nline].x1 = x1; + tmpoctave[nline].x2 = x2; - return(-1);//ok -}; + return -1; //ok +} /* * Convert the text to tunnings */ int Microtonal::texttotunings(const char *text) { - unsigned int i,k=0,nl=0; + unsigned int i, k = 0, nl = 0; char *lin; - lin=new char[MAX_LINE_SIZE+1]; - while (kMAX_OCTAVE_SIZE) nl=MAX_OCTAVE_SIZE; - if (nl==0) return(-2);//the input is empty - octavesize=nl; - for (i=0;i MAX_OCTAVE_SIZE) + nl = MAX_OCTAVE_SIZE; + if(nl == 0) + return -2; //the input is empty + octavesize = nl; + for(i = 0; i < octavesize; i++) { + octave[i].tuning = tmpoctave[i].tuning; + octave[i].type = tmpoctave[i].type; + octave[i].x1 = tmpoctave[i].x1; + octave[i].x2 = tmpoctave[i].x2; + } + return -1; //ok +} /* * Convert the text to mapping */ void Microtonal::texttomapping(const char *text) { - unsigned int i,k=0; + unsigned int i, k = 0; char *lin; - lin=new char[MAX_LINE_SIZE+1]; - for (i=0;i<128;i++) Pmapping[i]=-1; - int tx=0; - while (k127) break; - }; + if((tx++) > 127) + break; + } delete [] lin; - if (tx==0) tx=1; - Pmapsize=tx; -}; + if(tx == 0) + tx = 1; + Pmapsize = tx; +} /* * Convert tunning to text line */ -void Microtonal::tuningtoline(int n,char *line,int maxn) +void Microtonal::tuningtoline(int n, char *line, int maxn) { - if ((n>octavesize) || (n>MAX_OCTAVE_SIZE)) { - line[0]='\0'; + if((n > octavesize) || (n > MAX_OCTAVE_SIZE)) { + line[0] = '\0'; return; - }; - if (octave[n].type==1) snprintf(line,maxn,"%d.%d",octave[n].x1,octave[n].x2); - if (octave[n].type==2) snprintf(line,maxn,"%d/%d",octave[n].x1,octave[n].x2); -}; + } + if(octave[n].type == 1) + snprintf(line, maxn, "%d.%d", octave[n].x1, octave[n].x2); + if(octave[n].type == 2) + snprintf(line, maxn, "%d/%d", octave[n].x1, octave[n].x2); +} -int Microtonal::loadline(FILE *file,char *line) +int Microtonal::loadline(FILE *file, char *line) { do { - if (fgets(line,500,file)==0) return(1); - } while (line[0]=='!'); - return(0); -}; + if(fgets(line, 500, file) == 0) + return 1; + } while(line[0] == '!'); + return 0; +} /* * Loads the tunnings from a scl file */ int Microtonal::loadscl(const char *filename) { - FILE *file=fopen(filename, "r"); - char tmp[500]; - fseek(file,0,SEEK_SET); + FILE *file = fopen(filename, "r"); + char tmp[500]; + fseek(file, 0, SEEK_SET); //loads the short description - if (loadline(file,&tmp[0])!=0) return(2); - for (int i=0;i<500;i++) if (tmp[i]<32) tmp[i]=0; - snprintf((char *) Pname,MICROTONAL_MAX_NAME_LEN,"%s",tmp); - snprintf((char *) Pcomment,MICROTONAL_MAX_NAME_LEN,"%s",tmp); + if(loadline(file, &tmp[0]) != 0) + return 2; + for(int i = 0; i < 500; i++) + if(tmp[i] < 32) + tmp[i] = 0; + snprintf((char *) Pname, MICROTONAL_MAX_NAME_LEN, "%s", tmp); + snprintf((char *) Pcomment, MICROTONAL_MAX_NAME_LEN, "%s", tmp); //loads the number of the notes - if (loadline(file,&tmp[0])!=0) return(2); - int nnotes=MAX_OCTAVE_SIZE; - sscanf(&tmp[0],"%d",&nnotes); - if (nnotes>MAX_OCTAVE_SIZE) return (2); + if(loadline(file, &tmp[0]) != 0) + return 2; + int nnotes = MAX_OCTAVE_SIZE; + sscanf(&tmp[0], "%d", &nnotes); + if(nnotes > MAX_OCTAVE_SIZE) + return 2; //load the tunnings - for (int nline=0;nline127) x=127;//just in case... - Pmapsize=x; + if(loadline(file, &tmp[0]) != 0) + return 2; + if(sscanf(&tmp[0], "%d", &x) == 0) + return 2; + if(x < 1) + x = 0; + if(x > 127) + x = 127; //just in case... + Pmapsize = x; //loads first MIDI note to retune - if (loadline(file,&tmp[0])!=0) return(2); - if (sscanf(&tmp[0],"%d",&x)==0) return(2); - if (x<1) x=0; - if (x>127) x=127;//just in case... - Pfirstkey=x; + if(loadline(file, &tmp[0]) != 0) + return 2; + if(sscanf(&tmp[0], "%d", &x) == 0) + return 2; + if(x < 1) + x = 0; + if(x > 127) + x = 127; //just in case... + Pfirstkey = x; //loads last MIDI note to retune - if (loadline(file,&tmp[0])!=0) return(2); - if (sscanf(&tmp[0],"%d",&x)==0) return(2); - if (x<1) x=0; - if (x>127) x=127;//just in case... - Plastkey=x; + if(loadline(file, &tmp[0]) != 0) + return 2; + if(sscanf(&tmp[0], "%d", &x) == 0) + return 2; + if(x < 1) + x = 0; + if(x > 127) + x = 127; //just in case... + Plastkey = x; //loads last the middle note where scale fro scale degree=0 - if (loadline(file,&tmp[0])!=0) return(2); - if (sscanf(&tmp[0],"%d",&x)==0) return(2); - if (x<1) x=0; - if (x>127) x=127;//just in case... - Pmiddlenote=x; + if(loadline(file, &tmp[0]) != 0) + return 2; + if(sscanf(&tmp[0], "%d", &x) == 0) + return 2; + if(x < 1) + x = 0; + if(x > 127) + x = 127; //just in case... + Pmiddlenote = x; //loads the reference note - if (loadline(file,&tmp[0])!=0) return(2); - if (sscanf(&tmp[0],"%d",&x)==0) return(2); - if (x<1) x=0; - if (x>127) x=127;//just in case... - PAnote=x; + if(loadline(file, &tmp[0]) != 0) + return 2; + if(sscanf(&tmp[0], "%d", &x) == 0) + return 2; + if(x < 1) + x = 0; + if(x > 127) + x = 127; //just in case... + PAnote = x; //loads the reference freq. - if (loadline(file,&tmp[0])!=0) return(2); - REALTYPE tmpPAfreq=440.0; - if (sscanf(&tmp[0],"%f",&tmpPAfreq)==0) return(2); - PAfreq=tmpPAfreq; + if(loadline(file, &tmp[0]) != 0) + return 2; + REALTYPE tmpPAfreq = 440.0; + if(sscanf(&tmp[0], "%f", &tmpPAfreq) == 0) + return 2; + PAfreq = tmpPAfreq; //the scale degree(which is the octave) is not loaded, it is obtained by the tunnings with getoctavesize() method - if (loadline(file,&tmp[0])!=0) return(2); + if(loadline(file, &tmp[0]) != 0) + return 2; //load the mappings - if (Pmapsize!=0) { - for (int nline=0;nlineaddparstr("name",(char *) Pname); - xml->addparstr("comment",(char *) Pcomment); + xml->addparstr("name", (char *) Pname); + xml->addparstr("comment", (char *) Pcomment); - xml->addparbool("invert_up_down",Pinvertupdown); - xml->addpar("invert_up_down_center",Pinvertupdowncenter); + xml->addparbool("invert_up_down", Pinvertupdown); + xml->addpar("invert_up_down_center", Pinvertupdowncenter); - xml->addparbool("enabled",Penabled); - xml->addpar("global_fine_detune",Pglobalfinedetune); + xml->addparbool("enabled", Penabled); + xml->addpar("global_fine_detune", Pglobalfinedetune); - xml->addpar("a_note",PAnote); - xml->addparreal("a_freq",PAfreq); + xml->addpar("a_note", PAnote); + xml->addparreal("a_freq", PAfreq); - if ((Penabled==0)&&(xml->minimal)) return; + if((Penabled == 0) && (xml->minimal)) + return; xml->beginbranch("SCALE"); - xml->addpar("scale_shift",Pscaleshift); - xml->addpar("first_key",Pfirstkey); - xml->addpar("last_key",Plastkey); - xml->addpar("middle_note",Pmiddlenote); + xml->addpar("scale_shift", Pscaleshift); + xml->addpar("first_key", Pfirstkey); + xml->addpar("last_key", Plastkey); + xml->addpar("middle_note", Pmiddlenote); xml->beginbranch("OCTAVE"); - xml->addpar("octave_size",octavesize); - for (int i=0;ibeginbranch("DEGREE",i); - if (octave[i].type==1) { - xml->addparreal("cents",octave[i].tuning); - }; - if (octave[i].type==2) { - xml->addpar("numerator",octave[i].x1); - xml->addpar("denominator",octave[i].x2); - }; + xml->addpar("octave_size", octavesize); + for(int i = 0; i < octavesize; i++) { + xml->beginbranch("DEGREE", i); + if(octave[i].type == 1) + xml->addparreal("cents", octave[i].tuning); + ; + if(octave[i].type == 2) { + xml->addpar("numerator", octave[i].x1); + xml->addpar("denominator", octave[i].x2); + } xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("KEYBOARD_MAPPING"); - xml->addpar("map_size",Pmapsize); - xml->addpar("mapping_enabled",Pmappingenabled); - for (int i=0;ibeginbranch("KEYMAP",i); - xml->addpar("degree",Pmapping[i]); + xml->addpar("map_size", Pmapsize); + xml->addpar("mapping_enabled", Pmappingenabled); + for(int i = 0; i < Pmapsize; i++) { + xml->beginbranch("KEYMAP", i); + xml->addpar("degree", Pmapping[i]); xml->endbranch(); - }; + } xml->endbranch(); xml->endbranch(); -}; +} void Microtonal::getfromXML(XMLwrapper *xml) { - xml->getparstr("name",(char *) Pname,MICROTONAL_MAX_NAME_LEN); - xml->getparstr("comment",(char *) Pcomment,MICROTONAL_MAX_NAME_LEN); + xml->getparstr("name", (char *) Pname, MICROTONAL_MAX_NAME_LEN); + xml->getparstr("comment", (char *) Pcomment, MICROTONAL_MAX_NAME_LEN); - Pinvertupdown=xml->getparbool("invert_up_down",Pinvertupdown); - Pinvertupdowncenter=xml->getpar127("invert_up_down_center",Pinvertupdowncenter); + Pinvertupdown = xml->getparbool("invert_up_down", Pinvertupdown); + Pinvertupdowncenter = xml->getpar127("invert_up_down_center", + Pinvertupdowncenter); - Penabled=xml->getparbool("enabled",Penabled); - Pglobalfinedetune=xml->getpar127("global_fine_detune",Pglobalfinedetune); + Penabled = xml->getparbool("enabled", Penabled); + Pglobalfinedetune = xml->getpar127("global_fine_detune", Pglobalfinedetune); - PAnote=xml->getpar127("a_note",PAnote); - PAfreq=xml->getparreal("a_freq",PAfreq,1.0,10000.0); + PAnote = xml->getpar127("a_note", PAnote); + PAfreq = xml->getparreal("a_freq", PAfreq, 1.0, 10000.0); - if (xml->enterbranch("SCALE")) { - Pscaleshift=xml->getpar127("scale_shift",Pscaleshift); - Pfirstkey=xml->getpar127("first_key",Pfirstkey); - Plastkey=xml->getpar127("last_key",Plastkey); - Pmiddlenote=xml->getpar127("middle_note",Pmiddlenote); + if(xml->enterbranch("SCALE")) { + Pscaleshift = xml->getpar127("scale_shift", Pscaleshift); + Pfirstkey = xml->getpar127("first_key", Pfirstkey); + Plastkey = xml->getpar127("last_key", Plastkey); + Pmiddlenote = xml->getpar127("middle_note", Pmiddlenote); - if (xml->enterbranch("OCTAVE")) { - octavesize=xml->getpar127("octave_size",octavesize); - for (int i=0;ienterbranch("DEGREE",i)==0) continue; - octave[i].x2=0; - octave[i].tuning=xml->getparreal("cents",octave[i].tuning); - octave[i].x1=xml->getpar127("numerator",octave[i].x1); - octave[i].x2=xml->getpar127("denominator",octave[i].x2); + if(xml->enterbranch("OCTAVE")) { + octavesize = xml->getpar127("octave_size", octavesize); + for(int i = 0; i < octavesize; i++) { + if(xml->enterbranch("DEGREE", i) == 0) + continue; + octave[i].x2 = 0; + octave[i].tuning = xml->getparreal("cents", octave[i].tuning); + octave[i].x1 = xml->getpar127("numerator", octave[i].x1); + octave[i].x2 = xml->getpar127("denominator", octave[i].x2); - if (octave[i].x2!=0) octave[i].type=2; - else octave[i].type=1; + if(octave[i].x2 != 0) + octave[i].type = 2; + else + octave[i].type = 1; xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("KEYBOARD_MAPPING")) { - Pmapsize=xml->getpar127("map_size",Pmapsize); - Pmappingenabled=xml->getpar127("mapping_enabled",Pmappingenabled); - for (int i=0;ienterbranch("KEYMAP",i)==0) continue; - Pmapping[i]=xml->getpar127("degree",Pmapping[i]); + if(xml->enterbranch("KEYBOARD_MAPPING")) { + Pmapsize = xml->getpar127("map_size", Pmapsize); + Pmappingenabled = xml->getpar127("mapping_enabled", Pmappingenabled); + for(int i = 0; i < Pmapsize; i++) { + if(xml->enterbranch("KEYMAP", i) == 0) + continue; + Pmapping[i] = xml->getpar127("degree", Pmapping[i]); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } xml->exitbranch(); - }; -}; + } +} -int Microtonal::saveXML(const char *filename)const +int Microtonal::saveXML(const char *filename) const { - XMLwrapper *xml=new XMLwrapper(); + XMLwrapper *xml = new XMLwrapper(); xml->beginbranch("MICROTONAL"); add2XML(xml); xml->endbranch(); - int result=xml->saveXMLfile(filename); + int result = xml->saveXMLfile(filename); delete (xml); - return(result); -}; + return result; +} int Microtonal::loadXML(const char *filename) { - XMLwrapper *xml=new XMLwrapper(); - if (xml->loadXMLfile(filename)<0) { - delete(xml); - return(-1); - }; + XMLwrapper *xml = new XMLwrapper(); + if(xml->loadXMLfile(filename) < 0) { + delete (xml); + return -1; + } - if (xml->enterbranch("MICROTONAL")==0) return(-10); + if(xml->enterbranch("MICROTONAL") == 0) + return -10; getfromXML(xml); xml->exitbranch(); - delete(xml); - return(0); -}; - + delete (xml); + return 0; +} diff --git a/plugins/zynaddsubfx/src/Misc/Microtonal.h b/plugins/zynaddsubfx/src/Misc/Microtonal.h index 99d73a24d..c7fd7c200 100644 --- a/plugins/zynaddsubfx/src/Misc/Microtonal.h +++ b/plugins/zynaddsubfx/src/Misc/Microtonal.h @@ -35,102 +35,100 @@ /**Tuning settings and microtonal capabilities*/ class Microtonal { -public: - /**Constructor*/ - Microtonal(); - /**Destructor*/ - ~Microtonal(); - void defaults(); - /**Calculates the frequency for a given note - */ - REALTYPE getnotefreq(int note,int keyshift) const; + public: + /**Constructor*/ + Microtonal(); + /**Destructor*/ + ~Microtonal(); + void defaults(); + /**Calculates the frequency for a given note + */ + REALTYPE getnotefreq(int note, int keyshift) const; - //Parameters - /**if the keys are inversed (the pitch is lower to keys from the right direction)*/ - unsigned char Pinvertupdown; + //Parameters + /**if the keys are inversed (the pitch is lower to keys from the right direction)*/ + unsigned char Pinvertupdown; - /**the central key of the inversion*/ - unsigned char Pinvertupdowncenter; + /**the central key of the inversion*/ + unsigned char Pinvertupdowncenter; - /**0 for 12 key temperate scale, 1 for microtonal*/ - unsigned char Penabled; + /**0 for 12 key temperate scale, 1 for microtonal*/ + unsigned char Penabled; - /**the note of "A" key*/ - unsigned char PAnote; + /**the note of "A" key*/ + unsigned char PAnote; - /**the frequency of the "A" note*/ - REALTYPE PAfreq; + /**the frequency of the "A" note*/ + REALTYPE PAfreq; - /**if the scale is "tuned" to a note, you can tune to other note*/ - unsigned char Pscaleshift; + /**if the scale is "tuned" to a note, you can tune to other note*/ + unsigned char Pscaleshift; - //first and last key (to retune) - unsigned char Pfirstkey; - unsigned char Plastkey; + //first and last key (to retune) + unsigned char Pfirstkey; + unsigned char Plastkey; - /**The middle note where scale degree 0 is mapped to*/ - unsigned char Pmiddlenote; + /**The middle note where scale degree 0 is mapped to*/ + unsigned char Pmiddlenote; - /**Map size*/ - unsigned char Pmapsize; + /**Map size*/ + unsigned char Pmapsize; - /**Mapping ON/OFF*/ - unsigned char Pmappingenabled; - /**Mapping (keys)*/ - short int Pmapping[128]; + /**Mapping ON/OFF*/ + unsigned char Pmappingenabled; + /**Mapping (keys)*/ + short int Pmapping[128]; - /**Fine detune to be applied to all notes*/ - unsigned char Pglobalfinedetune; + /**Fine detune to be applied to all notes*/ + unsigned char Pglobalfinedetune; - // Functions - /** Return the current octave size*/ - unsigned char getoctavesize() const; - /**Convert tunning to string*/ - void tuningtoline(int n,char *line,int maxn); - /**load the tunnings from a .scl file*/ - int loadscl(const char *filename); - /**load the mapping from .kbm file*/ - int loadkbm(const char *filename); - /**Load text into the internal tunings - * - *\todo better description*/ - int texttotunings(const char *text); - /**Load text into the internal mappings - * - *\todo better description*/ - void texttomapping(const char *text); + // Functions + /** Return the current octave size*/ + unsigned char getoctavesize() const; + /**Convert tunning to string*/ + void tuningtoline(int n, char *line, int maxn); + /**load the tunnings from a .scl file*/ + int loadscl(const char *filename); + /**load the mapping from .kbm file*/ + int loadkbm(const char *filename); + /**Load text into the internal tunings + * + *\todo better description*/ + int texttotunings(const char *text); + /**Load text into the internal mappings + * + *\todo better description*/ + void texttomapping(const char *text); - /**Name of Microtonal tuning*/ - unsigned char *Pname; - /**Comment about the tuning*/ - unsigned char *Pcomment; + /**Name of Microtonal tuning*/ + unsigned char *Pname; + /**Comment about the tuning*/ + unsigned char *Pcomment; - void add2XML(XMLwrapper *xml)const; - void getfromXML(XMLwrapper *xml); - int saveXML(const char *filename)const; - int loadXML(const char *filename); + void add2XML(XMLwrapper *xml) const; + void getfromXML(XMLwrapper *xml); + int saveXML(const char *filename) const; + int loadXML(const char *filename); - //simple operators primarily for debug - bool operator==(const Microtonal µ) const; - bool operator!=(const Microtonal µ) const; + //simple operators primarily for debug + bool operator==(const Microtonal µ) const; + bool operator!=(const Microtonal µ) const; -private: - int linetotunings(unsigned int nline,const char *line); - int loadline(FILE *file,char *line);//loads a line from the text file, while ignoring the lines beggining with "!" - unsigned char octavesize; - struct { - unsigned char type;//1 for cents or 2 for division + private: + int linetotunings(unsigned int nline, const char *line); + int loadline(FILE *file, char *line); //loads a line from the text file, while ignoring the lines beggining with "!" + unsigned char octavesize; + struct { + unsigned char type; //1 for cents or 2 for division - // the real tuning (eg. +1.05946 for one halftone) - // or 2.0 for one octave - REALTYPE tuning; - - //the real tunning is x1/x2 - unsigned int x1,x2; - - } octave[MAX_OCTAVE_SIZE],tmpoctave[MAX_OCTAVE_SIZE]; + // the real tuning (eg. +1.05946 for one halftone) + // or 2.0 for one octave + REALTYPE tuning; + //the real tunning is x1/x2 + unsigned int x1, x2; + } octave[MAX_OCTAVE_SIZE], tmpoctave[MAX_OCTAVE_SIZE]; }; #endif diff --git a/plugins/zynaddsubfx/src/Misc/Part.cpp b/plugins/zynaddsubfx/src/Misc/Part.cpp index 2adf152d7..2f8dfe7ba 100644 --- a/plugins/zynaddsubfx/src/Misc/Part.cpp +++ b/plugins/zynaddsubfx/src/Misc/Part.cpp @@ -26,122 +26,122 @@ #include #include -Part::Part(Microtonal *microtonal_,FFTwrapper *fft_, pthread_mutex_t *mutex_) +Part::Part(Microtonal *microtonal_, FFTwrapper *fft_, pthread_mutex_t *mutex_) { - microtonal=microtonal_; - fft=fft_; - mutex=mutex_; - partoutl=new REALTYPE [SOUND_BUFFER_SIZE]; - partoutr=new REALTYPE [SOUND_BUFFER_SIZE]; - tmpoutl=new REALTYPE [SOUND_BUFFER_SIZE]; - tmpoutr=new REALTYPE [SOUND_BUFFER_SIZE]; + microtonal = microtonal_; + fft = fft_; + mutex = mutex_; + partoutl = new REALTYPE [SOUND_BUFFER_SIZE]; + partoutr = new REALTYPE [SOUND_BUFFER_SIZE]; + tmpoutl = new REALTYPE [SOUND_BUFFER_SIZE]; + tmpoutr = new REALTYPE [SOUND_BUFFER_SIZE]; - for (int n=0;ndefaults(); kit[0].subpars->defaults(); kit[0].padpars->defaults(); - for (int nefx=0;nefxdefaults(); - Pefxroute[nefx]=0;//route to next effect - }; - -}; + Pefxroute[nefx] = 0; //route to next effect + } +} @@ -150,321 +150,515 @@ void Part::defaultsinstrument() */ void Part::cleanup() { - for (int k=0;kcleanup(); - for (int n=0;ncleanup(); + for(int n = 0; n < NUM_PART_EFX + 1; n++) { + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + partfxinputl[n][i] = denormalkillbuf[i]; + partfxinputr[n][i] = denormalkillbuf[i]; + } + } +} Part::~Part() { cleanup(); - for (int n=0;nPmaxkey)) return; + if(Pnoteon == 0) + return; + if((note < Pminkey) || (note > Pmaxkey)) + return; // MonoMem stuff: - if (Ppolymode==0) { // If Poly is off + if(Ppolymode == 0) { // If Poly is off monomemnotes.push_back(note); // Add note to the list. - monomem[note].velocity=velocity; // Store this note's velocity. - monomem[note].mkeyshift=masterkeyshift; /* Store masterkeyshift too, - I'm not sure why though... */ - if ((partnote[lastpos].status!=KEY_PLAYING) - && (partnote[lastpos].status!=KEY_RELASED_AND_SUSTAINED)) { - ismonofirstnote=true; // No other keys are held or sustained. + monomem[note].velocity = velocity; // Store this note's velocity. + monomem[note].mkeyshift = masterkeyshift; /* Store masterkeyshift too, + I'm not sure why though... */ + if((partnote[lastpos].status != KEY_PLAYING) + && (partnote[lastpos].status != KEY_RELASED_AND_SUSTAINED)) + ismonofirstnote = true; // No other keys are held or sustained. + } + else + // Poly mode is On so just make sure the list is empty. + if(not monomemnotes.empty()) + monomemnotes.clear(); + + lastnote = note; + + pos = -1; + for(i = 0; i < POLIPHONY; i++) { + if(partnote[i].status == KEY_OFF) { + pos = i; + break; } - } else { - // Poly mode is On so just make sure the list is empty. - if (not monomemnotes.empty()) monomemnotes.clear(); } - lastnote=note; - - pos=-1; - for (i=0;i POLIPHONY) - (Part.C::NoteOn(..))\n"); - } else { - + fprintf(stderr, + "%s", + "NOTES TOO MANY (> POLIPHONY) - (Part.C::NoteOn(..))\n"); + else { //start the note - partnote[pos].status=KEY_PLAYING; - partnote[pos].note=note; - if (legatomodevalid) { - partnote[posb].status=KEY_PLAYING; - partnote[posb].note=note; + partnote[pos].status = KEY_PLAYING; + partnote[pos].note = note; + if(legatomodevalid) { + partnote[posb].status = KEY_PLAYING; + partnote[posb].note = note; } //this computes the velocity sensing of the part - REALTYPE vel=VelF(velocity/127.0,Pvelsns); + REALTYPE vel = VelF(velocity / 127.0, Pvelsns); //compute the velocity offset - vel+=(Pveloffs-64.0)/64.0; - if (vel<0.0) vel=0.0; - else if (vel>1.0) vel=1.0; + vel += (Pveloffs - 64.0) / 64.0; + if(vel < 0.0) + vel = 0.0; + else + if(vel > 1.0) + vel = 1.0; //compute the keyshift - int partkeyshift=(int)Pkeyshift-64; - int keyshift=masterkeyshift+partkeyshift; + int partkeyshift = (int)Pkeyshift - 64; + int keyshift = masterkeyshift + partkeyshift; //initialise note frequency REALTYPE notebasefreq; - if (Pdrummode==0) { - notebasefreq=microtonal->getnotefreq(note,keyshift); - if (notebasefreq<0.0) return;//the key is no mapped - } else { - notebasefreq=440.0*pow(2.0,(note-69.0)/12.0); - }; + if(Pdrummode == 0) { + notebasefreq = microtonal->getnotefreq(note, keyshift); + if(notebasefreq < 0.0) + return; //the key is no mapped + } + else + notebasefreq = 440.0 * pow(2.0, (note - 69.0) / 12.0); + ; //Portamento - if (oldfreq<1.0) oldfreq=notebasefreq;//this is only the first note is played + if(oldfreq < 1.0) + oldfreq = notebasefreq; //this is only the first note is played // For Mono/Legato: Force Portamento Off on first // notes. That means it is required that the previous note is // still held down or sustained for the Portamento to activate // (that's like Legato). - int portamento=0; - if ((Ppolymode!=0) || (not ismonofirstnote)) { + int portamento = 0; + if((Ppolymode != 0) || (not ismonofirstnote)) // I added a third argument to the // ctl.initportamento(...) function to be able // to tell it if we're doing a legato note. - portamento=ctl.initportamento(oldfreq,notebasefreq,doinglegato); - } + portamento = ctl.initportamento(oldfreq, notebasefreq, doinglegato); - if (portamento!=0) ctl.portamento.noteusing=pos; - oldfreq=notebasefreq; + if(portamento != 0) + ctl.portamento.noteusing = pos; + oldfreq = notebasefreq; - lastpos=pos; // Keep a trace of used pos. + lastpos = pos; // Keep a trace of used pos. - if (doinglegato) { + if(doinglegato) { // Do Legato note - if (Pkitmode==0) { // "normal mode" legato note - if ((kit[0].Padenabled!=0) - && (partnote[pos].kititem[0].adnote!=NULL) - && (partnote[posb].kititem[0].adnote!=NULL)) { - partnote[pos].kititem[0].adnote->ADlegatonote(notebasefreq, vel, portamento, note, true);//'true' is to tell it it's being called from here. - partnote[posb].kititem[0].adnote->ADlegatonote(notebasefreq, vel, portamento, note, true); + if(Pkitmode == 0) { // "normal mode" legato note + if((kit[0].Padenabled != 0) + && (partnote[pos].kititem[0].adnote != NULL) + && (partnote[posb].kititem[0].adnote != NULL)) { + partnote[pos].kititem[0].adnote->ADlegatonote(notebasefreq, + vel, + portamento, + note, + true); //'true' is to tell it it's being called from here. + partnote[posb].kititem[0].adnote->ADlegatonote(notebasefreq, + vel, + portamento, + note, + true); } - if ((kit[0].Psubenabled!=0) - && (partnote[pos].kititem[0].subnote!=NULL) - && (partnote[posb].kititem[0].subnote!=NULL)) { - partnote[pos].kititem[0].subnote->SUBlegatonote(notebasefreq, vel, portamento, note, true); - partnote[posb].kititem[0].subnote->SUBlegatonote(notebasefreq, vel, portamento, note, true); + if((kit[0].Psubenabled != 0) + && (partnote[pos].kititem[0].subnote != NULL) + && (partnote[posb].kititem[0].subnote != NULL)) { + partnote[pos].kititem[0].subnote->SUBlegatonote( + notebasefreq, + vel, + portamento, + note, + true); + partnote[posb].kititem[0].subnote->SUBlegatonote( + notebasefreq, + vel, + portamento, + note, + true); } - if ((kit[0].Ppadenabled!=0) - && (partnote[pos].kititem[0].padnote!=NULL) - && (partnote[posb].kititem[0].padnote!=NULL)) { - partnote[pos].kititem[0].padnote->PADlegatonote(notebasefreq, vel, portamento, note, true); - partnote[posb].kititem[0].padnote->PADlegatonote(notebasefreq, vel, portamento, note, true); + if((kit[0].Ppadenabled != 0) + && (partnote[pos].kititem[0].padnote != NULL) + && (partnote[posb].kititem[0].padnote != NULL)) { + partnote[pos].kititem[0].padnote->PADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); + partnote[posb].kititem[0].padnote->PADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); } + } + else { // "kit mode" legato note + int ci = 0; + for(int item = 0; item < NUM_KIT_ITEMS; item++) { + if(kit[item].Pmuted != 0) + continue; + if((note < kit[item].Pminkey) || (note > kit[item].Pmaxkey)) + continue; - } else { // "kit mode" legato note - int ci=0; - for (int item=0;itemkit[item].Pmaxkey)) continue; - - if ((lastnotecopykit[item].Pmaxkey)) + if((lastnotecopy < kit[item].Pminkey) + || (lastnotecopy > kit[item].Pmaxkey)) continue; // We will not perform legato across 2 key regions. - partnote[pos].kititem[ci].sendtoparteffect=( kit[item].PsendtoparteffectADlegatonote(notebasefreq,vel,portamento,note,true); - partnote[posb].kititem[ci].adnote->ADlegatonote(notebasefreq,vel,portamento,note,true); + if((kit[item].Padenabled != 0) && (kit[item].adpars != NULL) + && (partnote[pos].kititem[ci].adnote != NULL) + && (partnote[posb].kititem[ci].adnote != NULL)) { + partnote[pos].kititem[ci].adnote->ADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); + partnote[posb].kititem[ci].adnote->ADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); } - if ((kit[item].Psubenabled!=0) && (kit[item].subpars!=NULL) - && (partnote[pos].kititem[ci].subnote!=NULL) - && (partnote[posb].kititem[ci].subnote!=NULL)) { - partnote[pos].kititem[ci].subnote->SUBlegatonote(notebasefreq,vel,portamento,note,true); - partnote[posb].kititem[ci].subnote->SUBlegatonote(notebasefreq,vel,portamento,note,true); + if((kit[item].Psubenabled != 0) + && (kit[item].subpars != NULL) + && (partnote[pos].kititem[ci].subnote != NULL) + && (partnote[posb].kititem[ci].subnote != NULL)) { + partnote[pos].kititem[ci].subnote->SUBlegatonote( + notebasefreq, + vel, + portamento, + note, + true); + partnote[posb].kititem[ci].subnote->SUBlegatonote( + notebasefreq, + vel, + portamento, + note, + true); } - if ((kit[item].Ppadenabled!=0) && (kit[item].padpars!=NULL) - && (partnote[pos].kititem[ci].padnote!=NULL) - && (partnote[posb].kititem[ci].padnote!=NULL)) { - partnote[pos].kititem[ci].padnote->PADlegatonote(notebasefreq,vel,portamento,note,true); - partnote[posb].kititem[ci].padnote->PADlegatonote(notebasefreq,vel,portamento,note,true); + if((kit[item].Ppadenabled != 0) + && (kit[item].padpars != NULL) + && (partnote[pos].kititem[ci].padnote != NULL) + && (partnote[posb].kititem[ci].padnote != NULL)) { + partnote[pos].kititem[ci].padnote->PADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); + partnote[posb].kititem[ci].padnote->PADlegatonote( + notebasefreq, + vel, + portamento, + note, + true); } - if ((kit[item].adpars!=NULL)||(kit[item].subpars!=NULL)||(kit[item].padpars!=NULL)) { + if((kit[item].adpars != NULL) + || (kit[item].subpars != NULL) + || (kit[item].padpars != NULL)) { ci++; - if ( ((kit[item].Padenabled!=0)||(kit[item].Psubenabled!=0)||(kit[item].Ppadenabled!=0)) && (Pkitmode==2) ) break; + if(((kit[item].Padenabled != 0) + || (kit[item].Psubenabled != 0) + || (kit[item].Ppadenabled != 0)) && (Pkitmode == 2)) + break; } } - if (ci==0) { + if(ci == 0) { // No legato were performed at all, so pretend nothing happened: monomemnotes.pop_back(); // Remove last note from the list. - lastnote=lastnotecopy; // Set lastnote back to previous value. + lastnote = lastnotecopy; // Set lastnote back to previous value. } } return; // Ok, Legato note done, return. } - partnote[pos].itemsplaying=0; - if (legatomodevalid) partnote[posb].itemsplaying=0; + partnote[pos].itemsplaying = 0; + if(legatomodevalid) + partnote[posb].itemsplaying = 0; - if (Pkitmode==0) {//init the notes for the "normal mode" - partnote[pos].kititem[0].sendtoparteffect=0; - if (kit[0].Padenabled!=0) partnote[pos].kititem[0].adnote=new ADnote(kit[0].adpars,&ctl,notebasefreq,vel,portamento,note,false); - if (kit[0].Psubenabled!=0) partnote[pos].kititem[0].subnote=new SUBnote(kit[0].subpars,&ctl,notebasefreq,vel,portamento,note,false); - if (kit[0].Ppadenabled!=0) partnote[pos].kititem[0].padnote=new PADnote(kit[0].padpars,&ctl,notebasefreq,vel,portamento,note,false); - if ((kit[0].Padenabled!=0)||(kit[0].Psubenabled!=0)||(kit[0].Ppadenabled!=0)) partnote[pos].itemsplaying++; + if(Pkitmode == 0) { //init the notes for the "normal mode" + partnote[pos].kititem[0].sendtoparteffect = 0; + if(kit[0].Padenabled != 0) + partnote[pos].kititem[0].adnote = new ADnote(kit[0].adpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + false); + if(kit[0].Psubenabled != 0) + partnote[pos].kititem[0].subnote = new SUBnote(kit[0].subpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + false); + if(kit[0].Ppadenabled != 0) + partnote[pos].kititem[0].padnote = new PADnote(kit[0].padpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + false); + if((kit[0].Padenabled != 0) || (kit[0].Psubenabled != 0) + || (kit[0].Ppadenabled != 0)) + partnote[pos].itemsplaying++; // Spawn another note (but silent) if legatomodevalid==true - if (legatomodevalid) { - partnote[posb].kititem[0].sendtoparteffect=0; - if (kit[0].Padenabled!=0) partnote[posb].kititem[0].adnote=new ADnote(kit[0].adpars,&ctl,notebasefreq,vel,portamento,note,true);//true for silent. - if (kit[0].Psubenabled!=0) partnote[posb].kititem[0].subnote=new SUBnote(kit[0].subpars,&ctl,notebasefreq,vel,portamento,note,true); - if (kit[0].Ppadenabled!=0) partnote[posb].kititem[0].padnote=new PADnote(kit[0].padpars,&ctl,notebasefreq,vel,portamento,note,true); - if ((kit[0].Padenabled!=0)||(kit[0].Psubenabled!=0)||(kit[0].Ppadenabled!=0)) partnote[posb].itemsplaying++; + if(legatomodevalid) { + partnote[posb].kititem[0].sendtoparteffect = 0; + if(kit[0].Padenabled != 0) + partnote[posb].kititem[0].adnote = new ADnote(kit[0].adpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + true); //true for silent. + if(kit[0].Psubenabled != 0) + partnote[posb].kititem[0].subnote = new SUBnote( + kit[0].subpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + true); + if(kit[0].Ppadenabled != 0) + partnote[posb].kititem[0].padnote = new PADnote( + kit[0].padpars, + &ctl, + notebasefreq, + vel, + portamento, + note, + true); + if((kit[0].Padenabled != 0) || (kit[0].Psubenabled != 0) + || (kit[0].Ppadenabled != 0)) + partnote[posb].itemsplaying++; } + } + else { //init the notes for the "kit mode" + for(int item = 0; item < NUM_KIT_ITEMS; item++) { + if(kit[item].Pmuted != 0) + continue; + if((note < kit[item].Pminkey) || (note > kit[item].Pmaxkey)) + continue; - } else {//init the notes for the "kit mode" - for (int item=0;itemkit[item].Pmaxkey)) continue; + int ci = partnote[pos].itemsplaying; //ci=current item - int ci=partnote[pos].itemsplaying;//ci=current item + partnote[pos].kititem[ci].sendtoparteffect = + (kit[item].Psendtoparteffect < NUM_PART_EFX ? + kit[item]. + Psendtoparteffect : NUM_PART_EFX); //if this parameter is 127 for "unprocessed" - partnote[pos].kititem[ci].sendtoparteffect=( kit[item].Psendtoparteffect=0;i--) { //first note in, is first out if there are same note multiple times - if ((partnote[i].status==KEY_PLAYING)&&(partnote[i].note==note)) { - if (ctl.sustain.sustain==0) { //the sustain pedal is not pushed - if ((Ppolymode==0) && (not monomemnotes.empty())) { + for(i = POLIPHONY - 1; i >= 0; i--) //first note in, is first out if there are same note multiple times + if((partnote[i].status == KEY_PLAYING) && (partnote[i].note == note)) { + if(ctl.sustain.sustain == 0) { //the sustain pedal is not pushed + if((Ppolymode == 0) && (not monomemnotes.empty())) MonoMemRenote(); // To play most recent still held note. - } else { + else RelaseNotePos(i); /// break; - } - } else {//the sustain pedal is pushed - partnote[i].status=KEY_RELASED_AND_SUSTAINED; } + else //the sustain pedal is pushed + partnote[i].status = KEY_RELASED_AND_SUSTAINED; } - } -}; +} /* * Controllers */ -void Part::SetController(unsigned int type,int par) +void Part::SetController(unsigned int type, int par) { - switch (type) { + switch(type) { case C_pitchwheel: ctl.setpitchwheel(par); break; case C_expression: ctl.setexpression(par); - setPvolume(Pvolume);//update the volume + setPvolume(Pvolume); //update the volume break; case C_portamento: ctl.setportamento(par); break; case C_panning: ctl.setpanning(par); - setPpanning(Ppanning);//update the panning + setPpanning(Ppanning); //update the panning break; case C_filtercutoff: ctl.setfiltercutoff(par); @@ -529,32 +722,38 @@ void Part::SetController(unsigned int type,int par) break; case C_volume: ctl.setvolume(par); - if (ctl.volume.receive!=0) volume=ctl.volume.volume; - else setPvolume(Pvolume); + if(ctl.volume.receive != 0) + volume = ctl.volume.volume; + else + setPvolume(Pvolume); break; case C_sustain: ctl.setsustain(par); - if (ctl.sustain.sustain==0) RelaseSustainedKeys(); + if(ctl.sustain.sustain == 0) + RelaseSustainedKeys(); break; case C_allsoundsoff: - AllNotesOff();//Panic + AllNotesOff(); //Panic break; case C_resetallcontrollers: ctl.resetall(); RelaseSustainedKeys(); - if (ctl.volume.receive!=0) volume=ctl.volume.volume; - else setPvolume(Pvolume); - setPvolume(Pvolume);//update the volume - setPpanning(Ppanning);//update the panning + if(ctl.volume.receive != 0) + volume = ctl.volume.volume; + else + setPvolume(Pvolume); + setPvolume(Pvolume); //update the volume + setPpanning(Ppanning); //update the panning - for (int item=0;itemGlobalPar.Reson-> - sendcontroller(C_resonance_center,1.0); + sendcontroller(C_resonance_center, 1.0); kit[item].adpars->GlobalPar.Reson-> - sendcontroller(C_resonance_bandwidth,1.0); - }; + sendcontroller(C_resonance_bandwidth, 1.0); + } //more update to add here if I add controllers break; case C_allnotesoff: @@ -562,19 +761,20 @@ void Part::SetController(unsigned int type,int par) break; case C_resonance_center: ctl.setresonancecenter(par); - for (int item=0;itemGlobalPar.Reson-> - sendcontroller(C_resonance_center,ctl.resonancecenter.relcenter); - }; + sendcontroller(C_resonance_center, ctl.resonancecenter.relcenter); + } break; case C_resonance_bandwidth: ctl.setresonancebw(par); kit[0].adpars->GlobalPar.Reson-> - sendcontroller(C_resonance_bandwidth,ctl.resonancebandwidth.relbw); + sendcontroller(C_resonance_bandwidth, ctl.resonancebandwidth.relbw); break; - }; -}; + } +} /* * Relase the sustained keys */ @@ -582,13 +782,14 @@ void Part::SetController(unsigned int type,int par) void Part::RelaseSustainedKeys() { // Let's call MonoMemRenote() on some conditions: - if ((Ppolymode==0) && (not monomemnotes.empty())) - if (monomemnotes.back()!=lastnote) // Sustain controller manipulation would cause repeated same note respawn without this check. + if((Ppolymode == 0) && (not monomemnotes.empty())) + if(monomemnotes.back() != lastnote) // Sustain controller manipulation would cause repeated same note respawn without this check. MonoMemRenote(); // To play most recent still held note. - for (int i=0;irelasekey(); - if (partnote[pos].kititem[j].subnote!=NULL) - if (partnote[pos].kititem[j].subnote!=NULL) + if(partnote[pos].kititem[j].subnote != NULL) + if(partnote[pos].kititem[j].subnote != NULL) partnote[pos].kititem[j].subnote->relasekey(); - if (partnote[pos].kititem[j].padnote!=NULL) - if (partnote[pos].kititem[j].padnote) + if(partnote[pos].kititem[j].padnote != NULL) + if(partnote[pos].kititem[j].padnote) partnote[pos].kititem[j].padnote->relasekey(); - }; - partnote[pos].status=KEY_RELASED; -}; + } + partnote[pos].status = KEY_RELASED; +} /* @@ -646,30 +844,30 @@ void Part::RelaseNotePos(int pos) */ void Part::KillNotePos(int pos) { - partnote[pos].status=KEY_OFF; - partnote[pos].note=-1; - partnote[pos].time=0; - partnote[pos].itemsplaying=0; + partnote[pos].status = KEY_OFF; + partnote[pos].note = -1; + partnote[pos].time = 0; + partnote[pos].itemsplaying = 0; - for (int j=0;jPkeylimit=Pkeylimit; - int keylimit=Pkeylimit; - if (keylimit==0) keylimit=POLIPHONY-5; + this->Pkeylimit = Pkeylimit; + int keylimit = Pkeylimit; + if(keylimit == 0) + keylimit = POLIPHONY - 5; //release old keys if the number of notes>keylimit - if (Ppolymode!=0) { - int notecount=0; - for (int i=0;ikeylimit) {//find out the oldest note - for (int i=0;imaxtime)) { - maxtime=partnote[i].time; - oldestnotepos=i; - }; - }; - }; - if (oldestnotepos!=-1) RelaseNotePos(oldestnotepos); - }; -}; + ; + int oldestnotepos = -1, maxtime = 0; + if(notecount > keylimit) { //find out the oldest note + for(int i = 0; i < POLIPHONY; i++) { + if(((partnote[i].status == KEY_PLAYING) + || (partnote[i].status == KEY_RELASED_AND_SUSTAINED)) + && (partnote[i].time > maxtime)) { + maxtime = partnote[i].time; + oldestnotepos = i; + } + } + } + if(oldestnotepos != -1) + RelaseNotePos(oldestnotepos); + } +} /* @@ -708,8 +910,8 @@ void Part::setkeylimit(unsigned char Pkeylimit) */ void Part::AllNotesOff() { - killallnotes=1; -}; + killallnotes = 1; +} /* @@ -717,266 +919,287 @@ void Part::AllNotesOff() */ void Part::ComputePartSmps() { - int i,k; - int noteplay;//0 if there is nothing activated - for (int nefx=0;nefxready!=0) adnote->noteout(&tmpoutl[0],&tmpoutr[0]); - else for (i=0;ifinished()!=0) { + if(adnote->ready != 0) + adnote->noteout(&tmpoutl[0], &tmpoutr[0]); + else + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmpoutl[i] = 0.0; + tmpoutr[i] = 0.0; + } + ; + if(adnote->finished() != 0) { delete (adnote); - partnote[k].kititem[item].adnote=NULL; - }; - for (i=0;iready!=0) subnote->noteout(&tmpoutl[0],&tmpoutr[0]); - else for (i=0;iready != 0) + subnote->noteout(&tmpoutl[0], &tmpoutr[0]); + else + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmpoutl[i] = 0.0; + tmpoutr[i] = 0.0; + } + ; - for (i=0;ifinished()!=0) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { //add the SUBnote to part(mix) + partfxinputl[sendcurrenttofx][i] += tmpoutl[i]; + partfxinputr[sendcurrenttofx][i] += tmpoutr[i]; + } + if(subnote->finished() != 0) { delete (subnote); - partnote[k].kititem[item].subnote=NULL; - }; - }; + partnote[k].kititem[item].subnote = NULL; + } + } //get from the PADnote - if (padnote!=NULL) { + if(padnote != NULL) { noteplay++; - if (padnote->ready!=0) padnote->noteout(&tmpoutl[0],&tmpoutr[0]); - else for (i=0;ifinished()!=0) { + if(padnote->ready != 0) + padnote->noteout(&tmpoutl[0], &tmpoutr[0]); + else + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmpoutl[i] = 0.0; + tmpoutr[i] = 0.0; + } + ; + if(padnote->finished() != 0) { delete (padnote); - partnote[k].kititem[item].padnote=NULL; - }; - for (i=0;iout(partfxinputl[nefx],partfxinputr[nefx]); - if (Pefxroute[nefx]==2) { - for (i=0;iefxoutl[i]; - partfxinputr[nefx+1][i]+=partefx[nefx]->efxoutr[i]; - }; - }; - }; - int routeto=((Pefxroute[nefx]==0) ? nefx+1 : NUM_PART_EFX); - for (i=0;iout(partfxinputl[nefx], partfxinputr[nefx]); + if(Pefxroute[nefx] == 2) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + partfxinputl[nefx + 1][i] += partefx[nefx]->efxoutl[i]; + partfxinputr[nefx + 1][i] += partefx[nefx]->efxoutr[i]; + } + } + } + int routeto = ((Pefxroute[nefx] == 0) ? nefx + 1 : NUM_PART_EFX); + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + partfxinputl[routeto][i] += partfxinputl[nefx][i]; + partfxinputr[routeto][i] += partfxinputr[nefx][i]; + } + } + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + partoutl[i] = partfxinputl[NUM_PART_EFX][i]; + partoutr[i] = partfxinputr[NUM_PART_EFX][i]; + } //Kill All Notes if killallnotes!=0 - if (killallnotes!=0) { - for (i=0;icleanup(); - }; - }; + ; + } ctl.updateportamento(); -}; +} /* * Parameter control */ void Part::setPvolume(char Pvolume_) { - Pvolume=Pvolume_; - volume=dB2rap((Pvolume-96.0)/96.0*40.0)*ctl.expression.relvolume; -}; + Pvolume = Pvolume_; + volume = dB2rap((Pvolume - 96.0) / 96.0 * 40.0) * ctl.expression.relvolume; +} void Part::setPpanning(char Ppanning_) { - Ppanning=Ppanning_; - panning=Ppanning/127.0+ctl.panning.pan; - if (panning<0.0) panning=0.0; - else if (panning>1.0) panning=1.0; - -}; + Ppanning = Ppanning_; + panning = Ppanning / 127.0 + ctl.panning.pan; + if(panning < 0.0) + panning = 0.0; + else + if(panning > 1.0) + panning = 1.0; +} /* * Enable or disable a kit item */ -void Part::setkititemstatus(int kititem,int Penabled_) +void Part::setkititemstatus(int kititem, int Penabled_) { - if ((kititem==0)&&(kititem>=NUM_KIT_ITEMS)) return;//nonexistent kit item and the first kit item is always enabled - kit[kititem].Penabled=Penabled_; + if((kititem == 0) && (kititem >= NUM_KIT_ITEMS)) + return; //nonexistent kit item and the first kit item is always enabled + kit[kititem].Penabled = Penabled_; - bool resetallnotes=false; - if (Penabled_==0) { - if (kit[kititem].adpars!=NULL) delete (kit[kititem].adpars); - if (kit[kititem].subpars!=NULL) delete (kit[kititem].subpars); - if (kit[kititem].padpars!=NULL) { + bool resetallnotes = false; + if(Penabled_ == 0) { + if(kit[kititem].adpars != NULL) + delete (kit[kititem].adpars); + if(kit[kititem].subpars != NULL) + delete (kit[kititem].subpars); + if(kit[kititem].padpars != NULL) { delete (kit[kititem].padpars); - resetallnotes=true; - }; - kit[kititem].adpars=NULL; - kit[kititem].subpars=NULL; - kit[kititem].padpars=NULL; - kit[kititem].Pname[0]='\0'; - } else { - if (kit[kititem].adpars==NULL) kit[kititem].adpars=new ADnoteParameters(fft); - if (kit[kititem].subpars==NULL) kit[kititem].subpars=new SUBnoteParameters(); - if (kit[kititem].padpars==NULL) kit[kititem].padpars=new PADnoteParameters(fft,mutex); - }; + resetallnotes = true; + } + kit[kititem].adpars = NULL; + kit[kititem].subpars = NULL; + kit[kititem].padpars = NULL; + kit[kititem].Pname[0] = '\0'; + } + else { + if(kit[kititem].adpars == NULL) + kit[kititem].adpars = new ADnoteParameters(fft); + if(kit[kititem].subpars == NULL) + kit[kititem].subpars = new SUBnoteParameters(); + if(kit[kititem].padpars == NULL) + kit[kititem].padpars = new PADnoteParameters(fft, mutex); + } - if (resetallnotes) for (int k=0;kbeginbranch("INFO"); - xml->addparstr("name",(char *)Pname); - xml->addparstr("author",(char *)info.Pauthor); - xml->addparstr("comments",(char *)info.Pcomments); - xml->addpar("type",info.Ptype); + xml->addparstr("name", (char *)Pname); + xml->addparstr("author", (char *)info.Pauthor); + xml->addparstr("comments", (char *)info.Pcomments); + xml->addpar("type", info.Ptype); xml->endbranch(); xml->beginbranch("INSTRUMENT_KIT"); - xml->addpar("kit_mode",Pkitmode); - xml->addparbool("drum_mode",Pdrummode); + xml->addpar("kit_mode", Pkitmode); + xml->addparbool("drum_mode", Pdrummode); - for (int i=0;ibeginbranch("INSTRUMENT_KIT_ITEM",i); - xml->addparbool("enabled",kit[i].Penabled); - if (kit[i].Penabled!=0) { - xml->addparstr("name",(char *)kit[i].Pname); + for(int i = 0; i < NUM_KIT_ITEMS; i++) { + xml->beginbranch("INSTRUMENT_KIT_ITEM", i); + xml->addparbool("enabled", kit[i].Penabled); + if(kit[i].Penabled != 0) { + xml->addparstr("name", (char *)kit[i].Pname); - xml->addparbool("muted",kit[i].Pmuted); - xml->addpar("min_key",kit[i].Pminkey); - xml->addpar("max_key",kit[i].Pmaxkey); + xml->addparbool("muted", kit[i].Pmuted); + xml->addpar("min_key", kit[i].Pminkey); + xml->addpar("max_key", kit[i].Pmaxkey); - xml->addpar("send_to_instrument_effect",kit[i].Psendtoparteffect); + xml->addpar("send_to_instrument_effect", kit[i].Psendtoparteffect); - xml->addparbool("add_enabled",kit[i].Padenabled); - if ((kit[i].Padenabled!=0)&&(kit[i].adpars!=NULL)) { + xml->addparbool("add_enabled", kit[i].Padenabled); + if((kit[i].Padenabled != 0) && (kit[i].adpars != NULL)) { xml->beginbranch("ADD_SYNTH_PARAMETERS"); kit[i].adpars->add2XML(xml); xml->endbranch(); - }; + } - xml->addparbool("sub_enabled",kit[i].Psubenabled); - if ((kit[i].Psubenabled!=0)&&(kit[i].subpars!=NULL)) { + xml->addparbool("sub_enabled", kit[i].Psubenabled); + if((kit[i].Psubenabled != 0) && (kit[i].subpars != NULL)) { xml->beginbranch("SUB_SYNTH_PARAMETERS"); kit[i].subpars->add2XML(xml); xml->endbranch(); - }; + } - xml->addparbool("pad_enabled",kit[i].Ppadenabled); - if ((kit[i].Ppadenabled!=0)&&(kit[i].padpars!=NULL)) { + xml->addparbool("pad_enabled", kit[i].Ppadenabled); + if((kit[i].Ppadenabled != 0) && (kit[i].padpars != NULL)) { xml->beginbranch("PAD_SYNTH_PARAMETERS"); kit[i].padpars->add2XML(xml); xml->endbranch(); - }; - - }; + } + } xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("INSTRUMENT_EFFECTS"); - for (int nefx=0;nefxbeginbranch("INSTRUMENT_EFFECT",nefx); + for(int nefx = 0; nefx < NUM_PART_EFX; nefx++) { + xml->beginbranch("INSTRUMENT_EFFECT", nefx); xml->beginbranch("EFFECT"); partefx[nefx]->add2XML(xml); xml->endbranch(); - xml->addpar("route",Pefxroute[nefx]); - partefx[nefx]->setdryonly(Pefxroute[nefx]==2); - xml->addparbool("bypass",Pefxbypass[nefx]); + xml->addpar("route", Pefxroute[nefx]); + partefx[nefx]->setdryonly(Pefxroute[nefx] == 2); + xml->addparbool("bypass", Pefxbypass[nefx]); xml->endbranch(); - }; + } xml->endbranch(); -}; +} void Part::add2XML(XMLwrapper *xml) { //parameters - xml->addparbool("enabled",Penabled); - if ((Penabled==0)&&(xml->minimal)) return; + xml->addparbool("enabled", Penabled); + if((Penabled == 0) && (xml->minimal)) + return; - xml->addpar("volume",Pvolume); - xml->addpar("panning",Ppanning); + xml->addpar("volume", Pvolume); + xml->addpar("panning", Ppanning); - xml->addpar("min_key",Pminkey); - xml->addpar("max_key",Pmaxkey); - xml->addpar("key_shift",Pkeyshift); - xml->addpar("rcv_chn",Prcvchn); + xml->addpar("min_key", Pminkey); + xml->addpar("max_key", Pmaxkey); + xml->addpar("key_shift", Pkeyshift); + xml->addpar("rcv_chn", Prcvchn); - xml->addpar("velocity_sensing",Pvelsns); - xml->addpar("velocity_offset",Pveloffs); + xml->addpar("velocity_sensing", Pvelsns); + xml->addpar("velocity_offset", Pveloffs); - xml->addparbool("note_on",Pnoteon); - xml->addparbool("poly_mode",Ppolymode); - xml->addpar("legato_mode",Plegatomode); - xml->addpar("key_limit",Pkeylimit); + xml->addparbool("note_on", Pnoteon); + xml->addparbool("poly_mode", Ppolymode); + xml->addpar("legato_mode", Plegatomode); + xml->addpar("key_limit", Pkeylimit); xml->beginbranch("INSTRUMENT"); add2XMLinstrument(xml); @@ -985,154 +1208,163 @@ void Part::add2XML(XMLwrapper *xml) xml->beginbranch("CONTROLLER"); ctl.add2XML(xml); xml->endbranch(); -}; +} int Part::saveXML(char *filename) { XMLwrapper *xml; - xml=new XMLwrapper(); + xml = new XMLwrapper(); xml->beginbranch("INSTRUMENT"); add2XMLinstrument(xml); xml->endbranch(); - int result=xml->saveXMLfile(filename); + int result = xml->saveXMLfile(filename); delete (xml); - return(result); -}; + return result; +} int Part::loadXMLinstrument(const char *filename) { - XMLwrapper *xml=new XMLwrapper(); - if (xml->loadXMLfile(filename)<0) { - delete(xml); - return(-1); - }; + XMLwrapper *xml = new XMLwrapper(); + if(xml->loadXMLfile(filename) < 0) { + delete (xml); + return -1; + } - if (xml->enterbranch("INSTRUMENT")==0) return(-10); + if(xml->enterbranch("INSTRUMENT") == 0) + return -10; getfromXMLinstrument(xml); xml->exitbranch(); - delete(xml); - return(0); -}; + delete (xml); + return 0; +} void Part::applyparameters() { - for (int n=0;napplyparameters(true); - }; -}; + for(int n = 0; n < NUM_KIT_ITEMS; n++) + if((kit[n].padpars != NULL) && (kit[n].Ppadenabled != 0)) + kit[n].padpars->applyparameters(true); + ; +} void Part::getfromXMLinstrument(XMLwrapper *xml) { - if (xml->enterbranch("INFO")) { - xml->getparstr("name",(char *)Pname,PART_MAX_NAME_LEN); - xml->getparstr("author",(char *)info.Pauthor,MAX_INFO_TEXT_SIZE); - xml->getparstr("comments",(char *)info.Pcomments,MAX_INFO_TEXT_SIZE); - info.Ptype=xml->getpar("type",info.Ptype,0,16); + if(xml->enterbranch("INFO")) { + xml->getparstr("name", (char *)Pname, PART_MAX_NAME_LEN); + xml->getparstr("author", (char *)info.Pauthor, MAX_INFO_TEXT_SIZE); + xml->getparstr("comments", (char *)info.Pcomments, MAX_INFO_TEXT_SIZE); + info.Ptype = xml->getpar("type", info.Ptype, 0, 16); xml->exitbranch(); - }; + } - if (xml->enterbranch("INSTRUMENT_KIT")) { - Pkitmode=xml->getpar127("kit_mode",Pkitmode); - Pdrummode=xml->getparbool("drum_mode",Pdrummode); + if(xml->enterbranch("INSTRUMENT_KIT")) { + Pkitmode = xml->getpar127("kit_mode", Pkitmode); + Pdrummode = xml->getparbool("drum_mode", Pdrummode); - setkititemstatus(0,0); - for (int i=0;ienterbranch("INSTRUMENT_KIT_ITEM",i)==0) continue; - setkititemstatus(i,xml->getparbool("enabled",kit[i].Penabled)); - if (kit[i].Penabled==0) { + setkititemstatus(0, 0); + for(int i = 0; i < NUM_KIT_ITEMS; i++) { + if(xml->enterbranch("INSTRUMENT_KIT_ITEM", i) == 0) + continue; + setkititemstatus(i, xml->getparbool("enabled", kit[i].Penabled)); + if(kit[i].Penabled == 0) { xml->exitbranch(); continue; - }; + } - xml->getparstr("name",(char *)kit[i].Pname,PART_MAX_NAME_LEN); + xml->getparstr("name", (char *)kit[i].Pname, PART_MAX_NAME_LEN); - kit[i].Pmuted=xml->getparbool("muted",kit[i].Pmuted); - kit[i].Pminkey=xml->getpar127("min_key",kit[i].Pminkey); - kit[i].Pmaxkey=xml->getpar127("max_key",kit[i].Pmaxkey); + kit[i].Pmuted = xml->getparbool("muted", kit[i].Pmuted); + kit[i].Pminkey = xml->getpar127("min_key", kit[i].Pminkey); + kit[i].Pmaxkey = xml->getpar127("max_key", kit[i].Pmaxkey); - kit[i].Psendtoparteffect=xml->getpar127("send_to_instrument_effect",kit[i].Psendtoparteffect); + kit[i].Psendtoparteffect = xml->getpar127( + "send_to_instrument_effect", + kit[i].Psendtoparteffect); - kit[i].Padenabled=xml->getparbool("add_enabled",kit[i].Padenabled); - if (xml->enterbranch("ADD_SYNTH_PARAMETERS")) { + kit[i].Padenabled = xml->getparbool("add_enabled", + kit[i].Padenabled); + if(xml->enterbranch("ADD_SYNTH_PARAMETERS")) { kit[i].adpars->getfromXML(xml); xml->exitbranch(); - }; + } - kit[i].Psubenabled=xml->getparbool("sub_enabled",kit[i].Psubenabled); - if (xml->enterbranch("SUB_SYNTH_PARAMETERS")) { + kit[i].Psubenabled = xml->getparbool("sub_enabled", + kit[i].Psubenabled); + if(xml->enterbranch("SUB_SYNTH_PARAMETERS")) { kit[i].subpars->getfromXML(xml); xml->exitbranch(); - }; + } - kit[i].Ppadenabled=xml->getparbool("pad_enabled",kit[i].Ppadenabled); - if (xml->enterbranch("PAD_SYNTH_PARAMETERS")) { + kit[i].Ppadenabled = xml->getparbool("pad_enabled", + kit[i].Ppadenabled); + if(xml->enterbranch("PAD_SYNTH_PARAMETERS")) { kit[i].padpars->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("INSTRUMENT_EFFECTS")) { - for (int nefx=0;nefxenterbranch("INSTRUMENT_EFFECT",nefx)==0) continue; - if (xml->enterbranch("EFFECT")) { + if(xml->enterbranch("INSTRUMENT_EFFECTS")) { + for(int nefx = 0; nefx < NUM_PART_EFX; nefx++) { + if(xml->enterbranch("INSTRUMENT_EFFECT", nefx) == 0) + continue; + if(xml->enterbranch("EFFECT")) { partefx[nefx]->getfromXML(xml); xml->exitbranch(); - }; + } - Pefxroute[nefx]=xml->getpar("route",Pefxroute[nefx],0,NUM_PART_EFX); - partefx[nefx]->setdryonly(Pefxroute[nefx]==2); - Pefxbypass[nefx]=xml->getparbool("bypass",Pefxbypass[nefx]); + Pefxroute[nefx] = xml->getpar("route", + Pefxroute[nefx], + 0, + NUM_PART_EFX); + partefx[nefx]->setdryonly(Pefxroute[nefx] == 2); + Pefxbypass[nefx] = xml->getparbool("bypass", Pefxbypass[nefx]); xml->exitbranch(); - }; + } xml->exitbranch(); - }; - -}; + } +} void Part::getfromXML(XMLwrapper *xml) { - Penabled=xml->getparbool("enabled",Penabled); + Penabled = xml->getparbool("enabled", Penabled); - setPvolume(xml->getpar127("volume",Pvolume)); - setPpanning(xml->getpar127("panning",Ppanning)); + setPvolume(xml->getpar127("volume", Pvolume)); + setPpanning(xml->getpar127("panning", Ppanning)); - Pminkey=xml->getpar127("min_key",Pminkey); - Pmaxkey=xml->getpar127("max_key",Pmaxkey); - Pkeyshift=xml->getpar127("key_shift",Pkeyshift); - Prcvchn=xml->getpar127("rcv_chn",Prcvchn); + Pminkey = xml->getpar127("min_key", Pminkey); + Pmaxkey = xml->getpar127("max_key", Pmaxkey); + Pkeyshift = xml->getpar127("key_shift", Pkeyshift); + Prcvchn = xml->getpar127("rcv_chn", Prcvchn); - Pvelsns=xml->getpar127("velocity_sensing",Pvelsns); - Pveloffs=xml->getpar127("velocity_offset",Pveloffs); + Pvelsns = xml->getpar127("velocity_sensing", Pvelsns); + Pveloffs = xml->getpar127("velocity_offset", Pveloffs); - Pnoteon=xml->getparbool("note_on",Pnoteon); - Ppolymode=xml->getparbool("poly_mode",Ppolymode); - Plegatomode=xml->getparbool("legato_mode",Plegatomode);//older versions - if (!Plegatomode) Plegatomode=xml->getpar127("legato_mode",Plegatomode); - Pkeylimit=xml->getpar127("key_limit",Pkeylimit); + Pnoteon = xml->getparbool("note_on", Pnoteon); + Ppolymode = xml->getparbool("poly_mode", Ppolymode); + Plegatomode = xml->getparbool("legato_mode", Plegatomode); //older versions + if(!Plegatomode) + Plegatomode = xml->getpar127("legato_mode", Plegatomode); + Pkeylimit = xml->getpar127("key_limit", Pkeylimit); - if (xml->enterbranch("INSTRUMENT")) { + if(xml->enterbranch("INSTRUMENT")) { getfromXMLinstrument(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("CONTROLLER")) { + if(xml->enterbranch("CONTROLLER")) { ctl.getfromXML(xml); xml->exitbranch(); - }; - -}; - - + } +} diff --git a/plugins/zynaddsubfx/src/Misc/Part.h b/plugins/zynaddsubfx/src/Misc/Part.h index 1ac12a50b..66169e3e3 100644 --- a/plugins/zynaddsubfx/src/Misc/Part.h +++ b/plugins/zynaddsubfx/src/Misc/Part.h @@ -43,159 +43,163 @@ /** Part implementation*/ class Part { + public: + /**Constructor + * @param microtonal_ Pointer to the microtonal object + * @param fft_ Pointer to the FFTwrapper + * @param mutex_ Pointer to the master pthread_mutex_t*/ + Part(Microtonal *microtonal_, FFTwrapper *fft_, pthread_mutex_t *mutex_); + /**Destructor*/ + ~Part(); -public: - /**Constructor - * @param microtonal_ Pointer to the microtonal object - * @param fft_ Pointer to the FFTwrapper - * @param mutex_ Pointer to the master pthread_mutex_t*/ - Part(Microtonal *microtonal_,FFTwrapper *fft_,pthread_mutex_t *mutex_); - /**Destructor*/ - ~Part(); + // Midi commands implemented + void NoteOn(unsigned char note, + unsigned char velocity, + int masterkeyshift); + void NoteOff(unsigned char note); + void AllNotesOff(); //panic + void SetController(unsigned int type, int par); + void RelaseSustainedKeys(); //this is called when the sustain pedal is relased + void RelaseAllKeys(); //this is called on AllNotesOff controller - // Midi commands implemented - void NoteOn(unsigned char note,unsigned char velocity,int masterkeyshift); - void NoteOff(unsigned char note); - void AllNotesOff();//panic - void SetController(unsigned int type,int par); - void RelaseSustainedKeys();//this is called when the sustain pedal is relased - void RelaseAllKeys();//this is called on AllNotesOff controller + /* The synthesizer part output */ + void ComputePartSmps(); //Part output - /* The synthesizer part output */ - void ComputePartSmps();//Part output - - //instrumentonly: 0 - save all, 1 - save only instrumnet, 2 - save only instrument without the name(used in bank) + //instrumentonly: 0 - save all, 1 - save only instrumnet, 2 - save only instrument without the name(used in bank) - //saves the instrument settings to a XML file - //returns 0 for ok or <0 if there is an error - int saveXML(char *filename); - int loadXMLinstrument(const char *filename); + //saves the instrument settings to a XML file + //returns 0 for ok or <0 if there is an error + int saveXML(char *filename); + int loadXMLinstrument(const char *filename); - void add2XML(XMLwrapper *xml); - void add2XMLinstrument(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void add2XMLinstrument(XMLwrapper *xml); - void defaults(); - void defaultsinstrument(); + void defaults(); + void defaultsinstrument(); - void applyparameters(); + void applyparameters(); - void getfromXML(XMLwrapper *xml); - void getfromXMLinstrument(XMLwrapper *xml); + void getfromXML(XMLwrapper *xml); + void getfromXMLinstrument(XMLwrapper *xml); - void cleanup(); + void cleanup(); // ADnoteParameters *ADPartParameters; // SUBnoteParameters *SUBPartParameters; - //the part's kit - struct { - unsigned char Penabled,Pmuted,Pminkey,Pmaxkey; - unsigned char *Pname; - unsigned char Padenabled,Psubenabled,Ppadenabled; - unsigned char Psendtoparteffect; - ADnoteParameters *adpars; - SUBnoteParameters *subpars; - PADnoteParameters *padpars; - } kit[NUM_KIT_ITEMS]; - - - //Part parameters - void setkeylimit(unsigned char Pkeylimit); - void setkititemstatus(int kititem,int Penabled_); - - unsigned char Penabled;/** monomemnotes; // A list to remember held notes. - struct { - unsigned char velocity; - int mkeyshift;// I'm not sure masterkeyshift should be remembered. - } monomem[256]; /* 256 is to cover all possible note values. - monomem[] is used in conjunction with the list to - store the velocity and masterkeyshift values of a - given note (the list only store note values). - For example 'monomem[note].velocity' would be the - velocity value of the note 'note'. - */ + //Part parameters + void setkeylimit(unsigned char Pkeylimit); + void setkititemstatus(int kititem, int Penabled_); - PartNotes partnote[POLIPHONY]; + unsigned char Penabled; /** monomemnotes; // A list to remember held notes. + struct { + unsigned char velocity; + int mkeyshift; // I'm not sure masterkeyshift should be remembered. + } monomem[256]; /* 256 is to cover all possible note values. + monomem[] is used in conjunction with the list to + store the velocity and masterkeyshift values of a + given note (the list only store note values). + For example 'monomem[note].velocity' would be the + velocity value of the note 'note'. + */ + + PartNotes partnote[POLIPHONY]; + + REALTYPE *tmpoutl; //used to get the note + REALTYPE *tmpoutr; + + REALTYPE oldfreq; //this is used for portamento + Microtonal *microtonal; + FFTwrapper *fft; }; #endif diff --git a/plugins/zynaddsubfx/src/Misc/Stereo.cpp b/plugins/zynaddsubfx/src/Misc/Stereo.cpp index fde296043..928be6e29 100644 --- a/plugins/zynaddsubfx/src/Misc/Stereo.cpp +++ b/plugins/zynaddsubfx/src/Misc/Stereo.cpp @@ -19,19 +19,20 @@ Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ -template +template Stereo::Stereo(const T &left, const T &right) - :leftChannel(left),rightChannel(right) + :leftChannel(left), rightChannel(right) {} -template +template Stereo::Stereo(const T &val) - :leftChannel(val),rightChannel(val) + :leftChannel(val), rightChannel(val) {} -template -void Stereo::operator=(const Stereo & nstr) +template +void Stereo::operator=(const Stereo &nstr) { - leftChannel=nstr.leftChannel; - rightChannel=nstr.rightChannel; + leftChannel = nstr.leftChannel; + rightChannel = nstr.rightChannel; } + diff --git a/plugins/zynaddsubfx/src/Misc/Stereo.h b/plugins/zynaddsubfx/src/Misc/Stereo.h index b9c71b359..8bdf43017 100644 --- a/plugins/zynaddsubfx/src/Misc/Stereo.h +++ b/plugins/zynaddsubfx/src/Misc/Stereo.h @@ -21,46 +21,45 @@ #ifndef STEREO_H #define STEREO_H -template +template class Stereo { -public: - Stereo(const T &left,const T &right); + public: + Stereo(const T &left, const T &right); - /**Initializes Stereo with left and right set to val - * @param val the value for both channels*/ - Stereo(const T &val); - ~Stereo() {}; - - void operator=(const Stereo &smp); - T &left() { - return leftChannel; - }; - T &right() { - return rightChannel; - }; - T &l() { - return leftChannel; - }; - T &r() { - return rightChannel; - }; - const T &left()const { - return leftChannel; - }; - const T &right()const { - return rightChannel; - }; - const T &l()const { - return leftChannel; - }; - const T &r()const { - return rightChannel; - }; -private: - T leftChannel; - T rightChannel; + /**Initializes Stereo with left and right set to val + * @param val the value for both channels*/ + Stereo(const T &val); + ~Stereo() {} + void operator=(const Stereo &smp); + T &left() { + return leftChannel; + } + T &right() { + return rightChannel; + } + T &l() { + return leftChannel; + } + T &r() { + return rightChannel; + } + const T &left() const { + return leftChannel; + } + const T &right() const { + return rightChannel; + } + const T &l() const { + return leftChannel; + } + const T &r() const { + return rightChannel; + } + private: + T leftChannel; + T rightChannel; }; #include "Stereo.cpp" #endif diff --git a/plugins/zynaddsubfx/src/Misc/Util.cpp b/plugins/zynaddsubfx/src/Misc/Util.cpp index a66dd170a..0f862c602 100644 --- a/plugins/zynaddsubfx/src/Misc/Util.cpp +++ b/plugins/zynaddsubfx/src/Misc/Util.cpp @@ -31,76 +31,85 @@ #include #include -int SAMPLE_RATE=44100; -int SOUND_BUFFER_SIZE=256; -int OSCIL_SIZE=1024; +int SAMPLE_RATE = 44100; +int SOUND_BUFFER_SIZE = 256; +int OSCIL_SIZE = 1024; -Config config; +Config config; REALTYPE *denormalkillbuf; /* * Transform the velocity according the scaling parameter (velocity sensing) */ -REALTYPE VelF(REALTYPE velocity,unsigned char scaling) +REALTYPE VelF(REALTYPE velocity, unsigned char scaling) { REALTYPE x; - x=pow(VELOCITY_MAX_SCALE,(64.0-scaling)/64.0); - if ((scaling==127)||(velocity>0.99)) return(1.0); - else return(pow(velocity,x)); -}; + x = pow(VELOCITY_MAX_SCALE, (64.0 - scaling) / 64.0); + if((scaling == 127) || (velocity > 0.99)) + return 1.0; + else + return pow(velocity, x); +} /* * Get the detune in cents */ -REALTYPE getdetune(unsigned char type,unsigned short int coarsedetune,unsigned short int finedetune) +REALTYPE getdetune(unsigned char type, + unsigned short int coarsedetune, + unsigned short int finedetune) { - REALTYPE det=0.0,octdet=0.0,cdet=0.0,findet=0.0; + REALTYPE det = 0.0, octdet = 0.0, cdet = 0.0, findet = 0.0; //Get Octave - int octave=coarsedetune/1024; - if (octave>=8) octave-=16; - octdet=octave*1200.0; + int octave = coarsedetune / 1024; + if(octave >= 8) + octave -= 16; + octdet = octave * 1200.0; //Coarse and fine detune - int cdetune=coarsedetune%1024; - if (cdetune>512) cdetune-=1024; + int cdetune = coarsedetune % 1024; + if(cdetune > 512) + cdetune -= 1024; - int fdetune=finedetune-8192; + int fdetune = finedetune - 8192; - switch (type) { + switch(type) { // case 1: is used for the default (see below) case 2: - cdet=fabs(cdetune*10.0); - findet=fabs(fdetune/8192.0)*10.0; + cdet = fabs(cdetune * 10.0); + findet = fabs(fdetune / 8192.0) * 10.0; break; case 3: - cdet=fabs(cdetune*100); - findet=pow(10,fabs(fdetune/8192.0)*3.0)/10.0-0.1; + cdet = fabs(cdetune * 100); + findet = pow(10, fabs(fdetune / 8192.0) * 3.0) / 10.0 - 0.1; break; case 4: - cdet=fabs(cdetune*701.95500087);//perfect fifth - findet=(pow(2,fabs(fdetune/8192.0)*12.0)-1.0)/4095*1200; + cdet = fabs(cdetune * 701.95500087); //perfect fifth + findet = (pow(2, fabs(fdetune / 8192.0) * 12.0) - 1.0) / 4095 * 1200; break; - //case ...: need to update N_DETUNE_TYPES, if you'll add more + //case ...: need to update N_DETUNE_TYPES, if you'll add more default: - cdet=fabs(cdetune*50.0); - findet=fabs(fdetune/8192.0)*35.0;//almost like "Paul's Sound Designer 2" + cdet = fabs(cdetune * 50.0); + findet = fabs(fdetune / 8192.0) * 35.0; //almost like "Paul's Sound Designer 2" break; - }; - if (finedetune<8192) findet=-findet; - if (cdetune<0) cdet=-cdet; + } + if(finedetune < 8192) + findet = -findet; + if(cdetune < 0) + cdet = -cdet; - det=octdet+cdet+findet; - return(det); -}; + det = octdet + cdet + findet; + return det; +} bool fileexists(const char *filename) { struct stat tmp; - int result=stat(filename,&tmp); - if (result>=0) return(true); + int result = stat(filename, &tmp); + if(result >= 0) + return true; - return(false); -}; + return false; +} diff --git a/plugins/zynaddsubfx/src/Misc/Util.h b/plugins/zynaddsubfx/src/Misc/Util.h index 305188190..ccdac4dea 100644 --- a/plugins/zynaddsubfx/src/Misc/Util.h +++ b/plugins/zynaddsubfx/src/Misc/Util.h @@ -29,18 +29,20 @@ #include "Config.h" //Velocity Sensing function -extern REALTYPE VelF(REALTYPE velocity,unsigned char scaling); +extern REALTYPE VelF(REALTYPE velocity, unsigned char scaling); bool fileexists(const char *filename); #define N_DETUNE_TYPES 4 //the number of detune types -extern REALTYPE getdetune(unsigned char type,unsigned short int coarsedetune,unsigned short int finedetune); +extern REALTYPE getdetune(unsigned char type, + unsigned short int coarsedetune, + unsigned short int finedetune); -extern REALTYPE *denormalkillbuf;/** +template std::string stringFrom(T x) { std::stringstream ss; @@ -48,10 +50,10 @@ std::string stringFrom(T x) return ss.str(); } -template -T stringTo(const char * x) +template +T stringTo(const char *x) { - std::string str = x!=NULL ? x : "0"; //should work for the basic float/int + std::string str = x != NULL ? x : "0"; //should work for the basic float/int std::stringstream ss(str); T ans; ss >> ans; diff --git a/plugins/zynaddsubfx/src/Misc/XMLwrapper.cpp b/plugins/zynaddsubfx/src/Misc/XMLwrapper.cpp index c6337e239..b9ee3d6e6 100644 --- a/plugins/zynaddsubfx/src/Misc/XMLwrapper.cpp +++ b/plugins/zynaddsubfx/src/Misc/XMLwrapper.cpp @@ -36,57 +36,62 @@ using namespace std; -int xml_k = 0; +int xml_k = 0; bool verbose = false; -const char *XMLwrapper_whitespace_callback(mxml_node_t *node,int where) +const char *XMLwrapper_whitespace_callback(mxml_node_t *node, int where) { - const char *name=node->value.element.name; + const char *name = node->value.element.name; - if ((where==MXML_WS_BEFORE_OPEN)&&(!strcmp(name,"?xml"))) return(NULL); - if ((where==MXML_WS_BEFORE_CLOSE)&&(!strcmp(name,"string"))) return(NULL); + if((where == MXML_WS_BEFORE_OPEN) && (!strcmp(name, "?xml"))) + return NULL; + if((where == MXML_WS_BEFORE_CLOSE) && (!strcmp(name, "string"))) + return NULL; - if ((where==MXML_WS_BEFORE_OPEN)||(where==MXML_WS_BEFORE_CLOSE)) { + if((where == MXML_WS_BEFORE_OPEN) || (where == MXML_WS_BEFORE_CLOSE)) /* const char *tmp=node->value.element.name; - if (tmp!=NULL) { - if ((strstr(tmp,"par")!=tmp)&&(strstr(tmp,"string")!=tmp)) { - printf("%s ",tmp); - if (where==MXML_WS_BEFORE_OPEN) xml_k++; - if (where==MXML_WS_BEFORE_CLOSE) xml_k--; - if (xml_k>=STACKSIZE) xml_k=STACKSIZE-1; - if (xml_k<0) xml_k=0; - printf("%d\n",xml_k); - printf("\n"); - }; + if (tmp!=NULL) { + if ((strstr(tmp,"par")!=tmp)&&(strstr(tmp,"string")!=tmp)) { + printf("%s ",tmp); + if (where==MXML_WS_BEFORE_OPEN) xml_k++; + if (where==MXML_WS_BEFORE_CLOSE) xml_k--; + if (xml_k>=STACKSIZE) xml_k=STACKSIZE-1; + if (xml_k<0) xml_k=0; + printf("%d\n",xml_k); + printf("\n"); + }; - }; - int i=0; - for (i=1;i (mxmlFindElement( - const_cast(node), - const_cast(top), - name, attr, value, descend))); + return const_cast(mxmlFindElement( + const_cast(node), + const_cast(top), + name, attr, value, descend)); } //temporary const overload of mxmlElementGetAttr const char *mxmlElementGetAttr(const mxml_node_t *node, const char *name) { - return mxmlElementGetAttr(const_cast(node),name); + return mxmlElementGetAttr(const_cast(node), name); } XMLwrapper::XMLwrapper() @@ -95,75 +100,88 @@ XMLwrapper::XMLwrapper() version.Minor = 4; version.Revision = 1; - minimal=true; + minimal = true; - node=tree=mxmlNewElement(MXML_NO_PARENT,"?xml version=\"1.0\" encoding=\"UTF-8\"?"); + node = tree = mxmlNewElement(MXML_NO_PARENT, + "?xml version=\"1.0\" encoding=\"UTF-8\"?"); /* for mxml 2.1 (and older) tree=mxmlNewElement(MXML_NO_PARENT,"?xml"); mxmlElementSetAttr(tree,"version","1.0"); mxmlElementSetAttr(tree,"encoding","UTF-8"); */ - mxml_node_t *doctype=mxmlNewElement(tree,"!DOCTYPE"); - mxmlElementSetAttr(doctype,"ZynAddSubFX-data",NULL); + mxml_node_t *doctype = mxmlNewElement(tree, "!DOCTYPE"); + mxmlElementSetAttr(doctype, "ZynAddSubFX-data", NULL); - node=root=addparams("ZynAddSubFX-data",4, - "version-major", stringFrom(version.Major).c_str(), - "version-minor", stringFrom(version.Minor).c_str(), - "version-revision", stringFrom(version.Revision).c_str(), - "ZynAddSubFX-author", "Nasca Octavian Paul"); + node = root = addparams("ZynAddSubFX-data", 4, + "version-major", stringFrom( + version.Major).c_str(), + "version-minor", stringFrom( + version.Minor).c_str(), + "version-revision", + stringFrom(version.Revision).c_str(), + "ZynAddSubFX-author", "Nasca Octavian Paul"); //make the empty branch that will contain the information parameters - info=addparams("INFORMATION",0); + info = addparams("INFORMATION", 0); //save zynaddsubfx specifications beginbranch("BASE_PARAMETERS"); - addpar("max_midi_parts",NUM_MIDI_PARTS); - addpar("max_kit_items_per_instrument",NUM_KIT_ITEMS); + addpar("max_midi_parts", NUM_MIDI_PARTS); + addpar("max_kit_items_per_instrument", NUM_KIT_ITEMS); - addpar("max_system_effects",NUM_SYS_EFX); - addpar("max_insertion_effects",NUM_INS_EFX); - addpar("max_instrument_effects",NUM_PART_EFX); + addpar("max_system_effects", NUM_SYS_EFX); + addpar("max_insertion_effects", NUM_INS_EFX); + addpar("max_instrument_effects", NUM_PART_EFX); - addpar("max_addsynth_voices",NUM_VOICES); + addpar("max_addsynth_voices", NUM_VOICES); endbranch(); - -}; +} XMLwrapper::~XMLwrapper() { - if (tree!=NULL) mxmlDelete(tree); -}; + if(tree != NULL) + mxmlDelete(tree); +} void XMLwrapper::setPadSynth(bool enabled) { /**@bug this might create multiple nodes when only one is needed*/ - mxml_node_t *oldnode=node; - node=info; + mxml_node_t *oldnode = node; + node = info; //Info storing - addparbool("PADsynth_used",enabled); - node=oldnode; + addparbool("PADsynth_used", enabled); + node = oldnode; } bool XMLwrapper::hasPadSynth() const { /**Right now this has a copied implementation of setparbool, so this should * be reworked as XMLwrapper evolves*/ - mxml_node_t * tmp = mxmlFindElement(tree,tree,"INFORMATION",NULL,NULL,MXML_DESCEND); + mxml_node_t *tmp = mxmlFindElement(tree, + tree, + "INFORMATION", + NULL, + NULL, + MXML_DESCEND); - mxml_node_t * parameter = mxmlFindElement(tmp, tmp, "par_bool", "name", - "PADsynth_used", MXML_DESCEND_FIRST); - if (parameter==NULL)//no information availiable - return(false); + mxml_node_t *parameter = mxmlFindElement(tmp, + tmp, + "par_bool", + "name", + "PADsynth_used", + MXML_DESCEND_FIRST); + if(parameter == NULL) //no information availiable + return false; - const char *strval = mxmlElementGetAttr(parameter,"value"); - if (strval==NULL)//no information available - return(false); + const char *strval = mxmlElementGetAttr(parameter, "value"); + if(strval == NULL) //no information available + return false; - if ((strval[0]=='Y')||(strval[0]=='y')) - return(true); + if((strval[0] == 'Y') || (strval[0] == 'y')) + return true; else - return(false); + return false; } @@ -171,97 +189,110 @@ bool XMLwrapper::hasPadSynth() const int XMLwrapper::saveXMLfile(const string &filename) const { - char *xmldata=getXMLdata(); - if (xmldata==NULL) return(-2); + char *xmldata = getXMLdata(); + if(xmldata == NULL) + return -2; - int compression=config.cfg.GzipCompression; - int result=dosavefile(filename.c_str(),compression,xmldata); + int compression = config.cfg.GzipCompression; + int result = dosavefile(filename.c_str(), compression, xmldata); free(xmldata); - return(result); -}; + return result; +} char *XMLwrapper::getXMLdata() const { - xml_k=0; + xml_k = 0; - char *xmldata=mxmlSaveAllocString(tree,XMLwrapper_whitespace_callback); + char *xmldata = mxmlSaveAllocString(tree, XMLwrapper_whitespace_callback); - return(xmldata); -}; + return xmldata; +} -int XMLwrapper::dosavefile(const char *filename,int compression,const char *xmldata) const +int XMLwrapper::dosavefile(const char *filename, + int compression, + const char *xmldata) const { - if (compression==0) { + if(compression == 0) { FILE *file; - file=fopen(filename,"w"); - if (file==NULL) return(-1); - fputs(xmldata,file); + file = fopen(filename, "w"); + if(file == NULL) + return -1; + fputs(xmldata, file); fclose(file); - } else { - if (compression>9) compression=9; - if (compression<1) compression=1; + } + else { + if(compression > 9) + compression = 9; + if(compression < 1) + compression = 1; char options[10]; - snprintf(options,10,"wb%d",compression); + snprintf(options, 10, "wb%d", compression); gzFile gzfile; - gzfile=gzopen(filename,options); - if (gzfile==NULL) return(-1); - gzputs(gzfile,xmldata); + gzfile = gzopen(filename, options); + if(gzfile == NULL) + return -1; + gzputs(gzfile, xmldata); gzclose(gzfile); - }; + } - return(0); -}; + return 0; +} -void XMLwrapper::addpar(const string &name,int val) +void XMLwrapper::addpar(const string &name, int val) { - addparams("par",2,"name",name.c_str(),"value",stringFrom(val).c_str()); -}; + addparams("par", 2, "name", name.c_str(), "value", stringFrom( + val).c_str()); +} -void XMLwrapper::addparreal(const string &name,REALTYPE val) +void XMLwrapper::addparreal(const string &name, REALTYPE val) { - addparams("par_real",2,"name",name.c_str(),"value",stringFrom(val).c_str()); -}; + addparams("par_real", 2, "name", name.c_str(), "value", + stringFrom(val).c_str()); +} -void XMLwrapper::addparbool(const string &name,int val) +void XMLwrapper::addparbool(const string &name, int val) { - if (val!=0) addparams("par_bool",2,"name",name.c_str(),"value","yes"); - else addparams("par_bool",2,"name",name.c_str(),"value","no"); -}; + if(val != 0) + addparams("par_bool", 2, "name", name.c_str(), "value", "yes"); + else + addparams("par_bool", 2, "name", name.c_str(), "value", "no"); +} -void XMLwrapper::addparstr(const string &name,const string &val) +void XMLwrapper::addparstr(const string &name, const string &val) { - mxml_node_t *element=mxmlNewElement(node,"string"); - mxmlElementSetAttr(element,"name",name.c_str()); - mxmlNewText(element,0,val.c_str()); -}; + mxml_node_t *element = mxmlNewElement(node, "string"); + mxmlElementSetAttr(element, "name", name.c_str()); + mxmlNewText(element, 0, val.c_str()); +} void XMLwrapper::beginbranch(const string &name) { if(verbose) cout << "beginbranch()" << name << endl; - node = addparams(name.c_str(),0); -}; + node = addparams(name.c_str(), 0); +} -void XMLwrapper::beginbranch(const string &name,int id) +void XMLwrapper::beginbranch(const string &name, int id) { if(verbose) cout << "beginbranch(" << id << ")" << name << endl; - node = addparams(name.c_str(),1,"id",stringFrom(id).c_str()); -}; + node = addparams(name.c_str(), 1, "id", stringFrom(id).c_str()); +} void XMLwrapper::endbranch() { if(verbose) - cout << "endbranch()" << node << "-" << node->value.element.name << " To " + cout << "endbranch()" << node << "-" << node->value.element.name + << " To " << node->parent << "-" << node->parent->value.element.name << endl; node = node->parent; -}; +} @@ -269,61 +300,71 @@ void XMLwrapper::endbranch() int XMLwrapper::loadXMLfile(const string &filename) { - if (tree!=NULL) mxmlDelete(tree); - tree=NULL; + if(tree != NULL) + mxmlDelete(tree); + tree = NULL; - const char *xmldata=doloadfile(filename.c_str()); - if (xmldata==NULL) return(-1);//the file could not be loaded or uncompressed + const char *xmldata = doloadfile(filename.c_str()); + if(xmldata == NULL) + return -1; //the file could not be loaded or uncompressed - root=tree=mxmlLoadString(NULL,xmldata,MXML_OPAQUE_CALLBACK); + root = tree = mxmlLoadString(NULL, xmldata, MXML_OPAQUE_CALLBACK); - delete []xmldata; + delete [] xmldata; - if (tree==NULL) return(-2);//this is not XML + if(tree == NULL) + return -2; //this is not XML - node = root = mxmlFindElement(tree,tree,"ZynAddSubFX-data",NULL,NULL,MXML_DESCEND); - if (root==NULL) return(-3);//the XML doesnt embbed zynaddsubfx data + node = root = mxmlFindElement(tree, + tree, + "ZynAddSubFX-data", + NULL, + NULL, + MXML_DESCEND); + if(root == NULL) + return -3; //the XML doesnt embbed zynaddsubfx data //fetch version information - version.Major = stringTo(mxmlElementGetAttr(root,"version-major")); - version.Minor = stringTo(mxmlElementGetAttr(root,"version-minor")); - version.Revision = stringTo(mxmlElementGetAttr(root,"version-revision")); + version.Major = stringTo(mxmlElementGetAttr(root, "version-major")); + version.Minor = stringTo(mxmlElementGetAttr(root, "version-minor")); + version.Revision = + stringTo(mxmlElementGetAttr(root, "version-revision")); if(verbose) - cout << "loadXMLfile() version: " << version.Major << '.' << version.Minor << '.' << version.Revision << endl; + cout << "loadXMLfile() version: " << version.Major << '.' + << version.Minor << '.' << version.Revision << endl; - return(0); -}; + return 0; +} char *XMLwrapper::doloadfile(const string &filename) const { - char * xmldata = NULL; - gzFile gzfile = gzopen(filename.c_str(),"rb"); - - if (gzfile != NULL) {//The possibly compressed file opened + char *xmldata = NULL; + gzFile gzfile = gzopen(filename.c_str(), "rb"); + if(gzfile != NULL) { //The possibly compressed file opened stringstream strBuf; //reading stream const int bufSize = 500; //fetch size - char fetchBuf[bufSize+1];//fetch buffer - int read = 0; //chars read in last fetch + char fetchBuf[bufSize + 1]; //fetch buffer + int read = 0; //chars read in last fetch - fetchBuf[bufSize] = 0;//force null termination + fetchBuf[bufSize] = 0; //force null termination while(bufSize == (read = gzread(gzfile, fetchBuf, bufSize))) strBuf << fetchBuf; - fetchBuf[read] = 0;//Truncate last partial read + fetchBuf[read] = 0; //Truncate last partial read strBuf << fetchBuf; gzclose(gzfile); //Place data in output format string tmp = strBuf.str(); - xmldata = new char[tmp.size()+1]; - strncpy(xmldata, tmp.c_str(), tmp.size()+1); + xmldata = new char[tmp.size() + 1]; + strncpy(xmldata, tmp.c_str(), tmp.size() + 1); } return xmldata; @@ -331,23 +372,28 @@ char *XMLwrapper::doloadfile(const string &filename) const bool XMLwrapper::putXMLdata(const char *xmldata) { - if (tree!=NULL) + if(tree != NULL) mxmlDelete(tree); - tree=NULL; - if (xmldata==NULL) - return (false); + tree = NULL; + if(xmldata == NULL) + return false; - root = tree = mxmlLoadString(NULL,xmldata,MXML_OPAQUE_CALLBACK); - if (tree==NULL) - return(false); + root = tree = mxmlLoadString(NULL, xmldata, MXML_OPAQUE_CALLBACK); + if(tree == NULL) + return false; - node = root = mxmlFindElement(tree,tree,"ZynAddSubFX-data",NULL,NULL,MXML_DESCEND); - if (root==NULL) - return (false); + node = root = mxmlFindElement(tree, + tree, + "ZynAddSubFX-data", + NULL, + NULL, + MXML_DESCEND); + if(root == NULL) + return false; - return(true); -}; + return true; +} @@ -355,155 +401,214 @@ int XMLwrapper::enterbranch(const string &name) { if(verbose) cout << "enterbranch() " << name << endl; - mxml_node_t *tmp = mxmlFindElement(node,node,name.c_str(),NULL,NULL,MXML_DESCEND_FIRST); - if (tmp==NULL) - return(0); + mxml_node_t *tmp = mxmlFindElement(node, node, + name.c_str(), NULL, NULL, + MXML_DESCEND_FIRST); + if(tmp == NULL) + return 0; node = tmp; - return(1); -}; + return 1; +} -int XMLwrapper::enterbranch(const string &name,int id) +int XMLwrapper::enterbranch(const string &name, int id) { if(verbose) - cout << "enterbranch("<(id).c_str(),MXML_DESCEND_FIRST); - if (tmp==NULL) - return(0); + cout << "enterbranch(" << id << ") " << name << endl; + mxml_node_t *tmp = mxmlFindElement(node, node, + name.c_str(), "id", stringFrom( + id).c_str(), MXML_DESCEND_FIRST); + if(tmp == NULL) + return 0; node = tmp; - return(1); -}; + return 1; +} void XMLwrapper::exitbranch() { if(verbose) - cout << "exitbranch()" << node << "-" << node->value.element.name << " To " + cout << "exitbranch()" << node << "-" << node->value.element.name + << " To " << node->parent << "-" << node->parent->value.element.name << endl; node = node->parent; -}; +} int XMLwrapper::getbranchid(int min, int max) const { - int id=stringTo(mxmlElementGetAttr(node,"id")); - if ((min==0)&&(max==0)) return(id); + int id = stringTo(mxmlElementGetAttr(node, "id")); + if((min == 0) && (max == 0)) + return id; - if (idmax) id=max; + if(id < min) + id = min; + else + if(id > max) + id = max; - return(id); -}; + return id; +} -int XMLwrapper::getpar(const string &name,int defaultpar,int min,int max) const +int XMLwrapper::getpar(const string &name, int defaultpar, int min, + int max) const { - const mxml_node_t * tmp = mxmlFindElement(node,node,"par","name",name.c_str(),MXML_DESCEND_FIRST); + const mxml_node_t *tmp = mxmlFindElement(node, + node, + "par", + "name", + name.c_str(), + MXML_DESCEND_FIRST); - if (tmp==NULL) return(defaultpar); - - const char *strval=mxmlElementGetAttr(tmp,"value"); - if (strval==NULL) return(defaultpar); - - int val=stringTo(strval); - if (valmax) val=max; - - return(val); -}; - -int XMLwrapper::getpar127(const string &name,int defaultpar) const -{ - return(getpar(name,defaultpar,0,127)); -}; - -int XMLwrapper::getparbool(const string &name,int defaultpar) const -{ - const mxml_node_t * tmp = mxmlFindElement(node,node,"par_bool","name",name.c_str(),MXML_DESCEND_FIRST); - - if (tmp==NULL) return(defaultpar); - - const char *strval=mxmlElementGetAttr(tmp,"value"); - if (strval==NULL) return(defaultpar); - - if ((strval[0]=='Y')||(strval[0]=='y')) return(1); - else return(0); -}; - -void XMLwrapper::getparstr(const string &name,char *par,int maxstrlen) const -{ - ZERO(par,maxstrlen); - const mxml_node_t * tmp = mxmlFindElement(node,node,"string","name",name.c_str(),MXML_DESCEND_FIRST); - - if (tmp==NULL) return; - if (tmp->child==NULL) return; - if (tmp->child->type==MXML_OPAQUE){ - snprintf(par,maxstrlen,"%s",tmp->child->value.element.name); - return; - } - if (tmp->child->type==MXML_TEXT && tmp->child->value.text.string!=NULL){ - snprintf(par,maxstrlen,"%s",tmp->child->value.text.string); - return; - } - -}; - -string XMLwrapper::getparstr(const string &name,const std::string &defaultpar) const -{ - const mxml_node_t * tmp = mxmlFindElement(node, node, "string", "name", name.c_str(), MXML_DESCEND_FIRST); - - if (tmp==NULL||tmp->child==NULL) + if(tmp == NULL) return defaultpar; - if (tmp->child->type==MXML_OPAQUE && tmp->child->value.element.name!=NULL) + const char *strval = mxmlElementGetAttr(tmp, "value"); + if(strval == NULL) + return defaultpar; + + int val = stringTo(strval); + if(val < min) + val = min; + else + if(val > max) + val = max; + + return val; +} + +int XMLwrapper::getpar127(const string &name, int defaultpar) const +{ + return getpar(name, defaultpar, 0, 127); +} + +int XMLwrapper::getparbool(const string &name, int defaultpar) const +{ + const mxml_node_t *tmp = mxmlFindElement(node, + node, + "par_bool", + "name", + name.c_str(), + MXML_DESCEND_FIRST); + + if(tmp == NULL) + return defaultpar; + + const char *strval = mxmlElementGetAttr(tmp, "value"); + if(strval == NULL) + return defaultpar; + + if((strval[0] == 'Y') || (strval[0] == 'y')) + return 1; + else + return 0; +} + +void XMLwrapper::getparstr(const string &name, char *par, int maxstrlen) const +{ + ZERO(par, maxstrlen); + const mxml_node_t *tmp = mxmlFindElement(node, + node, + "string", + "name", + name.c_str(), + MXML_DESCEND_FIRST); + + if(tmp == NULL) + return; + if(tmp->child == NULL) + return; + if(tmp->child->type == MXML_OPAQUE) { + snprintf(par, maxstrlen, "%s", tmp->child->value.element.name); + return; + } + if((tmp->child->type == MXML_TEXT) + && (tmp->child->value.text.string != NULL)) { + snprintf(par, maxstrlen, "%s", tmp->child->value.text.string); + return; + } +} + +string XMLwrapper::getparstr(const string &name, + const std::string &defaultpar) const +{ + const mxml_node_t *tmp = mxmlFindElement(node, + node, + "string", + "name", + name.c_str(), + MXML_DESCEND_FIRST); + + if((tmp == NULL) || (tmp->child == NULL)) + return defaultpar; + + if((tmp->child->type == MXML_OPAQUE) + && (tmp->child->value.element.name != NULL)) return tmp->child->value.element.name; - if (tmp->child->type==MXML_TEXT && tmp->child->value.text.string!=NULL) + if((tmp->child->type == MXML_TEXT) + && (tmp->child->value.text.string != NULL)) return tmp->child->value.text.string; return defaultpar; } -REALTYPE XMLwrapper::getparreal(const char *name,REALTYPE defaultpar) const +REALTYPE XMLwrapper::getparreal(const char *name, REALTYPE defaultpar) const { - const mxml_node_t * tmp = mxmlFindElement(node,node,"par_real","name",name,MXML_DESCEND_FIRST); - if (tmp==NULL) return(defaultpar); + const mxml_node_t *tmp = mxmlFindElement(node, + node, + "par_real", + "name", + name, + MXML_DESCEND_FIRST); + if(tmp == NULL) + return defaultpar; - const char *strval=mxmlElementGetAttr(tmp,"value"); - if (strval==NULL) return(defaultpar); + const char *strval = mxmlElementGetAttr(tmp, "value"); + if(strval == NULL) + return defaultpar; - return(stringTo(strval)); -}; + return stringTo(strval); +} -REALTYPE XMLwrapper::getparreal(const char *name,REALTYPE defaultpar,REALTYPE min,REALTYPE max) const +REALTYPE XMLwrapper::getparreal(const char *name, + REALTYPE defaultpar, + REALTYPE min, + REALTYPE max) const { - REALTYPE result=getparreal(name,defaultpar); + REALTYPE result = getparreal(name, defaultpar); - if (resultmax) result=max; - return(result); -}; + if(result < min) + result = min; + else + if(result > max) + result = max; + return result; +} /** Private members **/ -mxml_node_t *XMLwrapper::addparams(const char *name, unsigned int params, ...) const +mxml_node_t *XMLwrapper::addparams(const char *name, unsigned int params, + ...) const { /**@todo make this function send out a good error message if something goes * wrong**/ mxml_node_t *element = mxmlNewElement(node, name); - if(params){ + if(params) { va_list variableList; va_start(variableList, params); const char *ParamName; const char *ParamValue; - while(params--){ + while(params--) { ParamName = va_arg(variableList, const char *); ParamValue = va_arg(variableList, const char *); if(verbose) - cout << "addparams()[" << params << "]=" << name << " " << ParamName <<"=\"" << ParamValue << "\"" << endl; + cout << "addparams()[" << params << "]=" << name << " " + << ParamName << "=\"" << ParamValue << "\"" << endl; mxmlElementSetAttr(element, ParamName, ParamValue); } } diff --git a/plugins/zynaddsubfx/src/Misc/XMLwrapper.h b/plugins/zynaddsubfx/src/Misc/XMLwrapper.h index d111a34e9..5860f0764 100644 --- a/plugins/zynaddsubfx/src/Misc/XMLwrapper.h +++ b/plugins/zynaddsubfx/src/Misc/XMLwrapper.h @@ -34,231 +34,239 @@ /**Mxml wrapper*/ class XMLwrapper { -public: - /** - * Constructor. - * Will Construct the object and fill in top level branch - * */ - XMLwrapper(); + public: + /** + * Constructor. + * Will Construct the object and fill in top level branch + * */ + XMLwrapper(); - /**Destructor*/ - ~XMLwrapper(); + /**Destructor*/ + ~XMLwrapper(); - /** - * Saves the XML to a file. - * @param filename the name of the destination file. - * @returns 0 if ok or -1 if the file cannot be saved. - */ - int saveXMLfile(const std::string &filename) const; + /** + * Saves the XML to a file. + * @param filename the name of the destination file. + * @returns 0 if ok or -1 if the file cannot be saved. + */ + int saveXMLfile(const std::string &filename) const; - /** - * Return XML tree as a string. - * Note: The string must be freed with free() to deallocate - * @returns a newly allocated NULL terminated string of the XML data. - */ - char *getXMLdata() const; + /** + * Return XML tree as a string. + * Note: The string must be freed with free() to deallocate + * @returns a newly allocated NULL terminated string of the XML data. + */ + char *getXMLdata() const; - /** - * Add simple parameter. - * @param name The name of the mXML node. - * @param val The string value of the mXml node - */ - void addpar(const std::string &name,int val); + /** + * Add simple parameter. + * @param name The name of the mXML node. + * @param val The string value of the mXml node + */ + void addpar(const std::string &name, int val); - /** - * Adds a realtype parameter. - * @param name The name of the mXML node. - * @param val The REALTYPE value of the node. - */ - void addparreal(const std::string &name,REALTYPE val); + /** + * Adds a realtype parameter. + * @param name The name of the mXML node. + * @param val The REALTYPE value of the node. + */ + void addparreal(const std::string &name, REALTYPE val); - /** - * Add boolean parameter. - * \todo Fix this reverse boolean logic. - * @param name The name of the mXML node. - * @param val The boolean value of the node (0->"yes";else->"no"). - */ - void addparbool(const std::string &name,int val); + /** + * Add boolean parameter. + * \todo Fix this reverse boolean logic. + * @param name The name of the mXML node. + * @param val The boolean value of the node (0->"yes";else->"no"). + */ + void addparbool(const std::string &name, int val); - /** - * Add string parameter. - * @param name The name of the mXML node. - * @param val The string value of the node. - */ - void addparstr(const std::string &name,const std::string &val); + /** + * Add string parameter. + * @param name The name of the mXML node. + * @param val The string value of the node. + */ + void addparstr(const std::string &name, const std::string &val); - /** - * Create a new branch. - * @param name Name of new branch - * @see void endbranch() - */ - void beginbranch(const std::string &name); - /** - * Create a new branch. - * @param name Name of new branch - * @param id "id" value of branch - * @see void endbranch() - */ - void beginbranch(const std::string &name, int id); + /** + * Create a new branch. + * @param name Name of new branch + * @see void endbranch() + */ + void beginbranch(const std::string &name); + /** + * Create a new branch. + * @param name Name of new branch + * @param id "id" value of branch + * @see void endbranch() + */ + void beginbranch(const std::string &name, int id); - /**Closes new branches. - * This must be called to exit each branch created by beginbranch( ). - * @see void beginbranch(const std::string &name) - * @see void beginbranch(const std::string &name, int id) - */ - void endbranch(); + /**Closes new branches. + * This must be called to exit each branch created by beginbranch( ). + * @see void beginbranch(const std::string &name) + * @see void beginbranch(const std::string &name, int id) + */ + void endbranch(); - /** - * Loads file into XMLwrapper. - * @param filename file to be loaded - * @returns 0 if ok or -1 if the file cannot be loaded - */ - int loadXMLfile(const std::string &filename); + /** + * Loads file into XMLwrapper. + * @param filename file to be loaded + * @returns 0 if ok or -1 if the file cannot be loaded + */ + int loadXMLfile(const std::string &filename); - /** - * Loads string into XMLwrapper. - * @param xmldata NULL terminated string of XML data. - * @returns true if successful. - */ - bool putXMLdata(const char *xmldata); + /** + * Loads string into XMLwrapper. + * @param xmldata NULL terminated string of XML data. + * @returns true if successful. + */ + bool putXMLdata(const char *xmldata); - /** - * Enters the branch. - * @param name Name of branch. - * @returns 1 if is ok, or 0 otherwise. - */ - int enterbranch(const std::string &name); + /** + * Enters the branch. + * @param name Name of branch. + * @returns 1 if is ok, or 0 otherwise. + */ + int enterbranch(const std::string &name); - /** - * Enter into the branch \c name with id \c id. - * @param name Name of branch. - * @param id Value of branch's "id". - * @returns 1 if is ok, or 0 otherwise. - */ - int enterbranch(const std::string &name, int id); + /** + * Enter into the branch \c name with id \c id. + * @param name Name of branch. + * @param id Value of branch's "id". + * @returns 1 if is ok, or 0 otherwise. + */ + int enterbranch(const std::string &name, int id); - /**Exits from a branch*/ - void exitbranch(); + /**Exits from a branch*/ + void exitbranch(); - /**Get the the branch_id and limits it between the min and max. - * if min==max==0, it will not limit it - * if there isn't any id, will return min - * this must be called only imediately after enterbranch() - */ - int getbranchid(int min, int max) const; + /**Get the the branch_id and limits it between the min and max. + * if min==max==0, it will not limit it + * if there isn't any id, will return min + * this must be called only imediately after enterbranch() + */ + int getbranchid(int min, int max) const; - /** - * Returns the integer value stored in node name. - * It returns the integer value between the limits min and max. - * If min==max==0, then the value will not be limited. - * If there is no location named name, then defaultpar will be returned. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - * @param min The minimum return value. - * @param max The maximum return value. - */ - int getpar(const std::string &name,int defaultpar,int min,int max) const; + /** + * Returns the integer value stored in node name. + * It returns the integer value between the limits min and max. + * If min==max==0, then the value will not be limited. + * If there is no location named name, then defaultpar will be returned. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + * @param min The minimum return value. + * @param max The maximum return value. + */ + int getpar(const std::string &name, int defaultpar, int min, + int max) const; - /** - * Returns the integer value stored in the node with range [0,127]. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - */ - int getpar127(const std::string &name,int defaultpar) const; + /** + * Returns the integer value stored in the node with range [0,127]. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + */ + int getpar127(const std::string &name, int defaultpar) const; - /** - * Returns the boolean value stored in the node. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - */ - int getparbool(const std::string &name,int defaultpar) const; + /** + * Returns the boolean value stored in the node. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + */ + int getparbool(const std::string &name, int defaultpar) const; - /** - * Get the string value stored in the node. - * @param name The parameter name. - * @param par Pointer to destination string - * @param maxstrlen Max string length for destination - */ - void getparstr(const std::string &name,char *par,int maxstrlen) const; + /** + * Get the string value stored in the node. + * @param name The parameter name. + * @param par Pointer to destination string + * @param maxstrlen Max string length for destination + */ + void getparstr(const std::string &name, char *par, int maxstrlen) const; - /** - * Get the string value stored in the node. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - */ - std::string getparstr(const std::string &name,const std::string &defaultpar) const; + /** + * Get the string value stored in the node. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + */ + std::string getparstr(const std::string &name, + const std::string &defaultpar) const; - /** - * Returns the real value stored in the node. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - */ - REALTYPE getparreal(const char *name,REALTYPE defaultpar) const; + /** + * Returns the real value stored in the node. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + */ + REALTYPE getparreal(const char *name, REALTYPE defaultpar) const; - /** - * Returns the real value stored in the node. - * @param name The parameter name. - * @param defaultpar The default value if the real value is not found. - * @param min The minimum value - * @param max The maximum value - */ - REALTYPE getparreal(const char *name,REALTYPE defaultpar,REALTYPE min,REALTYPE max) const; + /** + * Returns the real value stored in the node. + * @param name The parameter name. + * @param defaultpar The default value if the real value is not found. + * @param min The minimum value + * @param max The maximum value + */ + REALTYPE getparreal(const char *name, + REALTYPE defaultpar, + REALTYPE min, + REALTYPE max) const; - bool minimal;/** - * - * @param name The name of the xml node - * @param params The number of the attributes - * @param ... const char * pairs that are in the format attribute_name, - * attribute_value - */ - mxml_node_t *addparams(const char *name, unsigned int params, ...) const; - - /**@todo keep these numbers up to date*/ - struct{ - int Major;/** + * + * @param name The name of the xml node + * @param params The number of the attributes + * @param ... const char * pairs that are in the format attribute_name, + * attribute_value + */ + mxml_node_t *addparams(const char *name, unsigned int params, + ...) const; + /**@todo keep these numbers up to date*/ + struct { + int Major; /**outl = data; break; @@ -58,7 +58,7 @@ static void connectPortTS(LADSPA_Handle instance, unsigned long port, const LADSPA_Descriptor *ladspa_descriptor(unsigned long index) { - switch (index) { + switch(index) { case 0: return tsLDescriptor; default: @@ -71,7 +71,7 @@ const DSSI_Descriptor *dssi_descriptor(unsigned long index) // FILE *a=fopen("/tmp/zzzzz11z","w"); // fprintf(a,"aaaaaaaaaaa TEST\n"); // fclose(a); - switch (index) { + switch(index) { case 0: return tsDDescriptor; default: @@ -79,14 +79,13 @@ const DSSI_Descriptor *dssi_descriptor(unsigned long index) } } -static LADSPA_Handle instantiateTS(const LADSPA_Descriptor * descriptor, +static LADSPA_Handle instantiateTS(const LADSPA_Descriptor *descriptor, unsigned long s_rate) { - TS *plugin_data = (TS *) malloc(sizeof(TS)); /* for (i=0; iomega[i] = M_PI * 2.0 / (double)s_rate * - pow(2.0, (i-69.0) / 12.0); + plugin_data->omega[i] = M_PI * 2.0 / (double)s_rate * + pow(2.0, (i-69.0) / 12.0); } */ return (LADSPA_Handle) plugin_data; @@ -115,47 +114,47 @@ static void runTS(LADSPA_Handle instance, unsigned long sample_count, unsigned long note; /* if (freq < 1.0) { - freq = 440.0f; + freq = 440.0f; } if (vol < 0.000001) { - vol = 1.0f; + vol = 1.0f; } if (event_count > 0) { - printf("trivial_synth: have %ld events\n", event_count); + printf("trivial_synth: have %ld events\n", event_count); } for (pos = 0, event_pos = 0; pos < sample_count; pos++) { - while (event_pos < event_count - && pos == events[event_pos].time.tick) { + while (event_pos < event_count + && pos == events[event_pos].time.tick) { - printf("trivial_synth: event type %d\n", events[event_pos].type); + printf("trivial_synth: event type %d\n", events[event_pos].type); - if (events[event_pos].type == SND_SEQ_EVENT_NOTEON) { - data[events[event_pos].data.note.note].amp = - events[event_pos].data.note.velocity / 512.0f; - data[events[event_pos].data.note.note]. - active = events[event_pos].data.note.velocity > 0; - data[events[event_pos].data.note.note]. - phase = 0.0; - } else if (events[event_pos].type == SND_SEQ_EVENT_NOTEOFF) { - data[events[event_pos].data.note.note]. - active = 0; - } - event_pos++; - } + if (events[event_pos].type == SND_SEQ_EVENT_NOTEON) { + data[events[event_pos].data.note.note].amp = + events[event_pos].data.note.velocity / 512.0f; + data[events[event_pos].data.note.note]. + active = events[event_pos].data.note.velocity > 0; + data[events[event_pos].data.note.note]. + phase = 0.0; + } else if (events[event_pos].type == SND_SEQ_EVENT_NOTEOFF) { + data[events[event_pos].data.note.note]. + active = 0; + } + event_pos++; + } - output[pos] = 0.0f; - for (note = 0; note < MIDI_NOTES; note++) { - if (data[note].active) { - output[pos] += sin(data[note].phase) * data[note].amp * vol; - data[note].phase += plugin_data->omega[note] * freq; - if (data[note].phase > M_PI * 2.0) { - data[note].phase -= M_PI * 2.0; - } - } - } + output[pos] = 0.0f; + for (note = 0; note < MIDI_NOTES; note++) { + if (data[note].active) { + output[pos] += sin(data[note].phase) * data[note].amp * vol; + data[note].phase += plugin_data->omega[note] * freq; + if (data[note].phase > M_PI * 2.0) { + data[note].phase -= M_PI * 2.0; + } + } + } } */ } @@ -176,22 +175,23 @@ void _init() { char **port_names; LADSPA_PortDescriptor *port_descriptors; - LADSPA_PortRangeHint *port_range_hints; + LADSPA_PortRangeHint *port_range_hints; - FILE *a=fopen("/tmp/zzzzzz","w"); - fprintf(a,"aaaaaaaaaaa TEST\n"); + FILE *a = fopen("/tmp/zzzzzz", "w"); + fprintf(a, "aaaaaaaaaaa TEST\n"); fclose(a); tsLDescriptor = (LADSPA_Descriptor *) malloc(sizeof(LADSPA_Descriptor)); - if (tsLDescriptor) { - tsLDescriptor->UniqueID = 100; - tsLDescriptor->Label = "ZASF"; + if(tsLDescriptor) { + tsLDescriptor->UniqueID = 100; + tsLDescriptor->Label = "ZASF"; tsLDescriptor->Properties = 0; tsLDescriptor->Name = "ZynAddSubFX"; - tsLDescriptor->Maker = "Nasca Octavian Paul "; - tsLDescriptor->Copyright = "GNU General Public License v.2"; - tsLDescriptor->PortCount = 2; + tsLDescriptor->Maker = + "Nasca Octavian Paul "; + tsLDescriptor->Copyright = "GNU General Public License v.2"; + tsLDescriptor->PortCount = 2; port_descriptors = (LADSPA_PortDescriptor *) calloc(tsLDescriptor->PortCount, sizeof @@ -208,42 +208,40 @@ void _init() port_names = (char **) calloc(tsLDescriptor->PortCount, sizeof(char *)); tsLDescriptor->PortNames = (const char **) port_names; - port_descriptors[0] = LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO; + port_descriptors[0] = LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO; port_names[0] = "Output L"; port_range_hints[0].HintDescriptor = 0; port_descriptors[1] = LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO; port_names[1] = "Output R"; port_range_hints[1].HintDescriptor = 0; - tsLDescriptor->activate = activateTS; - tsLDescriptor->cleanup = cleanupTS; + tsLDescriptor->activate = activateTS; + tsLDescriptor->cleanup = cleanupTS; tsLDescriptor->connect_port = connectPortTS; - tsLDescriptor->deactivate = NULL; - tsLDescriptor->instantiate = instantiateTS; + tsLDescriptor->deactivate = NULL; + tsLDescriptor->instantiate = instantiateTS; tsLDescriptor->run = runTSWrapper; - tsLDescriptor->run_adding = NULL; + tsLDescriptor->run_adding = NULL; tsLDescriptor->set_run_adding_gain = NULL; } tsDDescriptor = (DSSI_Descriptor *) malloc(sizeof(DSSI_Descriptor)); - if (tsDDescriptor) { - tsDDescriptor->DSSI_API_Version = 1; - tsDDescriptor->LADSPA_Plugin = tsLDescriptor; + if(tsDDescriptor) { + tsDDescriptor->DSSI_API_Version = 1; + tsDDescriptor->LADSPA_Plugin = tsLDescriptor; tsDDescriptor->configure = NULL; - tsDDescriptor->get_program = NULL; + tsDDescriptor->get_program = NULL; tsDDescriptor->get_midi_controller_for_port = getControllerTS; - tsDDescriptor->select_program = NULL; + tsDDescriptor->select_program = NULL; tsDDescriptor->run_synth = runTS; - tsDDescriptor->run_synth_adding = NULL; + tsDDescriptor->run_synth_adding = NULL; tsDDescriptor->run_multiple_synths = NULL; tsDDescriptor->run_multiple_synths_adding = NULL; } - -}; +} void _fini() -{ -}; +{} @@ -272,17 +270,18 @@ long int VSTSynth::canDo(char *txt){ }; bool VSTSynth::getVendorString(char *txt){ - strcpy(txt,"Nasca O. Paul"); - return(true); + strcpy(txt,"Nasca O. Paul"); + return(true); }; bool VSTSynth::getProductString(char *txt){ - strcpy(txt,"ZynAddSubFX"); - return(true); + strcpy(txt,"ZynAddSubFX"); + return(true); }; void VSTSynth::resume(){ - wantEvents(); + wantEvents(); }; */ + diff --git a/plugins/zynaddsubfx/src/Output/DSSIaudiooutput.h b/plugins/zynaddsubfx/src/Output/DSSIaudiooutput.h index 6ca808fbf..a2ecf3c55 100644 --- a/plugins/zynaddsubfx/src/Output/DSSIaudiooutput.h +++ b/plugins/zynaddsubfx/src/Output/DSSIaudiooutput.h @@ -34,25 +34,25 @@ /* class VSTSynth:public AudioEffectX{ public: - VSTSynth (audioMasterCallback audioMaster); - ~VSTSynth(); + VSTSynth (audioMasterCallback audioMaster); + ~VSTSynth(); - virtual void process (float **inputs, float **outputs, long sampleframes); - virtual void processReplacing (float **inputs, float **outputs, long sampleframes); - virtual long processEvents(VstEvents *events);//this is used for Midi input - virtual long int canDo(char *txt); - virtual bool getVendorString(char *txt); - virtual bool getProductString(char *txt); - virtual void resume(); + virtual void process (float **inputs, float **outputs, long sampleframes); + virtual void processReplacing (float **inputs, float **outputs, long sampleframes); + virtual long processEvents(VstEvents *events);//this is used for Midi input + virtual long int canDo(char *txt); + virtual bool getVendorString(char *txt); + virtual bool getProductString(char *txt); + virtual void resume(); - virtual long getChunk(void** data,bool isPreset=false); - virtual void setChunk(void *data,long size,bool isPreset=false); + virtual long getChunk(void** data,bool isPreset=false); + virtual void setChunk(void *data,long size,bool isPreset=false); - MasterUI *ui; - int Pexitprogram; + MasterUI *ui; + int Pexitprogram; Master *vmaster; - pthread_t thr; + pthread_t thr; }; */ #endif diff --git a/plugins/zynaddsubfx/src/Output/JACK_RTaudiooutput.cpp b/plugins/zynaddsubfx/src/Output/JACK_RTaudiooutput.cpp index ca568e08b..2ee019d1c 100644 --- a/plugins/zynaddsubfx/src/Output/JACK_RTaudiooutput.cpp +++ b/plugins/zynaddsubfx/src/Output/JACK_RTaudiooutput.cpp @@ -33,174 +33,197 @@ extern "C" #include "JACKaudiooutput.h" Master *jackmaster; -jack_client_t *jackclient; -jack_port_t *outport_left,*outport_right; -jack_ringbuffer_t *rb=NULL; +jack_client_t *jackclient; +jack_port_t *outport_left, *outport_right; +jack_ringbuffer_t *rb = NULL; -REALTYPE *jackoutl,*jackoutr; -int jackfinish=0; +REALTYPE *jackoutl, *jackoutr; +int jackfinish = 0; void *thread_blocked(void *arg); -int jackprocess(jack_nframes_t nframes,void *arg); -int jacksrate(jack_nframes_t nframes,void *arg); +int jackprocess(jack_nframes_t nframes, void *arg); +int jacksrate(jack_nframes_t nframes, void *arg); void jackshutdown(void *arg); -pthread_cond_t more_data=PTHREAD_COND_INITIALIZER; -pthread_mutex_t zyn_thread_lock=PTHREAD_MUTEX_INITIALIZER; +pthread_cond_t more_data = PTHREAD_COND_INITIALIZER; +pthread_mutex_t zyn_thread_lock = PTHREAD_MUTEX_INITIALIZER; pthread_t bthr; bool JACKaudiooutputinit(Master *master_) { - jackmaster=master_; - jackclient=0; + jackmaster = master_; + jackclient = 0; char tmpstr[100]; - jackoutl=new REALTYPE [SOUND_BUFFER_SIZE]; - jackoutr=new REALTYPE [SOUND_BUFFER_SIZE]; + jackoutl = new REALTYPE [SOUND_BUFFER_SIZE]; + jackoutr = new REALTYPE [SOUND_BUFFER_SIZE]; - int rbbufsize=SOUND_BUFFER_SIZE*sizeof (REALTYPE)*2*2; - printf("%d\n",rbbufsize); - rb=jack_ringbuffer_create(rbbufsize); - for (int i=0;ibuf[i]=0.0; + int rbbufsize = SOUND_BUFFER_SIZE * sizeof(REALTYPE) * 2 * 2; + printf("%d\n", rbbufsize); + rb = jack_ringbuffer_create(rbbufsize); + for(int i = 0; i < rbbufsize; i++) + rb->buf[i] = 0.0; - for (int i=0;i<15;i++) { - if (i!=0) snprintf(tmpstr,100,"ZynAddSubFX_%d",i); - else snprintf(tmpstr,100,"ZynAddSubFX"); - jackclient=jack_client_new(tmpstr); - if (jackclient!=0) break; - }; + for(int i = 0; i < 15; i++) { + if(i != 0) + snprintf(tmpstr, 100, "ZynAddSubFX_%d", i); + else + snprintf(tmpstr, 100, "ZynAddSubFX"); + jackclient = jack_client_new(tmpstr); + if(jackclient != 0) + break; + } - if (jackclient==0) { - fprintf(stderr,"\nERROR: Cannot make a jack client (possible reasons: JACK server is not running or jackd is launched by root and zynaddsubfx by another user.).\n\n\n"); - return(false); - }; + if(jackclient == 0) { + fprintf( + stderr, + "\nERROR: Cannot make a jack client (possible reasons: JACK server is not running or jackd is launched by root and zynaddsubfx by another user.).\n\n\n"); + return false; + } - fprintf(stderr,"Internal SampleRate = %d\nJack Output SampleRate= %d\n",SAMPLE_RATE,jack_get_sample_rate(jackclient)); - if ((unsigned int)jack_get_sample_rate(jackclient)!=(unsigned int) SAMPLE_RATE) - fprintf(stderr,"It is recomanded that the both samplerates to be equal.\n"); + fprintf(stderr, + "Internal SampleRate = %d\nJack Output SampleRate= %d\n", + SAMPLE_RATE, + jack_get_sample_rate(jackclient)); + if((unsigned int)jack_get_sample_rate(jackclient) != + (unsigned int) SAMPLE_RATE) + fprintf(stderr, + "It is recomanded that the both samplerates to be equal.\n"); - jack_set_process_callback(jackclient,jackprocess,0); - jack_set_sample_rate_callback(jackclient,jacksrate,0); - jack_on_shutdown(jackclient,jackshutdown,0); + jack_set_process_callback(jackclient, jackprocess, 0); + jack_set_sample_rate_callback(jackclient, jacksrate, 0); + jack_on_shutdown(jackclient, jackshutdown, 0); - outport_left=jack_port_register(jackclient,"out_1", - JACK_DEFAULT_AUDIO_TYPE,JackPortIsOutput|JackPortIsTerminal,0); - outport_right=jack_port_register(jackclient,"out_2", - JACK_DEFAULT_AUDIO_TYPE,JackPortIsOutput|JackPortIsTerminal,0); + outport_left = jack_port_register(jackclient, + "out_1", + JACK_DEFAULT_AUDIO_TYPE, + JackPortIsOutput | JackPortIsTerminal, + 0); + outport_right = jack_port_register(jackclient, + "out_2", + JACK_DEFAULT_AUDIO_TYPE, + JackPortIsOutput | JackPortIsTerminal, + 0); - if (jack_activate(jackclient)) { - fprintf(stderr,"Cannot activate jack client\n"); - return(false); - }; + if(jack_activate(jackclient)) { + fprintf(stderr, "Cannot activate jack client\n"); + return false; + } - pthread_create(&bthr,NULL,thread_blocked,NULL); + pthread_create(&bthr, NULL, thread_blocked, NULL); /* jack_connect(jackclient,jack_port_name(outport_left),"alsa_pcm:out_1"); jack_connect(jackclient,jack_port_name(outport_right),"alsa_pcm:out_2"); */ - return(true); -}; + return true; +} void *thread_blocked(void *arg) { - int datasize=SOUND_BUFFER_SIZE*sizeof (REALTYPE); + int datasize = SOUND_BUFFER_SIZE * sizeof(REALTYPE); //try to get realtime sched_param sc; - sc.sched_priority=50; - int err=sched_setscheduler(0,SCHED_FIFO,&sc); + sc.sched_priority = 50; + int err = sched_setscheduler(0, SCHED_FIFO, &sc); - pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS,NULL); + pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL); pthread_mutex_lock(&zyn_thread_lock); - while (jackfinish==0) { - while (jack_ringbuffer_write_space(rb)>=datasize) { + while(jackfinish == 0) { + while(jack_ringbuffer_write_space(rb) >= datasize) { pthread_mutex_lock(&jackmaster->mutex); - jackmaster->GetAudioOutSamples(SOUND_BUFFER_SIZE,jack_get_sample_rate(jackclient),jackoutl,jackoutr); + jackmaster->GetAudioOutSamples(SOUND_BUFFER_SIZE, + jack_get_sample_rate(jackclient), + jackoutl, + jackoutr); pthread_mutex_unlock(&jackmaster->mutex); - jack_ringbuffer_write(rb, (char *) jackoutl,datasize); - jack_ringbuffer_write(rb, (char *) jackoutr,datasize); - }; - pthread_cond_wait(&more_data,&zyn_thread_lock); - }; + jack_ringbuffer_write(rb, (char *) jackoutl, datasize); + jack_ringbuffer_write(rb, (char *) jackoutr, datasize); + } + pthread_cond_wait(&more_data, &zyn_thread_lock); + } pthread_mutex_unlock(&zyn_thread_lock); - return(0); -}; + return 0; +} -int jackprocess(jack_nframes_t nframes,void *arg) +int jackprocess(jack_nframes_t nframes, void *arg) { - jack_default_audio_sample_t *outl=(jack_default_audio_sample_t *) jack_port_get_buffer (outport_left, nframes); - jack_default_audio_sample_t *outr=(jack_default_audio_sample_t *) jack_port_get_buffer (outport_right, nframes); + jack_default_audio_sample_t *outl = + (jack_default_audio_sample_t *) jack_port_get_buffer(outport_left, + nframes); + jack_default_audio_sample_t *outr = + (jack_default_audio_sample_t *) jack_port_get_buffer(outport_right, + nframes); - int datasize=nframes*sizeof (REALTYPE); - int incoming_datasize=SOUND_BUFFER_SIZE*sizeof (REALTYPE); - int data_read=0; + int datasize = nframes * sizeof(REALTYPE); + int incoming_datasize = SOUND_BUFFER_SIZE * sizeof(REALTYPE); + int data_read = 0; - if (jack_ringbuffer_read_space(rb)>=(2*incoming_datasize)) { - if (datasize>incoming_datasize) { - data_read=0; - while (data_read < datasize) { - jack_ringbuffer_read(rb, (char *) outl+data_read,datasize); - jack_ringbuffer_read(rb, (char *) outr+data_read,datasize); - data_read+=incoming_datasize; - }; - } else if (datasize==incoming_datasize) { - jack_ringbuffer_read(rb, (char *) outl,datasize); - jack_ringbuffer_read(rb, (char *) outr,datasize); - } else { - }; - } else {//the ringbuffer is empty or there are too small amount of samples in it - for (int i=0;i= (2 * incoming_datasize)) { + if(datasize > incoming_datasize) { + data_read = 0; + while(data_read < datasize) { + jack_ringbuffer_read(rb, (char *) outl + data_read, datasize); + jack_ringbuffer_read(rb, (char *) outr + data_read, datasize); + data_read += incoming_datasize; + } + } + else + if(datasize == incoming_datasize) { + jack_ringbuffer_read(rb, (char *) outl, datasize); + jack_ringbuffer_read(rb, (char *) outr, datasize); + } + else {} + } + else { //the ringbuffer is empty or there are too small amount of samples in it + for(int i = 0; i < nframes; i++) { + outl[i] = 0.0; + outr[i] = 0.0; + } + } /* if (jack_ringbuffer_read_space(rb)>=datasize){ - jack_ringbuffer_read(rb, (char *) outl,datasize); - jack_ringbuffer_read(rb, (char *) outr,datasize); + jack_ringbuffer_read(rb, (char *) outl,datasize); + jack_ringbuffer_read(rb, (char *) outr,datasize); } else {//the ringbuffer is empty or there are too small amount of samples in it - for (int i=0;imutex)) { + if(!pthread_mutex_trylock(&jackmaster->mutex)) { JACKhandlemidi(nframes); - jackmaster->GetAudioOutSamples(nframes,jack_get_sample_rate(jackclient),outl,outr); + jackmaster->GetAudioOutSamples(nframes, jack_get_sample_rate( + jackclient), outl, outr); pthread_mutex_unlock(&jackmaster->mutex); - } else { + } + else { memset(outl, 0, sizeof(jack_default_audio_sample_t) * nframes); memset(outr, 0, sizeof(jack_default_audio_sample_t) * nframes); } - return(0); -}; + return 0; +} void JACKfinish() { jack_client_close(jackclient); -}; +} -int jacksrate(jack_nframes_t nframes,void *arg) +int jacksrate(jack_nframes_t nframes, void *arg) { - - return(0); -}; + return 0; +} void jackshutdown(void *arg) -{ -}; +{} void JACKhandlemidi(unsigned long frames) { - // We must have the master mutex before we run this function // XXX This is really nasty, not only do we lose the sample accuracy of // JACK MIDI, but any accuracy at all below the buffer size - void* midi_buf = jack_port_get_buffer(midi_inport, frames); + void *midi_buf = jack_port_get_buffer(midi_inport, frames); jack_midi_event_t jack_midi_event; - jack_nframes_t event_index = 0; - unsigned char* midi_data; - unsigned char type, chan; + jack_nframes_t event_index = 0; + unsigned char *midi_data; + unsigned char type, chan; - while (jack_midi_event_get(&jack_midi_event,midi_buf, event_index++) == 0) { + while(jack_midi_event_get(&jack_midi_event, midi_buf, + event_index++) == 0) { midi_data = jack_midi_event.buffer; - type = midi_data[0] & 0xF0; - chan = midi_data[0] & 0x0F; - - switch (type) { + type = midi_data[0] & 0xF0; + chan = midi_data[0] & 0x0F; + switch(type) { case 0x80: /* note-off */ jackmaster->NoteOff(chan, midi_data[1]); break; @@ -151,13 +173,13 @@ void JACKhandlemidi(unsigned long frames) /* XXX TODO: handle MSB/LSB controllers and RPNs and NRPNs */ } } - } -const char* JACKgetname() +const char *JACKgetname() { - if (jackclient != NULL) + if(jackclient != NULL) return jackname; return NULL; } + diff --git a/plugins/zynaddsubfx/src/Output/JACKaudiooutput.h b/plugins/zynaddsubfx/src/Output/JACKaudiooutput.h index 7061f8c16..afc5e5b7f 100644 --- a/plugins/zynaddsubfx/src/Output/JACKaudiooutput.h +++ b/plugins/zynaddsubfx/src/Output/JACKaudiooutput.h @@ -28,11 +28,12 @@ #include "../Misc/Master.h" -#if (REALTYPE!=jack_default_audio_sample_t) -#error "The internal sample datatype of ZynAddSubFX and the datatype of jack differs.\ - In order to compile ZynAddSubFX the 'REALTYPE' and 'jack_default_audio_sample_t' must be equal.\ - Set the 'REALTYPE' data type (which is defined in 'globals.h') to what is defined \ - in the file types.h from jack include directory as 'jack_default_audio_sample_t' (as float or double)." +#if (REALTYPE != jack_default_audio_sample_t) +#error \ + "The internal sample datatype of ZynAddSubFX and the datatype of jack differs. \ + In order to compile ZynAddSubFX the 'REALTYPE' and 'jack_default_audio_sample_t' must be equal. \ + Set the 'REALTYPE' data type (which is defined in 'globals.h') to what is defined \ + in the file types.h from jack include directory as 'jack_default_audio_sample_t' (as float or double)." #endif @@ -41,7 +42,7 @@ bool JACKaudiooutputinit(Master *master_); void JACKfinish(); void JACKhandlemidi(unsigned long frames); -const char* JACKgetname(); +const char *JACKgetname(); #endif diff --git a/plugins/zynaddsubfx/src/Output/OSSaudiooutput.cpp b/plugins/zynaddsubfx/src/Output/OSSaudiooutput.cpp index 893387d05..ad77573af 100644 --- a/plugins/zynaddsubfx/src/Output/OSSaudiooutput.cpp +++ b/plugins/zynaddsubfx/src/Output/OSSaudiooutput.cpp @@ -37,86 +37,92 @@ using namespace std; OSSaudiooutput::OSSaudiooutput() { int i; - int snd_bitsize=16; - snd_fragment=0x00080009;//fragment size (?) - snd_stereo=1;//stereo - snd_format=AFMT_S16_LE; - snd_samplerate=SAMPLE_RATE; - playing_until.tv_sec=0; - playing_until.tv_usec=0; + int snd_bitsize = 16; + snd_fragment = 0x00080009; //fragment size (?) + snd_stereo = 1; //stereo + snd_format = AFMT_S16_LE; + snd_samplerate = SAMPLE_RATE; + playing_until.tv_sec = 0; + playing_until.tv_usec = 0; - smps=new short int[SOUND_BUFFER_SIZE*2]; - for (i=0;i 10000) //Don't sleep() less than 10ms. //This will add latency... - usleep(remaining-10000); + usleep(remaining - 10000); if(remaining < 0) cerr << "WARNING - too late" << endl; } - playing_until.tv_usec += SOUND_BUFFER_SIZE*1000000/SAMPLE_RATE; + playing_until.tv_usec += SOUND_BUFFER_SIZE * 1000000 / SAMPLE_RATE; if(remaining < 0) playing_until.tv_usec -= remaining; - playing_until.tv_sec += playing_until.tv_usec/1000000; + playing_until.tv_sec += playing_until.tv_usec / 1000000; playing_until.tv_usec %= 1000000; return; } - for (i=0;i1.0) l=1.0; - if (r<-1.0) r=-1.0; - else if (r>1.0) r=1.0; + if(l < -1.0) + l = -1.0; + else + if(l > 1.0) + l = 1.0; + if(r < -1.0) + r = -1.0; + else + if(r > 1.0) + r = 1.0; - smps[i*2]=(short int) (l*32767.0); - smps[i*2+1]=(short int) (r*32767.0); - }; - write(snd_handle,smps,SOUND_BUFFER_SIZE*4);// *2 because is 16 bit, again * 2 because is stereo -}; + smps[i * 2] = (short int) (l * 32767.0); + smps[i * 2 + 1] = (short int) (r * 32767.0); + } + write(snd_handle, smps, SOUND_BUFFER_SIZE * 4); // *2 because is 16 bit, again * 2 because is stereo +} OSSaudiooutput::~OSSaudiooutput() { close(snd_handle); delete [] smps; -}; +} diff --git a/plugins/zynaddsubfx/src/Output/OSSaudiooutput.h b/plugins/zynaddsubfx/src/Output/OSSaudiooutput.h index bc755f224..28da1cfaf 100644 --- a/plugins/zynaddsubfx/src/Output/OSSaudiooutput.h +++ b/plugins/zynaddsubfx/src/Output/OSSaudiooutput.h @@ -28,22 +28,22 @@ class OSSaudiooutput { -public: - OSSaudiooutput(); - ~OSSaudiooutput(); + public: + OSSaudiooutput(); + ~OSSaudiooutput(); - //the out is [-1.0 .. 1.0] - /* smp_left[] and smp_right[] has the size of SOUND_BUFFER_SIZE */ - void OSSout(REALTYPE *smp_left,REALTYPE *smp_right); -private: - int snd_handle; - int snd_fragment; - int snd_stereo; - int snd_format; - int snd_samplerate; - struct timeval playing_until; + //the out is [-1.0 .. 1.0] + /* smp_left[] and smp_right[] has the size of SOUND_BUFFER_SIZE */ + void OSSout(REALTYPE *smp_left, REALTYPE *smp_right); + private: + int snd_handle; + int snd_fragment; + int snd_stereo; + int snd_format; + int snd_samplerate; + struct timeval playing_until; - short int *smps;//Samples to be sent to soundcard + short int *smps; //Samples to be sent to soundcard }; #endif diff --git a/plugins/zynaddsubfx/src/Output/PAaudiooutput.cpp b/plugins/zynaddsubfx/src/Output/PAaudiooutput.cpp index 161153ffd..73b346827 100644 --- a/plugins/zynaddsubfx/src/Output/PAaudiooutput.cpp +++ b/plugins/zynaddsubfx/src/Output/PAaudiooutput.cpp @@ -22,52 +22,59 @@ #include "PAaudiooutput.h" -Master *PAmaster; +Master *PAmaster; PaStream *stream; -REALTYPE *outl,*outr; +REALTYPE *outl, *outr; -int PAprocess(void *inputBuffer,void *outputBuffer, +int PAprocess(void *inputBuffer, void *outputBuffer, unsigned long framesPerBuffer, - PaTimestamp outTime,void *userData) + PaTimestamp outTime, void *userData) { - - if (framesPerBuffer!=SOUND_BUFFER_SIZE) { - fprintf(stderr,"Bug: PAudioOutput::PAprocess SOUND_BUFFER_SIZE!=framesPerBuffer"); - fprintf(stderr,"%d %d\n",framesPerBuffer,SOUND_BUFFER_SIZE); - }; + if(framesPerBuffer != SOUND_BUFFER_SIZE) { + fprintf( + stderr, + "Bug: PAudioOutput::PAprocess SOUND_BUFFER_SIZE!=framesPerBuffer"); + fprintf(stderr, "%d %d\n", framesPerBuffer, SOUND_BUFFER_SIZE); + } pthread_mutex_lock(&PAmaster->mutex); - PAmaster->GetAudioOutSamples(SOUND_BUFFER_SIZE,SAMPLE_RATE,outl,outr); + PAmaster->GetAudioOutSamples(SOUND_BUFFER_SIZE, SAMPLE_RATE, outl, outr); pthread_mutex_unlock(&PAmaster->mutex); - float *out=(float *)outputBuffer; + float *out = (float *)outputBuffer; - for (int i=0;i=SOUND_BUFFER_SIZE) break;//this should never happens, except only when framesPerBuffer!>SOUND_BUFFER_SIZE - out[i*2]=outl[i]; - out[i*2+1]=outr[i]; - }; + for(int i = 0; i < framesPerBuffer; i++) { + if(i >= SOUND_BUFFER_SIZE) + break; //this should never happens, except only when framesPerBuffer!>SOUND_BUFFER_SIZE + out[i * 2] = outl[i]; + out[i * 2 + 1] = outr[i]; + } - return(0); -}; + return 0; +} void PAaudiooutputinit(Master *master_) { - PAmaster=master_; - outl=new REALTYPE [SOUND_BUFFER_SIZE]; - outr=new REALTYPE [SOUND_BUFFER_SIZE]; + PAmaster = master_; + outl = new REALTYPE [SOUND_BUFFER_SIZE]; + outr = new REALTYPE [SOUND_BUFFER_SIZE]; Pa_Initialize(); - Pa_OpenDefaultStream(&stream,0,2,paFloat32,SAMPLE_RATE,SOUND_BUFFER_SIZE,0,PAprocess,NULL); + Pa_OpenDefaultStream(&stream, + 0, + 2, + paFloat32, + SAMPLE_RATE, + SOUND_BUFFER_SIZE, + 0, + PAprocess, + NULL); Pa_StartStream(stream); -}; +} void PAfinish() { Pa_StopStream(stream); delete (outl); delete (outr); -}; - - - +} diff --git a/plugins/zynaddsubfx/src/Output/Recorder.cpp b/plugins/zynaddsubfx/src/Output/Recorder.cpp index 388ab7f74..43a44630e 100644 --- a/plugins/zynaddsubfx/src/Output/Recorder.cpp +++ b/plugins/zynaddsubfx/src/Output/Recorder.cpp @@ -25,80 +25,89 @@ Recorder::Recorder() { - recordbuf_16bit=new short int [SOUND_BUFFER_SIZE*2]; - status=0; - notetrigger=0; - for (int i=0;i32767) tmp=32767; - recordbuf_16bit[i*2]=tmp; + if(status != 2) + return; + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + tmp = (int)(outl[i] * 32767.0); + if(tmp < -32768) + tmp = -32768; + if(tmp > 32767) + tmp = 32767; + recordbuf_16bit[i * 2] = tmp; - tmp=(int)(outr[i]*32767.0); - if (tmp<-32768) tmp=-32768; - if (tmp>32767) tmp=32767; - recordbuf_16bit[i*2+1]=tmp; - }; - wav.write_stereo_samples(SOUND_BUFFER_SIZE,recordbuf_16bit); -}; + tmp = (int)(outr[i] * 32767.0); + if(tmp < -32768) + tmp = -32768; + if(tmp > 32767) + tmp = 32767; + recordbuf_16bit[i * 2 + 1] = tmp; + } + wav.write_stereo_samples(SOUND_BUFFER_SIZE, recordbuf_16bit); +} void Recorder::triggernow() { - if (status==2) notetrigger=1; -}; + if(status == 2) + notetrigger = 1; +} + diff --git a/plugins/zynaddsubfx/src/Output/Recorder.h b/plugins/zynaddsubfx/src/Output/Recorder.h index 059f7108f..997ed3783 100644 --- a/plugins/zynaddsubfx/src/Output/Recorder.h +++ b/plugins/zynaddsubfx/src/Output/Recorder.h @@ -29,28 +29,29 @@ /**Records sound to a file*/ class Recorder { -public: + public: - Recorder(); - ~Recorder(); - int preparefile(std::string filename_,int overwrite);//returns 1 if the file exists - void start(); - void stop(); - void pause(); - int recording(); - void triggernow(); - void recordbuffer(REALTYPE *outl,REALTYPE *outr); + Recorder(); + ~Recorder(); + int preparefile(std::string filename_, int overwrite); //returns 1 if the file exists + void start(); + void stop(); + void pause(); + int recording(); + void triggernow(); + void recordbuffer(REALTYPE *outl, REALTYPE *outr); - /** Status: - * 0 - not ready(no file selected), - * 1 - ready - * 2 - recording */ - int status; + /** Status: + * 0 - not ready(no file selected), + * 1 - ready + * 2 - recording */ + int status; -private: - WAVaudiooutput wav; - short int *recordbuf_16bit; - int notetrigger; + private: + WAVaudiooutput wav; + short int *recordbuf_16bit; + int notetrigger; }; #endif + diff --git a/plugins/zynaddsubfx/src/Output/VSTaudiooutput.cpp b/plugins/zynaddsubfx/src/Output/VSTaudiooutput.cpp index 6441ab092..183a3bb55 100644 --- a/plugins/zynaddsubfx/src/Output/VSTaudiooutput.cpp +++ b/plugins/zynaddsubfx/src/Output/VSTaudiooutput.cpp @@ -24,42 +24,45 @@ //the constructor and the destructor are defined in main.C -void VSTSynth::process (float **inputs, float **outputs, long sampleframes) +void VSTSynth::process(float **inputs, float **outputs, long sampleframes) { - float *outl=outputs[0]; - float *outr=outputs[1]; + float *outl = outputs[0]; + float *outr = outputs[1]; pthread_mutex_lock(&vmaster->mutex); - vmaster->GetAudioOutSamples(sampleframes,(int) getSampleRate(),outl,outr); + vmaster->GetAudioOutSamples(sampleframes, (int) getSampleRate(), outl, outr); pthread_mutex_unlock(&vmaster->mutex); -}; +} -void VSTSynth::processReplacing (float **inputs, float **outputs, long sampleframes) +void VSTSynth::processReplacing(float **inputs, + float **outputs, + long sampleframes) { - process(inputs,outputs,sampleframes); -}; + process(inputs, outputs, sampleframes); +} long int VSTSynth::canDo(char *txt) { - if (strcmp(txt,"receiveVstEvents")==0) return (1); - if (strcmp(txt,"receiveVstMidiEvent")==0) return (1); - return(-1); -}; + if(strcmp(txt, "receiveVstEvents") == 0) + return 1; + if(strcmp(txt, "receiveVstMidiEvent") == 0) + return 1; + return -1; +} bool VSTSynth::getVendorString(char *txt) { - strcpy(txt,"Nasca O. Paul"); - return(true); -}; + strcpy(txt, "Nasca O. Paul"); + return true; +} bool VSTSynth::getProductString(char *txt) { - strcpy(txt,"ZynAddSubFX"); - return(true); -}; + strcpy(txt, "ZynAddSubFX"); + return true; +} void VSTSynth::resume() { wantEvents(); -}; - +} diff --git a/plugins/zynaddsubfx/src/Output/VSTaudiooutput.h b/plugins/zynaddsubfx/src/Output/VSTaudiooutput.h index 116f33004..1fe0afd13 100644 --- a/plugins/zynaddsubfx/src/Output/VSTaudiooutput.h +++ b/plugins/zynaddsubfx/src/Output/VSTaudiooutput.h @@ -32,26 +32,28 @@ class VSTSynth:public AudioEffectX { -public: - VSTSynth (audioMasterCallback audioMaster); - ~VSTSynth(); + public: + VSTSynth(audioMasterCallback audioMaster); + ~VSTSynth(); - virtual void process (float **inputs, float **outputs, long sampleframes); - virtual void processReplacing (float **inputs, float **outputs, long sampleframes); - virtual long processEvents(VstEvents *events);//this is used for Midi input - virtual long int canDo(char *txt); - virtual bool getVendorString(char *txt); - virtual bool getProductString(char *txt); - virtual void resume(); + virtual void process(float **inputs, float **outputs, long sampleframes); + virtual void processReplacing(float **inputs, + float **outputs, + long sampleframes); + virtual long processEvents(VstEvents *events); //this is used for Midi input + virtual long int canDo(char *txt); + virtual bool getVendorString(char *txt); + virtual bool getProductString(char *txt); + virtual void resume(); - virtual long getChunk(void** data,bool isPreset=false); - virtual long setChunk(void *data,long size,bool isPreset=false); + virtual long getChunk(void **data, bool isPreset = false); + virtual long setChunk(void *data, long size, bool isPreset = false); - MasterUI *ui; - int Pexitprogram; + MasterUI *ui; + int Pexitprogram; - Master *vmaster; - pthread_t thr; + Master *vmaster; + pthread_t thr; }; #endif diff --git a/plugins/zynaddsubfx/src/Output/WAVaudiooutput.cpp b/plugins/zynaddsubfx/src/Output/WAVaudiooutput.cpp index fc03243c4..cc1f87c0e 100644 --- a/plugins/zynaddsubfx/src/Output/WAVaudiooutput.cpp +++ b/plugins/zynaddsubfx/src/Output/WAVaudiooutput.cpp @@ -23,77 +23,79 @@ using namespace std; WAVaudiooutput::WAVaudiooutput() { - file=NULL; - sampleswritten=0; - samplerate=44100; -}; + file = NULL; + sampleswritten = 0; + samplerate = 44100; +} WAVaudiooutput::~WAVaudiooutput() { close(); -}; +} -bool WAVaudiooutput::newfile(string filename,int samplerate,int channels) +bool WAVaudiooutput::newfile(string filename, int samplerate, int channels) { /**\todo Move this into the Constructor*/ - close();//inchide un posibil fisier existent - file=fopen(filename.c_str(),"w"); - if (!file) return false; - this->samplerate=samplerate; - this->channels=channels; - sampleswritten=0; + close(); //inchide un posibil fisier existent + file = fopen(filename.c_str(), "w"); + if(!file) + return false; + this->samplerate = samplerate; + this->channels = channels; + sampleswritten = 0; char tmp[44]; - fwrite(tmp,1,44,file); - return(true); -}; + fwrite(tmp, 1, 44, file); + return true; +} void WAVaudiooutput::close() { - if (file) { + if(file) { unsigned int chunksize; rewind(file); - fwrite("RIFF",4,1,file); - chunksize=sampleswritten*4+36; - fwrite(&chunksize,4,1,file); + fwrite("RIFF", 4, 1, file); + chunksize = sampleswritten * 4 + 36; + fwrite(&chunksize, 4, 1, file); - fwrite("WAVEfmt ",8,1,file); - chunksize=16; - fwrite(&chunksize,4,1,file); - unsigned short int formattag=1;//uncompresed wave - fwrite(&formattag,2,1,file); - unsigned short int nchannels=channels;//stereo - fwrite(&nchannels,2,1,file); - unsigned int samplerate_=samplerate;//samplerate - fwrite(&samplerate_,4,1,file); - unsigned int bytespersec=samplerate*2*channels;//bytes/sec - fwrite(&bytespersec,4,1,file); - unsigned short int blockalign=2*channels;//2 channels * 16 bits/8 - fwrite(&blockalign,2,1,file); - unsigned short int bitspersample=16; - fwrite(&bitspersample,2,1,file); + fwrite("WAVEfmt ", 8, 1, file); + chunksize = 16; + fwrite(&chunksize, 4, 1, file); + unsigned short int formattag = 1; //uncompresed wave + fwrite(&formattag, 2, 1, file); + unsigned short int nchannels = channels; //stereo + fwrite(&nchannels, 2, 1, file); + unsigned int samplerate_ = samplerate; //samplerate + fwrite(&samplerate_, 4, 1, file); + unsigned int bytespersec = samplerate * 2 * channels; //bytes/sec + fwrite(&bytespersec, 4, 1, file); + unsigned short int blockalign = 2 * channels; //2 channels * 16 bits/8 + fwrite(&blockalign, 2, 1, file); + unsigned short int bitspersample = 16; + fwrite(&bitspersample, 2, 1, file); - fwrite("data",4,1,file); - chunksize=sampleswritten*blockalign; - fwrite(&chunksize,4,1,file); + fwrite("data", 4, 1, file); + chunksize = sampleswritten * blockalign; + fwrite(&chunksize, 4, 1, file); fclose(file); - file=NULL; + file = NULL; } -}; +} -void WAVaudiooutput::write_stereo_samples(int nsmps,short int *smps) +void WAVaudiooutput::write_stereo_samples(int nsmps, short int *smps) { - if (!file) return; - fwrite(smps,nsmps,4,file); - sampleswritten+=nsmps; -}; + if(!file) + return; + fwrite(smps, nsmps, 4, file); + sampleswritten += nsmps; +} -void WAVaudiooutput::write_mono_samples(int nsmps,short int *smps) +void WAVaudiooutput::write_mono_samples(int nsmps, short int *smps) { - if (!file) return; - fwrite(smps,nsmps,2,file); - sampleswritten+=nsmps; -}; - + if(!file) + return; + fwrite(smps, nsmps, 2, file); + sampleswritten += nsmps; +} diff --git a/plugins/zynaddsubfx/src/Output/WAVaudiooutput.h b/plugins/zynaddsubfx/src/Output/WAVaudiooutput.h index 54abae8fd..193fb19f3 100644 --- a/plugins/zynaddsubfx/src/Output/WAVaudiooutput.h +++ b/plugins/zynaddsubfx/src/Output/WAVaudiooutput.h @@ -23,20 +23,21 @@ class WAVaudiooutput { -public: - WAVaudiooutput(); - ~WAVaudiooutput(); + public: + WAVaudiooutput(); + ~WAVaudiooutput(); - bool newfile(std::string filename,int samplerate,int channels); - void close(); + bool newfile(std::string filename, int samplerate, int channels); + void close(); - void write_mono_samples(int nsmps, short int *smps); - void write_stereo_samples(int nsmps, short int *smps); + void write_mono_samples(int nsmps, short int *smps); + void write_stereo_samples(int nsmps, short int *smps); -private: - int sampleswritten; - int samplerate; - int channels; - FILE *file; + private: + int sampleswritten; + int samplerate; + int channels; + FILE *file; }; #endif + diff --git a/plugins/zynaddsubfx/src/Params/ADnoteParameters.cpp b/plugins/zynaddsubfx/src/Params/ADnoteParameters.cpp index 87e78bf41..80c23391d 100644 --- a/plugins/zynaddsubfx/src/Params/ADnoteParameters.cpp +++ b/plugins/zynaddsubfx/src/Params/ADnoteParameters.cpp @@ -25,123 +25,125 @@ #include #include "ADnoteParameters.h" -int ADnote_unison_sizes[]={1,2,3,4,5,6,8,10,12,15,20,25,30,40,50,0}; +int ADnote_unison_sizes[] = +{1, 2, 3, 4, 5, 6, 8, 10, 12, 15, 20, 25, 30, 40, 50, 0}; ADnoteParameters::ADnoteParameters(FFTwrapper *fft_):Presets() { setpresettype("Padsyth"); - fft=fft_; + fft = fft_; - GlobalPar.FreqEnvelope=new EnvelopeParams(0,0); - GlobalPar.FreqEnvelope->ASRinit(64,50,64,60); - GlobalPar.FreqLfo=new LFOParams(70,0,64,0,0,0,0,0); + GlobalPar.FreqEnvelope = new EnvelopeParams(0, 0); + GlobalPar.FreqEnvelope->ASRinit(64, 50, 64, 60); + GlobalPar.FreqLfo = new LFOParams(70, 0, 64, 0, 0, 0, 0, 0); - GlobalPar.AmpEnvelope=new EnvelopeParams(64,1); - GlobalPar.AmpEnvelope->ADSRinit_dB(0,40,127,25); - GlobalPar.AmpLfo=new LFOParams(80,0,64,0,0,0,0,1); + GlobalPar.AmpEnvelope = new EnvelopeParams(64, 1); + GlobalPar.AmpEnvelope->ADSRinit_dB(0, 40, 127, 25); + GlobalPar.AmpLfo = new LFOParams(80, 0, 64, 0, 0, 0, 0, 1); - GlobalPar.GlobalFilter=new FilterParams(2,94,40); - GlobalPar.FilterEnvelope=new EnvelopeParams(0,1); - GlobalPar.FilterEnvelope->ADSRinit_filter(64,40,64,70,60,64); - GlobalPar.FilterLfo=new LFOParams(80,0,64,0,0,0,0,2); - GlobalPar.Reson=new Resonance(); + GlobalPar.GlobalFilter = new FilterParams(2, 94, 40); + GlobalPar.FilterEnvelope = new EnvelopeParams(0, 1); + GlobalPar.FilterEnvelope->ADSRinit_filter(64, 40, 64, 70, 60, 64); + GlobalPar.FilterLfo = new LFOParams(80, 0, 64, 0, 0, 0, 0, 2); + GlobalPar.Reson = new Resonance(); - for (int nvoice=0;nvoicedefaults(); GlobalPar.FreqLfo->defaults(); - GlobalPar.PBandwidth=64; + GlobalPar.PBandwidth = 64; /* Amplitude Global Parameters */ - GlobalPar.PVolume=90; - GlobalPar.PPanning=64;//center - GlobalPar.PAmpVelocityScaleFunction=64; + GlobalPar.PVolume = 90; + GlobalPar.PPanning = 64; //center + GlobalPar.PAmpVelocityScaleFunction = 64; GlobalPar.AmpEnvelope->defaults(); GlobalPar.AmpLfo->defaults(); - GlobalPar.PPunchStrength=0; - GlobalPar.PPunchTime=60; - GlobalPar.PPunchStretch=64; - GlobalPar.PPunchVelocitySensing=72; - GlobalPar.Hrandgrouping=0; + GlobalPar.PPunchStrength = 0; + GlobalPar.PPunchTime = 60; + GlobalPar.PPunchStretch = 64; + GlobalPar.PPunchVelocitySensing = 72; + GlobalPar.Hrandgrouping = 0; /* Filter Global Parameters*/ - GlobalPar.PFilterVelocityScale=64; - GlobalPar.PFilterVelocityScaleFunction=64; + GlobalPar.PFilterVelocityScale = 64; + GlobalPar.PFilterVelocityScaleFunction = 64; GlobalPar.GlobalFilter->defaults(); GlobalPar.FilterEnvelope->defaults(); GlobalPar.FilterLfo->defaults(); GlobalPar.Reson->defaults(); - for (int nvoice=0;nvoicedefaults(); VoicePar[nvoice].FMSmp->defaults(); @@ -158,7 +160,7 @@ void ADnoteParameters::defaults(int n) VoicePar[nvoice].FMFreqEnvelope->defaults(); VoicePar[nvoice].FMAmpEnvelope->defaults(); -}; +} @@ -167,49 +169,48 @@ void ADnoteParameters::defaults(int n) */ void ADnoteParameters::EnableVoice(int nvoice) { - VoicePar[nvoice].OscilSmp=new OscilGen(fft,GlobalPar.Reson); - VoicePar[nvoice].FMSmp=new OscilGen(fft,NULL); + VoicePar[nvoice].OscilSmp = new OscilGen(fft, GlobalPar.Reson); + VoicePar[nvoice].FMSmp = new OscilGen(fft, NULL); - VoicePar[nvoice].AmpEnvelope=new EnvelopeParams(64,1); - VoicePar[nvoice].AmpEnvelope->ADSRinit_dB(0,100,127,100); - VoicePar[nvoice].AmpLfo=new LFOParams(90,32,64,0,0,30,0,1); + VoicePar[nvoice].AmpEnvelope = new EnvelopeParams(64, 1); + VoicePar[nvoice].AmpEnvelope->ADSRinit_dB(0, 100, 127, 100); + VoicePar[nvoice].AmpLfo = new LFOParams(90, 32, 64, 0, 0, 30, 0, 1); - VoicePar[nvoice].FreqEnvelope=new EnvelopeParams(0,0); - VoicePar[nvoice].FreqEnvelope->ASRinit(30,40,64,60); - VoicePar[nvoice].FreqLfo=new LFOParams(50,40,0,0,0,0,0,0); + VoicePar[nvoice].FreqEnvelope = new EnvelopeParams(0, 0); + VoicePar[nvoice].FreqEnvelope->ASRinit(30, 40, 64, 60); + VoicePar[nvoice].FreqLfo = new LFOParams(50, 40, 0, 0, 0, 0, 0, 0); - VoicePar[nvoice].VoiceFilter=new FilterParams(2,50,60); - VoicePar[nvoice].FilterEnvelope=new EnvelopeParams(0,0); - VoicePar[nvoice].FilterEnvelope->ADSRinit_filter(90,70,40,70,10,40); - VoicePar[nvoice].FilterLfo=new LFOParams(50,20,64,0,0,0,0,2); + VoicePar[nvoice].VoiceFilter = new FilterParams(2, 50, 60); + VoicePar[nvoice].FilterEnvelope = new EnvelopeParams(0, 0); + VoicePar[nvoice].FilterEnvelope->ADSRinit_filter(90, 70, 40, 70, 10, 40); + VoicePar[nvoice].FilterLfo = new LFOParams(50, 20, 64, 0, 0, 0, 0, 2); - VoicePar[nvoice].FMFreqEnvelope=new EnvelopeParams(0,0); - VoicePar[nvoice].FMFreqEnvelope->ASRinit(20,90,40,80); - VoicePar[nvoice].FMAmpEnvelope=new EnvelopeParams(64,1); - VoicePar[nvoice].FMAmpEnvelope->ADSRinit(80,90,127,100); -}; + VoicePar[nvoice].FMFreqEnvelope = new EnvelopeParams(0, 0); + VoicePar[nvoice].FMFreqEnvelope->ASRinit(20, 90, 40, 80); + VoicePar[nvoice].FMAmpEnvelope = new EnvelopeParams(64, 1); + VoicePar[nvoice].FMAmpEnvelope->ADSRinit(80, 90, 127, 100); +} /* * Get the Multiplier of the fine detunes of the voices */ REALTYPE ADnoteParameters::getBandwidthDetuneMultiplier() { - REALTYPE bw=(GlobalPar.PBandwidth-64.0)/64.0; - bw=pow(2.0,bw*pow(fabs(bw),0.2)*5.0); + REALTYPE bw = (GlobalPar.PBandwidth - 64.0) / 64.0; + bw = pow(2.0, bw * pow(fabs(bw), 0.2) * 5.0); - return(bw); -}; + return bw; +} /* * Get the unison spread in cents for a voice */ -REALTYPE ADnoteParameters::getUnisonFrequencySpreadCents(int nvoice){ - REALTYPE unison_spread=VoicePar[nvoice].Unison_frequency_spread/127.0; - unison_spread=pow(unison_spread*2.0,2.0)*50.0;//cents - return unison_spread; - -}; +REALTYPE ADnoteParameters::getUnisonFrequencySpreadCents(int nvoice) { + REALTYPE unison_spread = VoicePar[nvoice].Unison_frequency_spread / 127.0; + unison_spread = pow(unison_spread * 2.0, 2.0) * 50.0; //cents + return unison_spread; +} /* * Kill the voice @@ -231,94 +232,101 @@ void ADnoteParameters::KillVoice(int nvoice) delete (VoicePar[nvoice].FMFreqEnvelope); delete (VoicePar[nvoice].FMAmpEnvelope); -}; +} ADnoteParameters::~ADnoteParameters() { - delete(GlobalPar.FreqEnvelope); - delete(GlobalPar.FreqLfo); - delete(GlobalPar.AmpEnvelope); - delete(GlobalPar.AmpLfo); - delete(GlobalPar.GlobalFilter); - delete(GlobalPar.FilterEnvelope); - delete(GlobalPar.FilterLfo); - delete(GlobalPar.Reson); + delete (GlobalPar.FreqEnvelope); + delete (GlobalPar.FreqLfo); + delete (GlobalPar.AmpEnvelope); + delete (GlobalPar.AmpLfo); + delete (GlobalPar.GlobalFilter); + delete (GlobalPar.FilterEnvelope); + delete (GlobalPar.FilterLfo); + delete (GlobalPar.Reson); - for (int nvoice=0;nvoice=NUM_VOICES) return 0; - int unison=VoicePar[nvoice].Unison_size; +int ADnoteParameters::get_unison_size_index(int nvoice) { + int index = 0; + if(nvoice >= NUM_VOICES) + return 0; + int unison = VoicePar[nvoice].Unison_size; - while(1){ - if (ADnote_unison_sizes[index]>=unison) { - return index; - }; - if (ADnote_unison_sizes[index]==0) { - return index-1; - }; - index++; - }; - return 0; -}; + while(1) { + if(ADnote_unison_sizes[index] >= unison) + return index; + ; + if(ADnote_unison_sizes[index] == 0) + return index - 1; + ; + index++; + } + return 0; +} -void ADnoteParameters::set_unison_size_index(int nvoice,int index){ - int unison=1; - for (int i=0;i<=index;i++){ - unison=ADnote_unison_sizes[i]; - if (unison==0) { - unison=ADnote_unison_sizes[i-1]; - break; - }; - }; +void ADnoteParameters::set_unison_size_index(int nvoice, int index) { + int unison = 1; + for(int i = 0; i <= index; i++) { + unison = ADnote_unison_sizes[i]; + if(unison == 0) { + unison = ADnote_unison_sizes[i - 1]; + break; + } + } - VoicePar[nvoice].Unison_size=unison; -}; + VoicePar[nvoice].Unison_size = unison; +} -void ADnoteParameters::add2XMLsection(XMLwrapper *xml,int n) +void ADnoteParameters::add2XMLsection(XMLwrapper *xml, int n) { - int nvoice=n; - if (nvoice>=NUM_VOICES) return; + int nvoice = n; + if(nvoice >= NUM_VOICES) + return; - int oscilused=0,fmoscilused=0;//if the oscil or fmoscil are used by another voice + int oscilused = 0, fmoscilused = 0; //if the oscil or fmoscil are used by another voice - for (int i=0;iaddparbool("enabled",VoicePar[nvoice].Enabled); - if (((VoicePar[nvoice].Enabled==0)&&(oscilused==0)&&(fmoscilused==0))&&(xml->minimal)) return; + xml->addparbool("enabled", VoicePar[nvoice].Enabled); + if(((VoicePar[nvoice].Enabled == 0) && (oscilused == 0) + && (fmoscilused == 0)) && (xml->minimal)) + return; - xml->addpar("type",VoicePar[nvoice].Type); - - xml->addpar("unison_size",VoicePar[nvoice].Unison_size); - xml->addpar("unison_frequency_spread",VoicePar[nvoice].Unison_frequency_spread); - xml->addpar("unison_stereo_spread",VoicePar[nvoice].Unison_stereo_spread); - xml->addpar("unison_vibratto",VoicePar[nvoice].Unison_vibratto); - xml->addpar("unison_vibratto_speed",VoicePar[nvoice].Unison_vibratto_speed); - xml->addpar("unison_invert_phase",VoicePar[nvoice].Unison_invert_phase); - - xml->addpar("delay",VoicePar[nvoice].PDelay); - xml->addparbool("resonance",VoicePar[nvoice].Presonance); + xml->addpar("type", VoicePar[nvoice].Type); - xml->addpar("ext_oscil",VoicePar[nvoice].Pextoscil); - xml->addpar("ext_fm_oscil",VoicePar[nvoice].PextFMoscil); + xml->addpar("unison_size", VoicePar[nvoice].Unison_size); + xml->addpar("unison_frequency_spread", + VoicePar[nvoice].Unison_frequency_spread); + xml->addpar("unison_stereo_spread", VoicePar[nvoice].Unison_stereo_spread); + xml->addpar("unison_vibratto", VoicePar[nvoice].Unison_vibratto); + xml->addpar("unison_vibratto_speed", VoicePar[nvoice].Unison_vibratto_speed); + xml->addpar("unison_invert_phase", VoicePar[nvoice].Unison_invert_phase); - xml->addpar("oscil_phase",VoicePar[nvoice].Poscilphase); - xml->addpar("oscil_fm_phase",VoicePar[nvoice].PFMoscilphase); + xml->addpar("delay", VoicePar[nvoice].PDelay); + xml->addparbool("resonance", VoicePar[nvoice].Presonance); - xml->addparbool("filter_enabled",VoicePar[nvoice].PFilterEnabled); - xml->addparbool("filter_bypass",VoicePar[nvoice].Pfilterbypass); + xml->addpar("ext_oscil", VoicePar[nvoice].Pextoscil); + xml->addpar("ext_fm_oscil", VoicePar[nvoice].PextFMoscil); - xml->addpar("fm_enabled",VoicePar[nvoice].PFMEnabled); + xml->addpar("oscil_phase", VoicePar[nvoice].Poscilphase); + xml->addpar("oscil_fm_phase", VoicePar[nvoice].PFMoscilphase); + + xml->addparbool("filter_enabled", VoicePar[nvoice].PFilterEnabled); + xml->addparbool("filter_bypass", VoicePar[nvoice].Pfilterbypass); + + xml->addpar("fm_enabled", VoicePar[nvoice].PFMEnabled); xml->beginbranch("OSCIL"); VoicePar[nvoice].OscilSmp->add2XML(xml); @@ -326,94 +334,102 @@ void ADnoteParameters::add2XMLsection(XMLwrapper *xml,int n) xml->beginbranch("AMPLITUDE_PARAMETERS"); - xml->addpar("panning",VoicePar[nvoice].PPanning); - xml->addpar("volume",VoicePar[nvoice].PVolume); - xml->addparbool("volume_minus",VoicePar[nvoice].PVolumeminus); - xml->addpar("velocity_sensing",VoicePar[nvoice].PAmpVelocityScaleFunction); + xml->addpar("panning", VoicePar[nvoice].PPanning); + xml->addpar("volume", VoicePar[nvoice].PVolume); + xml->addparbool("volume_minus", VoicePar[nvoice].PVolumeminus); + xml->addpar("velocity_sensing", VoicePar[nvoice].PAmpVelocityScaleFunction); - xml->addparbool("amp_envelope_enabled",VoicePar[nvoice].PAmpEnvelopeEnabled); - if ((VoicePar[nvoice].PAmpEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("amp_envelope_enabled", + VoicePar[nvoice].PAmpEnvelopeEnabled); + if((VoicePar[nvoice].PAmpEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("AMPLITUDE_ENVELOPE"); VoicePar[nvoice].AmpEnvelope->add2XML(xml); xml->endbranch(); - }; - xml->addparbool("amp_lfo_enabled",VoicePar[nvoice].PAmpLfoEnabled); - if ((VoicePar[nvoice].PAmpLfoEnabled!=0)||(!xml->minimal)) { + } + xml->addparbool("amp_lfo_enabled", VoicePar[nvoice].PAmpLfoEnabled); + if((VoicePar[nvoice].PAmpLfoEnabled != 0) || (!xml->minimal)) { xml->beginbranch("AMPLITUDE_LFO"); VoicePar[nvoice].AmpLfo->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("FREQUENCY_PARAMETERS"); - xml->addparbool("fixed_freq",VoicePar[nvoice].Pfixedfreq); - xml->addpar("fixed_freq_et",VoicePar[nvoice].PfixedfreqET); - xml->addpar("detune",VoicePar[nvoice].PDetune); - xml->addpar("coarse_detune",VoicePar[nvoice].PCoarseDetune); - xml->addpar("detune_type",VoicePar[nvoice].PDetuneType); + xml->addparbool("fixed_freq", VoicePar[nvoice].Pfixedfreq); + xml->addpar("fixed_freq_et", VoicePar[nvoice].PfixedfreqET); + xml->addpar("detune", VoicePar[nvoice].PDetune); + xml->addpar("coarse_detune", VoicePar[nvoice].PCoarseDetune); + xml->addpar("detune_type", VoicePar[nvoice].PDetuneType); - xml->addparbool("freq_envelope_enabled",VoicePar[nvoice].PFreqEnvelopeEnabled); - if ((VoicePar[nvoice].PFreqEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("freq_envelope_enabled", + VoicePar[nvoice].PFreqEnvelopeEnabled); + if((VoicePar[nvoice].PFreqEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FREQUENCY_ENVELOPE"); VoicePar[nvoice].FreqEnvelope->add2XML(xml); xml->endbranch(); - }; - xml->addparbool("freq_lfo_enabled",VoicePar[nvoice].PFreqLfoEnabled); - if ((VoicePar[nvoice].PFreqLfoEnabled!=0)||(!xml->minimal)) { + } + xml->addparbool("freq_lfo_enabled", VoicePar[nvoice].PFreqLfoEnabled); + if((VoicePar[nvoice].PFreqLfoEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FREQUENCY_LFO"); VoicePar[nvoice].FreqLfo->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); - if ((VoicePar[nvoice].PFilterEnabled!=0)||(!xml->minimal)) { + if((VoicePar[nvoice].PFilterEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FILTER_PARAMETERS"); xml->beginbranch("FILTER"); VoicePar[nvoice].VoiceFilter->add2XML(xml); xml->endbranch(); - xml->addparbool("filter_envelope_enabled",VoicePar[nvoice].PFilterEnvelopeEnabled); - if ((VoicePar[nvoice].PFilterEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("filter_envelope_enabled", + VoicePar[nvoice].PFilterEnvelopeEnabled); + if((VoicePar[nvoice].PFilterEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FILTER_ENVELOPE"); VoicePar[nvoice].FilterEnvelope->add2XML(xml); xml->endbranch(); - }; + } - xml->addparbool("filter_lfo_enabled",VoicePar[nvoice].PFilterLfoEnabled); - if ((VoicePar[nvoice].PFilterLfoEnabled!=0)||(!xml->minimal)) { + xml->addparbool("filter_lfo_enabled", + VoicePar[nvoice].PFilterLfoEnabled); + if((VoicePar[nvoice].PFilterLfoEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FILTER_LFO"); VoicePar[nvoice].FilterLfo->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); - }; + } - if ((VoicePar[nvoice].PFMEnabled!=0)||(fmoscilused!=0)||(!xml->minimal)) { + if((VoicePar[nvoice].PFMEnabled != 0) || (fmoscilused != 0) + || (!xml->minimal)) { xml->beginbranch("FM_PARAMETERS"); - xml->addpar("input_voice",VoicePar[nvoice].PFMVoice); + xml->addpar("input_voice", VoicePar[nvoice].PFMVoice); - xml->addpar("volume",VoicePar[nvoice].PFMVolume); - xml->addpar("volume_damp",VoicePar[nvoice].PFMVolumeDamp); - xml->addpar("velocity_sensing",VoicePar[nvoice].PFMVelocityScaleFunction); + xml->addpar("volume", VoicePar[nvoice].PFMVolume); + xml->addpar("volume_damp", VoicePar[nvoice].PFMVolumeDamp); + xml->addpar("velocity_sensing", + VoicePar[nvoice].PFMVelocityScaleFunction); - xml->addparbool("amp_envelope_enabled",VoicePar[nvoice].PFMAmpEnvelopeEnabled); - if ((VoicePar[nvoice].PFMAmpEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("amp_envelope_enabled", + VoicePar[nvoice].PFMAmpEnvelopeEnabled); + if((VoicePar[nvoice].PFMAmpEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("AMPLITUDE_ENVELOPE"); VoicePar[nvoice].FMAmpEnvelope->add2XML(xml); xml->endbranch(); - }; + } xml->beginbranch("MODULATOR"); - xml->addpar("detune",VoicePar[nvoice].PFMDetune); - xml->addpar("coarse_detune",VoicePar[nvoice].PFMCoarseDetune); - xml->addpar("detune_type",VoicePar[nvoice].PFMDetuneType); + xml->addpar("detune", VoicePar[nvoice].PFMDetune); + xml->addpar("coarse_detune", VoicePar[nvoice].PFMCoarseDetune); + xml->addpar("detune_type", VoicePar[nvoice].PFMDetuneType); - xml->addparbool("freq_envelope_enabled",VoicePar[nvoice].PFMFreqEnvelopeEnabled); - if ((VoicePar[nvoice].PFMFreqEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("freq_envelope_enabled", + VoicePar[nvoice].PFMFreqEnvelopeEnabled); + if((VoicePar[nvoice].PFMFreqEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FREQUENCY_ENVELOPE"); VoicePar[nvoice].FMFreqEnvelope->add2XML(xml); xml->endbranch(); - }; + } xml->beginbranch("OSCIL"); VoicePar[nvoice].FMSmp->add2XML(xml); @@ -421,23 +437,23 @@ void ADnoteParameters::add2XMLsection(XMLwrapper *xml,int n) xml->endbranch(); xml->endbranch(); - }; -}; + } +} void ADnoteParameters::add2XML(XMLwrapper *xml) { - xml->addparbool("stereo",GlobalPar.PStereo); + xml->addparbool("stereo", GlobalPar.PStereo); xml->beginbranch("AMPLITUDE_PARAMETERS"); - xml->addpar("volume",GlobalPar.PVolume); - xml->addpar("panning",GlobalPar.PPanning); - xml->addpar("velocity_sensing",GlobalPar.PAmpVelocityScaleFunction); - xml->addpar("punch_strength",GlobalPar.PPunchStrength); - xml->addpar("punch_time",GlobalPar.PPunchTime); - xml->addpar("punch_stretch",GlobalPar.PPunchStretch); - xml->addpar("punch_velocity_sensing",GlobalPar.PPunchVelocitySensing); - xml->addpar("harmonic_randomness_grouping",GlobalPar.Hrandgrouping); + xml->addpar("volume", GlobalPar.PVolume); + xml->addpar("panning", GlobalPar.PPanning); + xml->addpar("velocity_sensing", GlobalPar.PAmpVelocityScaleFunction); + xml->addpar("punch_strength", GlobalPar.PPunchStrength); + xml->addpar("punch_time", GlobalPar.PPunchTime); + xml->addpar("punch_stretch", GlobalPar.PPunchStretch); + xml->addpar("punch_velocity_sensing", GlobalPar.PPunchVelocitySensing); + xml->addpar("harmonic_randomness_grouping", GlobalPar.Hrandgrouping); xml->beginbranch("AMPLITUDE_ENVELOPE"); GlobalPar.AmpEnvelope->add2XML(xml); @@ -449,12 +465,12 @@ void ADnoteParameters::add2XML(XMLwrapper *xml) xml->endbranch(); xml->beginbranch("FREQUENCY_PARAMETERS"); - xml->addpar("detune",GlobalPar.PDetune); + xml->addpar("detune", GlobalPar.PDetune); - xml->addpar("coarse_detune",GlobalPar.PCoarseDetune); - xml->addpar("detune_type",GlobalPar.PDetuneType); + xml->addpar("coarse_detune", GlobalPar.PCoarseDetune); + xml->addpar("detune_type", GlobalPar.PDetuneType); - xml->addpar("bandwidth",GlobalPar.PBandwidth); + xml->addpar("bandwidth", GlobalPar.PBandwidth); xml->beginbranch("FREQUENCY_ENVELOPE"); GlobalPar.FreqEnvelope->add2XML(xml); @@ -467,8 +483,8 @@ void ADnoteParameters::add2XML(XMLwrapper *xml) xml->beginbranch("FILTER_PARAMETERS"); - xml->addpar("velocity_sensing_amplitude",GlobalPar.PFilterVelocityScale); - xml->addpar("velocity_sensing",GlobalPar.PFilterVelocityScaleFunction); + xml->addpar("velocity_sensing_amplitude", GlobalPar.PFilterVelocityScale); + xml->addpar("velocity_sensing", GlobalPar.PFilterVelocityScaleFunction); xml->beginbranch("FILTER"); GlobalPar.GlobalFilter->add2XML(xml); @@ -487,48 +503,66 @@ void ADnoteParameters::add2XML(XMLwrapper *xml) GlobalPar.Reson->add2XML(xml); xml->endbranch(); - for (int nvoice=0;nvoicebeginbranch("VOICE",nvoice); - add2XMLsection(xml,nvoice); + for(int nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + xml->beginbranch("VOICE", nvoice); + add2XMLsection(xml, nvoice); xml->endbranch(); - }; -}; + } +} void ADnoteParameters::getfromXML(XMLwrapper *xml) { - GlobalPar.PStereo=xml->getparbool("stereo",GlobalPar.PStereo); + GlobalPar.PStereo = xml->getparbool("stereo", GlobalPar.PStereo); - if (xml->enterbranch("AMPLITUDE_PARAMETERS")) { - GlobalPar.PVolume=xml->getpar127("volume",GlobalPar.PVolume); - GlobalPar.PPanning=xml->getpar127("panning",GlobalPar.PPanning); - GlobalPar.PAmpVelocityScaleFunction=xml->getpar127("velocity_sensing",GlobalPar.PAmpVelocityScaleFunction); + if(xml->enterbranch("AMPLITUDE_PARAMETERS")) { + GlobalPar.PVolume = xml->getpar127("volume", GlobalPar.PVolume); + GlobalPar.PPanning = xml->getpar127("panning", GlobalPar.PPanning); + GlobalPar.PAmpVelocityScaleFunction = xml->getpar127( + "velocity_sensing", + GlobalPar. + PAmpVelocityScaleFunction); - GlobalPar.PPunchStrength=xml->getpar127("punch_strength",GlobalPar.PPunchStrength); - GlobalPar.PPunchTime=xml->getpar127("punch_time",GlobalPar.PPunchTime); - GlobalPar.PPunchStretch=xml->getpar127("punch_stretch",GlobalPar.PPunchStretch); - GlobalPar.PPunchVelocitySensing=xml->getpar127("punch_velocity_sensing",GlobalPar.PPunchVelocitySensing); - GlobalPar.Hrandgrouping=xml->getpar127("harmonic_randomness_grouping",GlobalPar.Hrandgrouping); + GlobalPar.PPunchStrength = xml->getpar127("punch_strength", + GlobalPar.PPunchStrength); + GlobalPar.PPunchTime = xml->getpar127("punch_time", + GlobalPar.PPunchTime); + GlobalPar.PPunchStretch = xml->getpar127("punch_stretch", + GlobalPar.PPunchStretch); + GlobalPar.PPunchVelocitySensing = xml->getpar127( + "punch_velocity_sensing", + GlobalPar.PPunchVelocitySensing); + GlobalPar.Hrandgrouping = xml->getpar127( + "harmonic_randomness_grouping", + GlobalPar.Hrandgrouping); - if (xml->enterbranch("AMPLITUDE_ENVELOPE")) { + if(xml->enterbranch("AMPLITUDE_ENVELOPE")) { GlobalPar.AmpEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("AMPLITUDE_LFO")) { + if(xml->enterbranch("AMPLITUDE_LFO")) { GlobalPar.AmpLfo->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FREQUENCY_PARAMETERS")) { - GlobalPar.PDetune=xml->getpar("detune",GlobalPar.PDetune,0,16383); - GlobalPar.PCoarseDetune=xml->getpar("coarse_detune",GlobalPar.PCoarseDetune,0,16383); - GlobalPar.PDetuneType=xml->getpar127("detune_type",GlobalPar.PDetuneType); + if(xml->enterbranch("FREQUENCY_PARAMETERS")) { + GlobalPar.PDetune = xml->getpar("detune", + GlobalPar.PDetune, + 0, + 16383); + GlobalPar.PCoarseDetune = xml->getpar("coarse_detune", + GlobalPar.PCoarseDetune, + 0, + 16383); + GlobalPar.PDetuneType = xml->getpar127("detune_type", + GlobalPar.PDetuneType); - GlobalPar.PBandwidth=xml->getpar127("bandwidth",GlobalPar.PBandwidth); + GlobalPar.PBandwidth = xml->getpar127("bandwidth", + GlobalPar.PBandwidth); xml->enterbranch("FREQUENCY_ENVELOPE"); GlobalPar.FreqEnvelope->getfromXML(xml); @@ -539,12 +573,16 @@ void ADnoteParameters::getfromXML(XMLwrapper *xml) xml->exitbranch(); xml->exitbranch(); - }; + } - if (xml->enterbranch("FILTER_PARAMETERS")) { - GlobalPar.PFilterVelocityScale=xml->getpar127("velocity_sensing_amplitude",GlobalPar.PFilterVelocityScale); - GlobalPar.PFilterVelocityScaleFunction=xml->getpar127("velocity_sensing",GlobalPar.PFilterVelocityScaleFunction); + if(xml->enterbranch("FILTER_PARAMETERS")) { + GlobalPar.PFilterVelocityScale = xml->getpar127( + "velocity_sensing_amplitude", + GlobalPar.PFilterVelocityScale); + GlobalPar.PFilterVelocityScaleFunction = xml->getpar127( + "velocity_sensing", + GlobalPar.PFilterVelocityScaleFunction); xml->enterbranch("FILTER"); GlobalPar.GlobalFilter->getfromXML(xml); @@ -558,155 +596,244 @@ void ADnoteParameters::getfromXML(XMLwrapper *xml) GlobalPar.FilterLfo->getfromXML(xml); xml->exitbranch(); xml->exitbranch(); - }; + } - if (xml->enterbranch("RESONANCE")) { + if(xml->enterbranch("RESONANCE")) { GlobalPar.Reson->getfromXML(xml); xml->exitbranch(); - }; + } - for (int nvoice=0;nvoiceenterbranch("VOICE",nvoice)==0) continue; - getfromXMLsection(xml,nvoice); + for(int nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + VoicePar[nvoice].Enabled = 0; + if(xml->enterbranch("VOICE", nvoice) == 0) + continue; + getfromXMLsection(xml, nvoice); xml->exitbranch(); - }; + } +} - -}; - -void ADnoteParameters::getfromXMLsection(XMLwrapper *xml,int n) +void ADnoteParameters::getfromXMLsection(XMLwrapper *xml, int n) { - int nvoice=n; - if (nvoice>=NUM_VOICES) return; + int nvoice = n; + if(nvoice >= NUM_VOICES) + return; - VoicePar[nvoice].Enabled=xml->getparbool("enabled",0); + VoicePar[nvoice].Enabled = xml->getparbool("enabled", 0); - VoicePar[nvoice].Unison_size=xml->getpar127("unison_size",VoicePar[nvoice].Unison_size); - VoicePar[nvoice].Unison_frequency_spread=xml->getpar127("unison_frequency_spread",VoicePar[nvoice].Unison_frequency_spread); - VoicePar[nvoice].Unison_stereo_spread=xml->getpar127("unison_stereo_spread",VoicePar[nvoice].Unison_stereo_spread); - VoicePar[nvoice].Unison_vibratto=xml->getpar127("unison_vibratto",VoicePar[nvoice].Unison_vibratto); - VoicePar[nvoice].Unison_vibratto_speed=xml->getpar127("unison_vibratto_speed",VoicePar[nvoice].Unison_vibratto_speed); - VoicePar[nvoice].Unison_invert_phase=xml->getpar127("unison_invert_phase",VoicePar[nvoice].Unison_invert_phase); - - VoicePar[nvoice].Type=xml->getpar127("type",VoicePar[nvoice].Type); - VoicePar[nvoice].PDelay=xml->getpar127("delay",VoicePar[nvoice].PDelay); - VoicePar[nvoice].Presonance=xml->getparbool("resonance",VoicePar[nvoice].Presonance); + VoicePar[nvoice].Unison_size = + xml->getpar127("unison_size", VoicePar[nvoice].Unison_size); + VoicePar[nvoice].Unison_frequency_spread = xml->getpar127( + "unison_frequency_spread", + VoicePar[nvoice].Unison_frequency_spread); + VoicePar[nvoice].Unison_stereo_spread = xml->getpar127( + "unison_stereo_spread", + VoicePar[nvoice].Unison_stereo_spread); + VoicePar[nvoice].Unison_vibratto = xml->getpar127( + "unison_vibratto", + VoicePar[nvoice]. + Unison_vibratto); + VoicePar[nvoice].Unison_vibratto_speed = xml->getpar127( + "unison_vibratto_speed", + VoicePar[nvoice].Unison_vibratto_speed); + VoicePar[nvoice].Unison_invert_phase = xml->getpar127( + "unison_invert_phase", + VoicePar[nvoice].Unison_invert_phase); - VoicePar[nvoice].Pextoscil=xml->getpar("ext_oscil",-1,-1,nvoice-1); - VoicePar[nvoice].PextFMoscil=xml->getpar("ext_fm_oscil",-1,-1,nvoice-1); + VoicePar[nvoice].Type = xml->getpar127("type", + VoicePar[nvoice].Type); + VoicePar[nvoice].PDelay = xml->getpar127("delay", + VoicePar[nvoice].PDelay); + VoicePar[nvoice].Presonance = + xml->getparbool("resonance", VoicePar[nvoice].Presonance); - VoicePar[nvoice].Poscilphase=xml->getpar127("oscil_phase",VoicePar[nvoice].Poscilphase); - VoicePar[nvoice].PFMoscilphase=xml->getpar127("oscil_fm_phase",VoicePar[nvoice].PFMoscilphase); + VoicePar[nvoice].Pextoscil = xml->getpar("ext_oscil", + -1, + -1, + nvoice - 1); + VoicePar[nvoice].PextFMoscil = xml->getpar("ext_fm_oscil", + -1, + -1, + nvoice - 1); - VoicePar[nvoice].PFilterEnabled=xml->getparbool("filter_enabled",VoicePar[nvoice].PFilterEnabled); - VoicePar[nvoice].Pfilterbypass=xml->getparbool("filter_bypass",VoicePar[nvoice].Pfilterbypass); + VoicePar[nvoice].Poscilphase = + xml->getpar127("oscil_phase", VoicePar[nvoice].Poscilphase); + VoicePar[nvoice].PFMoscilphase = xml->getpar127( + "oscil_fm_phase", + VoicePar[nvoice]. + PFMoscilphase); - VoicePar[nvoice].PFMEnabled=xml->getpar127("fm_enabled",VoicePar[nvoice].PFMEnabled); + VoicePar[nvoice].PFilterEnabled = xml->getparbool( + "filter_enabled", + VoicePar[nvoice]. + PFilterEnabled); + VoicePar[nvoice].Pfilterbypass = xml->getparbool( + "filter_bypass", + VoicePar[nvoice]. + Pfilterbypass); - if (xml->enterbranch("OSCIL")) { + VoicePar[nvoice].PFMEnabled = + xml->getpar127("fm_enabled", VoicePar[nvoice].PFMEnabled); + + if(xml->enterbranch("OSCIL")) { VoicePar[nvoice].OscilSmp->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("AMPLITUDE_PARAMETERS")) { - VoicePar[nvoice].PPanning=xml->getpar127("panning",VoicePar[nvoice].PPanning); - VoicePar[nvoice].PVolume=xml->getpar127("volume",VoicePar[nvoice].PVolume); - VoicePar[nvoice].PVolumeminus=xml->getparbool("volume_minus",VoicePar[nvoice].PVolumeminus); - VoicePar[nvoice].PAmpVelocityScaleFunction=xml->getpar127("velocity_sensing",VoicePar[nvoice].PAmpVelocityScaleFunction); + if(xml->enterbranch("AMPLITUDE_PARAMETERS")) { + VoicePar[nvoice].PPanning = + xml->getpar127("panning", VoicePar[nvoice].PPanning); + VoicePar[nvoice].PVolume = + xml->getpar127("volume", VoicePar[nvoice].PVolume); + VoicePar[nvoice].PVolumeminus = xml->getparbool( + "volume_minus", + VoicePar[nvoice]. + PVolumeminus); + VoicePar[nvoice].PAmpVelocityScaleFunction = xml->getpar127( + "velocity_sensing", + VoicePar[nvoice].PAmpVelocityScaleFunction); - VoicePar[nvoice].PAmpEnvelopeEnabled=xml->getparbool("amp_envelope_enabled",VoicePar[nvoice].PAmpEnvelopeEnabled); - if (xml->enterbranch("AMPLITUDE_ENVELOPE")) { + VoicePar[nvoice].PAmpEnvelopeEnabled = xml->getparbool( + "amp_envelope_enabled", + VoicePar[nvoice].PAmpEnvelopeEnabled); + if(xml->enterbranch("AMPLITUDE_ENVELOPE")) { VoicePar[nvoice].AmpEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - VoicePar[nvoice].PAmpLfoEnabled=xml->getparbool("amp_lfo_enabled",VoicePar[nvoice].PAmpLfoEnabled); - if (xml->enterbranch("AMPLITUDE_LFO")) { + VoicePar[nvoice].PAmpLfoEnabled = xml->getparbool( + "amp_lfo_enabled", + VoicePar[nvoice]. + PAmpLfoEnabled); + if(xml->enterbranch("AMPLITUDE_LFO")) { VoicePar[nvoice].AmpLfo->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FREQUENCY_PARAMETERS")) { - VoicePar[nvoice].Pfixedfreq=xml->getparbool("fixed_freq",VoicePar[nvoice].Pfixedfreq); - VoicePar[nvoice].PfixedfreqET=xml->getpar127("fixed_freq_et",VoicePar[nvoice].PfixedfreqET); + if(xml->enterbranch("FREQUENCY_PARAMETERS")) { + VoicePar[nvoice].Pfixedfreq = + xml->getparbool("fixed_freq", VoicePar[nvoice].Pfixedfreq); + VoicePar[nvoice].PfixedfreqET = xml->getpar127( + "fixed_freq_et", + VoicePar[nvoice]. + PfixedfreqET); - VoicePar[nvoice].PDetune=xml->getpar("detune",VoicePar[nvoice].PDetune,0,16383); + VoicePar[nvoice].PDetune = xml->getpar("detune", + VoicePar[nvoice].PDetune, + 0, + 16383); - VoicePar[nvoice].PCoarseDetune=xml->getpar("coarse_detune",VoicePar[nvoice].PCoarseDetune,0,16383); - VoicePar[nvoice].PDetuneType=xml->getpar127("detune_type",VoicePar[nvoice].PDetuneType); + VoicePar[nvoice].PCoarseDetune = + xml->getpar("coarse_detune", + VoicePar[nvoice].PCoarseDetune, + 0, + 16383); + VoicePar[nvoice].PDetuneType = xml->getpar127( + "detune_type", + VoicePar[nvoice]. + PDetuneType); - VoicePar[nvoice].PFreqEnvelopeEnabled=xml->getparbool("freq_envelope_enabled",VoicePar[nvoice].PFreqEnvelopeEnabled); - if (xml->enterbranch("FREQUENCY_ENVELOPE")) { + VoicePar[nvoice].PFreqEnvelopeEnabled = xml->getparbool( + "freq_envelope_enabled", + VoicePar[nvoice].PFreqEnvelopeEnabled); + if(xml->enterbranch("FREQUENCY_ENVELOPE")) { VoicePar[nvoice].FreqEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - VoicePar[nvoice].PFreqLfoEnabled=xml->getparbool("freq_lfo_enabled",VoicePar[nvoice].PFreqLfoEnabled); - if (xml->enterbranch("FREQUENCY_LFO")) { + VoicePar[nvoice].PFreqLfoEnabled = xml->getparbool( + "freq_lfo_enabled", + VoicePar[nvoice]. + PFreqLfoEnabled); + if(xml->enterbranch("FREQUENCY_LFO")) { VoicePar[nvoice].FreqLfo->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FILTER_PARAMETERS")) { - if (xml->enterbranch("FILTER")) { + if(xml->enterbranch("FILTER_PARAMETERS")) { + if(xml->enterbranch("FILTER")) { VoicePar[nvoice].VoiceFilter->getfromXML(xml); xml->exitbranch(); - }; + } - VoicePar[nvoice].PFilterEnvelopeEnabled=xml->getparbool("filter_envelope_enabled",VoicePar[nvoice].PFilterEnvelopeEnabled); - if (xml->enterbranch("FILTER_ENVELOPE")) { + VoicePar[nvoice].PFilterEnvelopeEnabled = xml->getparbool( + "filter_envelope_enabled", + VoicePar[nvoice].PFilterEnvelopeEnabled); + if(xml->enterbranch("FILTER_ENVELOPE")) { VoicePar[nvoice].FilterEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - VoicePar[nvoice].PFilterLfoEnabled=xml->getparbool("filter_lfo_enabled",VoicePar[nvoice].PFilterLfoEnabled); - if (xml->enterbranch("FILTER_LFO")) { + VoicePar[nvoice].PFilterLfoEnabled = xml->getparbool( + "filter_lfo_enabled", + VoicePar[nvoice].PFilterLfoEnabled); + if(xml->enterbranch("FILTER_LFO")) { VoicePar[nvoice].FilterLfo->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FM_PARAMETERS")) { - VoicePar[nvoice].PFMVoice=xml->getpar("input_voice",VoicePar[nvoice].PFMVoice,-1,nvoice-1); + if(xml->enterbranch("FM_PARAMETERS")) { + VoicePar[nvoice].PFMVoice = + xml->getpar("input_voice", + VoicePar[nvoice].PFMVoice, + -1, + nvoice - 1); - VoicePar[nvoice].PFMVolume=xml->getpar127("volume",VoicePar[nvoice].PFMVolume); - VoicePar[nvoice].PFMVolumeDamp=xml->getpar127("volume_damp",VoicePar[nvoice].PFMVolumeDamp); - VoicePar[nvoice].PFMVelocityScaleFunction=xml->getpar127("velocity_sensing",VoicePar[nvoice].PFMVelocityScaleFunction); + VoicePar[nvoice].PFMVolume = + xml->getpar127("volume", VoicePar[nvoice].PFMVolume); + VoicePar[nvoice].PFMVolumeDamp = xml->getpar127( + "volume_damp", + VoicePar[nvoice]. + PFMVolumeDamp); + VoicePar[nvoice].PFMVelocityScaleFunction = xml->getpar127( + "velocity_sensing", + VoicePar[nvoice].PFMVelocityScaleFunction); - VoicePar[nvoice].PFMAmpEnvelopeEnabled=xml->getparbool("amp_envelope_enabled",VoicePar[nvoice].PFMAmpEnvelopeEnabled); - if (xml->enterbranch("AMPLITUDE_ENVELOPE")) { + VoicePar[nvoice].PFMAmpEnvelopeEnabled = xml->getparbool( + "amp_envelope_enabled", + VoicePar[nvoice].PFMAmpEnvelopeEnabled); + if(xml->enterbranch("AMPLITUDE_ENVELOPE")) { VoicePar[nvoice].FMAmpEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("MODULATOR")) { - VoicePar[nvoice].PFMDetune=xml->getpar("detune",VoicePar[nvoice].PFMDetune,0,16383); - VoicePar[nvoice].PFMCoarseDetune=xml->getpar("coarse_detune",VoicePar[nvoice].PFMCoarseDetune,0,16383); - VoicePar[nvoice].PFMDetuneType=xml->getpar127("detune_type",VoicePar[nvoice].PFMDetuneType); + if(xml->enterbranch("MODULATOR")) { + VoicePar[nvoice].PFMDetune = + xml->getpar("detune", VoicePar[nvoice].PFMDetune, 0, 16383); + VoicePar[nvoice].PFMCoarseDetune = xml->getpar( + "coarse_detune", + VoicePar[nvoice]. + PFMCoarseDetune, + 0, + 16383); + VoicePar[nvoice].PFMDetuneType = xml->getpar127( + "detune_type", + VoicePar[nvoice]. + PFMDetuneType); - VoicePar[nvoice].PFMFreqEnvelopeEnabled=xml->getparbool("freq_envelope_enabled",VoicePar[nvoice].PFMFreqEnvelopeEnabled); - if (xml->enterbranch("FREQUENCY_ENVELOPE")) { + VoicePar[nvoice].PFMFreqEnvelopeEnabled = xml->getparbool( + "freq_envelope_enabled", + VoicePar[nvoice].PFMFreqEnvelopeEnabled); + if(xml->enterbranch("FREQUENCY_ENVELOPE")) { VoicePar[nvoice].FMFreqEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("OSCIL")) { + if(xml->enterbranch("OSCIL")) { VoicePar[nvoice].FMSmp->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } xml->exitbranch(); - }; -}; - + } +} diff --git a/plugins/zynaddsubfx/src/Params/ADnoteParameters.h b/plugins/zynaddsubfx/src/Params/ADnoteParameters.h index df5380379..ee5a632bd 100644 --- a/plugins/zynaddsubfx/src/Params/ADnoteParameters.h +++ b/plugins/zynaddsubfx/src/Params/ADnoteParameters.h @@ -35,7 +35,9 @@ #include "../DSP/FFTwrapper.h" #include "Presets.h" -enum FMTYPE {NONE,MORPH,RING_MOD,PHASE_MOD,FREQ_MOD,PITCH_MOD}; +enum FMTYPE { + NONE, MORPH, RING_MOD, PHASE_MOD, FREQ_MOD, PITCH_MOD +}; extern int ADnote_unison_sizes[]; /*****************************************************************/ @@ -43,7 +45,6 @@ extern int ADnote_unison_sizes[]; /*****************************************************************/ struct ADnoteGlobalParam { - /* The instrument type - MONO/STEREO If the mode is MONO, the panning of voices are not used Stereo=1, Mono=0. */ @@ -54,35 +55,36 @@ struct ADnoteGlobalParam { /****************************************** * FREQUENCY GLOBAL PARAMETERS * ******************************************/ - unsigned short int PDetune;//fine detune - unsigned short int PCoarseDetune;//coarse detune+octave - unsigned char PDetuneType;//detune type + unsigned short int PDetune; //fine detune + unsigned short int PCoarseDetune; //coarse detune+octave + unsigned char PDetuneType; //detune type - unsigned char PBandwidth;//how much the relative fine detunes of the voices are changed + unsigned char PBandwidth; //how much the relative fine detunes of the voices are changed - EnvelopeParams *FreqEnvelope; //Frequency Envelope + EnvelopeParams *FreqEnvelope; //Frequency Envelope - LFOParams *FreqLfo;//Frequency LFO + LFOParams *FreqLfo; //Frequency LFO /******************************************** * AMPLITUDE GLOBAL PARAMETERS * ********************************************/ /* Panning - 0 - random - 1 - left - 64 - center - 127 - right */ - unsigned char PPanning; + 1 - left + 64 - center + 127 - right */ + unsigned char PPanning; - unsigned char PVolume; + unsigned char PVolume; - unsigned char PAmpVelocityScaleFunction; + unsigned char PAmpVelocityScaleFunction; EnvelopeParams *AmpEnvelope; - LFOParams *AmpLfo; + LFOParams *AmpLfo; - unsigned char PPunchStrength,PPunchTime,PPunchStretch,PPunchVelocitySensing; + unsigned char PPunchStrength, PPunchTime, PPunchStretch, + PPunchVelocitySensing; /****************************************** * FILTER GLOBAL PARAMETERS * @@ -93,11 +95,11 @@ struct ADnoteGlobalParam { unsigned char PFilterVelocityScale; // filter velocity sensing - unsigned char PFilterVelocityScaleFunction; + unsigned char PFilterVelocityScaleFunction; EnvelopeParams *FilterEnvelope; - LFOParams *FilterLfo; + LFOParams *FilterLfo; // RESONANCE Resonance *Reson; @@ -112,27 +114,26 @@ struct ADnoteGlobalParam { /* VOICE PARAMETERS */ /***********************************************************/ struct ADnoteVoiceParam { - /** If the voice is enabled */ unsigned char Enabled; - /** How many subvoices are used in this voice */ - unsigned char Unison_size; + /** How many subvoices are used in this voice */ + unsigned char Unison_size; - /** How subvoices are spread */ - unsigned char Unison_frequency_spread; + /** How subvoices are spread */ + unsigned char Unison_frequency_spread; - /** Stereo spread of the subvoices*/ - unsigned char Unison_stereo_spread; - - /** Vibratto of the subvoices (which makes the unison more "natural")*/ - unsigned char Unison_vibratto; + /** Stereo spread of the subvoices*/ + unsigned char Unison_stereo_spread; - /** Medium speed of the vibratto of the subvoices*/ - unsigned char Unison_vibratto_speed; + /** Vibratto of the subvoices (which makes the unison more "natural")*/ + unsigned char Unison_vibratto; - /** Unison invert phase */ - unsigned char Unison_invert_phase;//0=none,1=random,2=50%,3=33%,4=25% + /** Medium speed of the vibratto of the subvoices*/ + unsigned char Unison_vibratto_speed; + + /** Unison invert phase */ + unsigned char Unison_invert_phase; //0=none,1=random,2=50%,3=33%,4=25% /** Type of the voice (0=Sound,1=Noise)*/ unsigned char Type; @@ -144,11 +145,11 @@ struct ADnoteVoiceParam { unsigned char Presonance; // What external oscil should I use, -1 for internal OscilSmp&FMSmp - short int Pextoscil,PextFMoscil; + short int Pextoscil, PextFMoscil; // it is not allowed that the externoscil,externFMoscil => current voice // oscillator phases - unsigned char Poscilphase,PFMoscilphase; + unsigned char Poscilphase, PFMoscilphase; // filter bypass unsigned char Pfilterbypass; @@ -178,12 +179,12 @@ struct ADnoteVoiceParam { unsigned char PDetuneType; /* Frequency Envelope */ - unsigned char PFreqEnvelopeEnabled; + unsigned char PFreqEnvelopeEnabled; EnvelopeParams *FreqEnvelope; /* Frequency LFO */ unsigned char PFreqLfoEnabled; - LFOParams *FreqLfo; + LFOParams *FreqLfo; /*************************** @@ -191,9 +192,9 @@ struct ADnoteVoiceParam { ***************************/ /* Panning 0 - random - 1 - left - 64 - center - 127 - right + 1 - left + 64 - center + 127 - right The Panning is ignored if the instrument is mono */ unsigned char PPanning; @@ -207,12 +208,12 @@ struct ADnoteVoiceParam { unsigned char PAmpVelocityScaleFunction; /* Amplitude Envelope */ - unsigned char PAmpEnvelopeEnabled; + unsigned char PAmpEnvelopeEnabled; EnvelopeParams *AmpEnvelope; /* Amplitude LFO */ unsigned char PAmpLfoEnabled; - LFOParams *AmpLfo; + LFOParams *AmpLfo; @@ -225,12 +226,12 @@ struct ADnoteVoiceParam { FilterParams *VoiceFilter; /* Filter Envelope */ - unsigned char PFilterEnvelopeEnabled; + unsigned char PFilterEnvelopeEnabled; EnvelopeParams *FilterEnvelope; /* LFO Envelope */ unsigned char PFilterLfoEnabled; - LFOParams *FilterLfo; + LFOParams *FilterLfo; /**************************** * MODULLATOR PARAMETERS * @@ -266,40 +267,41 @@ struct ADnoteVoiceParam { unsigned char PFMDetuneType; /* Frequency Envelope of the Modullator */ - unsigned char PFMFreqEnvelopeEnabled; + unsigned char PFMFreqEnvelopeEnabled; EnvelopeParams *FMFreqEnvelope; /* Frequency Envelope of the Modullator */ - unsigned char PFMAmpEnvelopeEnabled; + unsigned char PFMAmpEnvelopeEnabled; EnvelopeParams *FMAmpEnvelope; }; class ADnoteParameters:public Presets { -public: - ADnoteParameters(FFTwrapper *fft_); - ~ADnoteParameters(); + public: + ADnoteParameters(FFTwrapper *fft_); + ~ADnoteParameters(); - ADnoteGlobalParam GlobalPar; - ADnoteVoiceParam VoicePar[NUM_VOICES]; + ADnoteGlobalParam GlobalPar; + ADnoteVoiceParam VoicePar[NUM_VOICES]; - void defaults(); - void add2XML(XMLwrapper *xml); - void getfromXML(XMLwrapper *xml); + void defaults(); + void add2XML(XMLwrapper *xml); + void getfromXML(XMLwrapper *xml); - REALTYPE getBandwidthDetuneMultiplier(); - REALTYPE getUnisonFrequencySpreadCents(int nvoice); - int get_unison_size_index(int nvoice); - void set_unison_size_index(int nvoice,int index); -private: - void defaults(int n);//n is the nvoice + REALTYPE getBandwidthDetuneMultiplier(); + REALTYPE getUnisonFrequencySpreadCents(int nvoice); + int get_unison_size_index(int nvoice); + void set_unison_size_index(int nvoice, int index); + private: + void defaults(int n); //n is the nvoice - void EnableVoice(int nvoice); - void KillVoice(int nvoice); - FFTwrapper *fft; + void EnableVoice(int nvoice); + void KillVoice(int nvoice); + FFTwrapper *fft; - void add2XMLsection(XMLwrapper *xml,int n); - void getfromXMLsection(XMLwrapper *xml,int n); + void add2XMLsection(XMLwrapper *xml, int n); + void getfromXMLsection(XMLwrapper *xml, int n); }; #endif + diff --git a/plugins/zynaddsubfx/src/Params/Controller.cpp b/plugins/zynaddsubfx/src/Params/Controller.cpp index 2388dd4b6..61a0793e0 100644 --- a/plugins/zynaddsubfx/src/Params/Controller.cpp +++ b/plugins/zynaddsubfx/src/Params/Controller.cpp @@ -28,50 +28,48 @@ Controller::Controller() { defaults(); resetall(); -}; +} Controller::~Controller() -{ -}; +{} void Controller::defaults() { - setpitchwheelbendrange(200);//2 halftones - expression.receive=1; - panning.depth=64; - filtercutoff.depth=64; - filterq.depth=64; - bandwidth.depth=64; - bandwidth.exponential=0; - modwheel.depth=80; - modwheel.exponential=0; - fmamp.receive=1; - volume.receive=1; - sustain.receive=1; - NRPN.receive=1; + setpitchwheelbendrange(200); //2 halftones + expression.receive = 1; + panning.depth = 64; + filtercutoff.depth = 64; + filterq.depth = 64; + bandwidth.depth = 64; + bandwidth.exponential = 0; + modwheel.depth = 80; + modwheel.exponential = 0; + fmamp.receive = 1; + volume.receive = 1; + sustain.receive = 1; + NRPN.receive = 1; - portamento.portamento=0; - portamento.used=0; - portamento.proportional=0; - portamento.propRate=80; - portamento.propDepth=90; - portamento.receive=1; - portamento.time=64; - portamento.updowntimestretch=64; - portamento.pitchthresh=3; - portamento.pitchthreshtype=1; - portamento.noteusing=-1; - resonancecenter.depth=64; - resonancebandwidth.depth=64; + portamento.portamento = 0; + portamento.used = 0; + portamento.proportional = 0; + portamento.propRate = 80; + portamento.propDepth = 90; + portamento.receive = 1; + portamento.time = 64; + portamento.updowntimestretch = 64; + portamento.pitchthresh = 3; + portamento.pitchthreshtype = 1; + portamento.noteusing = -1; + resonancecenter.depth = 64; + resonancebandwidth.depth = 64; - initportamento(440.0,440.0,false); // Now has a third argument + initportamento(440.0, 440.0, false); // Now has a third argument setportamento(0); - -}; +} void Controller::resetall() { - setpitchwheel(0);//center + setpitchwheel(0); //center setexpression(127); setpanning(64); setfiltercutoff(64); @@ -85,276 +83,333 @@ void Controller::resetall() setresonancebw(64); //reset the NRPN - NRPN.parhi=-1; - NRPN.parlo=-1; - NRPN.valhi=-1; - NRPN.vallo=-1; -}; + NRPN.parhi = -1; + NRPN.parlo = -1; + NRPN.valhi = -1; + NRPN.vallo = -1; +} void Controller::setpitchwheel(int value) { - pitchwheel.data=value; - REALTYPE cents=value/8192.0; - cents*=pitchwheel.bendrange; - pitchwheel.relfreq=pow(2,cents/1200.0); + pitchwheel.data = value; + REALTYPE cents = value / 8192.0; + cents *= pitchwheel.bendrange; + pitchwheel.relfreq = pow(2, cents / 1200.0); //fprintf(stderr,"%ld %ld -> %.3f\n",pitchwheel.bendrange,pitchwheel.data,pitchwheel.relfreq);fflush(stderr); -}; +} void Controller::setpitchwheelbendrange(unsigned short int value) { - pitchwheel.bendrange=value; -}; + pitchwheel.bendrange = value; +} void Controller::setexpression(int value) { - expression.data=value; - if (expression.receive!=0) expression.relvolume=value/127.0; - else expression.relvolume=1.0; -}; + expression.data = value; + if(expression.receive != 0) + expression.relvolume = value / 127.0; + else + expression.relvolume = 1.0; +} void Controller::setpanning(int value) { - panning.data=value; - panning.pan=(value/128.0-0.5)*(panning.depth/64.0); -}; + panning.data = value; + panning.pan = (value / 128.0 - 0.5) * (panning.depth / 64.0); +} void Controller::setfiltercutoff(int value) { - filtercutoff.data=value; - filtercutoff.relfreq=(value-64.0)*filtercutoff.depth/4096.0*3.321928;//3.3219..=ln2(10) -}; + filtercutoff.data = value; + filtercutoff.relfreq = + (value - 64.0) * filtercutoff.depth / 4096.0 * 3.321928; //3.3219..=ln2(10) +} void Controller::setfilterq(int value) { - filterq.data=value; - filterq.relq=pow(30.0,(value-64.0)/64.0*(filterq.depth/64.0)); -}; + filterq.data = value; + filterq.relq = pow(30.0, (value - 64.0) / 64.0 * (filterq.depth / 64.0)); +} void Controller::setbandwidth(int value) { - bandwidth.data=value; - if (bandwidth.exponential==0) { - REALTYPE tmp=pow(25.0,pow(bandwidth.depth/127.0,1.5))-1.0; - if ((value<64)&&(bandwidth.depth>=64)) tmp=1.0; - bandwidth.relbw=(value/64.0-1.0)*tmp+1.0; - if (bandwidth.relbw<0.01) bandwidth.relbw=0.01; - } else { - bandwidth.relbw=pow(25.0,(value-64.0)/64.0*(bandwidth.depth/64.0)); - }; -}; + bandwidth.data = value; + if(bandwidth.exponential == 0) { + REALTYPE tmp = pow(25.0, pow(bandwidth.depth / 127.0, 1.5)) - 1.0; + if((value < 64) && (bandwidth.depth >= 64)) + tmp = 1.0; + bandwidth.relbw = (value / 64.0 - 1.0) * tmp + 1.0; + if(bandwidth.relbw < 0.01) + bandwidth.relbw = 0.01; + } + else + bandwidth.relbw = + pow(25.0, (value - 64.0) / 64.0 * (bandwidth.depth / 64.0)); + ; +} void Controller::setmodwheel(int value) { - modwheel.data=value; - if (modwheel.exponential==0) { - REALTYPE tmp=pow(25.0,pow(modwheel.depth/127.0,1.5)*2.0)/25.0; - if ((value<64)&&(modwheel.depth>=64)) tmp=1.0; - modwheel.relmod=(value/64.0-1.0)*tmp+1.0; - if (modwheel.relmod<0.0) modwheel.relmod=0.0; - } else modwheel.relmod=pow(25.0,(value-64.0)/64.0*(modwheel.depth/80.0)); -}; + modwheel.data = value; + if(modwheel.exponential == 0) { + REALTYPE tmp = pow(25.0, pow(modwheel.depth / 127.0, 1.5) * 2.0) / 25.0; + if((value < 64) && (modwheel.depth >= 64)) + tmp = 1.0; + modwheel.relmod = (value / 64.0 - 1.0) * tmp + 1.0; + if(modwheel.relmod < 0.0) + modwheel.relmod = 0.0; + } + else + modwheel.relmod = + pow(25.0, (value - 64.0) / 64.0 * (modwheel.depth / 80.0)); +} void Controller::setfmamp(int value) { - fmamp.data=value; - fmamp.relamp=value/127.0; - if (fmamp.receive!=0) fmamp.relamp=value/127.0; - else fmamp.relamp=1.0; -}; + fmamp.data = value; + fmamp.relamp = value / 127.0; + if(fmamp.receive != 0) + fmamp.relamp = value / 127.0; + else + fmamp.relamp = 1.0; +} void Controller::setvolume(int value) { - volume.data=value; - if (volume.receive!=0) volume.volume=pow(0.1,(127-value)/127.0*2.0); - else volume.volume=1.0; -}; + volume.data = value; + if(volume.receive != 0) + volume.volume = pow(0.1, (127 - value) / 127.0 * 2.0); + else + volume.volume = 1.0; +} void Controller::setsustain(int value) { - sustain.data=value; - if (sustain.receive!=0) sustain.sustain=((value<64) ? 0 : 1 ); - else sustain.sustain=0; -}; + sustain.data = value; + if(sustain.receive != 0) + sustain.sustain = ((value < 64) ? 0 : 1); + else + sustain.sustain = 0; +} void Controller::setportamento(int value) { - portamento.data=value; - if (portamento.receive!=0) portamento.portamento=((value<64) ? 0 : 1 ); -}; + portamento.data = value; + if(portamento.receive != 0) + portamento.portamento = ((value < 64) ? 0 : 1); +} -int Controller::initportamento(REALTYPE oldfreq,REALTYPE newfreq,bool legatoflag) +int Controller::initportamento(REALTYPE oldfreq, + REALTYPE newfreq, + bool legatoflag) { - portamento.x=0.0; + portamento.x = 0.0; - if (legatoflag) { // Legato in progress - if (portamento.portamento==0) return(0); - } else { // No legato, do the original if...return - if ((portamento.used!=0) || (portamento.portamento==0)) return(0); - }; + if(legatoflag) { // Legato in progress + if(portamento.portamento == 0) + return 0; + } + else // No legato, do the original if...return + if((portamento.used != 0) || (portamento.portamento == 0)) + return 0; + ; - REALTYPE portamentotime=pow(100.0,portamento.time/127.0)/50.0;//portamento time in seconds - - if (portamento.proportional) { + REALTYPE portamentotime = pow(100.0, portamento.time / 127.0) / 50.0; //portamento time in seconds + + if(portamento.proportional) { //If there is a min(float,float) and a max(float,float) then they //could be used here //Linear functors could also make this nicer if(oldfreq > newfreq) //2 is the center of propRate - portamentotime *= pow(oldfreq/newfreq/(portamento.propRate/127.0*3+.05), - (portamento.propDepth/127.0*1.6+.2)); + portamentotime *= + pow(oldfreq / newfreq / (portamento.propRate / 127.0 * 3 + .05), + (portamento.propDepth / 127.0 * 1.6 + .2)); else //1 is the center of propDepth - portamentotime *= pow(newfreq/oldfreq/(portamento.propRate/127.0*3+.05), - (portamento.propDepth/127.0*1.6+.2)); + portamentotime *= + pow(newfreq / oldfreq / (portamento.propRate / 127.0 * 3 + .05), + (portamento.propDepth / 127.0 * 1.6 + .2)); } - if ((portamento.updowntimestretch>=64)&&(newfreq= 64) && (newfreq < oldfreq)) { + if(portamento.updowntimestretch == 127) + return 0; + portamentotime *= pow(0.1, (portamento.updowntimestretch - 64) / 63.0); + } + if((portamento.updowntimestretch < 64) && (newfreq > oldfreq)) { + if(portamento.updowntimestretch == 0) + return 0; + portamentotime *= pow(0.1, (64.0 - portamento.updowntimestretch) / 64.0); } - if ((portamento.updowntimestretch<64)&&(newfreq>oldfreq)) { - if (portamento.updowntimestretch==0) return(0); - portamentotime*=pow(0.1,(64.0-portamento.updowntimestretch)/64.0); - }; //printf("%f->%f : Time %f\n",oldfreq,newfreq,portamentotime); - portamento.dx=SOUND_BUFFER_SIZE/(portamentotime*SAMPLE_RATE); - portamento.origfreqrap=oldfreq/newfreq; + portamento.dx = SOUND_BUFFER_SIZE / (portamentotime * SAMPLE_RATE); + portamento.origfreqrap = oldfreq / newfreq; - REALTYPE tmprap=( (portamento.origfreqrap>1.0) ? - (portamento.origfreqrap) : - (1.0/portamento.origfreqrap) ); + REALTYPE tmprap = ((portamento.origfreqrap > 1.0) ? + (portamento.origfreqrap) : + (1.0 / portamento.origfreqrap)); - REALTYPE thresholdrap=pow(2.0,portamento.pitchthresh/12.0); - if ((portamento.pitchthreshtype==0) && (tmprap-0.00001>thresholdrap) ) return(0); - if ((portamento.pitchthreshtype==1) && (tmprap+0.00001 thresholdrap)) + return 0; + if((portamento.pitchthreshtype == 1) && (tmprap + 0.00001 < thresholdrap)) + return 0; - portamento.used=1; - portamento.freqrap=portamento.origfreqrap; - return (1); -}; + portamento.used = 1; + portamento.freqrap = portamento.origfreqrap; + return 1; +} void Controller::updateportamento() { - if (portamento.used==0) return; + if(portamento.used == 0) + return; - portamento.x+=portamento.dx; - if (portamento.x>1.0) { - portamento.x=1.0; - portamento.used=0; - }; - portamento.freqrap=(1.0-portamento.x)*portamento.origfreqrap+portamento.x; -}; + portamento.x += portamento.dx; + if(portamento.x > 1.0) { + portamento.x = 1.0; + portamento.used = 0; + } + portamento.freqrap = + (1.0 - portamento.x) * portamento.origfreqrap + portamento.x; +} void Controller::setresonancecenter(int value) { - resonancecenter.data=value; - resonancecenter.relcenter=pow(3.0,(value-64.0)/64.0*(resonancecenter.depth/64.0)); -}; + resonancecenter.data = value; + resonancecenter.relcenter = + pow(3.0, (value - 64.0) / 64.0 * (resonancecenter.depth / 64.0)); +} void Controller::setresonancebw(int value) { - resonancebandwidth.data=value; - resonancebandwidth.relbw=pow(1.5,(value-64.0)/64.0*(resonancebandwidth.depth/127.0)); -}; + resonancebandwidth.data = value; + resonancebandwidth.relbw = + pow(1.5, (value - 64.0) / 64.0 * (resonancebandwidth.depth / 127.0)); +} //Returns 0 if there is NRPN or 1 if there is not int Controller::getnrpn(int *parhi, int *parlo, int *valhi, int *vallo) { - if (NRPN.receive==0) return(1); - if ((NRPN.parhi<0)||(NRPN.parlo<0)||(NRPN.valhi<0)||(NRPN.vallo<0)) - return(1); + if(NRPN.receive == 0) + return 1; + if((NRPN.parhi < 0) || (NRPN.parlo < 0) || (NRPN.valhi < 0) + || (NRPN.vallo < 0)) + return 1; - *parhi=NRPN.parhi; - *parlo=NRPN.parlo; - *valhi=NRPN.valhi; - *vallo=NRPN.vallo; - return(0); -}; + *parhi = NRPN.parhi; + *parlo = NRPN.parlo; + *valhi = NRPN.valhi; + *vallo = NRPN.vallo; + return 0; +} -void Controller::setparameternumber(unsigned int type,int value) +void Controller::setparameternumber(unsigned int type, int value) { - switch (type) { + switch(type) { case C_nrpnhi: - NRPN.parhi=value; - NRPN.valhi=-1; - NRPN.vallo=-1;//clear the values + NRPN.parhi = value; + NRPN.valhi = -1; + NRPN.vallo = -1; //clear the values break; case C_nrpnlo: - NRPN.parlo=value; - NRPN.valhi=-1; - NRPN.vallo=-1;//clear the values + NRPN.parlo = value; + NRPN.valhi = -1; + NRPN.vallo = -1; //clear the values break; case C_dataentryhi: - if ((NRPN.parhi>=0)&&(NRPN.parlo>=0)) NRPN.valhi=value; + if((NRPN.parhi >= 0) && (NRPN.parlo >= 0)) + NRPN.valhi = value; break; case C_dataentrylo: - if ((NRPN.parhi>=0)&&(NRPN.parlo>=0)) NRPN.vallo=value; + if((NRPN.parhi >= 0) && (NRPN.parlo >= 0)) + NRPN.vallo = value; break; - }; -}; + } +} void Controller::add2XML(XMLwrapper *xml) { - xml->addpar("pitchwheel_bendrange",pitchwheel.bendrange); + xml->addpar("pitchwheel_bendrange", pitchwheel.bendrange); - xml->addparbool("expression_receive",expression.receive); - xml->addpar("panning_depth",panning.depth); - xml->addpar("filter_cutoff_depth",filtercutoff.depth); - xml->addpar("filter_q_depth",filterq.depth); - xml->addpar("bandwidth_depth",bandwidth.depth); - xml->addpar("mod_wheel_depth",modwheel.depth); - xml->addparbool("mod_wheel_exponential",modwheel.exponential); - xml->addparbool("fm_amp_receive",fmamp.receive); - xml->addparbool("volume_receive",volume.receive); - xml->addparbool("sustain_receive",sustain.receive); + xml->addparbool("expression_receive", expression.receive); + xml->addpar("panning_depth", panning.depth); + xml->addpar("filter_cutoff_depth", filtercutoff.depth); + xml->addpar("filter_q_depth", filterq.depth); + xml->addpar("bandwidth_depth", bandwidth.depth); + xml->addpar("mod_wheel_depth", modwheel.depth); + xml->addparbool("mod_wheel_exponential", modwheel.exponential); + xml->addparbool("fm_amp_receive", fmamp.receive); + xml->addparbool("volume_receive", volume.receive); + xml->addparbool("sustain_receive", sustain.receive); - xml->addparbool("portamento_receive",portamento.receive); - xml->addpar("portamento_time",portamento.time); - xml->addpar("portamento_pitchthresh",portamento.pitchthresh); - xml->addpar("portamento_pitchthreshtype",portamento.pitchthreshtype); - xml->addpar("portamento_portamento",portamento.portamento); - xml->addpar("portamento_updowntimestretch",portamento.updowntimestretch); - xml->addpar("portamento_proportional",portamento.proportional); - xml->addpar("portamento_proprate",portamento.propRate); - xml->addpar("portamento_propdepth",portamento.propDepth); + xml->addparbool("portamento_receive", portamento.receive); + xml->addpar("portamento_time", portamento.time); + xml->addpar("portamento_pitchthresh", portamento.pitchthresh); + xml->addpar("portamento_pitchthreshtype", portamento.pitchthreshtype); + xml->addpar("portamento_portamento", portamento.portamento); + xml->addpar("portamento_updowntimestretch", portamento.updowntimestretch); + xml->addpar("portamento_proportional", portamento.proportional); + xml->addpar("portamento_proprate", portamento.propRate); + xml->addpar("portamento_propdepth", portamento.propDepth); - xml->addpar("resonance_center_depth",resonancecenter.depth); - xml->addpar("resonance_bandwidth_depth",resonancebandwidth.depth); -}; + xml->addpar("resonance_center_depth", resonancecenter.depth); + xml->addpar("resonance_bandwidth_depth", resonancebandwidth.depth); +} void Controller::getfromXML(XMLwrapper *xml) { - pitchwheel.bendrange=xml->getpar("pitchwheel_bendrange",pitchwheel.bendrange,-6400,6400); + pitchwheel.bendrange = xml->getpar("pitchwheel_bendrange", + pitchwheel.bendrange, + -6400, + 6400); - expression.receive=xml->getparbool("expression_receive",expression.receive); - panning.depth=xml->getpar127("panning_depth",panning.depth); - filtercutoff.depth=xml->getpar127("filter_cutoff_depth",filtercutoff.depth); - filterq.depth=xml->getpar127("filter_q_depth",filterq.depth); - bandwidth.depth=xml->getpar127("bandwidth_depth",bandwidth.depth); - modwheel.depth=xml->getpar127("mod_wheel_depth",modwheel.depth); - modwheel.exponential=xml->getparbool("mod_wheel_exponential",modwheel.exponential); - fmamp.receive=xml->getparbool("fm_amp_receive",fmamp.receive); - volume.receive=xml->getparbool("volume_receive",volume.receive); - sustain.receive=xml->getparbool("sustain_receive",sustain.receive); + expression.receive = xml->getparbool("expression_receive", + expression.receive); + panning.depth = xml->getpar127("panning_depth", panning.depth); + filtercutoff.depth = xml->getpar127("filter_cutoff_depth", + filtercutoff.depth); + filterq.depth = xml->getpar127("filter_q_depth", filterq.depth); + bandwidth.depth = xml->getpar127("bandwidth_depth", bandwidth.depth); + modwheel.depth = xml->getpar127("mod_wheel_depth", modwheel.depth); + modwheel.exponential = xml->getparbool("mod_wheel_exponential", + modwheel.exponential); + fmamp.receive = xml->getparbool("fm_amp_receive", + fmamp.receive); + volume.receive = xml->getparbool("volume_receive", + volume.receive); + sustain.receive = xml->getparbool("sustain_receive", + sustain.receive); - portamento.receive=xml->getparbool("portamento_receive",portamento.receive); - portamento.time=xml->getpar127("portamento_time",portamento.time); - portamento.pitchthresh=xml->getpar127("portamento_pitchthresh",portamento.pitchthresh); - portamento.pitchthreshtype=xml->getpar127("portamento_pitchthreshtype",portamento.pitchthreshtype); - portamento.portamento=xml->getpar127("portamento_portamento",portamento.portamento); - portamento.updowntimestretch=xml->getpar127("portamento_updowntimestretch",portamento.updowntimestretch); - portamento.proportional=xml->getpar127("portamento_proportional",portamento.proportional); - portamento.propRate=xml->getpar127("portamento_proprate",portamento.propRate); - portamento.propDepth=xml->getpar127("portamento_propdepth",portamento.propDepth); - - - resonancecenter.depth=xml->getpar127("resonance_center_depth",resonancecenter.depth); - resonancebandwidth.depth=xml->getpar127("resonance_bandwidth_depth",resonancebandwidth.depth); -}; + portamento.receive = xml->getparbool("portamento_receive", + portamento.receive); + portamento.time = xml->getpar127("portamento_time", + portamento.time); + portamento.pitchthresh = xml->getpar127("portamento_pitchthresh", + portamento.pitchthresh); + portamento.pitchthreshtype = xml->getpar127("portamento_pitchthreshtype", + portamento.pitchthreshtype); + portamento.portamento = xml->getpar127("portamento_portamento", + portamento.portamento); + portamento.updowntimestretch = xml->getpar127( + "portamento_updowntimestretch", + portamento.updowntimestretch); + portamento.proportional = xml->getpar127("portamento_proportional", + portamento.proportional); + portamento.propRate = xml->getpar127("portamento_proprate", + portamento.propRate); + portamento.propDepth = xml->getpar127("portamento_propdepth", + portamento.propDepth); + resonancecenter.depth = xml->getpar127("resonance_center_depth", + resonancecenter.depth); + resonancebandwidth.depth = xml->getpar127("resonance_bandwidth_depth", + resonancebandwidth.depth); +} diff --git a/plugins/zynaddsubfx/src/Params/Controller.h b/plugins/zynaddsubfx/src/Params/Controller.h index 3e5ededac..86a4badbb 100644 --- a/plugins/zynaddsubfx/src/Params/Controller.h +++ b/plugins/zynaddsubfx/src/Params/Controller.h @@ -30,191 +30,191 @@ /**(Midi) Controllers implementation*/ class Controller { -public: - Controller(); - ~Controller(); - void resetall(); + public: + Controller(); + ~Controller(); + void resetall(); - void add2XML(XMLwrapper *xml); - void defaults(); - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + void getfromXML(XMLwrapper *xml); - //Controllers functions - void setpitchwheel(int value); - void setpitchwheelbendrange(unsigned short int value); - void setexpression(int value); - void setpanning(int value); - void setfiltercutoff(int value); - void setfilterq(int value); - void setbandwidth(int value); - void setmodwheel(int value); - void setfmamp(int value); - void setvolume(int value); - void setsustain(int value); - /**Enable or disable portamento - * @param value 0-127 MIDI value (greater than 64 enables)*/ - void setportamento(int value); - void setresonancecenter(int value); - void setresonancebw(int value); + //Controllers functions + void setpitchwheel(int value); + void setpitchwheelbendrange(unsigned short int value); + void setexpression(int value); + void setpanning(int value); + void setfiltercutoff(int value); + void setfilterq(int value); + void setbandwidth(int value); + void setmodwheel(int value); + void setfmamp(int value); + void setvolume(int value); + void setsustain(int value); + /**Enable or disable portamento + * @param value 0-127 MIDI value (greater than 64 enables)*/ + void setportamento(int value); + void setresonancecenter(int value); + void setresonancebw(int value); - void setparameternumber(unsigned int type,int value);//used for RPN and NRPN's - int getnrpn(int *parhi, int *parlo, int *valhi, int *vallo); + void setparameternumber(unsigned int type, int value); //used for RPN and NRPN's + int getnrpn(int *parhi, int *parlo, int *valhi, int *vallo); - /** - * Initialize a portamento - * - * @param oldfreq Starting frequency of the portamento (Hz) - * @param newfreq Ending frequency of the portamento (Hz) - * @param legatoflag true when legato is in progress, false otherwise - * @returns 1 if properly initialized, 0 otherwise*/ - int initportamento(REALTYPE oldfreq,REALTYPE newfreq,bool legatoflag); - /**Update portamento's freqrap to next value based upon dx*/ - void updateportamento(); - - // Controllers values - struct {//Pitch Wheel - int data; - short int bendrange;//bendrange is in cents - REALTYPE relfreq;//the relative frequency (default is 1.0) - } pitchwheel; - - struct {//Expression - int data; - REALTYPE relvolume; - unsigned char receive; - } expression; - - struct {//Panning - int data; - REALTYPE pan; - unsigned char depth; - } panning; - - - struct {//Filter cutoff - int data; - REALTYPE relfreq; - unsigned char depth; - } filtercutoff; - - struct {//Filter Q - int data; - REALTYPE relq; - unsigned char depth; - } filterq; - - struct {//Bandwidth - int data; - REALTYPE relbw; - unsigned char depth; - unsigned char exponential; - } bandwidth; - - struct {//Modulation Wheel - int data; - REALTYPE relmod; - unsigned char depth; - unsigned char exponential; - } modwheel; - - struct {//FM amplitude - int data; - REALTYPE relamp; - unsigned char receive; - } fmamp; - - struct {//Volume - int data; - REALTYPE volume; - unsigned char receive; - } volume; - - struct {//Sustain - int data,sustain; - unsigned char receive; - } sustain; - - struct {/** #include "EnvelopeParams.h" -EnvelopeParams::EnvelopeParams(unsigned char Penvstretch_,unsigned char Pforcedrelease_):Presets() +EnvelopeParams::EnvelopeParams(unsigned char Penvstretch_, + unsigned char Pforcedrelease_):Presets() { int i; - PA_dt=10; - PD_dt=10; - PR_dt=10; - PA_val=64; - PD_val=64; - PS_val=64; - PR_val=64; + PA_dt = 10; + PD_dt = 10; + PR_dt = 10; + PA_val = 64; + PD_val = 64; + PS_val = 64; + PR_val = 64; - for (i=0;iaddparbool("free_mode",Pfreemode); - xml->addpar("env_points",Penvpoints); - xml->addpar("env_sustain",Penvsustain); - xml->addpar("env_stretch",Penvstretch); - xml->addparbool("forced_release",Pforcedrelease); - xml->addparbool("linear_envelope",Plinearenvelope); - xml->addpar("A_dt",PA_dt); - xml->addpar("D_dt",PD_dt); - xml->addpar("R_dt",PR_dt); - xml->addpar("A_val",PA_val); - xml->addpar("D_val",PD_val); - xml->addpar("S_val",PS_val); - xml->addpar("R_val",PR_val); + xml->addparbool("free_mode", Pfreemode); + xml->addpar("env_points", Penvpoints); + xml->addpar("env_sustain", Penvsustain); + xml->addpar("env_stretch", Penvstretch); + xml->addparbool("forced_release", Pforcedrelease); + xml->addparbool("linear_envelope", Plinearenvelope); + xml->addpar("A_dt", PA_dt); + xml->addpar("D_dt", PD_dt); + xml->addpar("R_dt", PR_dt); + xml->addpar("A_val", PA_val); + xml->addpar("D_val", PD_val); + xml->addpar("S_val", PS_val); + xml->addpar("R_val", PR_val); - if ((Pfreemode!=0)||(!xml->minimal)) { - for (int i=0;ibeginbranch("POINT",i); - if (i!=0) xml->addpar("dt",Penvdt[i]); - xml->addpar("val",Penvval[i]); + if((Pfreemode != 0) || (!xml->minimal)) { + for(int i = 0; i < Penvpoints; i++) { + xml->beginbranch("POINT", i); + if(i != 0) + xml->addpar("dt", Penvdt[i]); + xml->addpar("val", Penvval[i]); xml->endbranch(); - }; - }; -}; + } + } +} void EnvelopeParams::getfromXML(XMLwrapper *xml) { - Pfreemode=xml->getparbool("free_mode",Pfreemode); - Penvpoints=xml->getpar127("env_points",Penvpoints); - Penvsustain=xml->getpar127("env_sustain",Penvsustain); - Penvstretch=xml->getpar127("env_stretch",Penvstretch); - Pforcedrelease=xml->getparbool("forced_release",Pforcedrelease); - Plinearenvelope=xml->getparbool("linear_envelope",Plinearenvelope); + Pfreemode = xml->getparbool("free_mode", Pfreemode); + Penvpoints = xml->getpar127("env_points", Penvpoints); + Penvsustain = xml->getpar127("env_sustain", Penvsustain); + Penvstretch = xml->getpar127("env_stretch", Penvstretch); + Pforcedrelease = xml->getparbool("forced_release", Pforcedrelease); + Plinearenvelope = xml->getparbool("linear_envelope", Plinearenvelope); - PA_dt=xml->getpar127("A_dt",PA_dt); - PD_dt=xml->getpar127("D_dt",PD_dt); - PR_dt=xml->getpar127("R_dt",PR_dt); - PA_val=xml->getpar127("A_val",PA_val); - PD_val=xml->getpar127("D_val",PD_val); - PS_val=xml->getpar127("S_val",PS_val); - PR_val=xml->getpar127("R_val",PR_val); + PA_dt = xml->getpar127("A_dt", PA_dt); + PD_dt = xml->getpar127("D_dt", PD_dt); + PR_dt = xml->getpar127("R_dt", PR_dt); + PA_val = xml->getpar127("A_val", PA_val); + PD_val = xml->getpar127("D_val", PD_val); + PS_val = xml->getpar127("S_val", PS_val); + PR_val = xml->getpar127("R_val", PR_val); - for (int i=0;ienterbranch("POINT",i)==0) continue; - if (i!=0) Penvdt[i]=xml->getpar127("dt",Penvdt[i]); - Penvval[i]=xml->getpar127("val",Penvval[i]); + for(int i = 0; i < Penvpoints; i++) { + if(xml->enterbranch("POINT", i) == 0) + continue; + if(i != 0) + Penvdt[i] = xml->getpar127("dt", Penvdt[i]); + Penvval[i] = xml->getpar127("val", Penvval[i]); xml->exitbranch(); - }; + } - if (!Pfreemode) converttofree(); -}; + if(!Pfreemode) + converttofree(); +} void EnvelopeParams::defaults() { - Penvstretch=Denvstretch; - Pforcedrelease=Dforcedrelease; - Plinearenvelope=Dlinearenvelope; - PA_dt=DA_dt; - PD_dt=DD_dt; - PR_dt=DR_dt; - PA_val=DA_val; - PD_val=DD_val; - PS_val=DS_val; - PR_val=DR_val; - Pfreemode=0; + Penvstretch = Denvstretch; + Pforcedrelease = Dforcedrelease; + Plinearenvelope = Dlinearenvelope; + PA_dt = DA_dt; + PD_dt = DD_dt; + PR_dt = DR_dt; + PA_val = DA_val; + PD_val = DD_val; + PS_val = DS_val; + PR_val = DR_val; + Pfreemode = 0; converttofree(); -}; +} void EnvelopeParams::store2defaults() { - Denvstretch=Penvstretch; - Dforcedrelease=Pforcedrelease; - Dlinearenvelope=Plinearenvelope; - DA_dt=PA_dt; - DD_dt=PD_dt; - DR_dt=PR_dt; - DA_val=PA_val; - DD_val=PD_val; - DS_val=PS_val; - DR_val=PR_val; -}; + Denvstretch = Penvstretch; + Dforcedrelease = Pforcedrelease; + Dlinearenvelope = Plinearenvelope; + DA_dt = PA_dt; + DD_dt = PD_dt; + DR_dt = PR_dt; + DA_val = PA_val; + DD_val = PD_val; + DS_val = PS_val; + DR_val = PR_val; +} diff --git a/plugins/zynaddsubfx/src/Params/EnvelopeParams.h b/plugins/zynaddsubfx/src/Params/EnvelopeParams.h index d7d44c859..e2fcf3ec8 100644 --- a/plugins/zynaddsubfx/src/Params/EnvelopeParams.h +++ b/plugins/zynaddsubfx/src/Params/EnvelopeParams.h @@ -32,54 +32,58 @@ class EnvelopeParams:public Presets { -public: - EnvelopeParams(unsigned char Penvstretch_,unsigned char Pforcedrelease_); - ~EnvelopeParams(); - void ADSRinit(char A_dt,char D_dt,char S_val,char R_dt); - void ADSRinit_dB(char A_dt,char D_dt,char S_val,char R_dt); - void ASRinit(char A_val,char A_dt,char R_val,char R_dt); - void ADSRinit_filter(char A_val,char A_dt,char D_val,char D_dt,char R_dt,char R_val); - void ASRinit_bw(char A_val,char A_dt,char R_val,char R_dt); - void converttofree(); + public: + EnvelopeParams(unsigned char Penvstretch_, + unsigned char Pforcedrelease_); + ~EnvelopeParams(); + void ADSRinit(char A_dt, char D_dt, char S_val, char R_dt); + void ADSRinit_dB(char A_dt, char D_dt, char S_val, char R_dt); + void ASRinit(char A_val, char A_dt, char R_val, char R_dt); + void ADSRinit_filter(char A_val, + char A_dt, + char D_val, + char D_dt, + char R_dt, + char R_val); + void ASRinit_bw(char A_val, char A_dt, char R_val, char R_dt); + void converttofree(); - void add2XML(XMLwrapper *xml); - void defaults(); - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + void getfromXML(XMLwrapper *xml); - REALTYPE getdt(char i); + REALTYPE getdt(char i); - /* MIDI Parameters */ - unsigned char Pfreemode;//1 daca este in modul free sau 0 daca este in mod ADSR,ASR,... - unsigned char Penvpoints; - unsigned char Penvsustain;//127 pentru dezactivat - unsigned char Penvdt[MAX_ENVELOPE_POINTS]; - unsigned char Penvval[MAX_ENVELOPE_POINTS]; - unsigned char Penvstretch;//64=normal stretch (piano-like), 0=no stretch - unsigned char Pforcedrelease;//0 - OFF, 1 - ON - unsigned char Plinearenvelope;//if the amplitude envelope is linear + /* MIDI Parameters */ + unsigned char Pfreemode; //1 daca este in modul free sau 0 daca este in mod ADSR,ASR,... + unsigned char Penvpoints; + unsigned char Penvsustain; //127 pentru dezactivat + unsigned char Penvdt[MAX_ENVELOPE_POINTS]; + unsigned char Penvval[MAX_ENVELOPE_POINTS]; + unsigned char Penvstretch; //64=normal stretch (piano-like), 0=no stretch + unsigned char Pforcedrelease; //0 - OFF, 1 - ON + unsigned char Plinearenvelope; //if the amplitude envelope is linear - unsigned char PA_dt,PD_dt,PR_dt, - PA_val,PD_val,PS_val,PR_val; + unsigned char PA_dt, PD_dt, PR_dt, + PA_val, PD_val, PS_val, PR_val; - int Envmode;// 1 for ADSR parameters (linear amplitude) - // 2 for ADSR_dB parameters (dB amplitude) - // 3 for ASR parameters (frequency LFO) - // 4 for ADSR_filter parameters (filter parameters) - // 5 for ASR_bw parameters (bandwidth parameters) - -private: - void store2defaults(); - - /* Default parameters */ - unsigned char Denvstretch; - unsigned char Dforcedrelease; - unsigned char Dlinearenvelope; - unsigned char DA_dt,DD_dt,DR_dt, - DA_val,DD_val,DS_val,DR_val; + int Envmode; // 1 for ADSR parameters (linear amplitude) + // 2 for ADSR_dB parameters (dB amplitude) + // 3 for ASR parameters (frequency LFO) + // 4 for ADSR_filter parameters (filter parameters) + // 5 for ASR_bw parameters (bandwidth parameters) + private: + void store2defaults(); + /* Default parameters */ + unsigned char Denvstretch; + unsigned char Dforcedrelease; + unsigned char Dlinearenvelope; + unsigned char DA_dt, DD_dt, DR_dt, + DA_val, DD_val, DS_val, DR_val; }; #endif diff --git a/plugins/zynaddsubfx/src/Params/FilterParams.cpp b/plugins/zynaddsubfx/src/Params/FilterParams.cpp index 861b6d313..a74bf5a99 100644 --- a/plugins/zynaddsubfx/src/Params/FilterParams.cpp +++ b/plugins/zynaddsubfx/src/Params/FilterParams.cpp @@ -25,58 +25,60 @@ #include #include "FilterParams.h" -FilterParams::FilterParams(unsigned char Ptype_,unsigned char Pfreq_,unsigned char Pq_):Presets() +FilterParams::FilterParams(unsigned char Ptype_, + unsigned char Pfreq_, + unsigned char Pq_):Presets() { setpresettype("Pfilter"); - Dtype=Ptype_; - Dfreq=Pfreq_; - Dq=Pq_; + Dtype = Ptype_; + Dfreq = Pfreq_; + Dq = Pq_; - changed=false; + changed = false; defaults(); -}; +} FilterParams::~FilterParams() -{ -}; +{} void FilterParams::defaults() { - Ptype=Dtype; - Pfreq=Dfreq; - Pq=Dq; + Ptype = Dtype; + Pfreq = Dfreq; + Pq = Dq; - Pstages=0; - Pfreqtrack=64; - Pgain=64; - Pcategory=0; + Pstages = 0; + Pfreqtrack = 64; + Pgain = 64; + Pcategory = 0; - Pnumformants=3; - Pformantslowness=64; - for (int j=0;jPtype; - Pfreq=pars->Pfreq; - Pq=pars->Pq; + Ptype = pars->Ptype; + Pfreq = pars->Pfreq; + Pq = pars->Pq; - Pstages=pars->Pstages; - Pfreqtrack=pars->Pfreqtrack; - Pgain=pars->Pgain; - Pcategory=pars->Pcategory; + Pstages = pars->Pstages; + Pfreqtrack = pars->Pfreqtrack; + Pgain = pars->Pgain; + Pcategory = pars->Pcategory; - Pnumformants=pars->Pnumformants; - Pformantslowness=pars->Pformantslowness; - for (int j=0;jPvowels[j].formants[i].freq; - Pvowels[j].formants[i].q=pars->Pvowels[j].formants[i].q; - Pvowels[j].formants[i].amp=pars->Pvowels[j].formants[i].amp; - }; - }; + Pnumformants = pars->Pnumformants; + Pformantslowness = pars->Pformantslowness; + for(int j = 0; j < FF_MAX_VOWELS; j++) { + for(int i = 0; i < FF_MAX_FORMANTS; i++) { + Pvowels[j].formants[i].freq = pars->Pvowels[j].formants[i].freq; + Pvowels[j].formants[i].q = pars->Pvowels[j].formants[i].q; + Pvowels[j].formants[i].amp = pars->Pvowels[j].formants[i].amp; + } + } - Psequencesize=pars->Psequencesize; - for (int i=0;iPsequence[i].nvowel; + Psequencesize = pars->Psequencesize; + for(int i = 0; i < FF_MAX_SEQUENCE; i++) + Psequence[i].nvowel = pars->Psequence[i].nvowel; - Psequencestretch=pars->Psequencestretch; - Psequencereversed=pars->Psequencereversed; - Pcenterfreq=pars->Pcenterfreq; - Poctavesfreq=pars->Poctavesfreq; - Pvowelclearness=pars->Pvowelclearness; -}; + Psequencestretch = pars->Psequencestretch; + Psequencereversed = pars->Psequencereversed; + Pcenterfreq = pars->Pcenterfreq; + Poctavesfreq = pars->Poctavesfreq; + Pvowelclearness = pars->Pvowelclearness; +} /* @@ -124,243 +128,264 @@ void FilterParams::getfromFilterParams(FilterParams *pars) */ REALTYPE FilterParams::getfreq() { - return((Pfreq/64.0-1.0)*5.0); -}; + return (Pfreq / 64.0 - 1.0) * 5.0; +} REALTYPE FilterParams::getq() { - return(exp(pow((REALTYPE) Pq/127.0,2)*log(1000.0))-0.9); -}; + return exp(pow((REALTYPE) Pq / 127.0, 2) * log(1000.0)) - 0.9; +} REALTYPE FilterParams::getfreqtracking(REALTYPE notefreq) { - return(log(notefreq/440.0)*(Pfreqtrack-64.0)/(64.0*LOG_2)); -}; + return log(notefreq / 440.0) * (Pfreqtrack - 64.0) / (64.0 * LOG_2); +} REALTYPE FilterParams::getgain() { - return((Pgain/64.0-1.0)*30.0);//-30..30dB -}; + return (Pgain / 64.0 - 1.0) * 30.0; //-30..30dB +} /* * Get the center frequency of the formant's graph */ REALTYPE FilterParams::getcenterfreq() { - return(10000.0*pow(10,-(1.0-Pcenterfreq/127.0)*2.0)); -}; + return 10000.0 * pow(10, -(1.0 - Pcenterfreq / 127.0) * 2.0); +} /* * Get the number of octave that the formant functions applies to */ REALTYPE FilterParams::getoctavesfreq() { - return(0.25+10.0*Poctavesfreq/127.0); -}; + return 0.25 + 10.0 * Poctavesfreq / 127.0; +} /* * Get the frequency from x, where x is [0..1] */ REALTYPE FilterParams::getfreqx(REALTYPE x) { - if (x>1.0) x=1.0; - REALTYPE octf=pow(2.0,getoctavesfreq()); - return(getcenterfreq()/sqrt(octf)*pow(octf,x)); -}; + if(x > 1.0) + x = 1.0; + REALTYPE octf = pow(2.0, getoctavesfreq()); + return getcenterfreq() / sqrt(octf) * pow(octf, x); +} /* * Get the x coordinate from frequency (used by the UI) */ REALTYPE FilterParams::getfreqpos(REALTYPE freq) { - return((log(freq)-log(getfreqx(0.0)))/log(2.0)/getoctavesfreq()); -}; + return (log(freq) - log(getfreqx(0.0))) / log(2.0) / getoctavesfreq(); +} /* * Get the freq. response of the formant filter */ -void FilterParams::formantfilterH(int nvowel,int nfreqs,REALTYPE *freqs) +void FilterParams::formantfilterH(int nvowel, int nfreqs, REALTYPE *freqs) { - REALTYPE c[3],d[3]; - REALTYPE filter_freq,filter_q,filter_amp; - REALTYPE omega,sn,cs,alpha; + REALTYPE c[3], d[3]; + REALTYPE filter_freq, filter_q, filter_amp; + REALTYPE omega, sn, cs, alpha; - for (int i=0;i0) filter_q=(filter_q>1.0 ? pow(filter_q,1.0/(Pstages+1)) : filter_q); + filter_freq = getformantfreq(Pvowels[nvowel].formants[nformant].freq); + filter_q = getformantq(Pvowels[nvowel].formants[nformant].q) * getq(); + if(Pstages > 0) + filter_q = + (filter_q > 1.0 ? pow(filter_q, 1.0 / (Pstages + 1)) : filter_q); - filter_amp=getformantamp(Pvowels[nvowel].formants[nformant].amp); + filter_amp = getformantamp(Pvowels[nvowel].formants[nformant].amp); - if (filter_freq<=(SAMPLE_RATE/2-100.0)) { - omega=2*PI*filter_freq/SAMPLE_RATE; - sn=sin(omega); - cs=cos(omega); - alpha=sn/(2*filter_q); - REALTYPE tmp=1+alpha; - c[0]=alpha/tmp*sqrt(filter_q+1); - c[1]=0; - c[2]=-alpha/tmp*sqrt(filter_q+1); - d[1]=-2*cs/tmp*(-1); - d[2]=(1-alpha)/tmp*(-1); - } else continue; + if(filter_freq <= (SAMPLE_RATE / 2 - 100.0)) { + omega = 2 * PI * filter_freq / SAMPLE_RATE; + sn = sin(omega); + cs = cos(omega); + alpha = sn / (2 * filter_q); + REALTYPE tmp = 1 + alpha; + c[0] = alpha / tmp *sqrt(filter_q + 1); + c[1] = 0; + c[2] = -alpha / tmp *sqrt(filter_q + 1); + d[1] = -2 * cs / tmp * (-1); + d[2] = (1 - alpha) / tmp * (-1); + } + else + continue; - for (int i=0;iSAMPLE_RATE/2) { - for (int tmp=i;tmp SAMPLE_RATE / 2) { + for(int tmp = i; tmp < nfreqs; tmp++) + freqs[tmp] = 0.0; break; - }; - REALTYPE fr=freq/SAMPLE_RATE*PI*2.0; - REALTYPE x=c[0],y=0.0; - for (int n=1;n<3;n++) { - x+=cos(n*fr)*c[n]; - y-=sin(n*fr)*c[n]; - }; - REALTYPE h=x*x+y*y; - x=1.0; - y=0.0; - for (int n=1;n<3;n++) { - x-=cos(n*fr)*d[n]; - y+=sin(n*fr)*d[n]; - }; - h=h/(x*x+y*y); + } + REALTYPE fr = freq / SAMPLE_RATE * PI * 2.0; + REALTYPE x = c[0], y = 0.0; + for(int n = 1; n < 3; n++) { + x += cos(n * fr) * c[n]; + y -= sin(n * fr) * c[n]; + } + REALTYPE h = x * x + y * y; + x = 1.0; + y = 0.0; + for(int n = 1; n < 3; n++) { + x -= cos(n * fr) * d[n]; + y += sin(n * fr) * d[n]; + } + h = h / (x * x + y * y); - freqs[i]+=pow(h,(Pstages+1.0)/2.0)*filter_amp; - }; - }; - for (int i=0;i0.000000001) freqs[i]=rap2dB(freqs[i])+getgain(); - else freqs[i]=-90.0; - }; - -}; + freqs[i] += pow(h, (Pstages + 1.0) / 2.0) * filter_amp; + } + } + for(int i = 0; i < nfreqs; i++) { + if(freqs[i] > 0.000000001) + freqs[i] = rap2dB(freqs[i]) + getgain(); + else + freqs[i] = -90.0; + } +} /* * Transforms a parameter to the real value */ REALTYPE FilterParams::getformantfreq(unsigned char freq) { - REALTYPE result=getfreqx(freq/127.0); - return(result); -}; + REALTYPE result = getfreqx(freq / 127.0); + return result; +} REALTYPE FilterParams::getformantamp(unsigned char amp) { - REALTYPE result=pow(0.1,(1.0-amp/127.0)*4.0); - return(result); -}; + REALTYPE result = pow(0.1, (1.0 - amp / 127.0) * 4.0); + return result; +} REALTYPE FilterParams::getformantq(unsigned char q) { //temp - REALTYPE result=pow(25.0,(q-32.0)/64.0); - return(result); -}; + REALTYPE result = pow(25.0, (q - 32.0) / 64.0); + return result; +} -void FilterParams::add2XMLsection(XMLwrapper *xml,int n) +void FilterParams::add2XMLsection(XMLwrapper *xml, int n) { - int nvowel=n; - for (int nformant=0;nformantbeginbranch("FORMANT",nformant); - xml->addpar("freq",Pvowels[nvowel].formants[nformant].freq); - xml->addpar("amp",Pvowels[nvowel].formants[nformant].amp); - xml->addpar("q",Pvowels[nvowel].formants[nformant].q); + int nvowel = n; + for(int nformant = 0; nformant < FF_MAX_FORMANTS; nformant++) { + xml->beginbranch("FORMANT", nformant); + xml->addpar("freq", Pvowels[nvowel].formants[nformant].freq); + xml->addpar("amp", Pvowels[nvowel].formants[nformant].amp); + xml->addpar("q", Pvowels[nvowel].formants[nformant].q); xml->endbranch(); - }; -}; + } +} void FilterParams::add2XML(XMLwrapper *xml) { //filter parameters - xml->addpar("category",Pcategory); - xml->addpar("type",Ptype); - xml->addpar("freq",Pfreq); - xml->addpar("q",Pq); - xml->addpar("stages",Pstages); - xml->addpar("freq_track",Pfreqtrack); - xml->addpar("gain",Pgain); + xml->addpar("category", Pcategory); + xml->addpar("type", Ptype); + xml->addpar("freq", Pfreq); + xml->addpar("q", Pq); + xml->addpar("stages", Pstages); + xml->addpar("freq_track", Pfreqtrack); + xml->addpar("gain", Pgain); //formant filter parameters - if ((Pcategory==1)||(!xml->minimal)) { + if((Pcategory == 1) || (!xml->minimal)) { xml->beginbranch("FORMANT_FILTER"); - xml->addpar("num_formants",Pnumformants); - xml->addpar("formant_slowness",Pformantslowness); - xml->addpar("vowel_clearness",Pvowelclearness); - xml->addpar("center_freq",Pcenterfreq); - xml->addpar("octaves_freq",Poctavesfreq); - for (int nvowel=0;nvowelbeginbranch("VOWEL",nvowel); - add2XMLsection(xml,nvowel); + xml->addpar("num_formants", Pnumformants); + xml->addpar("formant_slowness", Pformantslowness); + xml->addpar("vowel_clearness", Pvowelclearness); + xml->addpar("center_freq", Pcenterfreq); + xml->addpar("octaves_freq", Poctavesfreq); + for(int nvowel = 0; nvowel < FF_MAX_VOWELS; nvowel++) { + xml->beginbranch("VOWEL", nvowel); + add2XMLsection(xml, nvowel); xml->endbranch(); - }; - xml->addpar("sequence_size",Psequencesize); - xml->addpar("sequence_stretch",Psequencestretch); - xml->addparbool("sequence_reversed",Psequencereversed); - for (int nseq=0;nseqbeginbranch("SEQUENCE_POS",nseq); - xml->addpar("vowel_id",Psequence[nseq].nvowel); + } + xml->addpar("sequence_size", Psequencesize); + xml->addpar("sequence_stretch", Psequencestretch); + xml->addparbool("sequence_reversed", Psequencereversed); + for(int nseq = 0; nseq < FF_MAX_SEQUENCE; nseq++) { + xml->beginbranch("SEQUENCE_POS", nseq); + xml->addpar("vowel_id", Psequence[nseq].nvowel); xml->endbranch(); - }; + } xml->endbranch(); - }; -}; + } +} -void FilterParams::getfromXMLsection(XMLwrapper *xml,int n) +void FilterParams::getfromXMLsection(XMLwrapper *xml, int n) { - int nvowel=n; - for (int nformant=0;nformantenterbranch("FORMANT",nformant)==0) continue; - Pvowels[nvowel].formants[nformant].freq=xml->getpar127("freq",Pvowels[nvowel].formants[nformant].freq); - Pvowels[nvowel].formants[nformant].amp=xml->getpar127("amp",Pvowels[nvowel].formants[nformant].amp); - Pvowels[nvowel].formants[nformant].q=xml->getpar127("q",Pvowels[nvowel].formants[nformant].q); + int nvowel = n; + for(int nformant = 0; nformant < FF_MAX_FORMANTS; nformant++) { + if(xml->enterbranch("FORMANT", nformant) == 0) + continue; + Pvowels[nvowel].formants[nformant].freq = xml->getpar127( + "freq", + Pvowels[nvowel + ].formants[nformant].freq); + Pvowels[nvowel].formants[nformant].amp = xml->getpar127( + "amp", + Pvowels[nvowel + ].formants[nformant].amp); + Pvowels[nvowel].formants[nformant].q = + xml->getpar127("q", Pvowels[nvowel].formants[nformant].q); xml->exitbranch(); - }; -}; + } +} void FilterParams::getfromXML(XMLwrapper *xml) { //filter parameters - Pcategory=xml->getpar127("category",Pcategory); - Ptype=xml->getpar127("type",Ptype); - Pfreq=xml->getpar127("freq",Pfreq); - Pq=xml->getpar127("q",Pq); - Pstages=xml->getpar127("stages",Pstages); - Pfreqtrack=xml->getpar127("freq_track",Pfreqtrack); - Pgain=xml->getpar127("gain",Pgain); + Pcategory = xml->getpar127("category", Pcategory); + Ptype = xml->getpar127("type", Ptype); + Pfreq = xml->getpar127("freq", Pfreq); + Pq = xml->getpar127("q", Pq); + Pstages = xml->getpar127("stages", Pstages); + Pfreqtrack = xml->getpar127("freq_track", Pfreqtrack); + Pgain = xml->getpar127("gain", Pgain); //formant filter parameters - if (xml->enterbranch("FORMANT_FILTER")) { - Pnumformants=xml->getpar127("num_formants",Pnumformants); - Pformantslowness=xml->getpar127("formant_slowness",Pformantslowness); - Pvowelclearness=xml->getpar127("vowel_clearness",Pvowelclearness); - Pcenterfreq=xml->getpar127("center_freq",Pcenterfreq); - Poctavesfreq=xml->getpar127("octaves_freq",Poctavesfreq); + if(xml->enterbranch("FORMANT_FILTER")) { + Pnumformants = xml->getpar127("num_formants", Pnumformants); + Pformantslowness = xml->getpar127("formant_slowness", Pformantslowness); + Pvowelclearness = xml->getpar127("vowel_clearness", Pvowelclearness); + Pcenterfreq = xml->getpar127("center_freq", Pcenterfreq); + Poctavesfreq = xml->getpar127("octaves_freq", Poctavesfreq); - for (int nvowel=0;nvowelenterbranch("VOWEL",nvowel)==0) continue; - getfromXMLsection(xml,nvowel); + for(int nvowel = 0; nvowel < FF_MAX_VOWELS; nvowel++) { + if(xml->enterbranch("VOWEL", nvowel) == 0) + continue; + getfromXMLsection(xml, nvowel); xml->exitbranch(); - }; - Psequencesize=xml->getpar127("sequence_size",Psequencesize); - Psequencestretch=xml->getpar127("sequence_stretch",Psequencestretch); - Psequencereversed=xml->getparbool("sequence_reversed",Psequencereversed); - for (int nseq=0;nseqenterbranch("SEQUENCE_POS",nseq)==0) continue; - Psequence[nseq].nvowel=xml->getpar("vowel_id",Psequence[nseq].nvowel,0,FF_MAX_VOWELS-1); + } + Psequencesize = xml->getpar127("sequence_size", Psequencesize); + Psequencestretch = xml->getpar127("sequence_stretch", Psequencestretch); + Psequencereversed = xml->getparbool("sequence_reversed", + Psequencereversed); + for(int nseq = 0; nseq < FF_MAX_SEQUENCE; nseq++) { + if(xml->enterbranch("SEQUENCE_POS", nseq) == 0) + continue; + Psequence[nseq].nvowel = xml->getpar("vowel_id", + Psequence[nseq].nvowel, + 0, + FF_MAX_VOWELS - 1); xml->exitbranch(); - }; + } xml->exitbranch(); - }; - -}; + } +} diff --git a/plugins/zynaddsubfx/src/Params/FilterParams.h b/plugins/zynaddsubfx/src/Params/FilterParams.h index 89c8b46ad..2a1df6b28 100644 --- a/plugins/zynaddsubfx/src/Params/FilterParams.h +++ b/plugins/zynaddsubfx/src/Params/FilterParams.h @@ -29,72 +29,74 @@ class FilterParams:public Presets { -public: - FilterParams(unsigned char Ptype_,unsigned char Pfreq,unsigned char Pq_); - ~FilterParams(); + public: + FilterParams(unsigned char Ptype_, + unsigned char Pfreq, + unsigned char Pq_); + ~FilterParams(); - void add2XML(XMLwrapper *xml); - void add2XMLsection(XMLwrapper *xml,int n); - void defaults(); - void getfromXML(XMLwrapper *xml); - void getfromXMLsection(XMLwrapper *xml,int n); + void add2XML(XMLwrapper *xml); + void add2XMLsection(XMLwrapper *xml, int n); + void defaults(); + void getfromXML(XMLwrapper *xml); + void getfromXMLsection(XMLwrapper *xml, int n); - void getfromFilterParams(FilterParams *pars); + void getfromFilterParams(FilterParams *pars); - REALTYPE getfreq(); - REALTYPE getq(); - REALTYPE getfreqtracking(REALTYPE notefreq); - REALTYPE getgain(); + REALTYPE getfreq(); + REALTYPE getq(); + REALTYPE getfreqtracking(REALTYPE notefreq); + REALTYPE getgain(); - unsigned char Pcategory;//Filter category (Analog/Formant/StVar) - unsigned char Ptype;// Filter type (for analog lpf,hpf,bpf..) - unsigned char Pfreq;// Frequency (64-central frequency) - unsigned char Pq; // Q parameters (resonance or bandwidth) - unsigned char Pstages; //filter stages+1 - unsigned char Pfreqtrack;//how the filter frequency is changing according the note frequency - unsigned char Pgain;//filter's output gain + unsigned char Pcategory; //Filter category (Analog/Formant/StVar) + unsigned char Ptype; // Filter type (for analog lpf,hpf,bpf..) + unsigned char Pfreq; // Frequency (64-central frequency) + unsigned char Pq; // Q parameters (resonance or bandwidth) + unsigned char Pstages; //filter stages+1 + unsigned char Pfreqtrack; //how the filter frequency is changing according the note frequency + unsigned char Pgain; //filter's output gain - //Formant filter parameters - unsigned char Pnumformants;//how many formants are used - unsigned char Pformantslowness;//how slow varies the formants - unsigned char Pvowelclearness;//how vowels are kept clean (how much try to avoid "mixed" vowels) - unsigned char Pcenterfreq,Poctavesfreq;//the center frequency of the res. func., and the number of octaves + //Formant filter parameters + unsigned char Pnumformants; //how many formants are used + unsigned char Pformantslowness; //how slow varies the formants + unsigned char Pvowelclearness; //how vowels are kept clean (how much try to avoid "mixed" vowels) + unsigned char Pcenterfreq, Poctavesfreq; //the center frequency of the res. func., and the number of octaves - struct { struct { - unsigned char freq,amp,q;//frequency,amplitude,Q - }formants[FF_MAX_FORMANTS]; - }Pvowels[FF_MAX_VOWELS]; + struct { + unsigned char freq, amp, q; //frequency,amplitude,Q + } formants[FF_MAX_FORMANTS]; + } Pvowels[FF_MAX_VOWELS]; - unsigned char Psequencesize;//how many vowels are in the sequence - unsigned char Psequencestretch;//how the sequence is stretched (how the input from filter envelopes/LFOs/etc. is "stretched") - unsigned char Psequencereversed;//if the input from filter envelopes/LFOs/etc. is reversed(negated) - struct { - unsigned char nvowel;//the vowel from the position - } Psequence[FF_MAX_SEQUENCE]; + unsigned char Psequencesize; //how many vowels are in the sequence + unsigned char Psequencestretch; //how the sequence is stretched (how the input from filter envelopes/LFOs/etc. is "stretched") + unsigned char Psequencereversed; //if the input from filter envelopes/LFOs/etc. is reversed(negated) + struct { + unsigned char nvowel; //the vowel from the position + } Psequence[FF_MAX_SEQUENCE]; - REALTYPE getcenterfreq(); - REALTYPE getoctavesfreq(); - REALTYPE getfreqpos(REALTYPE freq); - REALTYPE getfreqx(REALTYPE x); + REALTYPE getcenterfreq(); + REALTYPE getoctavesfreq(); + REALTYPE getfreqpos(REALTYPE freq); + REALTYPE getfreqx(REALTYPE x); - void formantfilterH(int nvowel,int nfreqs,REALTYPE *freqs);//used by UI + void formantfilterH(int nvowel, int nfreqs, REALTYPE *freqs); //used by UI - REALTYPE getformantfreq(unsigned char freq); - REALTYPE getformantamp(unsigned char amp); - REALTYPE getformantq(unsigned char q); + REALTYPE getformantfreq(unsigned char freq); + REALTYPE getformantamp(unsigned char amp); + REALTYPE getformantq(unsigned char q); - bool changed; + bool changed; -private: - void defaults(int n); + private: + void defaults(int n); - //stored default parameters - unsigned char Dtype; - unsigned char Dfreq; - unsigned char Dq; + //stored default parameters + unsigned char Dtype; + unsigned char Dfreq; + unsigned char Dq; }; #endif diff --git a/plugins/zynaddsubfx/src/Params/LFOParams.cpp b/plugins/zynaddsubfx/src/Params/LFOParams.cpp index a124c5937..3cfc37fc8 100644 --- a/plugins/zynaddsubfx/src/Params/LFOParams.cpp +++ b/plugins/zynaddsubfx/src/Params/LFOParams.cpp @@ -27,9 +27,16 @@ int LFOParams::time; -LFOParams::LFOParams(char Pfreq_,char Pintensity_,char Pstartphase_, char PLFOtype_,char Prandomness_, char Pdelay_,char Pcontinous_,char fel_):Presets() +LFOParams::LFOParams(char Pfreq_, + char Pintensity_, + char Pstartphase_, + char PLFOtype_, + char Prandomness_, + char Pdelay_, + char Pcontinous_, + char fel_):Presets() { - switch (fel_) { + switch(fel_) { case 0: setpresettype("Plfofrequency"); break; @@ -39,61 +46,60 @@ LFOParams::LFOParams(char Pfreq_,char Pintensity_,char Pstartphase_, char PLFOty case 2: setpresettype("Plfofilter"); break; - }; - Dfreq=Pfreq_; - Dintensity=Pintensity_; - Dstartphase=Pstartphase_; - DLFOtype=PLFOtype_; - Drandomness=Prandomness_; - Ddelay=Pdelay_; - Dcontinous=Pcontinous_; - fel=fel_; - time=0; + } + Dfreq = Pfreq_; + Dintensity = Pintensity_; + Dstartphase = Pstartphase_; + DLFOtype = PLFOtype_; + Drandomness = Prandomness_; + Ddelay = Pdelay_; + Dcontinous = Pcontinous_; + fel = fel_; + time = 0; defaults(); -}; +} LFOParams::~LFOParams() -{ -}; +{} void LFOParams::defaults() { - Pfreq=Dfreq/127.0; - Pintensity=Dintensity; - Pstartphase=Dstartphase; - PLFOtype=DLFOtype; - Prandomness=Drandomness; - Pdelay=Ddelay; - Pcontinous=Dcontinous; - Pfreqrand=0; - Pstretch=64; -}; + Pfreq = Dfreq / 127.0; + Pintensity = Dintensity; + Pstartphase = Dstartphase; + PLFOtype = DLFOtype; + Prandomness = Drandomness; + Pdelay = Ddelay; + Pcontinous = Dcontinous; + Pfreqrand = 0; + Pstretch = 64; +} void LFOParams::add2XML(XMLwrapper *xml) { - xml->addparreal("freq",Pfreq); - xml->addpar("intensity",Pintensity); - xml->addpar("start_phase",Pstartphase); - xml->addpar("lfo_type",PLFOtype); - xml->addpar("randomness_amplitude",Prandomness); - xml->addpar("randomness_frequency",Pfreqrand); - xml->addpar("delay",Pdelay); - xml->addpar("stretch",Pstretch); - xml->addparbool("continous",Pcontinous); -}; + xml->addparreal("freq", Pfreq); + xml->addpar("intensity", Pintensity); + xml->addpar("start_phase", Pstartphase); + xml->addpar("lfo_type", PLFOtype); + xml->addpar("randomness_amplitude", Prandomness); + xml->addpar("randomness_frequency", Pfreqrand); + xml->addpar("delay", Pdelay); + xml->addpar("stretch", Pstretch); + xml->addparbool("continous", Pcontinous); +} void LFOParams::getfromXML(XMLwrapper *xml) { - Pfreq=xml->getparreal("freq",Pfreq,0.0,1.0); - Pintensity=xml->getpar127("intensity",Pintensity); - Pstartphase=xml->getpar127("start_phase",Pstartphase); - PLFOtype=xml->getpar127("lfo_type",PLFOtype); - Prandomness=xml->getpar127("randomness_amplitude",Prandomness); - Pfreqrand=xml->getpar127("randomness_frequency",Pfreqrand); - Pdelay=xml->getpar127("delay",Pdelay); - Pstretch=xml->getpar127("stretch",Pstretch); - Pcontinous=xml->getparbool("continous",Pcontinous); -}; + Pfreq = xml->getparreal("freq", Pfreq, 0.0, 1.0); + Pintensity = xml->getpar127("intensity", Pintensity); + Pstartphase = xml->getpar127("start_phase", Pstartphase); + PLFOtype = xml->getpar127("lfo_type", PLFOtype); + Prandomness = xml->getpar127("randomness_amplitude", Prandomness); + Pfreqrand = xml->getpar127("randomness_frequency", Pfreqrand); + Pdelay = xml->getpar127("delay", Pdelay); + Pstretch = xml->getpar127("stretch", Pstretch); + Pcontinous = xml->getparbool("continous", Pcontinous); +} diff --git a/plugins/zynaddsubfx/src/Params/LFOParams.h b/plugins/zynaddsubfx/src/Params/LFOParams.h index a650d27f3..6a7dcd915 100644 --- a/plugins/zynaddsubfx/src/Params/LFOParams.h +++ b/plugins/zynaddsubfx/src/Params/LFOParams.h @@ -28,38 +28,45 @@ class LFOParams:public Presets { -public: - LFOParams(char Pfreq_,char Pintensity_,char Pstartphase_, char PLFOtype_,char Prandomness_, char Pdelay_,char Pcontinous,char fel_); - ~LFOParams(); + public: + LFOParams(char Pfreq_, + char Pintensity_, + char Pstartphase_, + char PLFOtype_, + char Prandomness_, + char Pdelay_, + char Pcontinous, + char fel_); + ~LFOParams(); - void add2XML(XMLwrapper *xml); - void defaults(); - /**Loads the LFO from the xml*/ - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + /**Loads the LFO from the xml*/ + void getfromXML(XMLwrapper *xml); - /* MIDI Parameters*/ - REALTYPE Pfreq; /**ADvsPAD=true; + resonance = new Resonance(); + oscilgen = new OscilGen(fft_, resonance); + oscilgen->ADvsPAD = true; - FreqEnvelope=new EnvelopeParams(0,0); - FreqEnvelope->ASRinit(64,50,64,60); - FreqLfo=new LFOParams(70,0,64,0,0,0,0,0); + FreqEnvelope = new EnvelopeParams(0, 0); + FreqEnvelope->ASRinit(64, 50, 64, 60); + FreqLfo = new LFOParams(70, 0, 64, 0, 0, 0, 0, 0); - AmpEnvelope=new EnvelopeParams(64,1); - AmpEnvelope->ADSRinit_dB(0,40,127,25); - AmpLfo=new LFOParams(80,0,64,0,0,0,0,1); + AmpEnvelope = new EnvelopeParams(64, 1); + AmpEnvelope->ADSRinit_dB(0, 40, 127, 25); + AmpLfo = new LFOParams(80, 0, 64, 0, 0, 0, 0, 1); - GlobalFilter=new FilterParams(2,94,40); - FilterEnvelope=new EnvelopeParams(0,1); - FilterEnvelope->ADSRinit_filter(64,40,64,70,60,64); - FilterLfo=new LFOParams(80,0,64,0,0,0,0,2); + GlobalFilter = new FilterParams(2, 94, 40); + FilterEnvelope = new EnvelopeParams(0, 1); + FilterEnvelope->ADSRinit_filter(64, 40, 64, 70, 60, 64); + FilterLfo = new LFOParams(80, 0, 64, 0, 0, 0, 0, 2); - for (int i=0;idefaults(); oscilgen->defaults(); - Phrpos.type=0; - Phrpos.par1=64; - Phrpos.par2=64; - Phrpos.par3=0; + Phrpos.type = 0; + Phrpos.par1 = 64; + Phrpos.par2 = 64; + Phrpos.par3 = 0; - Pquality.samplesize=3; - Pquality.basenote=4; - Pquality.oct=3; - Pquality.smpoct=2; + Pquality.samplesize = 3; + Pquality.basenote = 4; + Pquality.oct = 3; + Pquality.smpoct = 2; - PStereo=1;//stereo + PStereo = 1; //stereo /* Frequency Global Parameters */ - Pfixedfreq=0; - PfixedfreqET=0; - PDetune=8192;//zero - PCoarseDetune=0; - PDetuneType=1; + Pfixedfreq = 0; + PfixedfreqET = 0; + PDetune = 8192; //zero + PCoarseDetune = 0; + PDetuneType = 1; FreqEnvelope->defaults(); FreqLfo->defaults(); /* Amplitude Global Parameters */ - PVolume=90; - PPanning=64;//center - PAmpVelocityScaleFunction=64; + PVolume = 90; + PPanning = 64; //center + PAmpVelocityScaleFunction = 64; AmpEnvelope->defaults(); AmpLfo->defaults(); - PPunchStrength=0; - PPunchTime=60; - PPunchStretch=64; - PPunchVelocitySensing=72; + PPunchStrength = 0; + PPunchTime = 60; + PPunchStretch = 64; + PPunchVelocitySensing = 72; /* Filter Global Parameters*/ - PFilterVelocityScale=64; - PFilterVelocityScaleFunction=64; + PFilterVelocityScale = 64; + PFilterVelocityScaleFunction = 64; GlobalFilter->defaults(); FilterEnvelope->defaults(); FilterLfo->defaults(); deletesamples(); -}; +} void PADnoteParameters::deletesample(int n) { - if ((n<0)||(n>=PAD_MAX_SAMPLES)) return; - if (sample[n].smp!=NULL) { - delete[]sample[n].smp; - sample[n].smp=NULL; - }; - sample[n].size=0; - sample[n].basefreq=440.0; -}; + if((n < 0) || (n >= PAD_MAX_SAMPLES)) + return; + if(sample[n].smp != NULL) { + delete[] sample[n].smp; + sample[n].smp = NULL; + } + sample[n].size = 0; + sample[n].basefreq = 440.0; +} void PADnoteParameters::deletesamples() { - for (int i=0;i1.0) { - x=1.0; - makezero=true; - }; - }; + x = (x - 0.5) * width + 0.5; + if(x < 0.0) { + x = 0.0; + makezero = true; + } + else { + if(x > 1.0) { + x = 1.0; + makezero = true; + } + } //compute the full profile or one half - switch (Php.onehalf) { + switch(Php.onehalf) { case 1: - x=x*0.5+0.5; + x = x * 0.5 + 0.5; break; case 2: - x=x*0.5; + x = x * 0.5; break; - }; + } - REALTYPE x_before_freq_mult=x; + REALTYPE x_before_freq_mult = x; //do the frequency multiplier - x*=freqmult; + x *= freqmult; //do the modulation of the profile - x+=sin(x_before_freq_mult*3.1415926*modfreq)*modpar1; - x=fmod(x+1000.0,1.0)*2.0-1.0; + x += sin(x_before_freq_mult * 3.1415926 * modfreq) * modpar1; + x = fmod(x + 1000.0, 1.0) * 2.0 - 1.0; //this is the base function of the profile REALTYPE f; - switch (Php.base.type) { + switch(Php.base.type) { case 1: - f=exp(-(x*x)*basepar); - if (f<0.4) f=0.0; - else f=1.0; + f = exp(-(x * x) * basepar); + if(f < 0.4) + f = 0.0; + else + f = 1.0; break; case 2: - f=exp(-(fabs(x))*sqrt(basepar)); + f = exp(-(fabs(x)) * sqrt(basepar)); break; default: - f=exp(-(x*x)*basepar); + f = exp(-(x * x) * basepar); break; - }; - if (makezero) f=0.0; + } + if(makezero) + f = 0.0; - REALTYPE amp=1.0; - origx=origx*2.0-1.0; + REALTYPE amp = 1.0; + origx = origx * 2.0 - 1.0; //compute the amplitude multiplier - switch (Php.amp.type) { + switch(Php.amp.type) { case 1: - amp=exp(-(origx*origx)*10.0*amppar1); + amp = exp(-(origx * origx) * 10.0 * amppar1); break; case 2: - amp=0.5*(1.0+cos(3.1415926*origx*sqrt(amppar1*4.0+1.0))); + amp = 0.5 * (1.0 + cos(3.1415926 * origx * sqrt(amppar1 * 4.0 + 1.0))); break; case 3: - amp=1.0/(pow(origx*(amppar1*2.0+0.8),14.0)+1.0); + amp = 1.0 / (pow(origx * (amppar1 * 2.0 + 0.8), 14.0) + 1.0); break; - }; + } //apply the amplitude multiplier - REALTYPE finalsmp=f; - if (Php.amp.type!=0) { - switch (Php.amp.mode) { + REALTYPE finalsmp = f; + if(Php.amp.type != 0) + switch(Php.amp.mode) { case 0: - finalsmp=amp*(1.0-amppar2)+finalsmp*amppar2; + finalsmp = amp * (1.0 - amppar2) + finalsmp * amppar2; break; case 1: - finalsmp*=amp*(1.0-amppar2)+amppar2; + finalsmp *= amp * (1.0 - amppar2) + amppar2; break; case 2: - finalsmp=finalsmp/(amp+pow(amppar2,4.0)*20.0+0.0001); + finalsmp = finalsmp / (amp + pow(amppar2, 4.0) * 20.0 + 0.0001); break; case 3: - finalsmp=amp/(finalsmp+pow(amppar2,4.0)*20.0+0.0001); + finalsmp = amp / (finalsmp + pow(amppar2, 4.0) * 20.0 + 0.0001); break; - }; - }; + } + ; - smp[i/supersample]+=finalsmp/supersample; - }; + smp[i / supersample] += finalsmp / supersample; + } //normalize the profile (make the max. to be equal to 1.0) - REALTYPE max=0.0; - for (int i=0;imax) max=smp[i]; - }; - if (max<0.00001) max=1.0; - for (int i=0;i max) + max = smp[i]; + } + if(max < 0.00001) + max = 1.0; + for(int i = 0; i < size; i++) + smp[i] /= max; - if (!Php.autoscale) return(0.5); + if(!Php.autoscale) + return 0.5; //compute the estimated perceived bandwidth - REALTYPE sum=0.0; - int i; - for (i=0;i=4.0) break; - }; + REALTYPE sum = 0.0; + int i; + for(i = 0; i < size / 2 - 2; i++) { + sum += smp[i] * smp[i] + smp[size - i - 1] * smp[size - i - 1]; + if(sum >= 4.0) + break; + } - REALTYPE result=1.0-2.0*i/(REALTYPE) size; - return(result); -}; + REALTYPE result = 1.0 - 2.0 * i / (REALTYPE) size; + return result; +} /* * Compute the real bandwidth in cents and returns it @@ -287,315 +306,387 @@ REALTYPE PADnoteParameters::getprofile(REALTYPE *smp,int size) */ REALTYPE PADnoteParameters::setPbandwidth(int Pbandwidth) { - this->Pbandwidth=Pbandwidth; - REALTYPE result=pow(Pbandwidth/1000.0,1.1); - result=pow(10.0,result*4.0)*0.25; - return(result); -}; + this->Pbandwidth = Pbandwidth; + REALTYPE result = pow(Pbandwidth / 1000.0, 1.1); + result = pow(10.0, result * 4.0) * 0.25; + return result; +} /* * Get the harmonic(overtone) position */ REALTYPE PADnoteParameters::getNhr(int n) { - REALTYPE result=1.0; - REALTYPE par1=pow(10.0,-(1.0-Phrpos.par1/255.0)*3.0); - REALTYPE par2=Phrpos.par2/255.0; + REALTYPE result = 1.0; + REALTYPE par1 = pow(10.0, -(1.0 - Phrpos.par1 / 255.0) * 3.0); + REALTYPE par2 = Phrpos.par2 / 255.0; - REALTYPE n0=n-1.0; - REALTYPE tmp=0.0; - int thresh=0; - switch (Phrpos.type) { + REALTYPE n0 = n - 1.0; + REALTYPE tmp = 0.0; + int thresh = 0; + switch(Phrpos.type) { case 1: - thresh=(int)(par2*par2*100.0)+1; - if (nget(harmonics,basefreq,false); + oscilgen->get(harmonics, basefreq, false); //normalize - REALTYPE max=0.0; - for (int i=0;imax) max=harmonics[i]; - if (max<0.000001) max=1; - for (int i=0;i max) + max = harmonics[i]; + if(max < 0.000001) + max = 1; + for(int i = 0; i < OSCIL_SIZE / 2; i++) + harmonics[i] /= max; - for (int nh=1;nhSAMPLE_RATE*0.49999) break; - if (realfreq<20.0) break; - if (harmonics[nh-1]<1e-4) continue; + for(int nh = 1; nh < OSCIL_SIZE / 2; nh++) { //for each harmonic + REALTYPE realfreq = getNhr(nh) * basefreq; + if(realfreq > SAMPLE_RATE * 0.49999) + break; + if(realfreq < 20.0) + break; + if(harmonics[nh - 1] < 1e-4) + continue; //compute the bandwidth of each harmonic - REALTYPE bandwidthcents=setPbandwidth(Pbandwidth); - REALTYPE bw=(pow(2.0,bandwidthcents/1200.0)-1.0)*basefreq/bwadjust; - REALTYPE power=1.0; - switch (Pbwscale) { + REALTYPE bandwidthcents = setPbandwidth(Pbandwidth); + REALTYPE bw = + (pow(2.0, bandwidthcents / 1200.0) - 1.0) * basefreq / bwadjust; + REALTYPE power = 1.0; + switch(Pbwscale) { case 0: - power=1.0; + power = 1.0; break; case 1: - power=0.0; + power = 0.0; break; case 2: - power=0.25; + power = 0.25; break; case 3: - power=0.5; + power = 0.5; break; case 4: - power=0.75; + power = 0.75; break; case 5: - power=1.5; + power = 1.5; break; case 6: - power=2.0; + power = 2.0; break; case 7: - power=-0.5; + power = -0.5; break; - }; - bw=bw*pow(realfreq/basefreq,power); - int ibw=(int)((bw/(SAMPLE_RATE*0.5)*size))+1; + } + bw = bw * pow(realfreq / basefreq, power); + int ibw = (int)((bw / (SAMPLE_RATE * 0.5) * size)) + 1; - REALTYPE amp=harmonics[nh-1]; - if (resonance->Penabled) amp*=resonance->getfreqresponse(realfreq); + REALTYPE amp = harmonics[nh - 1]; + if(resonance->Penabled) + amp *= resonance->getfreqresponse(realfreq); - if (ibw>profilesize) {//if the bandwidth is larger than the profilesize - REALTYPE rap=sqrt((REALTYPE)profilesize/(REALTYPE)ibw); - int cfreq=(int) (realfreq/(SAMPLE_RATE*0.5)*size)-ibw/2; - for (int i=0;i=size) break; - spectrum[spfreq]+=amp*profile[src]*rap; - }; - } else {//if the bandwidth is smaller than the profilesize - REALTYPE rap=sqrt((REALTYPE)ibw/(REALTYPE)profilesize); - REALTYPE ibasefreq=realfreq/(SAMPLE_RATE*0.5)*size; - for (int i=0;i=size-1) break; - spectrum[spfreq]+=amp*profile[i]*rap*(1.0-fspfreq); - spectrum[spfreq+1]+=amp*profile[i]*rap*fspfreq; - }; - }; - }; -}; + if(ibw > profilesize) { //if the bandwidth is larger than the profilesize + REALTYPE rap = sqrt((REALTYPE)profilesize / (REALTYPE)ibw); + int cfreq = + (int) (realfreq / (SAMPLE_RATE * 0.5) * size) - ibw / 2; + for(int i = 0; i < ibw; i++) { + int src = (int)(i * rap * rap); + int spfreq = i + cfreq; + if(spfreq < 0) + continue; + if(spfreq >= size) + break; + spectrum[spfreq] += amp * profile[src] * rap; + } + } + else { //if the bandwidth is smaller than the profilesize + REALTYPE rap = sqrt((REALTYPE)ibw / (REALTYPE)profilesize); + REALTYPE ibasefreq = realfreq / (SAMPLE_RATE * 0.5) * size; + for(int i = 0; i < profilesize; i++) { + REALTYPE idfreq = i / (REALTYPE)profilesize - 0.5; + idfreq *= ibw; + int spfreq = (int) (idfreq + ibasefreq); + REALTYPE fspfreq = fmod(idfreq + ibasefreq, 1.0); + if(spfreq <= 0) + continue; + if(spfreq >= size - 1) + break; + spectrum[spfreq] += amp * profile[i] * rap * (1.0 - fspfreq); + spectrum[spfreq + 1] += amp * profile[i] * rap * fspfreq; + } + } + } +} /* * Generates the long spectrum for non-Bandwidth modes (only amplitudes are generated; phases will be random) */ -void PADnoteParameters::generatespectrum_otherModes(REALTYPE *spectrum, int size,REALTYPE basefreq,REALTYPE *profile,int profilesize,REALTYPE bwadjust) +void PADnoteParameters::generatespectrum_otherModes(REALTYPE *spectrum, + int size, + REALTYPE basefreq, + REALTYPE *profile, + int profilesize, + REALTYPE bwadjust) { - for (int i=0;iget(harmonics,basefreq,false); + oscilgen->get(harmonics, basefreq, false); //normalize - REALTYPE max=0.0; - for (int i=0;imax) max=harmonics[i]; - if (max<0.000001) max=1; - for (int i=0;i max) + max = harmonics[i]; + if(max < 0.000001) + max = 1; + for(int i = 0; i < OSCIL_SIZE / 2; i++) + harmonics[i] /= max; - for (int nh=1;nhSAMPLE_RATE*0.49999) break; - if (realfreq<20.0) break; + if(realfreq > SAMPLE_RATE * 0.49999) + break; + if(realfreq < 20.0) + break; // if (harmonics[nh-1]<1e-4) continue; - REALTYPE amp=harmonics[nh-1]; - if (resonance->Penabled) amp*=resonance->getfreqresponse(realfreq); - int cfreq=(int) (realfreq/(SAMPLE_RATE*0.5)*size); + REALTYPE amp = harmonics[nh - 1]; + if(resonance->Penabled) + amp *= resonance->getfreqresponse(realfreq); + int cfreq = (int) (realfreq / (SAMPLE_RATE * 0.5) * size); - spectrum[cfreq]=amp+1e-9; - }; + spectrum[cfreq] = amp + 1e-9; + } - if (Pmode!=1) { - int old=0; - for (int k=1;k1e-10) || (k==(size-1)) ) { - int delta=k-old; - REALTYPE val1=spectrum[old]; - REALTYPE val2=spectrum[k]; - REALTYPE idelta=1.0/delta; - for (int i=0;i 1e-10) || (k == (size - 1))) { + int delta = k - old; + REALTYPE val1 = spectrum[old]; + REALTYPE val2 = spectrum[k]; + REALTYPE idelta = 1.0 / delta; + for(int i = 0; i < delta; i++) { + REALTYPE x = idelta * i; + spectrum[old + i] = val1 * (1.0 - x) + val2 * x; + } + old = k; + } + } + } +} /* * Applies the parameters (i.e. computes all the samples, based on parameters); */ void PADnoteParameters::applyparameters(bool lockmutex) { - const int samplesize=(((int) 1)<<(Pquality.samplesize+14)); - int spectrumsize=samplesize/2; + const int samplesize = (((int) 1) << (Pquality.samplesize + 14)); + int spectrumsize = samplesize / 2; REALTYPE spectrum[spectrumsize]; - int profilesize=512; + int profilesize = 512; REALTYPE profile[profilesize]; - REALTYPE bwadjust=getprofile(profile,profilesize); + REALTYPE bwadjust = getprofile(profile, profilesize); // for (int i=0;ifreqs2smps(fftfreqs,newsample.smp);//that's all; here is the only ifft for the whole sample; no windows are used ;-) + newsample.smp[0] = 0.0; + for(int i = 1; i < spectrumsize; i++) { //randomize the phases + REALTYPE phase = RND * 6.29; + fftfreqs.c[i] = spectrum[i] * cos(phase); + fftfreqs.s[i] = spectrum[i] * sin(phase); + } + fft->freqs2smps(fftfreqs, newsample.smp); //that's all; here is the only ifft for the whole sample; no windows are used ;-) //normalize(rms) - REALTYPE rms=0.0; - for (int i=0;isetPadSynth(true); - xml->addparbool("stereo",PStereo); - xml->addpar("mode",Pmode); - xml->addpar("bandwidth",Pbandwidth); - xml->addpar("bandwidth_scale",Pbwscale); + xml->addparbool("stereo", PStereo); + xml->addpar("mode", Pmode); + xml->addpar("bandwidth", Pbandwidth); + xml->addpar("bandwidth_scale", Pbwscale); xml->beginbranch("HARMONIC_PROFILE"); - xml->addpar("base_type",Php.base.type); - xml->addpar("base_par1",Php.base.par1); - xml->addpar("frequency_multiplier",Php.freqmult); - xml->addpar("modulator_par1",Php.modulator.par1); - xml->addpar("modulator_frequency",Php.modulator.freq); - xml->addpar("width",Php.width); - xml->addpar("amplitude_multiplier_type",Php.amp.type); - xml->addpar("amplitude_multiplier_mode",Php.amp.mode); - xml->addpar("amplitude_multiplier_par1",Php.amp.par1); - xml->addpar("amplitude_multiplier_par2",Php.amp.par2); - xml->addparbool("autoscale",Php.autoscale); - xml->addpar("one_half",Php.onehalf); + xml->addpar("base_type", Php.base.type); + xml->addpar("base_par1", Php.base.par1); + xml->addpar("frequency_multiplier", Php.freqmult); + xml->addpar("modulator_par1", Php.modulator.par1); + xml->addpar("modulator_frequency", Php.modulator.freq); + xml->addpar("width", Php.width); + xml->addpar("amplitude_multiplier_type", Php.amp.type); + xml->addpar("amplitude_multiplier_mode", Php.amp.mode); + xml->addpar("amplitude_multiplier_par1", Php.amp.par1); + xml->addpar("amplitude_multiplier_par2", Php.amp.par2); + xml->addparbool("autoscale", Php.autoscale); + xml->addpar("one_half", Php.onehalf); xml->endbranch(); xml->beginbranch("OSCIL"); @@ -632,27 +723,27 @@ void PADnoteParameters::add2XML(XMLwrapper *xml) xml->endbranch(); xml->beginbranch("HARMONIC_POSITION"); - xml->addpar("type",Phrpos.type); - xml->addpar("parameter1",Phrpos.par1); - xml->addpar("parameter2",Phrpos.par2); - xml->addpar("parameter3",Phrpos.par3); + xml->addpar("type", Phrpos.type); + xml->addpar("parameter1", Phrpos.par1); + xml->addpar("parameter2", Phrpos.par2); + xml->addpar("parameter3", Phrpos.par3); xml->endbranch(); xml->beginbranch("SAMPLE_QUALITY"); - xml->addpar("samplesize",Pquality.samplesize); - xml->addpar("basenote",Pquality.basenote); - xml->addpar("octaves",Pquality.oct); - xml->addpar("samples_per_octave",Pquality.smpoct); + xml->addpar("samplesize", Pquality.samplesize); + xml->addpar("basenote", Pquality.basenote); + xml->addpar("octaves", Pquality.oct); + xml->addpar("samples_per_octave", Pquality.smpoct); xml->endbranch(); xml->beginbranch("AMPLITUDE_PARAMETERS"); - xml->addpar("volume",PVolume); - xml->addpar("panning",PPanning); - xml->addpar("velocity_sensing",PAmpVelocityScaleFunction); - xml->addpar("punch_strength",PPunchStrength); - xml->addpar("punch_time",PPunchTime); - xml->addpar("punch_stretch",PPunchStretch); - xml->addpar("punch_velocity_sensing",PPunchVelocitySensing); + xml->addpar("volume", PVolume); + xml->addpar("panning", PPanning); + xml->addpar("velocity_sensing", PAmpVelocityScaleFunction); + xml->addpar("punch_strength", PPunchStrength); + xml->addpar("punch_time", PPunchTime); + xml->addpar("punch_stretch", PPunchStretch); + xml->addpar("punch_velocity_sensing", PPunchVelocitySensing); xml->beginbranch("AMPLITUDE_ENVELOPE"); AmpEnvelope->add2XML(xml); @@ -665,11 +756,11 @@ void PADnoteParameters::add2XML(XMLwrapper *xml) xml->endbranch(); xml->beginbranch("FREQUENCY_PARAMETERS"); - xml->addpar("fixed_freq",Pfixedfreq); - xml->addpar("fixed_freq_et",PfixedfreqET); - xml->addpar("detune",PDetune); - xml->addpar("coarse_detune",PCoarseDetune); - xml->addpar("detune_type",PDetuneType); + xml->addpar("fixed_freq", Pfixedfreq); + xml->addpar("fixed_freq_et", PfixedfreqET); + xml->addpar("detune", PDetune); + xml->addpar("coarse_detune", PCoarseDetune); + xml->addpar("detune_type", PDetuneType); xml->beginbranch("FREQUENCY_ENVELOPE"); FreqEnvelope->add2XML(xml); @@ -681,8 +772,8 @@ void PADnoteParameters::add2XML(XMLwrapper *xml) xml->endbranch(); xml->beginbranch("FILTER_PARAMETERS"); - xml->addpar("velocity_sensing_amplitude",PFilterVelocityScale); - xml->addpar("velocity_sensing",PFilterVelocityScaleFunction); + xml->addpar("velocity_sensing_amplitude", PFilterVelocityScale); + xml->addpar("velocity_sensing", PFilterVelocityScaleFunction); xml->beginbranch("FILTER"); GlobalFilter->add2XML(xml); @@ -696,65 +787,75 @@ void PADnoteParameters::add2XML(XMLwrapper *xml) FilterLfo->add2XML(xml); xml->endbranch(); xml->endbranch(); -}; +} void PADnoteParameters::getfromXML(XMLwrapper *xml) { - PStereo=xml->getparbool("stereo",PStereo); - Pmode=xml->getpar127("mode",0); - Pbandwidth=xml->getpar("bandwidth",Pbandwidth,0,1000); - Pbwscale=xml->getpar127("bandwidth_scale",Pbwscale); + PStereo = xml->getparbool("stereo", PStereo); + Pmode = xml->getpar127("mode", 0); + Pbandwidth = xml->getpar("bandwidth", Pbandwidth, 0, 1000); + Pbwscale = xml->getpar127("bandwidth_scale", Pbwscale); - if (xml->enterbranch("HARMONIC_PROFILE")) { - Php.base.type=xml->getpar127("base_type",Php.base.type); - Php.base.par1=xml->getpar127("base_par1",Php.base.par1); - Php.freqmult=xml->getpar127("frequency_multiplier",Php.freqmult); - Php.modulator.par1=xml->getpar127("modulator_par1",Php.modulator.par1); - Php.modulator.freq=xml->getpar127("modulator_frequency",Php.modulator.freq); - Php.width=xml->getpar127("width",Php.width); - Php.amp.type=xml->getpar127("amplitude_multiplier_type",Php.amp.type); - Php.amp.mode=xml->getpar127("amplitude_multiplier_mode",Php.amp.mode); - Php.amp.par1=xml->getpar127("amplitude_multiplier_par1",Php.amp.par1); - Php.amp.par2=xml->getpar127("amplitude_multiplier_par2",Php.amp.par2); - Php.autoscale=xml->getparbool("autoscale",Php.autoscale); - Php.onehalf=xml->getpar127("one_half",Php.onehalf); + if(xml->enterbranch("HARMONIC_PROFILE")) { + Php.base.type = xml->getpar127("base_type", Php.base.type); + Php.base.par1 = xml->getpar127("base_par1", Php.base.par1); + Php.freqmult = xml->getpar127("frequency_multiplier", + Php.freqmult); + Php.modulator.par1 = xml->getpar127("modulator_par1", + Php.modulator.par1); + Php.modulator.freq = xml->getpar127("modulator_frequency", + Php.modulator.freq); + Php.width = xml->getpar127("width", Php.width); + Php.amp.type = xml->getpar127("amplitude_multiplier_type", + Php.amp.type); + Php.amp.mode = xml->getpar127("amplitude_multiplier_mode", + Php.amp.mode); + Php.amp.par1 = xml->getpar127("amplitude_multiplier_par1", + Php.amp.par1); + Php.amp.par2 = xml->getpar127("amplitude_multiplier_par2", + Php.amp.par2); + Php.autoscale = xml->getparbool("autoscale", Php.autoscale); + Php.onehalf = xml->getpar127("one_half", Php.onehalf); xml->exitbranch(); - }; + } - if (xml->enterbranch("OSCIL")) { + if(xml->enterbranch("OSCIL")) { oscilgen->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("RESONANCE")) { + if(xml->enterbranch("RESONANCE")) { resonance->getfromXML(xml); xml->exitbranch(); - }; + } - if (xml->enterbranch("HARMONIC_POSITION")) { - Phrpos.type=xml->getpar127("type",Phrpos.type); - Phrpos.par1=xml->getpar("parameter1",Phrpos.par1,0,255); - Phrpos.par2=xml->getpar("parameter2",Phrpos.par2,0,255); - Phrpos.par3=xml->getpar("parameter3",Phrpos.par3,0,255); + if(xml->enterbranch("HARMONIC_POSITION")) { + Phrpos.type = xml->getpar127("type", Phrpos.type); + Phrpos.par1 = xml->getpar("parameter1", Phrpos.par1, 0, 255); + Phrpos.par2 = xml->getpar("parameter2", Phrpos.par2, 0, 255); + Phrpos.par3 = xml->getpar("parameter3", Phrpos.par3, 0, 255); xml->exitbranch(); - }; + } - if (xml->enterbranch("SAMPLE_QUALITY")) { - Pquality.samplesize=xml->getpar127("samplesize",Pquality.samplesize); - Pquality.basenote=xml->getpar127("basenote",Pquality.basenote); - Pquality.oct=xml->getpar127("octaves",Pquality.oct); - Pquality.smpoct=xml->getpar127("samples_per_octave",Pquality.smpoct); + if(xml->enterbranch("SAMPLE_QUALITY")) { + Pquality.samplesize = xml->getpar127("samplesize", Pquality.samplesize); + Pquality.basenote = xml->getpar127("basenote", Pquality.basenote); + Pquality.oct = xml->getpar127("octaves", Pquality.oct); + Pquality.smpoct = xml->getpar127("samples_per_octave", + Pquality.smpoct); xml->exitbranch(); - }; + } - if (xml->enterbranch("AMPLITUDE_PARAMETERS")) { - PVolume=xml->getpar127("volume",PVolume); - PPanning=xml->getpar127("panning",PPanning); - PAmpVelocityScaleFunction=xml->getpar127("velocity_sensing",PAmpVelocityScaleFunction); - PPunchStrength=xml->getpar127("punch_strength",PPunchStrength); - PPunchTime=xml->getpar127("punch_time",PPunchTime); - PPunchStretch=xml->getpar127("punch_stretch",PPunchStretch); - PPunchVelocitySensing=xml->getpar127("punch_velocity_sensing",PPunchVelocitySensing); + if(xml->enterbranch("AMPLITUDE_PARAMETERS")) { + PVolume = xml->getpar127("volume", PVolume); + PPanning = xml->getpar127("panning", PPanning); + PAmpVelocityScaleFunction = xml->getpar127("velocity_sensing", + PAmpVelocityScaleFunction); + PPunchStrength = xml->getpar127("punch_strength", PPunchStrength); + PPunchTime = xml->getpar127("punch_time", PPunchTime); + PPunchStretch = xml->getpar127("punch_stretch", PPunchStretch); + PPunchVelocitySensing = xml->getpar127("punch_velocity_sensing", + PPunchVelocitySensing); xml->enterbranch("AMPLITUDE_ENVELOPE"); AmpEnvelope->getfromXML(xml); @@ -765,14 +866,14 @@ void PADnoteParameters::getfromXML(XMLwrapper *xml) xml->exitbranch(); xml->exitbranch(); - }; + } - if (xml->enterbranch("FREQUENCY_PARAMETERS")) { - Pfixedfreq=xml->getpar127("fixed_freq",Pfixedfreq); - PfixedfreqET=xml->getpar127("fixed_freq_et",PfixedfreqET); - PDetune=xml->getpar("detune",PDetune,0,16383); - PCoarseDetune=xml->getpar("coarse_detune",PCoarseDetune,0,16383); - PDetuneType=xml->getpar127("detune_type",PDetuneType); + if(xml->enterbranch("FREQUENCY_PARAMETERS")) { + Pfixedfreq = xml->getpar127("fixed_freq", Pfixedfreq); + PfixedfreqET = xml->getpar127("fixed_freq_et", PfixedfreqET); + PDetune = xml->getpar("detune", PDetune, 0, 16383); + PCoarseDetune = xml->getpar("coarse_detune", PCoarseDetune, 0, 16383); + PDetuneType = xml->getpar127("detune_type", PDetuneType); xml->enterbranch("FREQUENCY_ENVELOPE"); FreqEnvelope->getfromXML(xml); @@ -782,11 +883,14 @@ void PADnoteParameters::getfromXML(XMLwrapper *xml) FreqLfo->getfromXML(xml); xml->exitbranch(); xml->exitbranch(); - }; + } - if (xml->enterbranch("FILTER_PARAMETERS")) { - PFilterVelocityScale=xml->getpar127("velocity_sensing_amplitude",PFilterVelocityScale); - PFilterVelocityScaleFunction=xml->getpar127("velocity_sensing",PFilterVelocityScaleFunction); + if(xml->enterbranch("FILTER_PARAMETERS")) { + PFilterVelocityScale = xml->getpar127("velocity_sensing_amplitude", + PFilterVelocityScale); + PFilterVelocityScaleFunction = xml->getpar127( + "velocity_sensing", + PFilterVelocityScaleFunction); xml->enterbranch("FILTER"); GlobalFilter->getfromXML(xml); @@ -800,7 +904,6 @@ void PADnoteParameters::getfromXML(XMLwrapper *xml) FilterLfo->getfromXML(xml); xml->exitbranch(); xml->exitbranch(); - }; -}; - + } +} diff --git a/plugins/zynaddsubfx/src/Params/PADnoteParameters.h b/plugins/zynaddsubfx/src/Params/PADnoteParameters.h index eacd676c8..dde2c6499 100644 --- a/plugins/zynaddsubfx/src/Params/PADnoteParameters.h +++ b/plugins/zynaddsubfx/src/Params/PADnoteParameters.h @@ -38,133 +38,145 @@ class PADnoteParameters:public Presets { -public: - PADnoteParameters(FFTwrapper *fft_,pthread_mutex_t *mutex_); - ~PADnoteParameters(); + public: + PADnoteParameters(FFTwrapper *fft_, pthread_mutex_t *mutex_); + ~PADnoteParameters(); - void defaults(); - void add2XML(XMLwrapper *xml); - void getfromXML(XMLwrapper *xml); + void defaults(); + void add2XML(XMLwrapper *xml); + void getfromXML(XMLwrapper *xml); - //returns a value between 0.0-1.0 that represents the estimation perceived bandwidth - REALTYPE getprofile(REALTYPE *smp,int size); + //returns a value between 0.0-1.0 that represents the estimation perceived bandwidth + REALTYPE getprofile(REALTYPE *smp, int size); - //parameters + //parameters - //the mode: 0 - bandwidth, 1 - discrete (bandwidth=0), 2 - continous - //the harmonic profile is used only on mode 0 - unsigned char Pmode; + //the mode: 0 - bandwidth, 1 - discrete (bandwidth=0), 2 - continous + //the harmonic profile is used only on mode 0 + unsigned char Pmode; - //Harmonic profile (the frequency distribution of a single harmonic) - struct { - struct {//base function + //Harmonic profile (the frequency distribution of a single harmonic) + struct { + struct { //base function + unsigned char type; + unsigned char par1; + } base; + unsigned char freqmult; //frequency multiplier of the distribution + struct { //the modulator of the distribution + unsigned char par1; + unsigned char freq; + } modulator; + + unsigned char width; //the width of the resulting function after the modulation + struct { //the amplitude multiplier of the harmonic profile + unsigned char mode; + unsigned char type; + unsigned char par1; + unsigned char par2; + } amp; + bool autoscale; //if the scale of the harmonic profile is computed automaticaly + unsigned char onehalf; //what part of the base function is used to make the distribution + } Php; + + + unsigned int Pbandwidth; //the values are from 0 to 1000 + unsigned char Pbwscale; //how the bandwidth is increased according to the harmonic's frequency + + struct { //where are positioned the harmonics (on integer multimplier or different places) unsigned char type; - unsigned char par1; - }base; - unsigned char freqmult;//frequency multiplier of the distribution - struct {//the modulator of the distribution - unsigned char par1; - unsigned char freq; - }modulator; + unsigned char par1, par2, par3; //0..255 + } Phrpos; - unsigned char width;//the width of the resulting function after the modulation - struct {//the amplitude multiplier of the harmonic profile - unsigned char mode; - unsigned char type; - unsigned char par1; - unsigned char par2; - }amp; - bool autoscale;//if the scale of the harmonic profile is computed automaticaly - unsigned char onehalf;//what part of the base function is used to make the distribution - }Php; + struct { //quality of the samples (how many samples, the length of them,etc.) + unsigned char samplesize; + unsigned char basenote, oct, smpoct; + } Pquality; + //frequency parameters + //If the base frequency is fixed to 440 Hz + unsigned char Pfixedfreq; - unsigned int Pbandwidth;//the values are from 0 to 1000 - unsigned char Pbwscale;//how the bandwidth is increased according to the harmonic's frequency + /* Equal temperate (this is used only if the Pfixedfreq is enabled) + If this parameter is 0, the frequency is fixed (to 440 Hz); + if this parameter is 64, 1 MIDI halftone -> 1 frequency halftone */ + unsigned char PfixedfreqET; + unsigned short int PDetune; //fine detune + unsigned short int PCoarseDetune; //coarse detune+octave + unsigned char PDetuneType; //detune type - struct {//where are positioned the harmonics (on integer multimplier or different places) - unsigned char type; - unsigned char par1,par2,par3;//0..255 - }Phrpos; + EnvelopeParams *FreqEnvelope; //Frequency Envelope + LFOParams *FreqLfo; //Frequency LFO - struct {//quality of the samples (how many samples, the length of them,etc.) - unsigned char samplesize; - unsigned char basenote,oct,smpoct; - } Pquality; + //Amplitude parameters + unsigned char PStereo; + /* Panning - 0 - random + 1 - left + 64 - center + 127 - right */ + unsigned char PPanning; - //frequency parameters - //If the base frequency is fixed to 440 Hz - unsigned char Pfixedfreq; + unsigned char PVolume; - /* Equal temperate (this is used only if the Pfixedfreq is enabled) - If this parameter is 0, the frequency is fixed (to 440 Hz); - if this parameter is 64, 1 MIDI halftone -> 1 frequency halftone */ - unsigned char PfixedfreqET; - unsigned short int PDetune;//fine detune - unsigned short int PCoarseDetune;//coarse detune+octave - unsigned char PDetuneType;//detune type + unsigned char PAmpVelocityScaleFunction; - EnvelopeParams *FreqEnvelope; //Frequency Envelope - LFOParams *FreqLfo;//Frequency LFO + EnvelopeParams *AmpEnvelope; - //Amplitude parameters - unsigned char PStereo; - /* Panning - 0 - random - 1 - left - 64 - center - 127 - right */ - unsigned char PPanning; + LFOParams *AmpLfo; - unsigned char PVolume; + unsigned char PPunchStrength, PPunchTime, PPunchStretch, + PPunchVelocitySensing; - unsigned char PAmpVelocityScaleFunction; + //Filter Parameters + FilterParams *GlobalFilter; - EnvelopeParams *AmpEnvelope; + // filter velocity sensing + unsigned char PFilterVelocityScale; - LFOParams *AmpLfo; + // filter velocity sensing + unsigned char PFilterVelocityScaleFunction; - unsigned char PPunchStrength,PPunchTime,PPunchStretch,PPunchVelocitySensing; - - //Filter Parameters - FilterParams *GlobalFilter; - - // filter velocity sensing - unsigned char PFilterVelocityScale; - - // filter velocity sensing - unsigned char PFilterVelocityScaleFunction; - - EnvelopeParams *FilterEnvelope; - LFOParams *FilterLfo; + EnvelopeParams *FilterEnvelope; + LFOParams *FilterLfo; - REALTYPE setPbandwidth(int Pbandwidth);//returns the BandWidth in cents - REALTYPE getNhr(int n);//gets the n-th overtone position relatively to N harmonic + REALTYPE setPbandwidth(int Pbandwidth); //returns the BandWidth in cents + REALTYPE getNhr(int n); //gets the n-th overtone position relatively to N harmonic - void applyparameters(bool lockmutex); - void export2wav(std::string basefilename); + void applyparameters(bool lockmutex); + void export2wav(std::string basefilename); - OscilGen *oscilgen; - Resonance *resonance; + OscilGen *oscilgen; + Resonance *resonance; - struct { - int size; - REALTYPE basefreq; - REALTYPE *smp; - }sample[PAD_MAX_SAMPLES],newsample; + struct { + int size; + REALTYPE basefreq; + REALTYPE *smp; + } sample[PAD_MAX_SAMPLES], newsample; -private: - void generatespectrum_bandwidthMode(REALTYPE *spectrum, int size,REALTYPE basefreq,REALTYPE *profile,int profilesize,REALTYPE bwadjust); - void generatespectrum_otherModes(REALTYPE *spectrum, int size,REALTYPE basefreq,REALTYPE *profile,int profilesize,REALTYPE bwadjust); - void deletesamples(); - void deletesample(int n); + private: + void generatespectrum_bandwidthMode(REALTYPE *spectrum, + int size, + REALTYPE basefreq, + REALTYPE *profile, + int profilesize, + REALTYPE bwadjust); + void generatespectrum_otherModes(REALTYPE *spectrum, + int size, + REALTYPE basefreq, + REALTYPE *profile, + int profilesize, + REALTYPE bwadjust); + void deletesamples(); + void deletesample(int n); - FFTwrapper *fft; - pthread_mutex_t *mutex; + FFTwrapper *fft; + pthread_mutex_t *mutex; }; #endif + diff --git a/plugins/zynaddsubfx/src/Params/Presets.cpp b/plugins/zynaddsubfx/src/Params/Presets.cpp index 40c78c24d..b3cfd1610 100644 --- a/plugins/zynaddsubfx/src/Params/Presets.cpp +++ b/plugins/zynaddsubfx/src/Params/Presets.cpp @@ -26,113 +26,124 @@ Presets::Presets() { - type[0]=0; - nelement=-1; -}; + type[0] = 0; + nelement = -1; +} Presets::~Presets() -{ -}; +{} void Presets::setpresettype(const char *type) { - strcpy(this->type,type); -}; + strcpy(this->type, type); +} void Presets::copy(const char *name) { - XMLwrapper *xml=new XMLwrapper(); + XMLwrapper *xml = new XMLwrapper(); //used only for the clipboard - if (name==NULL) xml->minimal=false; + if(name == NULL) + xml->minimal = false; char type[MAX_PRESETTYPE_SIZE]; - strcpy(type,this->type); - if (nelement!=-1) strcat(type,"n"); - if (name==NULL) { - if (strstr(type,"Plfo")!=NULL) strcpy(type,"Plfo"); - }; + strcpy(type, this->type); + if(nelement != -1) + strcat(type, "n"); + if(name == NULL) + if(strstr(type, "Plfo") != NULL) + strcpy(type, "Plfo"); + ; xml->beginbranch(type); - if (nelement==-1) add2XML(xml); - else add2XMLsection(xml,nelement); + if(nelement == -1) + add2XML(xml); + else + add2XMLsection(xml, nelement); xml->endbranch(); - if (name==NULL) presetsstore.copyclipboard(xml,type); - else presetsstore.copypreset(xml,type,name); + if(name == NULL) + presetsstore.copyclipboard(xml, type); + else + presetsstore.copypreset(xml, type, name); - delete(xml); - nelement=-1; -}; + delete (xml); + nelement = -1; +} void Presets::paste(int npreset) { char type[MAX_PRESETTYPE_SIZE]; - strcpy(type,this->type); - if (nelement!=-1) strcat(type,"n"); - if (npreset==0) { - if (strstr(type,"Plfo")!=NULL) strcpy(type,"Plfo"); - }; + strcpy(type, this->type); + if(nelement != -1) + strcat(type, "n"); + if(npreset == 0) + if(strstr(type, "Plfo") != NULL) + strcpy(type, "Plfo"); + ; - XMLwrapper *xml=new XMLwrapper(); - if (npreset==0) { - if (!checkclipboardtype()) { - nelement=-1; - delete(xml); + XMLwrapper *xml = new XMLwrapper(); + if(npreset == 0) { + if(!checkclipboardtype()) { + nelement = -1; + delete (xml); return; - }; - if (!presetsstore.pasteclipboard(xml)) { - delete(xml); - nelement=-1; + } + if(!presetsstore.pasteclipboard(xml)) { + delete (xml); + nelement = -1; return; - }; - } else { - if (!presetsstore.pastepreset(xml,npreset)) { - delete(xml); - nelement=-1; + } + } + else { + if(!presetsstore.pastepreset(xml, npreset)) { + delete (xml); + nelement = -1; return; - }; - }; + } + } - if (xml->enterbranch(type)==0) { - nelement=-1; + if(xml->enterbranch(type) == 0) { + nelement = -1; return; - }; - if (nelement==-1) { + } + if(nelement == -1) { defaults(); getfromXML(xml); - } else { + } + else { defaults(nelement); - getfromXMLsection(xml,nelement); - }; + getfromXMLsection(xml, nelement); + } xml->exitbranch(); - delete(xml); - nelement=-1; -}; + delete (xml); + nelement = -1; +} bool Presets::checkclipboardtype() { char type[MAX_PRESETTYPE_SIZE]; - strcpy(type,this->type); - if (nelement!=-1) strcat(type,"n"); + strcpy(type, this->type); + if(nelement != -1) + strcat(type, "n"); - return(presetsstore.checkclipboardtype(type)); -}; + return presetsstore.checkclipboardtype(type); +} void Presets::setelement(int n) { - nelement=n; -}; + nelement = n; +} void Presets::rescanforpresets() { presetsstore.rescanforpresets(type); -}; +} void Presets::deletepreset(int npreset) { presetsstore.deletepreset(npreset); -}; +} diff --git a/plugins/zynaddsubfx/src/Params/Presets.h b/plugins/zynaddsubfx/src/Params/Presets.h index 4f4bf78a4..8e143aed6 100644 --- a/plugins/zynaddsubfx/src/Params/Presets.h +++ b/plugins/zynaddsubfx/src/Params/Presets.h @@ -30,30 +30,30 @@ /**Presets and Clipboard management*/ class Presets { -public: - Presets(); - virtual ~Presets(); + public: + Presets(); + virtual ~Presets(); - void copy(const char *name);/**getXMLdata(); -}; + strcpy(clipboard.type, type); + if(clipboard.data != NULL) + free(clipboard.data); + clipboard.data = xml->getXMLdata(); +} bool PresetsStore::pasteclipboard(XMLwrapper *xml) { - if (clipboard.data!=NULL) xml->putXMLdata(clipboard.data); - else return(false); - return(true); -}; + if(clipboard.data != NULL) + xml->putXMLdata(clipboard.data); + else + return false; + return true; +} bool PresetsStore::checkclipboardtype(char *type) { //makes LFO's compatible - if ((strstr(type,"Plfo")!=NULL)&&(strstr(clipboard.type,"Plfo")!=NULL)) return(true); - return(strcmp(type,clipboard.type)==0); -}; + if((strstr(type, + "Plfo") != NULL) && (strstr(clipboard.type, "Plfo") != NULL)) + return true; + return strcmp(type, clipboard.type) == 0; +} //Presets management void PresetsStore::clearpresets() { - for (int i=0;iname)==NULL)||((p2->name)==NULL)) return(0); + struct PresetsStore::presetstruct *p1 = (PresetsStore::presetstruct *)a; + struct PresetsStore::presetstruct *p2 = (PresetsStore::presetstruct *)b; + if(((p1->name) == NULL) || ((p2->name) == NULL)) + return 0; - return(strcasecmp(p1->name,p2->name)<0); -}; + return strcasecmp(p1->name, p2->name) < 0; +} void PresetsStore::rescanforpresets(char *type) { clearpresets(); - int presetk=0; + int presetk = 0; char ftype[MAX_STRING_SIZE]; - snprintf(ftype,MAX_STRING_SIZE,".%s.xpz",type); + snprintf(ftype, MAX_STRING_SIZE, ".%s.xpz", type); - for (int i=0;id_name; - if (strstr(filename,ftype)==NULL) continue; + while((fn = readdir(dir))) { + const char *filename = fn->d_name; + if(strstr(filename, ftype) == NULL) + continue; - presets[presetk].file=new char [MAX_STRING_SIZE]; - presets[presetk].name=new char [MAX_STRING_SIZE]; - char tmpc=dirname[strlen(dirname)-1]; + presets[presetk].file = new char [MAX_STRING_SIZE]; + presets[presetk].name = new char [MAX_STRING_SIZE]; + char tmpc = dirname[strlen(dirname) - 1]; const char *tmps; - if ((tmpc=='/')||(tmpc=='\\')) tmps=""; - else tmps="/"; - snprintf(presets[presetk].file,MAX_STRING_SIZE,"%s%s%s",dirname,tmps,filename); - snprintf(presets[presetk].name,MAX_STRING_SIZE,"%s",filename); + if((tmpc == '/') || (tmpc == '\\')) + tmps = ""; + else + tmps = "/"; + snprintf(presets[presetk].file, + MAX_STRING_SIZE, + "%s%s%s", + dirname, + tmps, + filename); + snprintf(presets[presetk].name, MAX_STRING_SIZE, "%s", filename); - char *tmp=strstr(presets[presetk].name,ftype); - if (tmp!=NULL) tmp[0]='\0'; + char *tmp = strstr(presets[presetk].name, ftype); + if(tmp != NULL) + tmp[0] = '\0'; presetk++; - if (presetk>=MAX_PRESETS) return; - }; + if(presetk >= MAX_PRESETS) + return; + } closedir(dir); - }; + } //sort the presets - for (int j=0;j='0')&&(c<='9')) continue; - if ((c>='A')&&(c<='Z')) continue; - if ((c>='a')&&(c<='z')) continue; - if ((c=='-')||(c==' ')) continue; - tmpfilename[i]='_'; - }; + for(int i = 0; i < (int) strlen(tmpfilename); i++) { + char c = tmpfilename[i]; + if((c >= '0') && (c <= '9')) + continue; + if((c >= 'A') && (c <= 'Z')) + continue; + if((c >= 'a') && (c <= 'z')) + continue; + if((c == '-') || (c == ' ')) + continue; + tmpfilename[i] = '_'; + } - const char *dirname=config.cfg.presetsDirList[0]; - char tmpc=dirname[strlen(dirname)-1]; + const char *dirname = config.cfg.presetsDirList[0]; + char tmpc = dirname[strlen(dirname) - 1]; const char *tmps; - if ((tmpc=='/')||(tmpc=='\\')) tmps=""; - else tmps="/"; + if((tmpc == '/') || (tmpc == '\\')) + tmps = ""; + else + tmps = "/"; - snprintf(filename,MAX_STRING_SIZE,"%s%s%s.%s.xpz",dirname,tmps,name,type); + snprintf(filename, + MAX_STRING_SIZE, + "%s%s%s.%s.xpz", + dirname, + tmps, + name, + type); xml->saveXMLfile(filename); -}; +} bool PresetsStore::pastepreset(XMLwrapper *xml, int npreset) { npreset--; - if (npreset>=MAX_PRESETS) return(false); - char *filename=presets[npreset].file; - if (filename==NULL) return(false); - bool result=(xml->loadXMLfile(filename)>=0); - return(result); -}; + if(npreset >= MAX_PRESETS) + return false; + char *filename = presets[npreset].file; + if(filename == NULL) + return false; + bool result = (xml->loadXMLfile(filename) >= 0); + return result; +} void PresetsStore::deletepreset(int npreset) { npreset--; - if (npreset>=MAX_PRESETS) return; - char *filename=presets[npreset].file; - if (filename==NULL) return; + if(npreset >= MAX_PRESETS) + return; + char *filename = presets[npreset].file; + if(filename == NULL) + return; remove(filename); -}; +} diff --git a/plugins/zynaddsubfx/src/Params/PresetsStore.h b/plugins/zynaddsubfx/src/Params/PresetsStore.h index 8ff602beb..c81498231 100644 --- a/plugins/zynaddsubfx/src/Params/PresetsStore.h +++ b/plugins/zynaddsubfx/src/Params/PresetsStore.h @@ -28,36 +28,35 @@ class PresetsStore { -public: - PresetsStore(); - ~PresetsStore(); + public: + PresetsStore(); + ~PresetsStore(); - //Clipboard stuff - void copyclipboard(XMLwrapper *xml,char *type); - bool pasteclipboard(XMLwrapper *xml); - bool checkclipboardtype(char *type); + //Clipboard stuff + void copyclipboard(XMLwrapper *xml, char *type); + bool pasteclipboard(XMLwrapper *xml); + bool checkclipboardtype(char *type); - //presets stuff - void copypreset(XMLwrapper *xml,char *type, const char *name); - bool pastepreset(XMLwrapper *xml, int npreset); - void deletepreset(int npreset); + //presets stuff + void copypreset(XMLwrapper *xml, char *type, const char *name); + bool pastepreset(XMLwrapper *xml, int npreset); + void deletepreset(int npreset); - struct presetstruct { - char *file; - char *name; - }; - presetstruct presets[MAX_PRESETS]; + struct presetstruct { + char *file; + char *name; + }; + presetstruct presets[MAX_PRESETS]; - void rescanforpresets(char *type); + void rescanforpresets(char *type); -private: - struct { - char *data; - char type[MAX_PRESETTYPE_SIZE]; - } clipboard; - - void clearpresets(); + private: + struct { + char *data; + char type[MAX_PRESETTYPE_SIZE]; + } clipboard; + void clearpresets(); }; extern PresetsStore presetsstore; diff --git a/plugins/zynaddsubfx/src/Params/SUBnoteParameters.cpp b/plugins/zynaddsubfx/src/Params/SUBnoteParameters.cpp index 963af0911..27fdb46d0 100644 --- a/plugins/zynaddsubfx/src/Params/SUBnoteParameters.cpp +++ b/plugins/zynaddsubfx/src/Params/SUBnoteParameters.cpp @@ -27,59 +27,58 @@ SUBnoteParameters::SUBnoteParameters():Presets() { setpresettype("Psubsyth"); - AmpEnvelope=new EnvelopeParams(64,1); - AmpEnvelope->ADSRinit_dB(0,40,127,25); - FreqEnvelope=new EnvelopeParams(64,0); - FreqEnvelope->ASRinit(30,50,64,60); - BandWidthEnvelope=new EnvelopeParams(64,0); - BandWidthEnvelope->ASRinit_bw(100,70,64,60); + AmpEnvelope = new EnvelopeParams(64, 1); + AmpEnvelope->ADSRinit_dB(0, 40, 127, 25); + FreqEnvelope = new EnvelopeParams(64, 0); + FreqEnvelope->ASRinit(30, 50, 64, 60); + BandWidthEnvelope = new EnvelopeParams(64, 0); + BandWidthEnvelope->ASRinit_bw(100, 70, 64, 60); - GlobalFilter=new FilterParams(2,80,40); - GlobalFilterEnvelope=new EnvelopeParams(0,1); - GlobalFilterEnvelope->ADSRinit_filter(64,40,64,70,60,64); + GlobalFilter = new FilterParams(2, 80, 40); + GlobalFilterEnvelope = new EnvelopeParams(0, 1); + GlobalFilterEnvelope->ADSRinit_filter(64, 40, 64, 70, 60, 64); defaults(); -}; +} void SUBnoteParameters::defaults() { - PVolume=96; - PPanning=64; - PAmpVelocityScaleFunction=90; + PVolume = 96; + PPanning = 64; + PAmpVelocityScaleFunction = 90; - Pfixedfreq=0; - PfixedfreqET=0; - Pnumstages=2; - Pbandwidth=40; - Phmagtype=0; - Pbwscale=64; - Pstereo=1; - Pstart=1; + Pfixedfreq = 0; + PfixedfreqET = 0; + Pnumstages = 2; + Pbandwidth = 40; + Phmagtype = 0; + Pbwscale = 64; + Pstereo = 1; + Pstart = 1; - PDetune=8192; - PCoarseDetune=0; - PDetuneType=1; - PFreqEnvelopeEnabled=0; - PBandWidthEnvelopeEnabled=0; + PDetune = 8192; + PCoarseDetune = 0; + PDetuneType = 1; + PFreqEnvelopeEnabled = 0; + PBandWidthEnvelopeEnabled = 0; - for (int n=0;ndefaults(); FreqEnvelope->defaults(); BandWidthEnvelope->defaults(); GlobalFilter->defaults(); GlobalFilterEnvelope->defaults(); - -}; +} @@ -90,154 +89,163 @@ SUBnoteParameters::~SUBnoteParameters() delete (BandWidthEnvelope); delete (GlobalFilter); delete (GlobalFilterEnvelope); -}; +} void SUBnoteParameters::add2XML(XMLwrapper *xml) { - xml->addpar("num_stages",Pnumstages); - xml->addpar("harmonic_mag_type",Phmagtype); - xml->addpar("start",Pstart); + xml->addpar("num_stages", Pnumstages); + xml->addpar("harmonic_mag_type", Phmagtype); + xml->addpar("start", Pstart); xml->beginbranch("HARMONICS"); - for (int i=0;iminimal)) continue; - xml->beginbranch("HARMONIC",i); - xml->addpar("mag",Phmag[i]); - xml->addpar("relbw",Phrelbw[i]); + for(int i = 0; i < MAX_SUB_HARMONICS; i++) { + if((Phmag[i] == 0) && (xml->minimal)) + continue; + xml->beginbranch("HARMONIC", i); + xml->addpar("mag", Phmag[i]); + xml->addpar("relbw", Phrelbw[i]); xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("AMPLITUDE_PARAMETERS"); - xml->addparbool("stereo",Pstereo); - xml->addpar("volume",PVolume); - xml->addpar("panning",PPanning); - xml->addpar("velocity_sensing",PAmpVelocityScaleFunction); + xml->addparbool("stereo", Pstereo); + xml->addpar("volume", PVolume); + xml->addpar("panning", PPanning); + xml->addpar("velocity_sensing", PAmpVelocityScaleFunction); xml->beginbranch("AMPLITUDE_ENVELOPE"); AmpEnvelope->add2XML(xml); xml->endbranch(); xml->endbranch(); xml->beginbranch("FREQUENCY_PARAMETERS"); - xml->addparbool("fixed_freq",Pfixedfreq); - xml->addpar("fixed_freq_et",PfixedfreqET); + xml->addparbool("fixed_freq", Pfixedfreq); + xml->addpar("fixed_freq_et", PfixedfreqET); - xml->addpar("detune",PDetune); - xml->addpar("coarse_detune",PCoarseDetune); - xml->addpar("detune_type",PDetuneType); + xml->addpar("detune", PDetune); + xml->addpar("coarse_detune", PCoarseDetune); + xml->addpar("detune_type", PDetuneType); - xml->addpar("bandwidth",Pbandwidth); - xml->addpar("bandwidth_scale",Pbwscale); + xml->addpar("bandwidth", Pbandwidth); + xml->addpar("bandwidth_scale", Pbwscale); - xml->addparbool("freq_envelope_enabled",PFreqEnvelopeEnabled); - if ((PFreqEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("freq_envelope_enabled", PFreqEnvelopeEnabled); + if((PFreqEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FREQUENCY_ENVELOPE"); FreqEnvelope->add2XML(xml); xml->endbranch(); - }; + } - xml->addparbool("band_width_envelope_enabled",PBandWidthEnvelopeEnabled); - if ((PBandWidthEnvelopeEnabled!=0)||(!xml->minimal)) { + xml->addparbool("band_width_envelope_enabled", PBandWidthEnvelopeEnabled); + if((PBandWidthEnvelopeEnabled != 0) || (!xml->minimal)) { xml->beginbranch("BANDWIDTH_ENVELOPE"); BandWidthEnvelope->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); xml->beginbranch("FILTER_PARAMETERS"); - xml->addparbool("enabled",PGlobalFilterEnabled); - if ((PGlobalFilterEnabled!=0)||(!xml->minimal)) { + xml->addparbool("enabled", PGlobalFilterEnabled); + if((PGlobalFilterEnabled != 0) || (!xml->minimal)) { xml->beginbranch("FILTER"); GlobalFilter->add2XML(xml); xml->endbranch(); - xml->addpar("filter_velocity_sensing",PGlobalFilterVelocityScaleFunction); - xml->addpar("filter_velocity_sensing_amplitude",PGlobalFilterVelocityScale); + xml->addpar("filter_velocity_sensing", + PGlobalFilterVelocityScaleFunction); + xml->addpar("filter_velocity_sensing_amplitude", + PGlobalFilterVelocityScale); xml->beginbranch("FILTER_ENVELOPE"); GlobalFilterEnvelope->add2XML(xml); xml->endbranch(); - }; + } xml->endbranch(); -}; +} void SUBnoteParameters::getfromXML(XMLwrapper *xml) { - Pnumstages=xml->getpar127("num_stages",Pnumstages); - Phmagtype=xml->getpar127("harmonic_mag_type",Phmagtype); - Pstart=xml->getpar127("start",Pstart); + Pnumstages = xml->getpar127("num_stages", Pnumstages); + Phmagtype = xml->getpar127("harmonic_mag_type", Phmagtype); + Pstart = xml->getpar127("start", Pstart); - if (xml->enterbranch("HARMONICS")) { - Phmag[0]=0; - for (int i=0;ienterbranch("HARMONIC",i)==0) continue; - Phmag[i]=xml->getpar127("mag",Phmag[i]); - Phrelbw[i]=xml->getpar127("relbw",Phrelbw[i]); + if(xml->enterbranch("HARMONICS")) { + Phmag[0] = 0; + for(int i = 0; i < MAX_SUB_HARMONICS; i++) { + if(xml->enterbranch("HARMONIC", i) == 0) + continue; + Phmag[i] = xml->getpar127("mag", Phmag[i]); + Phrelbw[i] = xml->getpar127("relbw", Phrelbw[i]); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("AMPLITUDE_PARAMETERS")) { - Pstereo=xml->getparbool("stereo",Pstereo); - PVolume=xml->getpar127("volume",PVolume); - PPanning=xml->getpar127("panning",PPanning); - PAmpVelocityScaleFunction=xml->getpar127("velocity_sensing",PAmpVelocityScaleFunction); - if (xml->enterbranch("AMPLITUDE_ENVELOPE")) { + if(xml->enterbranch("AMPLITUDE_PARAMETERS")) { + Pstereo = xml->getparbool("stereo", Pstereo); + PVolume = xml->getpar127("volume", PVolume); + PPanning = xml->getpar127("panning", PPanning); + PAmpVelocityScaleFunction = xml->getpar127("velocity_sensing", + PAmpVelocityScaleFunction); + if(xml->enterbranch("AMPLITUDE_ENVELOPE")) { AmpEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FREQUENCY_PARAMETERS")) { - Pfixedfreq=xml->getparbool("fixed_freq",Pfixedfreq); - PfixedfreqET=xml->getpar127("fixed_freq_et",PfixedfreqET); + if(xml->enterbranch("FREQUENCY_PARAMETERS")) { + Pfixedfreq = xml->getparbool("fixed_freq", Pfixedfreq); + PfixedfreqET = xml->getpar127("fixed_freq_et", PfixedfreqET); - PDetune=xml->getpar("detune",PDetune,0,16383); - PCoarseDetune=xml->getpar("coarse_detune",PCoarseDetune,0,16383); - PDetuneType=xml->getpar127("detune_type",PDetuneType); + PDetune = xml->getpar("detune", PDetune, 0, 16383); + PCoarseDetune = xml->getpar("coarse_detune", PCoarseDetune, 0, 16383); + PDetuneType = xml->getpar127("detune_type", PDetuneType); - Pbandwidth=xml->getpar127("bandwidth",Pbandwidth); - Pbwscale=xml->getpar127("bandwidth_scale",Pbwscale); + Pbandwidth = xml->getpar127("bandwidth", Pbandwidth); + Pbwscale = xml->getpar127("bandwidth_scale", Pbwscale); - PFreqEnvelopeEnabled=xml->getparbool("freq_envelope_enabled",PFreqEnvelopeEnabled); - if (xml->enterbranch("FREQUENCY_ENVELOPE")) { + PFreqEnvelopeEnabled = xml->getparbool("freq_envelope_enabled", + PFreqEnvelopeEnabled); + if(xml->enterbranch("FREQUENCY_ENVELOPE")) { FreqEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } - PBandWidthEnvelopeEnabled=xml->getparbool("band_width_envelope_enabled",PBandWidthEnvelopeEnabled); - if (xml->enterbranch("BANDWIDTH_ENVELOPE")) { + PBandWidthEnvelopeEnabled = xml->getparbool( + "band_width_envelope_enabled", + PBandWidthEnvelopeEnabled); + if(xml->enterbranch("BANDWIDTH_ENVELOPE")) { BandWidthEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (xml->enterbranch("FILTER_PARAMETERS")) { - PGlobalFilterEnabled=xml->getparbool("enabled",PGlobalFilterEnabled); - if (xml->enterbranch("FILTER")) { + if(xml->enterbranch("FILTER_PARAMETERS")) { + PGlobalFilterEnabled = xml->getparbool("enabled", PGlobalFilterEnabled); + if(xml->enterbranch("FILTER")) { GlobalFilter->getfromXML(xml); xml->exitbranch(); - }; + } - PGlobalFilterVelocityScaleFunction=xml->getpar127("filter_velocity_sensing",PGlobalFilterVelocityScaleFunction); - PGlobalFilterVelocityScale=xml->getpar127("filter_velocity_sensing_amplitude",PGlobalFilterVelocityScale); + PGlobalFilterVelocityScaleFunction = xml->getpar127( + "filter_velocity_sensing", + PGlobalFilterVelocityScaleFunction); + PGlobalFilterVelocityScale = xml->getpar127( + "filter_velocity_sensing_amplitude", + PGlobalFilterVelocityScale); - if (xml->enterbranch("FILTER_ENVELOPE")) { + if(xml->enterbranch("FILTER_ENVELOPE")) { GlobalFilterEnvelope->getfromXML(xml); xml->exitbranch(); - }; + } xml->exitbranch(); - }; -}; - - - + } +} diff --git a/plugins/zynaddsubfx/src/Params/SUBnoteParameters.h b/plugins/zynaddsubfx/src/Params/SUBnoteParameters.h index a0ebd8fde..57bc08004 100644 --- a/plugins/zynaddsubfx/src/Params/SUBnoteParameters.h +++ b/plugins/zynaddsubfx/src/Params/SUBnoteParameters.h @@ -31,76 +31,74 @@ class SUBnoteParameters:public Presets { -public: - SUBnoteParameters(); - ~SUBnoteParameters(); + public: + SUBnoteParameters(); + ~SUBnoteParameters(); - void add2XML(XMLwrapper *xml); - void defaults(); - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + void getfromXML(XMLwrapper *xml); - //Parameters - //AMPLITUDE PARAMETRERS - unsigned char Pstereo;//0 for mono,1 for stereo - unsigned char PVolume; - unsigned char PPanning; - unsigned char PAmpVelocityScaleFunction; - EnvelopeParams *AmpEnvelope; + //Parameters + //AMPLITUDE PARAMETRERS + unsigned char Pstereo; //0 for mono,1 for stereo + unsigned char PVolume; + unsigned char PPanning; + unsigned char PAmpVelocityScaleFunction; + EnvelopeParams *AmpEnvelope; - //Frequency Parameters - unsigned short int PDetune; - unsigned short int PCoarseDetune; - unsigned char PDetuneType; - unsigned char PFreqEnvelopeEnabled; - EnvelopeParams *FreqEnvelope; - unsigned char PBandWidthEnvelopeEnabled; - EnvelopeParams *BandWidthEnvelope; + //Frequency Parameters + unsigned short int PDetune; + unsigned short int PCoarseDetune; + unsigned char PDetuneType; + unsigned char PFreqEnvelopeEnabled; + EnvelopeParams *FreqEnvelope; + unsigned char PBandWidthEnvelopeEnabled; + EnvelopeParams *BandWidthEnvelope; - //Filter Parameters (Global) - unsigned char PGlobalFilterEnabled; - FilterParams *GlobalFilter; - unsigned char PGlobalFilterVelocityScale; - unsigned char PGlobalFilterVelocityScaleFunction; - EnvelopeParams *GlobalFilterEnvelope; + //Filter Parameters (Global) + unsigned char PGlobalFilterEnabled; + FilterParams *GlobalFilter; + unsigned char PGlobalFilterVelocityScale; + unsigned char PGlobalFilterVelocityScaleFunction; + EnvelopeParams *GlobalFilterEnvelope; - //Other Parameters + //Other Parameters - //If the base frequency is fixed to 440 Hz - unsigned char Pfixedfreq; + //If the base frequency is fixed to 440 Hz + unsigned char Pfixedfreq; - /* Equal temperate (this is used only if the Pfixedfreq is enabled) - If this parameter is 0, the frequency is fixed (to 440 Hz); - if this parameter is 64, 1 MIDI halftone -> 1 frequency halftone */ - unsigned char PfixedfreqET; + /* Equal temperate (this is used only if the Pfixedfreq is enabled) + If this parameter is 0, the frequency is fixed (to 440 Hz); + if this parameter is 64, 1 MIDI halftone -> 1 frequency halftone */ + unsigned char PfixedfreqET; - //how many times the filters are applied - unsigned char Pnumstages; + //how many times the filters are applied + unsigned char Pnumstages; - //bandwidth - unsigned char Pbandwidth; + //bandwidth + unsigned char Pbandwidth; - //How the magnitudes are computed (0=linear,1=-60dB,2=-60dB) - unsigned char Phmagtype; + //How the magnitudes are computed (0=linear,1=-60dB,2=-60dB) + unsigned char Phmagtype; - //Magnitudes - unsigned char Phmag[MAX_SUB_HARMONICS]; + //Magnitudes + unsigned char Phmag[MAX_SUB_HARMONICS]; - //Relative BandWidth ("64"=1.0) - unsigned char Phrelbw[MAX_SUB_HARMONICS]; + //Relative BandWidth ("64"=1.0) + unsigned char Phrelbw[MAX_SUB_HARMONICS]; - //how much the bandwidth is increased according to lower/higher frequency; 64-default - unsigned char Pbwscale; + //how much the bandwidth is increased according to lower/higher frequency; 64-default + unsigned char Pbwscale; - //how the harmonics start("0"=0,"1"=random,"2"=1) - unsigned char Pstart; + //how the harmonics start("0"=0,"1"=random,"2"=1) + unsigned char Pstart; -private: + private: }; #endif - - diff --git a/plugins/zynaddsubfx/src/Samples/AuSample.cpp b/plugins/zynaddsubfx/src/Samples/AuSample.cpp index 5d95390cf..49f3a2887 100644 --- a/plugins/zynaddsubfx/src/Samples/AuSample.cpp +++ b/plugins/zynaddsubfx/src/Samples/AuSample.cpp @@ -20,9 +20,9 @@ */ #include "AuSample.h" -AuSample::AuSample(int length,REALTYPE fill) - : Sample(length,fill) {} +AuSample::AuSample(int length, REALTYPE fill) + :Sample(length, fill) {} -AuSample::AuSample(int length,const REALTYPE *input) - : Sample(length,input) {} +AuSample::AuSample(int length, const REALTYPE *input) + :Sample(length, input) {} diff --git a/plugins/zynaddsubfx/src/Samples/AuSample.h b/plugins/zynaddsubfx/src/Samples/AuSample.h index f82166482..cad4a786c 100644 --- a/plugins/zynaddsubfx/src/Samples/AuSample.h +++ b/plugins/zynaddsubfx/src/Samples/AuSample.h @@ -24,13 +24,12 @@ #include "Sample.h" #include "FqSample.h" -class AuSample : public Sample +class AuSample:public Sample { -public: - AuSample(int length,REALTYPE fill=0); - AuSample(int length,const REALTYPE *input); - FqSample getFqSample();/**\todo implement this*/ - + public: + AuSample(int length, REALTYPE fill = 0); + AuSample(int length, const REALTYPE *input); + FqSample getFqSample(); /**\todo implement this*/ }; #endif diff --git a/plugins/zynaddsubfx/src/Samples/FqSample.cpp b/plugins/zynaddsubfx/src/Samples/FqSample.cpp index 888dd0c45..94774047a 100644 --- a/plugins/zynaddsubfx/src/Samples/FqSample.cpp +++ b/plugins/zynaddsubfx/src/Samples/FqSample.cpp @@ -20,12 +20,12 @@ */ #include "FqSample.h" -FqSample::FqSample(int length,REALTYPE fill) - :Sample(length,fill) +FqSample::FqSample(int length, REALTYPE fill) + :Sample(length, fill) {} -FqSample::FqSample(int length,const REALTYPE *input) - : Sample(length,input) +FqSample::FqSample(int length, const REALTYPE *input) + :Sample(length, input) {} FqSample::~FqSample() diff --git a/plugins/zynaddsubfx/src/Samples/FqSample.h b/plugins/zynaddsubfx/src/Samples/FqSample.h index f81abe20f..fd31535cb 100644 --- a/plugins/zynaddsubfx/src/Samples/FqSample.h +++ b/plugins/zynaddsubfx/src/Samples/FqSample.h @@ -24,14 +24,14 @@ #include "FqSample.h" #include "Sample.h" -class FqSample : public Sample +class FqSample:public Sample { -public: - FqSample(int length,REALTYPE fill=0); - FqSample(int length,const REALTYPE *input); - ~FqSample(); - //FqSample &operator=(const FqSample &smp); - //float *dontuse(){return buffer;}; + public: + FqSample(int length, REALTYPE fill = 0); + FqSample(int length, const REALTYPE *input); + ~FqSample(); + //FqSample &operator=(const FqSample &smp); + //float *dontuse(){return buffer;}; }; #endif diff --git a/plugins/zynaddsubfx/src/Samples/Sample.cpp b/plugins/zynaddsubfx/src/Samples/Sample.cpp index c11bc6d56..ca5bdc128 100644 --- a/plugins/zynaddsubfx/src/Samples/Sample.cpp +++ b/plugins/zynaddsubfx/src/Samples/Sample.cpp @@ -24,34 +24,35 @@ /**\TODO start using pointer math here as these will be Frequency called * functions throughout the code*/ Sample::Sample(const Sample &smp) - : bufferSize(smp.bufferSize) + :bufferSize(smp.bufferSize) { - buffer=new REALTYPE[bufferSize]; - for (int i=0;i0) { - buffer=new REALTYPE[length]; - for (int i=0;i 0) { + buffer = new REALTYPE[length]; + for(int i = 0; i < length; ++i) + *(buffer + i) = *(input + i); + } + else { + buffer = new REALTYPE[1]; + bufferSize = 1; + *buffer = 0; } } @@ -62,58 +63,59 @@ Sample::~Sample() void Sample::clear() { - for (int i=0;ibufferSize!=smp.bufferSize) + if(this->bufferSize != smp.bufferSize) return false; - for(int i=0;ibuffer[i]!=smp.buffer[i]) + for(int i = 0; i < bufferSize; ++i) + if(this->buffer[i] != smp.buffer[i]) return false; return true; } -REALTYPE Sample::max()const +REALTYPE Sample::max() const { - REALTYPE max=-1500;//a good low considering that samples should store values -1.0 to 1.0 - for(int i=0;imax) - max=buffer[i]; + REALTYPE max = -1500; //a good low considering that samples should store values -1.0 to 1.0 + for(int i = 0; i < bufferSize; ++i) + if(buffer[i] > max) + max = buffer[i]; return max; } -REALTYPE Sample::min()const +REALTYPE Sample::min() const { - REALTYPE min=1500;//a good high considering that samples should store values -1.0 to 1.0 - for(int i=0;imax) - max=fabs(buffer[i]); + REALTYPE max = 0; + for(int i = 0; i < bufferSize; ++i) + if(fabs(buffer[i]) > max) + max = fabs(buffer[i]); return max; } + diff --git a/plugins/zynaddsubfx/src/Samples/Sample.h b/plugins/zynaddsubfx/src/Samples/Sample.h index c46786d8b..ebdae66e5 100644 --- a/plugins/zynaddsubfx/src/Samples/Sample.h +++ b/plugins/zynaddsubfx/src/Samples/Sample.h @@ -26,45 +26,43 @@ */ class Sample { -public: - Sample(const Sample &smp); - Sample(int length,REALTYPE fill=0); - Sample(int length,const REALTYPE *fill); - ~Sample(); - /**Fills the buffer with zeros*/ - void clear(); - /**States the size of the buffer - * @return the size of the buffer*/ - int size() const { - return bufferSize; - }; - /**Provides the indexing operator for non const Samples*/ - REALTYPE &operator[](int index) { - return *(buffer+index%bufferSize); - }; - /**Provides the indexing operator for const Samples*/ - const REALTYPE &operator[](int index)const { - return *(buffer+index%bufferSize); - }; - /**Provides the assignment operator*/ - void operator=(const Sample &smp); - /**Provides the == operator*/ - bool operator==(const Sample &smp)const; - /**Provides direct access to the buffer to allow for transition - * - * This method is like c_str() from the string class and should be used - * sparingly*/ - const REALTYPE *c_buf() { - return buffer; - }; - REALTYPE max()const; - REALTYPE min()const; - REALTYPE absMax()const; -private: - int bufferSize; - float *buffer; - - + public: + Sample(const Sample &smp); + Sample(int length, REALTYPE fill = 0); + Sample(int length, const REALTYPE *fill); + ~Sample(); + /**Fills the buffer with zeros*/ + void clear(); + /**States the size of the buffer + * @return the size of the buffer*/ + int size() const { + return bufferSize; + } + /**Provides the indexing operator for non const Samples*/ + REALTYPE &operator[](int index) { + return *(buffer + index % bufferSize); + } + /**Provides the indexing operator for const Samples*/ + const REALTYPE &operator[](int index) const { + return *(buffer + index % bufferSize); + } + /**Provides the assignment operator*/ + void operator=(const Sample &smp); + /**Provides the == operator*/ + bool operator==(const Sample &smp) const; + /**Provides direct access to the buffer to allow for transition + * + * This method is like c_str() from the string class and should be used + * sparingly*/ + const REALTYPE *c_buf() { + return buffer; + } + REALTYPE max() const; + REALTYPE min() const; + REALTYPE absMax() const; + private: + int bufferSize; + float *buffer; }; #endif diff --git a/plugins/zynaddsubfx/src/Seq/MIDIEvents.cpp b/plugins/zynaddsubfx/src/Seq/MIDIEvents.cpp index 42618c1ce..3bbab6c48 100644 --- a/plugins/zynaddsubfx/src/Seq/MIDIEvents.cpp +++ b/plugins/zynaddsubfx/src/Seq/MIDIEvents.cpp @@ -25,68 +25,69 @@ #include MIDIEvents::MIDIEvents() -{ -}; +{} MIDIEvents::~MIDIEvents() -{ -}; +{} /************** Track stuff ***************/ -void MIDIEvents::writeevent(list *l,event *ev) +void MIDIEvents::writeevent(list *l, event *ev) { - listpos *tmp=new listpos; - tmp->next=NULL; - tmp->ev=*ev; - if (l->current!=NULL) l->current->next=tmp; - else l->first=tmp; - l->current=tmp; + listpos *tmp = new listpos; + tmp->next = NULL; + tmp->ev = *ev; + if(l->current != NULL) + l->current->next = tmp; + else + l->first = tmp; + l->current = tmp; // printf("Wx%x ",(int) l->current); // printf("-> %d \n",l->current->ev.deltatime); l->size++; -}; +} -void MIDIEvents::readevent(list *l,event *ev) +void MIDIEvents::readevent(list *l, event *ev) { - if (l->current==NULL) { - ev->type=-1; + if(l->current == NULL) { + ev->type = -1; return; - }; - *ev=l->current->ev; - l->current=l->current->next; + } + *ev = l->current->ev; + l->current = l->current->next; //test - if (l->current!=NULL) { + if(l->current != NULL) { // ev->deltatime=10000; // printf("Rx%d\n",l->current->ev.deltatime); // printf("Rx%x ",(int) l->current); // printf("-> %d (next=%x) \n",(int)l->current->ev.deltatime,(int)l->current->next); - }; - -}; + } +} void MIDIEvents::rewindlist(list *l) { - l->current=l->first; -}; + l->current = l->first; +} void MIDIEvents::deletelist(list *l) { - l->current=l->first; - if (l->current==NULL) return; - while (l->current->next!=NULL) { - listpos *tmp=l->current; - l->current=l->current->next; - delete(tmp); - }; + l->current = l->first; + if(l->current == NULL) + return; + while(l->current->next != NULL) { + listpos *tmp = l->current; + l->current = l->current->next; + delete (tmp); + } deletelistreference(l); -}; +} void MIDIEvents::deletelistreference(list *l) { - l->current=l->first=NULL; - l->size=0; - l->length=0.0; -}; + l->current = l->first = NULL; + l->size = 0; + l->length = 0.0; +} + diff --git a/plugins/zynaddsubfx/src/Seq/MIDIEvents.h b/plugins/zynaddsubfx/src/Seq/MIDIEvents.h index 5b3b6f1e1..222404876 100644 --- a/plugins/zynaddsubfx/src/Seq/MIDIEvents.h +++ b/plugins/zynaddsubfx/src/Seq/MIDIEvents.h @@ -31,39 +31,38 @@ class MIDIEvents { friend class MIDIFile; -public: - MIDIEvents(); - ~MIDIEvents(); + public: + MIDIEvents(); + ~MIDIEvents(); -protected: + protected: - /* Events */ - struct event { - int deltatime; - int channel;//on what midi channel is - int type,par1,par2;//type=1 for note, type=2 for controller, type=255 for time messages - } tmpevent; - struct listpos { - event ev; - struct listpos *next; - }; - struct list { - listpos *first,*current; - int size;//how many events are - double length;//in seconds - }; - struct { - list track;//the stored track - list record;//the track being "recorded" from midi - } miditrack[NUM_MIDI_TRACKS]; + /* Events */ + struct event { + int deltatime; + int channel; //on what midi channel is + int type, par1, par2; //type=1 for note, type=2 for controller, type=255 for time messages + } tmpevent; + struct listpos { + event ev; + struct listpos *next; + }; + struct list { + listpos *first, *current; + int size; //how many events are + double length; //in seconds + }; + struct { + list track; //the stored track + list record; //the track being "recorded" from midi + } miditrack[NUM_MIDI_TRACKS]; - void writeevent(list *l,event *ev); - void readevent(list *l,event *ev); - - void rewindlist(list *l); - void deletelist(list *l); - void deletelistreference(list *l); + void writeevent(list *l, event *ev); + void readevent(list *l, event *ev); + void rewindlist(list *l); + void deletelist(list *l); + void deletelistreference(list *l); }; #endif diff --git a/plugins/zynaddsubfx/src/Seq/MIDIFile.cpp b/plugins/zynaddsubfx/src/Seq/MIDIFile.cpp index 61e748d3a..882d96e02 100644 --- a/plugins/zynaddsubfx/src/Seq/MIDIFile.cpp +++ b/plugins/zynaddsubfx/src/Seq/MIDIFile.cpp @@ -27,382 +27,395 @@ MIDIFile::MIDIFile() { - midifile=NULL; - midifilesize=0; - midifilek=0; - midieof=false; - me=NULL; -}; + midifile = NULL; + midifilesize = 0; + midifilek = 0; + midieof = false; + me = NULL; +} MIDIFile::~MIDIFile() { clearmidifile(); -}; +} int MIDIFile::loadfile(const char *filename) { clearmidifile(); - FILE *file=fopen(filename,"r"); - if (file==NULL) return(-1); + FILE *file = fopen(filename, "r"); + if(file == NULL) + return -1; char header[4]; - ZERO(header,4); - fread(header,4,1,file); + ZERO(header, 4); + fread(header, 4, 1, file); //test to see if this a midi file - if ((header[0]!='M')||(header[1]!='T')||(header[2]!='h')||(header[3]!='d')) { + if((header[0] != 'M') || (header[1] != 'T') || (header[2] != 'h') + || (header[3] != 'd')) { fclose(file); - return(-1); - }; + return -1; + } //get the filesize - fseek(file,0,SEEK_END); - midifilesize=ftell(file); + fseek(file, 0, SEEK_END); + midifilesize = ftell(file); rewind(file); - midifile=new unsigned char[midifilesize]; - ZERO(midifile,midifilesize); - fread(midifile,midifilesize,1,file); + midifile = new unsigned char[midifilesize]; + ZERO(midifile, midifilesize); + fread(midifile, midifilesize, 1, file); fclose(file); // for (int i=0;ime=me_; + this->me = me_; //read the header - int chunk=getint32();//MThd - if (chunk!=0x4d546864) return(-1); - int size=getint32(); - if (size!=6) return(-1);//header is always 6 bytes long + int chunk = getint32(); //MThd + if(chunk != 0x4d546864) + return -1; + int size = getint32(); + if(size != 6) + return -1; //header is always 6 bytes long - int format=getint16(); - printf("format %d\n",format); + int format = getint16(); + printf("format %d\n", format); - int ntracks=getint16();//this is always 1 if the format is "0" - printf("ntracks %d\n",ntracks); + int ntracks = getint16(); //this is always 1 if the format is "0" + printf("ntracks %d\n", ntracks); - int division=getint16(); - printf("division %d\n",division); - if (division>=0) {//delta time units in each a quater note + int division = getint16(); + printf("division %d\n", division); + if(division >= 0) { //delta time units in each a quater note // tick=???; - } else {//SMPTE (frames/second and ticks/frame) - printf("ERROR:in MIDIFile.C::parsemidifile() - SMPTE not implemented yet."); - }; + } + else //SMPTE (frames/second and ticks/frame) + printf( + "ERROR:in MIDIFile.C::parsemidifile() - SMPTE not implemented yet."); + ; - if (ntracks>=NUM_MIDI_TRACKS) ntracks=NUM_MIDI_TRACKS-1; + if(ntracks >= NUM_MIDI_TRACKS) + ntracks = NUM_MIDI_TRACKS - 1; - for (int n=0;nme=NULL; - return(0); -}; + this->me = NULL; + return 0; +} //private members int MIDIFile::parsetrack(int ntrack) { - printf("\n--==*Reading track %d **==--\n",ntrack); + printf("\n--==*Reading track %d **==--\n", ntrack); - int chunk=getint32();//MTrk - if (chunk!=0x4d54726b) return(-1); + int chunk = getint32(); //MTrk + if(chunk != 0x4d54726b) + return -1; - int size=getint32(); - printf("size = %d\n",size); + int size = getint32(); + printf("size = %d\n", size); - int oldmidifilek=midifilek; + int oldmidifilek = midifilek; - unsigned char lastmsg=0; - unsigned int dt=0; + unsigned char lastmsg = 0; + unsigned int dt = 0; - while (!midieof) { - unsigned int msgdeltatime=getvarint32(); + while(!midieof) { + unsigned int msgdeltatime = getvarint32(); /// printf("MSGDELTATIME = %d\n",msgdeltatime); // dt+=msgdeltatime; - int msg=peekbyte(); + int msg = peekbyte(); /// printf("raw msg=0x%x ",msg); - if (msg<0x80) { - msg=lastmsg; - } else { - lastmsg=msg; + if(msg < 0x80) + msg = lastmsg; + else { + lastmsg = msg; getbyte(); - }; + } /// printf("msg=0x%x\n",msg); // dt+=msgdeltatime; add_dt(ntrack, msgdeltatime); - unsigned int mtype,mlength; + unsigned int mtype, mlength; - switch (msg) { - case 0x80 ... 0x8f://note on off - parsenoteoff(ntrack,msg & 0x0f,dt); - dt=0; + switch(msg) { + case 0x80 ... 0x8f: //note on off + parsenoteoff(ntrack, msg & 0x0f, dt); + dt = 0; break; - case 0x90 ... 0x9f://note on (or note off) - parsenoteon(ntrack,msg & 0x0f,dt); - dt=0; + case 0x90 ... 0x9f: //note on (or note off) + parsenoteon(ntrack, msg & 0x0f, dt); + dt = 0; break; - case 0xa0 ... 0xaf://aftertouch - ignored + case 0xa0 ... 0xaf: //aftertouch - ignored skipnbytes(2); break; - case 0xb0 ... 0xbf://control change - parsecontrolchange(ntrack,msg & 0x0f,dt); - dt=0; + case 0xb0 ... 0xbf: //control change + parsecontrolchange(ntrack, msg & 0x0f, dt); + dt = 0; break; - case 0xc0 ... 0xcf://program change - ignored + case 0xc0 ... 0xcf: //program change - ignored skipnbytes(1); break; - case 0xd0 ... 0xdf://channel pressure - ignored + case 0xd0 ... 0xdf: //channel pressure - ignored skipnbytes(1); break; - case 0xe0 ... 0xef://channel mode messages + case 0xe0 ... 0xef: //channel mode messages skipnbytes(2); break; - case 0xf0://sysex - ignored - while (getbyte()!=0xf7) { - if (midieof) break; - }; + case 0xf0: //sysex - ignored + while(getbyte() != 0xf7) { + if(midieof) + break; + } break; - case 0xf7://sysex (another type) - ignored + case 0xf7: //sysex (another type) - ignored skipnbytes(getvarint32()); break; - case 0xff://meta-event - mtype=getbyte(); - mlength=getbyte(); - parsemetaevent(mtype,mlength); + case 0xff: //meta-event + mtype = getbyte(); + mlength = getbyte(); + parsemetaevent(mtype, mlength); break; default: getbyte(); - printf("UNKNOWN message! 0x%x\n",msg); - return(-1); + printf("UNKNOWN message! 0x%x\n", msg); + return -1; break; - }; + } - if (midieof) return(-1); + if(midieof) + return -1; - if ((midifilek-oldmidifilek)==size) break; - else if ((midifilek-oldmidifilek)>size) return(-1); + if((midifilek - oldmidifilek) == size) + break; + else + if((midifilek - oldmidifilek) > size) + return -1; // if (size!=6) return(-1);//header is always 6 bytes long - }; + } printf("End Track\n\n"); - return(0); -}; + return 0; +} -void MIDIFile::parsenoteoff(char ntrack,char chan,unsigned int dt) +void MIDIFile::parsenoteoff(char ntrack, char chan, unsigned int dt) { unsigned char note; - note=getbyte(); + note = getbyte(); - unsigned char noteoff_velocity=getbyte();//unused by zynaddsubfx - noteoff_velocity=0; - if (chan>=NUM_MIDI_CHANNELS) return; + unsigned char noteoff_velocity = getbyte(); //unused by zynaddsubfx + noteoff_velocity = 0; + if(chan >= NUM_MIDI_CHANNELS) + return; - me->tmpevent.deltatime=convertdt(dt); - me->tmpevent.type=1; - me->tmpevent.par1=note; - me->tmpevent.par2=0; - me->tmpevent.channel=chan; + me->tmpevent.deltatime = convertdt(dt); + me->tmpevent.type = 1; + me->tmpevent.par1 = note; + me->tmpevent.par2 = 0; + me->tmpevent.channel = chan; - printf("Note off:%d \n",note); + printf("Note off:%d \n", note); ///test // ntrack=0; - me->writeevent(&me->miditrack[(int)ntrack].record,&me->tmpevent); - -}; + me->writeevent(&me->miditrack[(int)ntrack].record, &me->tmpevent); +} -void MIDIFile::parsenoteon(char ntrack,char chan,unsigned int dt) +void MIDIFile::parsenoteon(char ntrack, char chan, unsigned int dt) { - unsigned char note,vel; - note=getbyte(); - vel=getbyte(); + unsigned char note, vel; + note = getbyte(); + vel = getbyte(); // printf("ntrack=%d\n",ntrack); - printf("[dt %d ] Note on:%d %d\n",dt,note,vel); + printf("[dt %d ] Note on:%d %d\n", dt, note, vel); - if (chan>=NUM_MIDI_CHANNELS) return; + if(chan >= NUM_MIDI_CHANNELS) + return; - me->tmpevent.deltatime=convertdt(dt); - me->tmpevent.type=1; - me->tmpevent.par1=note; - me->tmpevent.par2=vel; - me->tmpevent.channel=chan; - me->writeevent(&me->miditrack[(int)ntrack].record,&me->tmpevent); + me->tmpevent.deltatime = convertdt(dt); + me->tmpevent.type = 1; + me->tmpevent.par1 = note; + me->tmpevent.par2 = vel; + me->tmpevent.channel = chan; + me->writeevent(&me->miditrack[(int)ntrack].record, &me->tmpevent); +} - - -}; - -void MIDIFile::parsecontrolchange(char ntrack,char chan,unsigned int dt) +void MIDIFile::parsecontrolchange(char ntrack, char chan, unsigned int dt) { - unsigned char control,value; - control=getbyte(); - value=getbyte(); + unsigned char control, value; + control = getbyte(); + value = getbyte(); - if (chan>=NUM_MIDI_CHANNELS) return; + if(chan >= NUM_MIDI_CHANNELS) + return; - printf("[dt %d] Control change:%d %d\n",dt,control,value); + printf("[dt %d] Control change:%d %d\n", dt, control, value); - me->tmpevent.deltatime=convertdt(dt); - me->tmpevent.type=2; - me->tmpevent.par1=control;//???????????? ma uit la Sequencer::recordnote() din varianele vechi de zyn - me->tmpevent.par2=value; - me->tmpevent.channel=chan; - me->writeevent(&me->miditrack[(int)ntrack].record,&me->tmpevent); + me->tmpevent.deltatime = convertdt(dt); + me->tmpevent.type = 2; + me->tmpevent.par1 = control; //???????????? ma uit la Sequencer::recordnote() din varianele vechi de zyn + me->tmpevent.par2 = value; + me->tmpevent.channel = chan; + me->writeevent(&me->miditrack[(int)ntrack].record, &me->tmpevent); +} -}; - -void MIDIFile::parsepitchwheel(char ntrack,char chan, unsigned int dt) +void MIDIFile::parsepitchwheel(char ntrack, char chan, unsigned int dt) { - unsigned char valhi,vallo; - vallo=getbyte(); - valhi=getbyte(); + unsigned char valhi, vallo; + vallo = getbyte(); + valhi = getbyte(); - if (chan>=NUM_MIDI_CHANNELS) return; + if(chan >= NUM_MIDI_CHANNELS) + return; - int value=(int)valhi*128+vallo; + int value = (int)valhi * 128 + vallo; - printf("[dt %d] Pitch wheel:%d\n",dt,value); + printf("[dt %d] Pitch wheel:%d\n", dt, value); +} -}; - -void MIDIFile::parsemetaevent(unsigned char mtype,unsigned char mlength) +void MIDIFile::parsemetaevent(unsigned char mtype, unsigned char mlength) { - int oldmidifilek=midifilek; - printf("meta-event type=0x%x length=%d\n",mtype,mlength); + int oldmidifilek = midifilek; + printf("meta-event type=0x%x length=%d\n", mtype, mlength); - midifilek=oldmidifilek+mlength; - -}; + midifilek = oldmidifilek + mlength; +} void MIDIFile::add_dt(char ntrack, unsigned int dt) { - me->tmpevent.deltatime=convertdt(dt); - me->tmpevent.type=255; - me->tmpevent.par1=0; - me->tmpevent.par2=0; - me->tmpevent.channel=0; - me->writeevent(&me->miditrack[(int)ntrack].record,&me->tmpevent); -}; + me->tmpevent.deltatime = convertdt(dt); + me->tmpevent.type = 255; + me->tmpevent.par1 = 0; + me->tmpevent.par2 = 0; + me->tmpevent.channel = 0; + me->writeevent(&me->miditrack[(int)ntrack].record, &me->tmpevent); +} unsigned int MIDIFile::convertdt(unsigned int dt) { - double result=dt; - printf("DT=%d\n",dt); + double result = dt; + printf("DT=%d\n", dt); - return((int) (result*15.0)); -}; + return (int) (result * 15.0); +} void MIDIFile::clearmidifile() { - if (midifile!=NULL) delete(midifile); - midifile=NULL; - midifilesize=0; - midifilek=0; - midieof=false; - data.tick=0.05; -}; + if(midifile != NULL) + delete (midifile); + midifile = NULL; + midifilesize = 0; + midifilek = 0; + midieof = false; + data.tick = 0.05; +} unsigned char MIDIFile::getbyte() { - if (midifilek>=midifilesize) { - midieof=true; - return(0); - }; + if(midifilek >= midifilesize) { + midieof = true; + return 0; + } /// printf("(%d) ",midifile[midifilek]); - return(midifile[midifilek++]); -}; + return midifile[midifilek++]; +} unsigned char MIDIFile::peekbyte() { - if (midifilek>=midifilesize) { - midieof=true; - return(0); - }; - return(midifile[midifilek]); -}; + if(midifilek >= midifilesize) { + midieof = true; + return 0; + } + return midifile[midifilek]; +} unsigned int MIDIFile::getint32() { - unsigned int result=0; - for (int i=0;i<4;i++) { - result=result*256+getbyte(); - }; - if (midieof) result=0; - return(result); -}; + unsigned int result = 0; + for(int i = 0; i < 4; i++) + result = result * 256 + getbyte(); + ; + if(midieof) + result = 0; + return result; +} unsigned short int MIDIFile::getint16() { - unsigned short int result=0; - for (int i=0;i<2;i++) { - result=result*256+getbyte(); - }; - if (midieof) result=0; - return(result); -}; + unsigned short int result = 0; + for(int i = 0; i < 2; i++) + result = result * 256 + getbyte(); + ; + if(midieof) + result = 0; + return result; +} unsigned int MIDIFile::getvarint32() { - unsigned long result=0; + unsigned long result = 0; unsigned char b; /// printf("\n[start]"); - if ((result = getbyte()) & 0x80) { + if((result = getbyte()) & 0x80) { result &= 0x7f; - do { - b=getbyte(); + do { + b = getbyte(); result = (result << 7) + (b & 0x7f); - } while (b & 0x80); + } while(b & 0x80); } /// printf("[end - result= %d]\n",result); return result; -}; +} void MIDIFile::skipnbytes(int n) { - midifilek+=n; - if (midifilek>=midifilesize) { - midifilek=midifilesize-1; - midieof=true; - }; -}; + midifilek += n; + if(midifilek >= midifilesize) { + midifilek = midifilesize - 1; + midieof = true; + } +} diff --git a/plugins/zynaddsubfx/src/Seq/MIDIFile.h b/plugins/zynaddsubfx/src/Seq/MIDIFile.h index 7f831589f..374d98c1c 100644 --- a/plugins/zynaddsubfx/src/Seq/MIDIFile.h +++ b/plugins/zynaddsubfx/src/Seq/MIDIFile.h @@ -29,66 +29,64 @@ /**MIDI file loader*/ class MIDIFile { -public: - MIDIFile(); - ~MIDIFile(); + public: + MIDIFile(); + ~MIDIFile(); - /**Loads the given file - * @param filename The name of the file to load - * @return -1 if there is an error, otherwise 0*/ - int loadfile(const char *filename); + /**Loads the given file + * @param filename The name of the file to load + * @return -1 if there is an error, otherwise 0*/ + int loadfile(const char *filename); - //returns -1 if there is an error, otherwise 0 - int parsemidifile(MIDIEvents *me_); + //returns -1 if there is an error, otherwise 0 + int parsemidifile(MIDIEvents *me_); -private: - MIDIEvents *me; + private: + MIDIEvents *me; - unsigned char *midifile; - int midifilesize,midifilek; - bool midieof; + unsigned char *midifile; + int midifilesize, midifilek; + bool midieof; - //returns -1 if there is an error, otherwise 0 - int parsetrack(int ntrack); + //returns -1 if there is an error, otherwise 0 + int parsetrack(int ntrack); - void parsenoteoff(char ntrack,char chan,unsigned int dt); - void parsenoteon(char ntrack,char chan,unsigned int dt); - void parsecontrolchange(char ntrack,char chan,unsigned int dt); - void parsepitchwheel(char ntrack,char chan, unsigned int dt); - void parsemetaevent(unsigned char mtype,unsigned char mlength); + void parsenoteoff(char ntrack, char chan, unsigned int dt); + void parsenoteon(char ntrack, char chan, unsigned int dt); + void parsecontrolchange(char ntrack, char chan, unsigned int dt); + void parsepitchwheel(char ntrack, char chan, unsigned int dt); + void parsemetaevent(unsigned char mtype, unsigned char mlength); - void add_dt(char ntrack, unsigned int dt); + void add_dt(char ntrack, unsigned int dt); - void clearmidifile(); + void clearmidifile(); - //convert the delta-time to internal format - unsigned int convertdt(unsigned int dt); + //convert the delta-time to internal format + unsigned int convertdt(unsigned int dt); - /* Low Level MIDIfile functions */ + /* Low Level MIDIfile functions */ - //get a byte from the midifile - unsigned char getbyte(); + //get a byte from the midifile + unsigned char getbyte(); - //peek the current byte from the midifile - unsigned char peekbyte(); + //peek the current byte from the midifile + unsigned char peekbyte(); - //get a set of 4 bytes from the midifile - unsigned int getint32(); + //get a set of 4 bytes from the midifile + unsigned int getint32(); - //get a word of 2 bytes from the midifile - unsigned short int getint16(); + //get a word of 2 bytes from the midifile + unsigned short int getint16(); - //read a variable length quantity - unsigned int getvarint32(); + //read a variable length quantity + unsigned int getvarint32(); - //skip some bytes - void skipnbytes(int n); - - struct { - double tick;//how many seconds one tick has - - }data; + //skip some bytes + void skipnbytes(int n); + struct { + double tick; //how many seconds one tick has + } data; }; #endif diff --git a/plugins/zynaddsubfx/src/Seq/Sequencer.cpp b/plugins/zynaddsubfx/src/Seq/Sequencer.cpp index d0a32f1c4..cedc9249e 100644 --- a/plugins/zynaddsubfx/src/Seq/Sequencer.cpp +++ b/plugins/zynaddsubfx/src/Seq/Sequencer.cpp @@ -33,76 +33,85 @@ Sequencer::Sequencer() { - play=0; - for (int i=0;i1sec) sa elimin nota - if (ntrack==1) printf("_ %f %.2f (%d)\n",nextevent[(int)ntrack].time,playtime[(int)ntrack].abs,nextevent[(int)ntrack].ev.par2); + if(ntrack == 1) + printf("_ %f %.2f (%d)\n", nextevent[(int)ntrack].time, + playtime[(int)ntrack].abs, nextevent[(int)ntrack].ev.par2); - *type=nextevent[(int)ntrack].ev.type; - *par1=nextevent[(int)ntrack].ev.par1; - *par2=nextevent[(int)ntrack].ev.par2; - *midich=nextevent[(int)ntrack].ev.channel; + *type = nextevent[(int)ntrack].ev.type; + *par1 = nextevent[(int)ntrack].ev.par1; + *par2 = nextevent[(int)ntrack].ev.par2; + *midich = nextevent[(int)ntrack].ev.channel; - double dt=nextevent[(int)ntrack].ev.deltatime*0.0001*realplayspeed; - printf("zzzzzzzzzzzzzz[%d] %d\n",ntrack,nextevent[(int)ntrack].ev.deltatime); - nextevent[(int)ntrack].time+=dt; + double dt = nextevent[(int)ntrack].ev.deltatime * 0.0001 * realplayspeed; + printf("zzzzzzzzzzzzzz[%d] %d\n", + ntrack, + nextevent[(int)ntrack].ev.deltatime); + nextevent[(int)ntrack].time += dt; // printf("%f - %d %d \n",nextevent[ntrack].time,par1,par2); - return(0);//?? sau 1 -}; + return 0; //?? sau 1 +} /************** Timer stuff ***************/ void Sequencer::resettime(timestruct *t) { - t->abs=0.0; - t->rel=0.0; + t->abs = 0.0; + t->rel = 0.0; timeval tval; - t->last=0.0; + t->last = 0.0; #ifndef OS_WINDOWS - if (gettimeofday(&tval,NULL)==0) - t->last=tval.tv_sec+tval.tv_usec*0.000001; + if(gettimeofday(&tval, NULL) == 0) + t->last = tval.tv_sec + tval.tv_usec * 0.000001; #endif - -}; +} void Sequencer::updatecounter(timestruct *t) { timeval tval; - double current=0.0; + double current = 0.0; #ifndef OS_WINDOWS - if (gettimeofday(&tval,NULL)==0) - current=tval.tv_sec+tval.tv_usec*0.000001; + if(gettimeofday(&tval, NULL) == 0) + current = tval.tv_sec + tval.tv_usec * 0.000001; #endif - t->rel=current - t->last; - t->abs+=t->rel; - t->last=current; + t->rel = current - t->last; + t->abs += t->rel; + t->last = current; // printf("%f %f %f\n",t->last,t->abs,t->rel); -}; +} void Sequencer::setplayspeed(int speed) { - playspeed=speed; - realplayspeed=pow(10.0,speed/128.0); -}; + playspeed = speed; + realplayspeed = pow(10.0, speed / 128.0); +} diff --git a/plugins/zynaddsubfx/src/Seq/Sequencer.h b/plugins/zynaddsubfx/src/Seq/Sequencer.h index 7798c9943..dd2d75613 100644 --- a/plugins/zynaddsubfx/src/Seq/Sequencer.h +++ b/plugins/zynaddsubfx/src/Seq/Sequencer.h @@ -30,61 +30,60 @@ * \todo restructure some of this code*/ class Sequencer:public MIDIEvents { -public: - /**Constructor*/ - Sequencer(); - /**Destructor*/ - ~Sequencer(); + public: + /**Constructor*/ + Sequencer(); + /**Destructor*/ + ~Sequencer(); - //these functions are called by the master and are ignored if the recorder/player are stopped - void recordnote(char chan, char note, char vel); - void recordcontroller(char chan,unsigned int type,int par); + //these functions are called by the master and are ignored if the recorder/player are stopped + void recordnote(char chan, char note, char vel); + void recordcontroller(char chan, unsigned int type, int par); - /**Gets an event \todo better description - * - * this is only for player - * @return 1 if this must be called at least once more - * 0 if there are no more notes for the current time - * -1 if there are no notes*/ - int getevent(char ntrack, int *midich,int *type,int *par1, int *par2); + /**Gets an event \todo better description + * + * this is only for player + * @return 1 if this must be called at least once more + * 0 if there are no more notes for the current time + * -1 if there are no notes*/ + int getevent(char ntrack, int *midich, int *type, int *par1, int *par2); - /**Imports a given midifile - * @return 0 if ok or -1 if there is a error loading file*/ - int importmidifile(const char *filename); + /**Imports a given midifile + * @return 0 if ok or -1 if there is a error loading file*/ + int importmidifile(const char *filename); - void startplay(); - void stopplay(); + void startplay(); + void stopplay(); - int play; - int playspeed;//viteza de rulare (0.1x-10x), 0=1.0x, 128=10x - void setplayspeed(int speed); + int play; + int playspeed; //viteza de rulare (0.1x-10x), 0=1.0x, 128=10x + void setplayspeed(int speed); -private: + private: - MIDIFile midifile; + MIDIFile midifile; - /* Timer */ - struct timestruct { - double abs;//the time from the begining of the track - double rel;//the time difference between the last and the current event - double last;//the time of the last event (absolute, since 1 Jan 1970) - //these must be double, because the float's precision is too low - //and all these represent the time in seconds - } playtime[NUM_MIDI_TRACKS]; + /* Timer */ + struct timestruct { + double abs; //the time from the begining of the track + double rel; //the time difference between the last and the current event + double last; //the time of the last event (absolute, since 1 Jan 1970) + //these must be double, because the float's precision is too low + //and all these represent the time in seconds + } playtime[NUM_MIDI_TRACKS]; - void resettime(timestruct *t); - void updatecounter(timestruct *t);//this updates the timer values + void resettime(timestruct *t); + void updatecounter(timestruct *t); //this updates the timer values - /* Player only*/ + /* Player only*/ - struct { - event ev; - double time; - } nextevent[NUM_MIDI_TRACKS]; - - double realplayspeed; + struct { + event ev; + double time; + } nextevent[NUM_MIDI_TRACKS]; + double realplayspeed; }; #endif diff --git a/plugins/zynaddsubfx/src/Synth/ADnote.cpp b/plugins/zynaddsubfx/src/Synth/ADnote.cpp index 9e1b879bc..a70f3feef 100644 --- a/plugins/zynaddsubfx/src/Synth/ADnote.cpp +++ b/plugins/zynaddsubfx/src/Synth/ADnote.cpp @@ -29,509 +29,682 @@ #include "ADnote.h" -ADnote::ADnote(ADnoteParameters *pars,Controller *ctl_,REALTYPE freq,REALTYPE velocity,int portamento_,int midinote_,bool besilent) +ADnote::ADnote(ADnoteParameters *pars, + Controller *ctl_, + REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote_, + bool besilent) { - ready=0; + ready = 0; - tmpwavel=new REALTYPE [SOUND_BUFFER_SIZE]; - tmpwaver=new REALTYPE [SOUND_BUFFER_SIZE]; - bypassl=new REALTYPE [SOUND_BUFFER_SIZE]; - bypassr=new REALTYPE [SOUND_BUFFER_SIZE]; + tmpwavel = new REALTYPE [SOUND_BUFFER_SIZE]; + tmpwaver = new REALTYPE [SOUND_BUFFER_SIZE]; + bypassl = new REALTYPE [SOUND_BUFFER_SIZE]; + bypassr = new REALTYPE [SOUND_BUFFER_SIZE]; // Initialise some legato-specific vars - Legato.msg=LM_Norm; - Legato.fade.length=(int)(SAMPLE_RATE*0.005);// 0.005 seems ok. - if (Legato.fade.length<1) Legato.fade.length=1;// (if something's fishy) - Legato.fade.step=(1.0/Legato.fade.length); - Legato.decounter=-10; - Legato.param.freq=freq; - Legato.param.vel=velocity; - Legato.param.portamento=portamento_; - Legato.param.midinote=midinote_; - Legato.silent=besilent; + Legato.msg = LM_Norm; + Legato.fade.length = (int)(SAMPLE_RATE * 0.005); // 0.005 seems ok. + if(Legato.fade.length < 1) + Legato.fade.length = 1; // (if something's fishy) + Legato.fade.step = (1.0 / Legato.fade.length); + Legato.decounter = -10; + Legato.param.freq = freq; + Legato.param.vel = velocity; + Legato.param.portamento = portamento_; + Legato.param.midinote = midinote_; + Legato.silent = besilent; - partparams=pars; - ctl=ctl_; - portamento=portamento_; - midinote=midinote_; - NoteEnabled=ON; - basefreq=freq; - if (velocity>1.0) velocity=1.0; - this->velocity=velocity; - time=0.0; - stereo=pars->GlobalPar.PStereo; + partparams = pars; + ctl = ctl_; + portamento = portamento_; + midinote = midinote_; + NoteEnabled = ON; + basefreq = freq; + if(velocity > 1.0) + velocity = 1.0; + this->velocity = velocity; + time = 0.0; + stereo = pars->GlobalPar.PStereo; - NoteGlobalPar.Detune=getdetune(pars->GlobalPar.PDetuneType - ,pars->GlobalPar.PCoarseDetune,pars->GlobalPar.PDetune); - bandwidthDetuneMultiplier=pars->getBandwidthDetuneMultiplier(); + NoteGlobalPar.Detune = getdetune(pars->GlobalPar.PDetuneType, + pars->GlobalPar.PCoarseDetune, + pars->GlobalPar.PDetune); + bandwidthDetuneMultiplier = pars->getBandwidthDetuneMultiplier(); - if (pars->GlobalPar.PPanning==0) NoteGlobalPar.Panning=RND; - else NoteGlobalPar.Panning=pars->GlobalPar.PPanning/128.0; + if(pars->GlobalPar.PPanning == 0) + NoteGlobalPar.Panning = RND; + else + NoteGlobalPar.Panning = pars->GlobalPar.PPanning / 128.0; - NoteGlobalPar.FilterCenterPitch=pars->GlobalPar.GlobalFilter->getfreq()+//center freq - pars->GlobalPar.PFilterVelocityScale/127.0*6.0* //velocity sensing - (VelF(velocity,pars->GlobalPar.PFilterVelocityScaleFunction)-1); + NoteGlobalPar.FilterCenterPitch = pars->GlobalPar.GlobalFilter->getfreq() //center freq + + pars->GlobalPar.PFilterVelocityScale + / 127.0 * 6.0 //velocity sensing + * (VelF(velocity, + pars->GlobalPar. + PFilterVelocityScaleFunction) - 1); - if (pars->GlobalPar.PPunchStrength!=0) { - NoteGlobalPar.Punch.Enabled=1; - NoteGlobalPar.Punch.t=1.0;//start from 1.0 and to 0.0 - NoteGlobalPar.Punch.initialvalue=( (pow(10,1.5*pars->GlobalPar.PPunchStrength/127.0)-1.0) - *VelF(velocity,pars->GlobalPar.PPunchVelocitySensing) ); - REALTYPE time=pow(10,3.0*pars->GlobalPar.PPunchTime/127.0)/10000.0;//0.1 .. 100 ms - REALTYPE stretch=pow(440.0/freq,pars->GlobalPar.PPunchStretch/64.0); - NoteGlobalPar.Punch.dt=1.0/(time*SAMPLE_RATE*stretch); - } else NoteGlobalPar.Punch.Enabled=0; + if(pars->GlobalPar.PPunchStrength != 0) { + NoteGlobalPar.Punch.Enabled = 1; + NoteGlobalPar.Punch.t = 1.0; //start from 1.0 and to 0.0 + NoteGlobalPar.Punch.initialvalue = + ((pow(10, 1.5 * pars->GlobalPar.PPunchStrength / 127.0) - 1.0) + * VelF(velocity, + pars->GlobalPar.PPunchVelocitySensing)); + REALTYPE time = + pow(10, 3.0 * pars->GlobalPar.PPunchTime / 127.0) / 10000.0; //0.1 .. 100 ms + REALTYPE stretch = pow(440.0 / freq, + pars->GlobalPar.PPunchStretch / 64.0); + NoteGlobalPar.Punch.dt = 1.0 / (time * SAMPLE_RATE * stretch); + } + else + NoteGlobalPar.Punch.Enabled = 0; - for (int nvoice=0;nvoiceVoicePar[nvoice].OscilSmp->newrandseed(rand()); - NoteVoicePar[nvoice].OscilSmp=NULL; - NoteVoicePar[nvoice].FMSmp=NULL; - NoteVoicePar[nvoice].VoiceOut=NULL; + for(int nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + pars->VoicePar[nvoice].OscilSmp->newrandseed(rand()); + NoteVoicePar[nvoice].OscilSmp = NULL; + NoteVoicePar[nvoice].FMSmp = NULL; + NoteVoicePar[nvoice].VoiceOut = NULL; - NoteVoicePar[nvoice].FMVoice=-1; - unison_size[nvoice]=1; + NoteVoicePar[nvoice].FMVoice = -1; + unison_size[nvoice] = 1; - if (pars->VoicePar[nvoice].Enabled==0) { - NoteVoicePar[nvoice].Enabled=OFF; + if(pars->VoicePar[nvoice].Enabled == 0) { + NoteVoicePar[nvoice].Enabled = OFF; continue; //the voice is disabled + } + + unison_stereo_spread[nvoice] = + pars->VoicePar[nvoice].Unison_stereo_spread / 127.0; + int unison = pars->VoicePar[nvoice].Unison_size; + if(unison < 1) + unison = 1; + + //compute unison + unison_size[nvoice] = unison; + + unison_base_freq_rap[nvoice] = new REALTYPE[unison]; + unison_freq_rap[nvoice] = new REALTYPE[unison]; + unison_invert_phase[nvoice] = new bool[unison]; + REALTYPE unison_spread = pars->getUnisonFrequencySpreadCents( + nvoice); + REALTYPE unison_real_spread = pow(2.0, (unison_spread * 0.5) / 1200.0); + REALTYPE unison_vibratto_a = pars->VoicePar[nvoice].Unison_vibratto + / 127.0; //0.0 .. 1.0 + + + switch(unison) { + case 1: + unison_base_freq_rap[nvoice][0] = 1.0; //if the unison is not used, always make the only subvoice to have the default note + break; + case 2: { //unison for 2 subvoices + unison_base_freq_rap[nvoice][0] = 1.0 / unison_real_spread; + unison_base_freq_rap[nvoice][1] = unison_real_spread; }; + break; + default: { //unison for more than 2 subvoices + REALTYPE unison_values[unison]; + REALTYPE min = -1e-6, max = 1e-6; + for(int k = 0; k < unison; k++) { + REALTYPE step = (k / (REALTYPE) (unison - 1)) * 2.0 - 1.0; //this makes the unison spread more uniform + REALTYPE val = step + (RND * 2.0 - 1.0) / (unison - 1); + unison_values[k] = val; + if(val > max) + max = val; + if(val < min) + min = val; + } + REALTYPE diff = max - min; + for(int k = 0; k < unison; k++) { + unison_values[k] = + (unison_values[k] - (max + min) * 0.5) / diff; //the lowest value will be -1 and the highest will be 1 + unison_base_freq_rap[nvoice][k] = + pow(2.0, (unison_spread * unison_values[k]) / 1200); + } + }; + } - unison_stereo_spread[nvoice]=pars->VoicePar[nvoice].Unison_stereo_spread/127.0; - int unison=pars->VoicePar[nvoice].Unison_size; - if (unison<1) unison=1; - - //compute unison - unison_size[nvoice]=unison; + //unison vibrattos + if(unison > 1) { + for(int k = 0; k < unison; k++) //reduce the frequency difference for larger vibrattos + unison_base_freq_rap[nvoice][k] = 1.0 + + (unison_base_freq_rap[ + nvoice][k] + - 1.0) + * (1.0 - unison_vibratto_a); + ; + } + unison_vibratto[nvoice].step = new REALTYPE[unison]; + unison_vibratto[nvoice].position = new REALTYPE[unison]; + unison_vibratto[nvoice].amplitude = + (unison_real_spread - 1.0) * unison_vibratto_a; - unison_base_freq_rap[nvoice]=new REALTYPE[unison]; - unison_freq_rap[nvoice]=new REALTYPE[unison]; - unison_invert_phase[nvoice]=new bool[unison]; - REALTYPE unison_spread=pars->getUnisonFrequencySpreadCents(nvoice); - REALTYPE unison_real_spread=pow(2.0,(unison_spread*0.5)/1200.0); - REALTYPE unison_vibratto_a=pars->VoicePar[nvoice].Unison_vibratto/127.0;//0.0 .. 1.0 - + REALTYPE increments_per_second = SAMPLE_RATE + / (REALTYPE)SOUND_BUFFER_SIZE; + REALTYPE vibratto_base_period = 0.25 + * pow(2.0, + (1.0 + - pars->VoicePar[nvoice]. + Unison_vibratto_speed / 127.0) * 4.0); + for(int k = 0; k < unison; k++) { + unison_vibratto[nvoice].position[k] = RND * 1.8 - 0.9; + REALTYPE vibratto_period = vibratto_base_period * pow( + 2.0, + RND * 2.0 + - 1.0); //make period to vary randomly from 50% to 200% vibratto base period - switch (unison){ - case 1: - unison_base_freq_rap[nvoice][0]=1.0;//if the unison is not used, always make the only subvoice to have the default note - break; - case 2:{//unison for 2 subvoices - unison_base_freq_rap[nvoice][0]=1.0/unison_real_spread; - unison_base_freq_rap[nvoice][1]=unison_real_spread; - }; - break; - default:{//unison for more than 2 subvoices - REALTYPE unison_values[unison]; - REALTYPE min=-1e-6,max=1e-6; - for (int k=0;kmax) max=val; - if (val1){ - for (int k=0;kVoicePar[nvoice].Unison_vibratto_speed/127.0)*4.0); - for (int k=0;kVoicePar[nvoice].Unison_invert_phase; - switch(inv){ - case 0: for (int k=0;k0.5); - break; - default:for (int k=0;kVoicePar[nvoice].Unison_invert_phase; + switch(inv) { + case 0: for(int k = 0; k < unison; k++) + unison_invert_phase[nvoice][k] = false; + break; + case 1: for(int k = 0; k < unison; k++) + unison_invert_phase[nvoice][k] = (RND > 0.5); + break; + default: for(int k = 0; k < unison; k++) + unison_invert_phase[nvoice][k] = + (k % inv == 0) ? true : false; + break; + } + } - oscfreqhi[nvoice]=new int[unison]; - oscfreqlo[nvoice]=new REALTYPE[unison]; - oscfreqhiFM[nvoice]=new unsigned int[unison]; - oscfreqloFM[nvoice]=new REALTYPE[unison]; - oscposhi[nvoice]=new int[unison]; - oscposlo[nvoice]=new REALTYPE[unison]; - oscposhiFM[nvoice]=new unsigned int[unison]; - oscposloFM[nvoice]=new REALTYPE[unison]; + oscfreqhi[nvoice] = new int[unison]; + oscfreqlo[nvoice] = new REALTYPE[unison]; + oscfreqhiFM[nvoice] = new unsigned int[unison]; + oscfreqloFM[nvoice] = new REALTYPE[unison]; + oscposhi[nvoice] = new int[unison]; + oscposlo[nvoice] = new REALTYPE[unison]; + oscposhiFM[nvoice] = new unsigned int[unison]; + oscposloFM[nvoice] = new REALTYPE[unison]; - NoteVoicePar[nvoice].Enabled=ON; - NoteVoicePar[nvoice].fixedfreq=pars->VoicePar[nvoice].Pfixedfreq; - NoteVoicePar[nvoice].fixedfreqET=pars->VoicePar[nvoice].PfixedfreqET; + NoteVoicePar[nvoice].Enabled = ON; + NoteVoicePar[nvoice].fixedfreq = pars->VoicePar[nvoice].Pfixedfreq; + NoteVoicePar[nvoice].fixedfreqET = pars->VoicePar[nvoice].PfixedfreqET; //use the Globalpars.detunetype if the detunetype is 0 - if (pars->VoicePar[nvoice].PDetuneType!=0) { - NoteVoicePar[nvoice].Detune=getdetune(pars->VoicePar[nvoice].PDetuneType - ,pars->VoicePar[nvoice].PCoarseDetune,8192);//coarse detune - NoteVoicePar[nvoice].FineDetune=getdetune(pars->VoicePar[nvoice].PDetuneType - ,0,pars->VoicePar[nvoice].PDetune);//fine detune - } else { - NoteVoicePar[nvoice].Detune=getdetune(pars->GlobalPar.PDetuneType - ,pars->VoicePar[nvoice].PCoarseDetune,8192);//coarse detune - NoteVoicePar[nvoice].FineDetune=getdetune(pars->GlobalPar.PDetuneType - ,0,pars->VoicePar[nvoice].PDetune);//fine detune - }; - if (pars->VoicePar[nvoice].PFMDetuneType!=0) { - NoteVoicePar[nvoice].FMDetune=getdetune(pars->VoicePar[nvoice].PFMDetuneType - ,pars->VoicePar[nvoice].PFMCoarseDetune,pars->VoicePar[nvoice].PFMDetune); - } else { - NoteVoicePar[nvoice].FMDetune=getdetune(pars->GlobalPar.PDetuneType - ,pars->VoicePar[nvoice].PFMCoarseDetune,pars->VoicePar[nvoice].PFMDetune); - }; + if(pars->VoicePar[nvoice].PDetuneType != 0) { + NoteVoicePar[nvoice].Detune = getdetune( + pars->VoicePar[nvoice].PDetuneType, + pars->VoicePar[nvoice]. + PCoarseDetune, + 8192); //coarse detune + NoteVoicePar[nvoice].FineDetune = getdetune( + pars->VoicePar[nvoice].PDetuneType, + 0, + pars->VoicePar[nvoice].PDetune); //fine detune + } + else { + NoteVoicePar[nvoice].Detune = getdetune( + pars->GlobalPar.PDetuneType, + pars->VoicePar[nvoice]. + PCoarseDetune, + 8192); //coarse detune + NoteVoicePar[nvoice].FineDetune = getdetune( + pars->GlobalPar.PDetuneType, + 0, + pars->VoicePar[nvoice].PDetune); //fine detune + } + if(pars->VoicePar[nvoice].PFMDetuneType != 0) + NoteVoicePar[nvoice].FMDetune = getdetune( + pars->VoicePar[nvoice].PFMDetuneType, + pars->VoicePar[nvoice]. + PFMCoarseDetune, + pars->VoicePar[nvoice].PFMDetune); + else + NoteVoicePar[nvoice].FMDetune = getdetune( + pars->GlobalPar.PDetuneType, + pars->VoicePar[nvoice]. + PFMCoarseDetune, + pars->VoicePar[nvoice].PFMDetune); + ; - - for (int k=0;kVoicePar[nvoice].Pextoscil!=-1) vc=pars->VoicePar[nvoice].Pextoscil; - if (!pars->GlobalPar.Hrandgrouping) pars->VoicePar[vc].OscilSmp->newrandseed(rand()); - int oscposhi_start=pars->VoicePar[vc].OscilSmp->get(NoteVoicePar[nvoice].OscilSmp,getvoicebasefreq(nvoice), pars->VoicePar[nvoice].Presonance); + int vc = nvoice; + if(pars->VoicePar[nvoice].Pextoscil != -1) + vc = pars->VoicePar[nvoice].Pextoscil; + if(!pars->GlobalPar.Hrandgrouping) + pars->VoicePar[vc].OscilSmp->newrandseed(rand()); + int oscposhi_start = + pars->VoicePar[vc].OscilSmp->get(NoteVoicePar[nvoice].OscilSmp, + getvoicebasefreq(nvoice), + pars->VoicePar[nvoice].Presonance); //I store the first elments to the last position for speedups - for (int i=0;iVoicePar[nvoice].Poscilphase-64.0)/128.0*OSCIL_SIZE+OSCIL_SIZE*4); - oscposhi_start%=OSCIL_SIZE; + oscposhi_start += + (int)((pars->VoicePar[nvoice].Poscilphase + - 64.0) / 128.0 * OSCIL_SIZE + OSCIL_SIZE * 4); + oscposhi_start %= OSCIL_SIZE; - for (int k=0;kVoicePar[nvoice].VoiceFilter->getfreq(); - NoteVoicePar[nvoice].filterbypass=pars->VoicePar[nvoice].Pfilterbypass; + NoteVoicePar[nvoice].FilterCenterPitch = + pars->VoicePar[nvoice].VoiceFilter->getfreq(); + NoteVoicePar[nvoice].filterbypass = + pars->VoicePar[nvoice].Pfilterbypass; - switch (pars->VoicePar[nvoice].PFMEnabled) { + switch(pars->VoicePar[nvoice].PFMEnabled) { case 1: - NoteVoicePar[nvoice].FMEnabled=MORPH; + NoteVoicePar[nvoice].FMEnabled = MORPH; break; case 2: - NoteVoicePar[nvoice].FMEnabled=RING_MOD; + NoteVoicePar[nvoice].FMEnabled = RING_MOD; break; case 3: - NoteVoicePar[nvoice].FMEnabled=PHASE_MOD; + NoteVoicePar[nvoice].FMEnabled = PHASE_MOD; break; case 4: - NoteVoicePar[nvoice].FMEnabled=FREQ_MOD; + NoteVoicePar[nvoice].FMEnabled = FREQ_MOD; break; case 5: - NoteVoicePar[nvoice].FMEnabled=PITCH_MOD; + NoteVoicePar[nvoice].FMEnabled = PITCH_MOD; break; default: - NoteVoicePar[nvoice].FMEnabled=NONE; - }; + NoteVoicePar[nvoice].FMEnabled = NONE; + } - NoteVoicePar[nvoice].FMVoice=pars->VoicePar[nvoice].PFMVoice; - NoteVoicePar[nvoice].FMFreqEnvelope=NULL; - NoteVoicePar[nvoice].FMAmpEnvelope=NULL; + NoteVoicePar[nvoice].FMVoice = pars->VoicePar[nvoice].PFMVoice; + NoteVoicePar[nvoice].FMFreqEnvelope = NULL; + NoteVoicePar[nvoice].FMAmpEnvelope = NULL; //Compute the Voice's modulator volume (incl. damping) - REALTYPE fmvoldamp=pow(440.0/getvoicebasefreq(nvoice),pars->VoicePar[nvoice].PFMVolumeDamp/64.0-1.0); - switch (NoteVoicePar[nvoice].FMEnabled) { + REALTYPE fmvoldamp = pow(440.0 / getvoicebasefreq( + nvoice), + pars->VoicePar[nvoice].PFMVolumeDamp / 64.0 + - 1.0); + switch(NoteVoicePar[nvoice].FMEnabled) { case PHASE_MOD: - fmvoldamp=pow(440.0/getvoicebasefreq(nvoice),pars->VoicePar[nvoice].PFMVolumeDamp/64.0); - NoteVoicePar[nvoice].FMVolume=(exp(pars->VoicePar[nvoice].PFMVolume/127.0*FM_AMP_MULTIPLIER)-1.0)*fmvoldamp*4.0; + fmvoldamp = + pow(440.0 / getvoicebasefreq( + nvoice), pars->VoicePar[nvoice].PFMVolumeDamp / 64.0); + NoteVoicePar[nvoice].FMVolume = + (exp(pars->VoicePar[nvoice].PFMVolume / 127.0 + * FM_AMP_MULTIPLIER) - 1.0) * fmvoldamp * 4.0; break; case FREQ_MOD: - NoteVoicePar[nvoice].FMVolume=(exp(pars->VoicePar[nvoice].PFMVolume/127.0*FM_AMP_MULTIPLIER)-1.0)*fmvoldamp*4.0; + NoteVoicePar[nvoice].FMVolume = + (exp(pars->VoicePar[nvoice].PFMVolume / 127.0 + * FM_AMP_MULTIPLIER) - 1.0) * fmvoldamp * 4.0; break; - // case PITCH_MOD:NoteVoicePar[nvoice].FMVolume=(pars->VoicePar[nvoice].PFMVolume/127.0*8.0)*fmvoldamp;//??????????? - // break; + // case PITCH_MOD:NoteVoicePar[nvoice].FMVolume=(pars->VoicePar[nvoice].PFMVolume/127.0*8.0)*fmvoldamp;//??????????? + // break; default: - if (fmvoldamp>1.0) fmvoldamp=1.0; - NoteVoicePar[nvoice].FMVolume=pars->VoicePar[nvoice].PFMVolume/127.0*fmvoldamp; - }; + if(fmvoldamp > 1.0) + fmvoldamp = 1.0; + NoteVoicePar[nvoice].FMVolume = pars->VoicePar[nvoice].PFMVolume + / 127.0 * fmvoldamp; + } //Voice's modulator velocity sensing - NoteVoicePar[nvoice].FMVolume*=VelF(velocity,partparams->VoicePar[nvoice].PFMVelocityScaleFunction); + NoteVoicePar[nvoice].FMVolume *= + VelF(velocity, + partparams->VoicePar[nvoice].PFMVelocityScaleFunction); - FMoldsmp[nvoice]=new REALTYPE [unison]; - for (int k=0;kVoicePar[nvoice].PDelay/127.0*log(50.0))-1.0)/SOUND_BUFFER_SIZE/10.0*SAMPLE_RATE); + firsttick[nvoice] = 1; + NoteVoicePar[nvoice].DelayTicks = + (int)((exp(pars->VoicePar[nvoice].PDelay / 127.0 + * log(50.0)) + - 1.0) / SOUND_BUFFER_SIZE / 10.0 * SAMPLE_RATE); + } + max_unison = 1; + for(int nvoice = 0; nvoice < NUM_VOICES; nvoice++) + if(unison_size[nvoice] > max_unison) + max_unison = unison_size[nvoice]; + ; - }; - - max_unison=1; - for (int nvoice=0;nvoicemax_unison) max_unison=unison_size[nvoice]; - }; - - tmpwave_unison=new REALTYPE*[max_unison]; - for (int k=0;k1.0) velocity=1.0; - this->velocity=velocity; + if(velocity > 1.0) + velocity = 1.0; + this->velocity = velocity; - NoteGlobalPar.Detune=getdetune(pars->GlobalPar.PDetuneType - ,pars->GlobalPar.PCoarseDetune,pars->GlobalPar.PDetune); - bandwidthDetuneMultiplier=pars->getBandwidthDetuneMultiplier(); + NoteGlobalPar.Detune = getdetune(pars->GlobalPar.PDetuneType, + pars->GlobalPar.PCoarseDetune, + pars->GlobalPar.PDetune); + bandwidthDetuneMultiplier = pars->getBandwidthDetuneMultiplier(); - if (pars->GlobalPar.PPanning==0) NoteGlobalPar.Panning=RND; - else NoteGlobalPar.Panning=pars->GlobalPar.PPanning/128.0; + if(pars->GlobalPar.PPanning == 0) + NoteGlobalPar.Panning = RND; + else + NoteGlobalPar.Panning = pars->GlobalPar.PPanning / 128.0; - NoteGlobalPar.FilterCenterPitch=pars->GlobalPar.GlobalFilter->getfreq()+//center freq - pars->GlobalPar.PFilterVelocityScale/127.0*6.0* //velocity sensing - (VelF(velocity,pars->GlobalPar.PFilterVelocityScaleFunction)-1); + NoteGlobalPar.FilterCenterPitch = pars->GlobalPar.GlobalFilter->getfreq() //center freq + + pars->GlobalPar.PFilterVelocityScale + / 127.0 * 6.0 //velocity sensing + * (VelF(velocity, + pars->GlobalPar. + PFilterVelocityScaleFunction) - 1); - for (int nvoice=0;nvoiceVoicePar[nvoice].Pfixedfreq; - NoteVoicePar[nvoice].fixedfreqET=pars->VoicePar[nvoice].PfixedfreqET; + NoteVoicePar[nvoice].fixedfreq = pars->VoicePar[nvoice].Pfixedfreq; + NoteVoicePar[nvoice].fixedfreqET = pars->VoicePar[nvoice].PfixedfreqET; //use the Globalpars.detunetype if the detunetype is 0 - if (pars->VoicePar[nvoice].PDetuneType!=0) { - NoteVoicePar[nvoice].Detune=getdetune(pars->VoicePar[nvoice].PDetuneType - ,pars->VoicePar[nvoice].PCoarseDetune,8192);//coarse detune - NoteVoicePar[nvoice].FineDetune=getdetune(pars->VoicePar[nvoice].PDetuneType - ,0,pars->VoicePar[nvoice].PDetune);//fine detune - } else { - NoteVoicePar[nvoice].Detune=getdetune(pars->GlobalPar.PDetuneType - ,pars->VoicePar[nvoice].PCoarseDetune,8192);//coarse detune - NoteVoicePar[nvoice].FineDetune=getdetune(pars->GlobalPar.PDetuneType - ,0,pars->VoicePar[nvoice].PDetune);//fine detune - }; - if (pars->VoicePar[nvoice].PFMDetuneType!=0) { - NoteVoicePar[nvoice].FMDetune=getdetune(pars->VoicePar[nvoice].PFMDetuneType - ,pars->VoicePar[nvoice].PFMCoarseDetune,pars->VoicePar[nvoice].PFMDetune); - } else { - NoteVoicePar[nvoice].FMDetune=getdetune(pars->GlobalPar.PDetuneType - ,pars->VoicePar[nvoice].PFMCoarseDetune,pars->VoicePar[nvoice].PFMDetune); - }; + if(pars->VoicePar[nvoice].PDetuneType != 0) { + NoteVoicePar[nvoice].Detune = getdetune( + pars->VoicePar[nvoice].PDetuneType, + pars->VoicePar[nvoice]. + PCoarseDetune, + 8192); //coarse detune + NoteVoicePar[nvoice].FineDetune = getdetune( + pars->VoicePar[nvoice].PDetuneType, + 0, + pars->VoicePar[nvoice].PDetune); //fine detune + } + else { + NoteVoicePar[nvoice].Detune = getdetune( + pars->GlobalPar.PDetuneType, + pars->VoicePar[nvoice]. + PCoarseDetune, + 8192); //coarse detune + NoteVoicePar[nvoice].FineDetune = getdetune( + pars->GlobalPar.PDetuneType, + 0, + pars->VoicePar[nvoice].PDetune); //fine detune + } + if(pars->VoicePar[nvoice].PFMDetuneType != 0) + NoteVoicePar[nvoice].FMDetune = getdetune( + pars->VoicePar[nvoice].PFMDetuneType, + pars->VoicePar[nvoice]. + PFMCoarseDetune, + pars->VoicePar[nvoice].PFMDetune); + else + NoteVoicePar[nvoice].FMDetune = getdetune( + pars->GlobalPar.PDetuneType, + pars->VoicePar[nvoice]. + PFMCoarseDetune, + pars->VoicePar[nvoice].PFMDetune); + ; //Get the voice's oscil or external's voice oscil - int vc=nvoice; - if (pars->VoicePar[nvoice].Pextoscil!=-1) vc=pars->VoicePar[nvoice].Pextoscil; - if (!pars->GlobalPar.Hrandgrouping) pars->VoicePar[vc].OscilSmp->newrandseed(rand()); + int vc = nvoice; + if(pars->VoicePar[nvoice].Pextoscil != -1) + vc = pars->VoicePar[nvoice].Pextoscil; + if(!pars->GlobalPar.Hrandgrouping) + pars->VoicePar[vc].OscilSmp->newrandseed(rand()); - pars->VoicePar[vc].OscilSmp->get(NoteVoicePar[nvoice].OscilSmp,getvoicebasefreq(nvoice),pars->VoicePar[nvoice].Presonance);//(gf)Modif of the above line. + pars->VoicePar[vc].OscilSmp->get(NoteVoicePar[nvoice].OscilSmp, + getvoicebasefreq(nvoice), + pars->VoicePar[nvoice].Presonance); //(gf)Modif of the above line. //I store the first elments to the last position for speedups - for (int i=0;iVoicePar[nvoice].VoiceFilter->getfreq(); - NoteVoicePar[nvoice].filterbypass=pars->VoicePar[nvoice].Pfilterbypass; + NoteVoicePar[nvoice].FilterCenterPitch = + pars->VoicePar[nvoice].VoiceFilter->getfreq(); + NoteVoicePar[nvoice].filterbypass = + pars->VoicePar[nvoice].Pfilterbypass; - NoteVoicePar[nvoice].FMVoice=pars->VoicePar[nvoice].PFMVoice; + NoteVoicePar[nvoice].FMVoice = pars->VoicePar[nvoice].PFMVoice; //Compute the Voice's modulator volume (incl. damping) - REALTYPE fmvoldamp=pow(440.0/getvoicebasefreq(nvoice),pars->VoicePar[nvoice].PFMVolumeDamp/64.0-1.0); + REALTYPE fmvoldamp = pow(440.0 / getvoicebasefreq( + nvoice), + pars->VoicePar[nvoice].PFMVolumeDamp / 64.0 + - 1.0); - switch (NoteVoicePar[nvoice].FMEnabled) { + switch(NoteVoicePar[nvoice].FMEnabled) { case PHASE_MOD: - fmvoldamp=pow(440.0/getvoicebasefreq(nvoice),pars->VoicePar[nvoice].PFMVolumeDamp/64.0); - NoteVoicePar[nvoice].FMVolume=(exp(pars->VoicePar[nvoice].PFMVolume/127.0*FM_AMP_MULTIPLIER)-1.0)*fmvoldamp*4.0; + fmvoldamp = + pow(440.0 / getvoicebasefreq( + nvoice), pars->VoicePar[nvoice].PFMVolumeDamp / 64.0); + NoteVoicePar[nvoice].FMVolume = + (exp(pars->VoicePar[nvoice].PFMVolume / 127.0 + * FM_AMP_MULTIPLIER) - 1.0) * fmvoldamp * 4.0; break; case FREQ_MOD: - NoteVoicePar[nvoice].FMVolume=(exp(pars->VoicePar[nvoice].PFMVolume/127.0*FM_AMP_MULTIPLIER)-1.0)*fmvoldamp*4.0; + NoteVoicePar[nvoice].FMVolume = + (exp(pars->VoicePar[nvoice].PFMVolume / 127.0 + * FM_AMP_MULTIPLIER) - 1.0) * fmvoldamp * 4.0; break; - // case PITCH_MOD:NoteVoicePar[nvoice].FMVolume=(pars->VoicePar[nvoice].PFMVolume/127.0*8.0)*fmvoldamp;//??????????? - // break; + // case PITCH_MOD:NoteVoicePar[nvoice].FMVolume=(pars->VoicePar[nvoice].PFMVolume/127.0*8.0)*fmvoldamp;//??????????? + // break; default: - if (fmvoldamp>1.0) fmvoldamp=1.0; - NoteVoicePar[nvoice].FMVolume=pars->VoicePar[nvoice].PFMVolume/127.0*fmvoldamp; - }; + if(fmvoldamp > 1.0) + fmvoldamp = 1.0; + NoteVoicePar[nvoice].FMVolume = pars->VoicePar[nvoice].PFMVolume + / 127.0 * fmvoldamp; + } //Voice's modulator velocity sensing - NoteVoicePar[nvoice].FMVolume*=VelF(velocity,partparams->VoicePar[nvoice].PFMVelocityScaleFunction); + NoteVoicePar[nvoice].FMVolume *= + VelF(velocity, + partparams->VoicePar[nvoice].PFMVelocityScaleFunction); - NoteVoicePar[nvoice].DelayTicks=(int)((exp(pars->VoicePar[nvoice].PDelay/127.0*log(50.0))-1.0)/SOUND_BUFFER_SIZE/10.0*SAMPLE_RATE); - - }; + NoteVoicePar[nvoice].DelayTicks = + (int)((exp(pars->VoicePar[nvoice].PDelay / 127.0 + * log(50.0)) + - 1.0) / SOUND_BUFFER_SIZE / 10.0 * SAMPLE_RATE); + } /// initparameters(); /////////////// // Altered content of initparameters(): - int nvoice,i,tmp[NUM_VOICES]; + int nvoice, i, tmp[NUM_VOICES]; - NoteGlobalPar.Volume=4.0*pow(0.1,3.0*(1.0-partparams->GlobalPar.PVolume/96.0))//-60 dB .. 0 dB - *VelF(velocity,partparams->GlobalPar.PAmpVelocityScaleFunction);//velocity sensing + NoteGlobalPar.Volume = 4.0 + * pow(0.1, 3.0 + * (1.0 - partparams->GlobalPar.PVolume / 96.0)) //-60 dB .. 0 dB + * VelF( + velocity, + partparams->GlobalPar. + PAmpVelocityScaleFunction); //velocity sensing - globalnewamplitude=NoteGlobalPar.Volume*NoteGlobalPar.AmpEnvelope->envout_dB()*NoteGlobalPar.AmpLfo->amplfoout(); + globalnewamplitude = NoteGlobalPar.Volume + * NoteGlobalPar.AmpEnvelope->envout_dB() + * NoteGlobalPar.AmpLfo->amplfoout(); - NoteGlobalPar.FilterQ=partparams->GlobalPar.GlobalFilter->getq(); - NoteGlobalPar.FilterFreqTracking=partparams->GlobalPar.GlobalFilter->getfreqtracking(basefreq); + NoteGlobalPar.FilterQ = partparams->GlobalPar.GlobalFilter->getq(); + NoteGlobalPar.FilterFreqTracking = + partparams->GlobalPar.GlobalFilter->getfreqtracking(basefreq); // Forbids the Modulation Voice to be greater or equal than voice - for (i=0;i=i) NoteVoicePar[i].FMVoice=-1; + for(i = 0; i < NUM_VOICES; i++) + if(NoteVoicePar[i].FMVoice >= i) + NoteVoicePar[i].FMVoice = -1; // Voice Parameter init - for (nvoice=0;nvoiceVoicePar[nvoice].Type; + NoteVoicePar[nvoice].noisetype = partparams->VoicePar[nvoice].Type; /* Voice Amplitude Parameters Init */ - NoteVoicePar[nvoice].Volume=pow(0.1,3.0*(1.0-partparams->VoicePar[nvoice].PVolume/127.0)) // -60 dB .. 0 dB - *VelF(velocity,partparams->VoicePar[nvoice].PAmpVelocityScaleFunction);//velocity + NoteVoicePar[nvoice].Volume = + pow(0.1, 3.0 * (1.0 - partparams->VoicePar[nvoice].PVolume / 127.0)) // -60 dB .. 0 dB + * VelF(velocity, + partparams->VoicePar[nvoice].PAmpVelocityScaleFunction); //velocity - if (partparams->VoicePar[nvoice].PVolumeminus!=0) NoteVoicePar[nvoice].Volume=-NoteVoicePar[nvoice].Volume; + if(partparams->VoicePar[nvoice].PVolumeminus != 0) + NoteVoicePar[nvoice].Volume = -NoteVoicePar[nvoice].Volume; - if (partparams->VoicePar[nvoice].PPanning==0) - NoteVoicePar[nvoice].Panning=RND;// random panning - else NoteVoicePar[nvoice].Panning=partparams->VoicePar[nvoice].PPanning/128.0; + if(partparams->VoicePar[nvoice].PPanning == 0) + NoteVoicePar[nvoice].Panning = RND; // random panning + else + NoteVoicePar[nvoice].Panning = + partparams->VoicePar[nvoice].PPanning / 128.0; - newamplitude[nvoice]=1.0; - if ((partparams->VoicePar[nvoice].PAmpEnvelopeEnabled!=0) - && (NoteVoicePar[nvoice].AmpEnvelope!=NULL)) { - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); - }; + newamplitude[nvoice] = 1.0; + if((partparams->VoicePar[nvoice].PAmpEnvelopeEnabled != 0) + && (NoteVoicePar[nvoice].AmpEnvelope != NULL)) + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); + ; - if ((partparams->VoicePar[nvoice].PAmpLfoEnabled!=0) - && (NoteVoicePar[nvoice].AmpLfo!=NULL)) { - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpLfo->amplfoout(); - }; + if((partparams->VoicePar[nvoice].PAmpLfoEnabled != 0) + && (NoteVoicePar[nvoice].AmpLfo != NULL)) + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpLfo->amplfoout(); + ; - NoteVoicePar[nvoice].FilterFreqTracking=partparams->VoicePar[nvoice].VoiceFilter->getfreqtracking(basefreq); + NoteVoicePar[nvoice].FilterFreqTracking = + partparams->VoicePar[nvoice].VoiceFilter->getfreqtracking(basefreq); /* Voice Modulation Parameters Init */ - if ((NoteVoicePar[nvoice].FMEnabled!=NONE)&&(NoteVoicePar[nvoice].FMVoice<0)) { + if((NoteVoicePar[nvoice].FMEnabled != NONE) + && (NoteVoicePar[nvoice].FMVoice < 0)) { partparams->VoicePar[nvoice].FMSmp->newrandseed(rand()); //Perform Anti-aliasing only on MORPH or RING MODULATION - int vc=nvoice; - if (partparams->VoicePar[nvoice].PextFMoscil!=-1) vc=partparams->VoicePar[nvoice].PextFMoscil; + int vc = nvoice; + if(partparams->VoicePar[nvoice].PextFMoscil != -1) + vc = partparams->VoicePar[nvoice].PextFMoscil; - REALTYPE tmp=1.0; - if ((partparams->VoicePar[vc].FMSmp->Padaptiveharmonics!=0)|| - (NoteVoicePar[nvoice].FMEnabled==MORPH)|| - (NoteVoicePar[nvoice].FMEnabled==RING_MOD)) { - tmp=getFMvoicebasefreq(nvoice); - }; - if (!partparams->GlobalPar.Hrandgrouping) partparams->VoicePar[vc].FMSmp->newrandseed(rand()); + REALTYPE tmp = 1.0; + if((partparams->VoicePar[vc].FMSmp->Padaptiveharmonics != 0) + || (NoteVoicePar[nvoice].FMEnabled == MORPH) + || (NoteVoicePar[nvoice].FMEnabled == RING_MOD)) + tmp = getFMvoicebasefreq(nvoice); + ; + if(!partparams->GlobalPar.Hrandgrouping) + partparams->VoicePar[vc].FMSmp->newrandseed(rand()); ///oscposhiFM[nvoice]=(oscposhi[nvoice]+partparams->VoicePar[vc].FMSmp->get(NoteVoicePar[nvoice].FMSmp,tmp)) % OSCIL_SIZE; // / oscposhi[nvoice]+partparams->VoicePar[vc].FMSmp->get(NoteVoicePar[nvoice].FMSmp,tmp); //(gf) Modif of the above line. - for (int i=0;iVoicePar[nvoice].PFMoscilphase-64.0)/128.0*OSCIL_SIZE+OSCIL_SIZE*4); ///oscposhiFM[nvoice]%=OSCIL_SIZE; - }; + } - FMnewamplitude[nvoice]=NoteVoicePar[nvoice].FMVolume*ctl->fmamp.relamp; + FMnewamplitude[nvoice] = NoteVoicePar[nvoice].FMVolume + * ctl->fmamp.relamp; - if ((partparams->VoicePar[nvoice].PFMAmpEnvelopeEnabled!=0) - && (NoteVoicePar[nvoice].FMAmpEnvelope!=NULL)) { - FMnewamplitude[nvoice]*=NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); - }; - }; + if((partparams->VoicePar[nvoice].PFMAmpEnvelopeEnabled != 0) + && (NoteVoicePar[nvoice].FMAmpEnvelope != NULL)) + FMnewamplitude[nvoice] *= + NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); + ; + } - for (nvoice=0;nvoiceGlobalPar.FreqEnvelope,basefreq); - NoteGlobalPar.FreqLfo=new LFO(partparams->GlobalPar.FreqLfo,basefreq); + NoteGlobalPar.FreqEnvelope = new Envelope( + partparams->GlobalPar.FreqEnvelope, + basefreq); + NoteGlobalPar.FreqLfo = new LFO(partparams->GlobalPar.FreqLfo, + basefreq); - NoteGlobalPar.AmpEnvelope=new Envelope(partparams->GlobalPar.AmpEnvelope,basefreq); - NoteGlobalPar.AmpLfo=new LFO(partparams->GlobalPar.AmpLfo,basefreq); + NoteGlobalPar.AmpEnvelope = new Envelope(partparams->GlobalPar.AmpEnvelope, + basefreq); + NoteGlobalPar.AmpLfo = new LFO(partparams->GlobalPar.AmpLfo, basefreq); - NoteGlobalPar.Volume=4.0*pow(0.1,3.0*(1.0-partparams->GlobalPar.PVolume/96.0))//-60 dB .. 0 dB - *VelF(velocity,partparams->GlobalPar.PAmpVelocityScaleFunction);//velocity sensing + NoteGlobalPar.Volume = 4.0 + * pow(0.1, 3.0 + * (1.0 - partparams->GlobalPar.PVolume / 96.0)) //-60 dB .. 0 dB + * VelF( + velocity, + partparams->GlobalPar. + PAmpVelocityScaleFunction); //velocity sensing - NoteGlobalPar.AmpEnvelope->envout_dB();//discard the first envelope output - globalnewamplitude=NoteGlobalPar.Volume*NoteGlobalPar.AmpEnvelope->envout_dB()*NoteGlobalPar.AmpLfo->amplfoout(); + NoteGlobalPar.AmpEnvelope->envout_dB(); //discard the first envelope output + globalnewamplitude = NoteGlobalPar.Volume + * NoteGlobalPar.AmpEnvelope->envout_dB() + * NoteGlobalPar.AmpLfo->amplfoout(); - NoteGlobalPar.GlobalFilterL=new Filter(partparams->GlobalPar.GlobalFilter); - if (stereo!=0) NoteGlobalPar.GlobalFilterR=new Filter(partparams->GlobalPar.GlobalFilter); + NoteGlobalPar.GlobalFilterL = new Filter(partparams->GlobalPar.GlobalFilter); + if(stereo != 0) + NoteGlobalPar.GlobalFilterR = new Filter( + partparams->GlobalPar.GlobalFilter); - NoteGlobalPar.FilterEnvelope=new Envelope(partparams->GlobalPar.FilterEnvelope,basefreq); - NoteGlobalPar.FilterLfo=new LFO(partparams->GlobalPar.FilterLfo,basefreq); - NoteGlobalPar.FilterQ=partparams->GlobalPar.GlobalFilter->getq(); - NoteGlobalPar.FilterFreqTracking=partparams->GlobalPar.GlobalFilter->getfreqtracking(basefreq); + NoteGlobalPar.FilterEnvelope = new Envelope( + partparams->GlobalPar.FilterEnvelope, + basefreq); + NoteGlobalPar.FilterLfo = new LFO(partparams->GlobalPar.FilterLfo, + basefreq); + NoteGlobalPar.FilterQ = partparams->GlobalPar.GlobalFilter->getq(); + NoteGlobalPar.FilterFreqTracking = + partparams->GlobalPar.GlobalFilter->getfreqtracking(basefreq); // Forbids the Modulation Voice to be greater or equal than voice - for (i=0;i=i) NoteVoicePar[i].FMVoice=-1; + for(i = 0; i < NUM_VOICES; i++) + if(NoteVoicePar[i].FMVoice >= i) + NoteVoicePar[i].FMVoice = -1; // Voice Parameter init - for (nvoice=0;nvoiceVoicePar[nvoice].Type; + NoteVoicePar[nvoice].noisetype = partparams->VoicePar[nvoice].Type; /* Voice Amplitude Parameters Init */ - NoteVoicePar[nvoice].Volume=pow(0.1,3.0*(1.0-partparams->VoicePar[nvoice].PVolume/127.0)) // -60 dB .. 0 dB - *VelF(velocity,partparams->VoicePar[nvoice].PAmpVelocityScaleFunction);//velocity + NoteVoicePar[nvoice].Volume = + pow(0.1, 3.0 * (1.0 - partparams->VoicePar[nvoice].PVolume / 127.0)) // -60 dB .. 0 dB + * VelF(velocity, + partparams->VoicePar[nvoice].PAmpVelocityScaleFunction); //velocity - if (partparams->VoicePar[nvoice].PVolumeminus!=0) NoteVoicePar[nvoice].Volume=-NoteVoicePar[nvoice].Volume; + if(partparams->VoicePar[nvoice].PVolumeminus != 0) + NoteVoicePar[nvoice].Volume = -NoteVoicePar[nvoice].Volume; - if (partparams->VoicePar[nvoice].PPanning==0) - NoteVoicePar[nvoice].Panning=RND;// random panning - else NoteVoicePar[nvoice].Panning=partparams->VoicePar[nvoice].PPanning/128.0; + if(partparams->VoicePar[nvoice].PPanning == 0) + NoteVoicePar[nvoice].Panning = RND; // random panning + else + NoteVoicePar[nvoice].Panning = + partparams->VoicePar[nvoice].PPanning / 128.0; - newamplitude[nvoice]=1.0; - if (partparams->VoicePar[nvoice].PAmpEnvelopeEnabled!=0) { - NoteVoicePar[nvoice].AmpEnvelope=new Envelope(partparams->VoicePar[nvoice].AmpEnvelope,basefreq); - NoteVoicePar[nvoice].AmpEnvelope->envout_dB();//discard the first envelope sample - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); - }; + newamplitude[nvoice] = 1.0; + if(partparams->VoicePar[nvoice].PAmpEnvelopeEnabled != 0) { + NoteVoicePar[nvoice].AmpEnvelope = new Envelope( + partparams->VoicePar[nvoice].AmpEnvelope, + basefreq); + NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); //discard the first envelope sample + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); + } - if (partparams->VoicePar[nvoice].PAmpLfoEnabled!=0) { - NoteVoicePar[nvoice].AmpLfo=new LFO(partparams->VoicePar[nvoice].AmpLfo,basefreq); - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpLfo->amplfoout(); - }; + if(partparams->VoicePar[nvoice].PAmpLfoEnabled != 0) { + NoteVoicePar[nvoice].AmpLfo = new LFO( + partparams->VoicePar[nvoice].AmpLfo, + basefreq); + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpLfo->amplfoout(); + } /* Voice Frequency Parameters Init */ - if (partparams->VoicePar[nvoice].PFreqEnvelopeEnabled!=0) - NoteVoicePar[nvoice].FreqEnvelope=new Envelope(partparams->VoicePar[nvoice].FreqEnvelope,basefreq); + if(partparams->VoicePar[nvoice].PFreqEnvelopeEnabled != 0) + NoteVoicePar[nvoice].FreqEnvelope = new Envelope( + partparams->VoicePar[nvoice].FreqEnvelope, + basefreq); - if (partparams->VoicePar[nvoice].PFreqLfoEnabled!=0) NoteVoicePar[nvoice].FreqLfo=new LFO(partparams->VoicePar[nvoice].FreqLfo,basefreq); + if(partparams->VoicePar[nvoice].PFreqLfoEnabled != 0) + NoteVoicePar[nvoice].FreqLfo = new LFO( + partparams->VoicePar[nvoice].FreqLfo, + basefreq); /* Voice Filter Parameters Init */ - if (partparams->VoicePar[nvoice].PFilterEnabled!=0) { - NoteVoicePar[nvoice].VoiceFilterL=new Filter(partparams->VoicePar[nvoice].VoiceFilter); - NoteVoicePar[nvoice].VoiceFilterR=new Filter(partparams->VoicePar[nvoice].VoiceFilter); - }; + if(partparams->VoicePar[nvoice].PFilterEnabled != 0) { + NoteVoicePar[nvoice].VoiceFilterL = new Filter( + partparams->VoicePar[nvoice].VoiceFilter); + NoteVoicePar[nvoice].VoiceFilterR = new Filter( + partparams->VoicePar[nvoice].VoiceFilter); + } - if (partparams->VoicePar[nvoice].PFilterEnvelopeEnabled!=0) - NoteVoicePar[nvoice].FilterEnvelope=new Envelope(partparams->VoicePar[nvoice].FilterEnvelope,basefreq); + if(partparams->VoicePar[nvoice].PFilterEnvelopeEnabled != 0) + NoteVoicePar[nvoice].FilterEnvelope = new Envelope( + partparams->VoicePar[nvoice].FilterEnvelope, + basefreq); - if (partparams->VoicePar[nvoice].PFilterLfoEnabled!=0) - NoteVoicePar[nvoice].FilterLfo=new LFO(partparams->VoicePar[nvoice].FilterLfo,basefreq); + if(partparams->VoicePar[nvoice].PFilterLfoEnabled != 0) + NoteVoicePar[nvoice].FilterLfo = + new LFO(partparams->VoicePar[nvoice].FilterLfo, basefreq); - NoteVoicePar[nvoice].FilterFreqTracking=partparams->VoicePar[nvoice].VoiceFilter->getfreqtracking(basefreq); + NoteVoicePar[nvoice].FilterFreqTracking = + partparams->VoicePar[nvoice].VoiceFilter->getfreqtracking(basefreq); /* Voice Modulation Parameters Init */ - if ((NoteVoicePar[nvoice].FMEnabled!=NONE)&&(NoteVoicePar[nvoice].FMVoice<0)) { + if((NoteVoicePar[nvoice].FMEnabled != NONE) + && (NoteVoicePar[nvoice].FMVoice < 0)) { partparams->VoicePar[nvoice].FMSmp->newrandseed(rand()); - NoteVoicePar[nvoice].FMSmp=new REALTYPE[OSCIL_SIZE+OSCIL_SMP_EXTRA_SAMPLES]; + NoteVoicePar[nvoice].FMSmp = + new REALTYPE[OSCIL_SIZE + OSCIL_SMP_EXTRA_SAMPLES]; //Perform Anti-aliasing only on MORPH or RING MODULATION - int vc=nvoice; - if (partparams->VoicePar[nvoice].PextFMoscil!=-1) vc=partparams->VoicePar[nvoice].PextFMoscil; + int vc = nvoice; + if(partparams->VoicePar[nvoice].PextFMoscil != -1) + vc = partparams->VoicePar[nvoice].PextFMoscil; - REALTYPE tmp=1.0; - if ((partparams->VoicePar[vc].FMSmp->Padaptiveharmonics!=0)|| - (NoteVoicePar[nvoice].FMEnabled==MORPH)|| - (NoteVoicePar[nvoice].FMEnabled==RING_MOD)) { - tmp=getFMvoicebasefreq(nvoice); - }; - if (!partparams->GlobalPar.Hrandgrouping) partparams->VoicePar[vc].FMSmp->newrandseed(rand()); + REALTYPE tmp = 1.0; + if((partparams->VoicePar[vc].FMSmp->Padaptiveharmonics != 0) + || (NoteVoicePar[nvoice].FMEnabled == MORPH) + || (NoteVoicePar[nvoice].FMEnabled == RING_MOD)) + tmp = getFMvoicebasefreq(nvoice); + ; + if(!partparams->GlobalPar.Hrandgrouping) + partparams->VoicePar[vc].FMSmp->newrandseed(rand()); - for (int k=0;kVoicePar[vc].FMSmp->get(NoteVoicePar[nvoice].FMSmp,tmp)) % OSCIL_SIZE; - }; - for (int i=0;iVoicePar[nvoice].PFMoscilphase-64.0)/128.0*OSCIL_SIZE+OSCIL_SIZE*4); - for (int k=0;kVoicePar[vc].FMSmp->get(NoteVoicePar[nvoice] + . + FMSmp, + tmp)) % OSCIL_SIZE; + ; + for(int i = 0; i < OSCIL_SMP_EXTRA_SAMPLES; i++) + NoteVoicePar[nvoice].FMSmp[OSCIL_SIZE + + i] = NoteVoicePar[nvoice].FMSmp[i]; + int oscposhiFM_add = + (int)((partparams->VoicePar[nvoice].PFMoscilphase + - 64.0) / 128.0 * OSCIL_SIZE + OSCIL_SIZE * 4); + for(int k = 0; k < unison_size[nvoice]; k++) { + oscposhiFM[nvoice][k] += oscposhiFM_add; + oscposhiFM[nvoice][k] %= OSCIL_SIZE; + } + } - if (partparams->VoicePar[nvoice].PFMFreqEnvelopeEnabled!=0) - NoteVoicePar[nvoice].FMFreqEnvelope=new Envelope(partparams->VoicePar[nvoice].FMFreqEnvelope,basefreq); + if(partparams->VoicePar[nvoice].PFMFreqEnvelopeEnabled != 0) + NoteVoicePar[nvoice].FMFreqEnvelope = new Envelope( + partparams->VoicePar[nvoice].FMFreqEnvelope, + basefreq); - FMnewamplitude[nvoice]=NoteVoicePar[nvoice].FMVolume*ctl->fmamp.relamp; + FMnewamplitude[nvoice] = NoteVoicePar[nvoice].FMVolume + * ctl->fmamp.relamp; - if (partparams->VoicePar[nvoice].PFMAmpEnvelopeEnabled!=0) { - NoteVoicePar[nvoice].FMAmpEnvelope=new Envelope(partparams->VoicePar[nvoice].FMAmpEnvelope,basefreq); - FMnewamplitude[nvoice]*=NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); - }; - }; + if(partparams->VoicePar[nvoice].PFMAmpEnvelopeEnabled != 0) { + NoteVoicePar[nvoice].FMAmpEnvelope = new Envelope( + partparams->VoicePar[nvoice].FMAmpEnvelope, + basefreq); + FMnewamplitude[nvoice] *= + NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); + } + } + + for(nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + for(i = nvoice + 1; i < NUM_VOICES; i++) + tmp[i] = 0; + for(i = nvoice + 1; i < NUM_VOICES; i++) + if((NoteVoicePar[i].FMVoice == nvoice) && (tmp[i] == 0)) { + NoteVoicePar[nvoice].VoiceOut = new REALTYPE[SOUND_BUFFER_SIZE]; + tmp[i] = 1; + } + ; + if(NoteVoicePar[nvoice].VoiceOut != NULL) + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + NoteVoicePar[nvoice].VoiceOut[i] = 0.0; + } +} - for (nvoice=0;nvoicebandwidth.relbw*bandwidthDetuneMultiplier; - for (int k=0;k=1.0){ - pos=1.0; - step=-step; - }; - REALTYPE vibratto_val=(pos-0.333333333*pos*pos*pos)*1.5;//make the vibratto lfo smoother - unison_freq_rap[nvoice][k]=1.0+((unison_base_freq_rap[nvoice][k]-1.0)+vibratto_val*unison_vibratto[nvoice].amplitude)*relbw; - - unison_vibratto[nvoice].position[k]=pos; - step=unison_vibratto[nvoice].step[k]=step; - }; +void ADnote::compute_unison_freq_rap(int nvoice) { + if(unison_size[nvoice] == 1) { //no unison + unison_freq_rap[nvoice][0] = 1.0; + return; + } + REALTYPE relbw = ctl->bandwidth.relbw * bandwidthDetuneMultiplier; + for(int k = 0; k < unison_size[nvoice]; k++) { + REALTYPE pos = unison_vibratto[nvoice].position[k]; + REALTYPE step = unison_vibratto[nvoice].step[k]; + pos += step; + if(pos <= -1.0) { + pos = -1.0; + step = -step; + } + if(pos >= 1.0) { + pos = 1.0; + step = -step; + } + REALTYPE vibratto_val = (pos - 0.333333333 * pos * pos * pos) * 1.5; //make the vibratto lfo smoother + unison_freq_rap[nvoice][k] = 1.0 + + ((unison_base_freq_rap[nvoice][k] + - 1.0) + vibratto_val + * unison_vibratto[nvoice].amplitude) + * relbw; -}; + unison_vibratto[nvoice].position[k] = pos; + step = unison_vibratto[nvoice].step[k] = step; + } +} /* * Computes the frequency of an oscillator */ -void ADnote::setfreq(int nvoice,REALTYPE in_freq) +void ADnote::setfreq(int nvoice, REALTYPE in_freq) { - for (int k=0;kOSCIL_SIZE) speed=OSCIL_SIZE; + for(int k = 0; k < unison_size[nvoice]; k++) { + REALTYPE freq = fabs(in_freq) * unison_freq_rap[nvoice][k]; + REALTYPE speed = freq * REALTYPE(OSCIL_SIZE) / (REALTYPE) SAMPLE_RATE; + if(speed > OSCIL_SIZE) + speed = OSCIL_SIZE; - F2I(speed,oscfreqhi[nvoice][k]); - oscfreqlo[nvoice][k]=speed-floor(speed); - }; -}; + F2I(speed, oscfreqhi[nvoice][k]); + oscfreqlo[nvoice][k] = speed - floor(speed); + } +} /* * Computes the frequency of an modullator oscillator */ -void ADnote::setfreqFM(int nvoice,REALTYPE in_freq) +void ADnote::setfreqFM(int nvoice, REALTYPE in_freq) { - for (int k=0;kOSCIL_SIZE) speed=OSCIL_SIZE; + for(int k = 0; k < unison_size[nvoice]; k++) { + REALTYPE freq = fabs(in_freq) * unison_freq_rap[nvoice][k]; + REALTYPE speed = freq * REALTYPE(OSCIL_SIZE) / (REALTYPE) SAMPLE_RATE; + if(speed > OSCIL_SIZE) + speed = OSCIL_SIZE; - F2I(speed,oscfreqhiFM[nvoice][k]); - oscfreqloFM[nvoice][k]=speed-floor(speed); - }; -}; + F2I(speed, oscfreqhiFM[nvoice][k]); + oscfreqloFM[nvoice][k] = speed - floor(speed); + } +} /* * Get Voice base frequency */ REALTYPE ADnote::getvoicebasefreq(int nvoice) const { - REALTYPE detune=NoteVoicePar[nvoice].Detune/100.0+ - NoteVoicePar[nvoice].FineDetune/100.0*ctl->bandwidth.relbw*bandwidthDetuneMultiplier+ - NoteGlobalPar.Detune/100.0; + REALTYPE detune = NoteVoicePar[nvoice].Detune / 100.0 + + NoteVoicePar[nvoice].FineDetune / 100.0 + * ctl->bandwidth.relbw * bandwidthDetuneMultiplier + + NoteGlobalPar.Detune / 100.0; - if (NoteVoicePar[nvoice].fixedfreq==0) return(this->basefreq*pow(2,detune/12.0)); - else {//the fixed freq is enabled - REALTYPE fixedfreq=440.0; - int fixedfreqET=NoteVoicePar[nvoice].fixedfreqET; - if (fixedfreqET!=0) {//if the frequency varies according the keyboard note - REALTYPE tmp=(midinote-69.0)/12.0*(pow(2.0,(fixedfreqET-1)/63.0)-1.0); - if (fixedfreqET<=64) fixedfreq*=pow(2.0,tmp); - else fixedfreq*=pow(3.0,tmp); - }; - return(fixedfreq*pow(2.0,detune/12.0)); - }; -}; + if(NoteVoicePar[nvoice].fixedfreq == 0) + return this->basefreq * pow(2, detune / 12.0); + else { //the fixed freq is enabled + REALTYPE fixedfreq = 440.0; + int fixedfreqET = NoteVoicePar[nvoice].fixedfreqET; + if(fixedfreqET != 0) { //if the frequency varies according the keyboard note + REALTYPE tmp = + (midinote + - 69.0) / 12.0 * (pow(2.0, (fixedfreqET - 1) / 63.0) - 1.0); + if(fixedfreqET <= 64) + fixedfreq *= pow(2.0, tmp); + else + fixedfreq *= pow(3.0, tmp); + } + return fixedfreq * pow(2.0, detune / 12.0); + } +} /* * Get Voice's Modullator base frequency */ REALTYPE ADnote::getFMvoicebasefreq(int nvoice) const { - REALTYPE detune=NoteVoicePar[nvoice].FMDetune/100.0; - return(getvoicebasefreq(nvoice)*pow(2,detune/12.0)); -}; + REALTYPE detune = NoteVoicePar[nvoice].FMDetune / 100.0; + return getvoicebasefreq(nvoice) * pow(2, detune / 12.0); +} /* * Computes all the parameters for each tick */ void ADnote::computecurrentparameters() { - int nvoice; - REALTYPE voicefreq,voicepitch,filterpitch,filterfreq,FMfreq,FMrelativepitch,globalpitch,globalfilterpitch; - globalpitch=0.01*(NoteGlobalPar.FreqEnvelope->envout()+ - NoteGlobalPar.FreqLfo->lfoout()*ctl->modwheel.relmod); - globaloldamplitude=globalnewamplitude; - globalnewamplitude=NoteGlobalPar.Volume*NoteGlobalPar.AmpEnvelope->envout_dB()*NoteGlobalPar.AmpLfo->amplfoout(); + int nvoice; + REALTYPE voicefreq, voicepitch, filterpitch, filterfreq, FMfreq, + FMrelativepitch, globalpitch, globalfilterpitch; + globalpitch = 0.01 * (NoteGlobalPar.FreqEnvelope->envout() + + NoteGlobalPar.FreqLfo->lfoout() + * ctl->modwheel.relmod); + globaloldamplitude = globalnewamplitude; + globalnewamplitude = NoteGlobalPar.Volume + * NoteGlobalPar.AmpEnvelope->envout_dB() + * NoteGlobalPar.AmpLfo->amplfoout(); - globalfilterpitch=NoteGlobalPar.FilterEnvelope->envout()+NoteGlobalPar.FilterLfo->lfoout() - +NoteGlobalPar.FilterCenterPitch; + globalfilterpitch = NoteGlobalPar.FilterEnvelope->envout() + + NoteGlobalPar.FilterLfo->lfoout() + + NoteGlobalPar.FilterCenterPitch; - REALTYPE tmpfilterfreq=globalfilterpitch+ctl->filtercutoff.relfreq - +NoteGlobalPar.FilterFreqTracking; + REALTYPE tmpfilterfreq = globalfilterpitch + ctl->filtercutoff.relfreq + + NoteGlobalPar.FilterFreqTracking; - tmpfilterfreq=NoteGlobalPar.GlobalFilterL->getrealfreq(tmpfilterfreq); + tmpfilterfreq = NoteGlobalPar.GlobalFilterL->getrealfreq(tmpfilterfreq); - REALTYPE globalfilterq=NoteGlobalPar.FilterQ*ctl->filterq.relq; - NoteGlobalPar.GlobalFilterL->setfreq_and_q(tmpfilterfreq,globalfilterq); - if (stereo!=0) NoteGlobalPar.GlobalFilterR->setfreq_and_q(tmpfilterfreq,globalfilterq); + REALTYPE globalfilterq = NoteGlobalPar.FilterQ * ctl->filterq.relq; + NoteGlobalPar.GlobalFilterL->setfreq_and_q(tmpfilterfreq, globalfilterq); + if(stereo != 0) + NoteGlobalPar.GlobalFilterR->setfreq_and_q(tmpfilterfreq, globalfilterq); //compute the portamento, if it is used by this note - REALTYPE portamentofreqrap=1.0; - 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" - }; - }; + REALTYPE portamentofreqrap = 1.0; + 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" + ; + } //compute parameters for all voices - for (nvoice=0;nvoice0) continue; + for(nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + if(NoteVoicePar[nvoice].Enabled != ON) + continue; + NoteVoicePar[nvoice].DelayTicks -= 1; + if(NoteVoicePar[nvoice].DelayTicks > 0) + continue; - compute_unison_freq_rap(nvoice); + compute_unison_freq_rap(nvoice); /*******************/ /* Voice Amplitude */ /*******************/ - oldamplitude[nvoice]=newamplitude[nvoice]; - newamplitude[nvoice]=1.0; + oldamplitude[nvoice] = newamplitude[nvoice]; + newamplitude[nvoice] = 1.0; - if (NoteVoicePar[nvoice].AmpEnvelope!=NULL) - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); + if(NoteVoicePar[nvoice].AmpEnvelope != NULL) + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpEnvelope->envout_dB(); - if (NoteVoicePar[nvoice].AmpLfo!=NULL) - newamplitude[nvoice]*=NoteVoicePar[nvoice].AmpLfo->amplfoout(); + if(NoteVoicePar[nvoice].AmpLfo != NULL) + newamplitude[nvoice] *= NoteVoicePar[nvoice].AmpLfo->amplfoout(); /****************/ /* Voice Filter */ /****************/ - if (NoteVoicePar[nvoice].VoiceFilterL!=NULL) { - filterpitch=NoteVoicePar[nvoice].FilterCenterPitch; + if(NoteVoicePar[nvoice].VoiceFilterL != NULL) { + filterpitch = NoteVoicePar[nvoice].FilterCenterPitch; - if (NoteVoicePar[nvoice].FilterEnvelope!=NULL) - filterpitch+=NoteVoicePar[nvoice].FilterEnvelope->envout(); + if(NoteVoicePar[nvoice].FilterEnvelope != NULL) + filterpitch += NoteVoicePar[nvoice].FilterEnvelope->envout(); - if (NoteVoicePar[nvoice].FilterLfo!=NULL) - filterpitch+=NoteVoicePar[nvoice].FilterLfo->lfoout(); + if(NoteVoicePar[nvoice].FilterLfo != NULL) + filterpitch += NoteVoicePar[nvoice].FilterLfo->lfoout(); - filterfreq=filterpitch+NoteVoicePar[nvoice].FilterFreqTracking; - filterfreq=NoteVoicePar[nvoice].VoiceFilterL->getrealfreq(filterfreq); + filterfreq = filterpitch + NoteVoicePar[nvoice].FilterFreqTracking; + filterfreq = NoteVoicePar[nvoice].VoiceFilterL->getrealfreq( + filterfreq); NoteVoicePar[nvoice].VoiceFilterL->setfreq(filterfreq); - if (stereo&&NoteVoicePar[nvoice].VoiceFilterR) NoteVoicePar[nvoice].VoiceFilterR->setfreq(filterfreq); - }; - - if (NoteVoicePar[nvoice].noisetype==0) {//compute only if the voice isn't noise + if(stereo && NoteVoicePar[nvoice].VoiceFilterR) + NoteVoicePar[nvoice].VoiceFilterR->setfreq(filterfreq); + } + if(NoteVoicePar[nvoice].noisetype == 0) { //compute only if the voice isn't noise /*******************/ /* Voice Frequency */ /*******************/ - voicepitch=0.0; - if (NoteVoicePar[nvoice].FreqLfo!=NULL) - voicepitch+=NoteVoicePar[nvoice].FreqLfo->lfoout()/100.0 - *ctl->bandwidth.relbw; + voicepitch = 0.0; + if(NoteVoicePar[nvoice].FreqLfo != NULL) + voicepitch += NoteVoicePar[nvoice].FreqLfo->lfoout() / 100.0 + * ctl->bandwidth.relbw; - if (NoteVoicePar[nvoice].FreqEnvelope!=NULL) voicepitch+=NoteVoicePar[nvoice].FreqEnvelope->envout()/100.0; - voicefreq=getvoicebasefreq(nvoice)*pow(2,(voicepitch+globalpitch)/12.0);//Hz frequency - voicefreq*=ctl->pitchwheel.relfreq;//change the frequency by the controller - setfreq(nvoice,voicefreq*portamentofreqrap); + if(NoteVoicePar[nvoice].FreqEnvelope != NULL) + voicepitch += NoteVoicePar[nvoice].FreqEnvelope->envout() + / 100.0; + voicefreq = getvoicebasefreq(nvoice) + * pow(2, (voicepitch + globalpitch) / 12.0); //Hz frequency + voicefreq *= ctl->pitchwheel.relfreq; //change the frequency by the controller + setfreq(nvoice, voicefreq * portamentofreqrap); /***************/ /* Modulator */ /***************/ - if (NoteVoicePar[nvoice].FMEnabled!=NONE) { - FMrelativepitch=NoteVoicePar[nvoice].FMDetune/100.0; - if (NoteVoicePar[nvoice].FMFreqEnvelope!=NULL) FMrelativepitch+=NoteVoicePar[nvoice].FMFreqEnvelope->envout()/100; - FMfreq=pow(2.0,FMrelativepitch/12.0)*voicefreq*portamentofreqrap; - setfreqFM(nvoice,FMfreq); + if(NoteVoicePar[nvoice].FMEnabled != NONE) { + FMrelativepitch = NoteVoicePar[nvoice].FMDetune / 100.0; + if(NoteVoicePar[nvoice].FMFreqEnvelope != NULL) + FMrelativepitch += + NoteVoicePar[nvoice].FMFreqEnvelope->envout() / 100; + FMfreq = + pow(2.0, FMrelativepitch + / 12.0) * voicefreq * portamentofreqrap; + setfreqFM(nvoice, FMfreq); - FMoldamplitude[nvoice]=FMnewamplitude[nvoice]; - FMnewamplitude[nvoice]=NoteVoicePar[nvoice].FMVolume*ctl->fmamp.relamp; - if (NoteVoicePar[nvoice].FMAmpEnvelope!=NULL) - FMnewamplitude[nvoice]*=NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); - }; - }; - - }; - time+=(REALTYPE)SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE; -}; + FMoldamplitude[nvoice] = FMnewamplitude[nvoice]; + FMnewamplitude[nvoice] = NoteVoicePar[nvoice].FMVolume + * ctl->fmamp.relamp; + if(NoteVoicePar[nvoice].FMAmpEnvelope != NULL) + FMnewamplitude[nvoice] *= + NoteVoicePar[nvoice].FMAmpEnvelope->envout_dB(); + } + } + } + time += (REALTYPE)SOUND_BUFFER_SIZE / (REALTYPE)SAMPLE_RATE; +} /* @@ -971,51 +1250,54 @@ void ADnote::computecurrentparameters() */ inline void ADnote::fadein(REALTYPE *smps) const { - int zerocrossings=0; - for (int i=1;i0.0)) zerocrossings++;//this is only the possitive crossings + int zerocrossings = 0; + for(int i = 1; i < SOUND_BUFFER_SIZE; i++) + if((smps[i - 1] < 0.0) && (smps[i] > 0.0)) + zerocrossings++; //this is only the possitive crossings - REALTYPE tmp=(SOUND_BUFFER_SIZE-1.0)/(zerocrossings+1)/3.0; - if (tmp<8.0) tmp=8.0; + REALTYPE tmp = (SOUND_BUFFER_SIZE - 1.0) / (zerocrossings + 1) / 3.0; + if(tmp < 8.0) + tmp = 8.0; int n; - F2I(tmp,n);//how many samples is the fade-in - if (n>SOUND_BUFFER_SIZE) n=SOUND_BUFFER_SIZE; - for (int i=0;i SOUND_BUFFER_SIZE) + n = SOUND_BUFFER_SIZE; + for(int i = 0; i < n; i++) { //fade-in + REALTYPE tmp = 0.5 - cos((REALTYPE)i / (REALTYPE) n * PI) * 0.5; + smps[i] *= tmp; + } +} /* * Computes the Oscillator (Without Modulation) - LinearInterpolation */ inline void ADnote::ComputeVoiceOscillator_LinearInterpolation(int nvoice) { - int i,poshi; + int i, poshi; REALTYPE poslo; - - for (int k=0;k=1.0) { - poslo-=1.0; - poshi++; - }; - poshi+=freqhi; - poshi&=OSCIL_SIZE-1; - }; - oscposhi[nvoice][k]=poshi; - oscposlo[nvoice][k]=poslo; - }; -}; + + for(int k = 0; k < unison_size[nvoice]; k++) { + poshi = oscposhi[nvoice][k]; + poslo = oscposlo[nvoice][k]; + int freqhi = oscfreqhi[nvoice][k]; + REALTYPE freqlo = oscfreqlo[nvoice][k]; + REALTYPE *smps = NoteVoicePar[nvoice].OscilSmp; + REALTYPE *tw = tmpwave_unison[k]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tw[i] = smps[poshi] * (1.0 - poslo) + smps[poshi + 1] * poslo; + poslo += freqlo; + if(poslo >= 1.0) { + poslo -= 1.0; + poshi++; + } + poshi += freqhi; + poshi &= OSCIL_SIZE - 1; + } + oscposhi[nvoice][k] = poshi; + oscposlo[nvoice][k] = poslo; + } +} @@ -1032,22 +1314,22 @@ inline void ADnote::ComputeVoiceOscillator_CubicInterpolation(int nvoice){ REALTYPE *smps=NoteVoicePar[nvoice].OscilSmp; REALTYPE xm1,x0,x1,x2,a,b,c; for (i=0;i=1.0) { - poslo-=1.0; - poshi++; - }; - poshi+=oscfreqhi[nvoice]; + xm1=smps[poshi]; + x0=smps[poshi+1]; + x1=smps[poshi+2]; + x2=smps[poshi+3]; + a=(3.0 * (x0-x1) - xm1 + x2) / 2.0; + b = 2.0*x1 + xm1 - (5.0*x0 + x2) / 2.0; + c = (x1 - xm1) / 2.0; + tmpwave[i]=(((a * poslo) + b) * poslo + c) * poslo + x0; + printf("a\n"); + //tmpwave[i]=smps[poshi]*(1.0-poslo)+smps[poshi+1]*poslo; + poslo+=oscfreqlo[nvoice]; + if (poslo>=1.0) { + poslo-=1.0; + poshi++; + }; + poshi+=oscfreqhi[nvoice]; poshi&=OSCIL_SIZE-1; }; oscposhi[nvoice]=poshi; @@ -1059,237 +1341,269 @@ inline void ADnote::ComputeVoiceOscillator_CubicInterpolation(int nvoice){ */ inline void ADnote::ComputeVoiceOscillatorMorph(int nvoice) { - int i; + int i; REALTYPE amp; ComputeVoiceOscillator_LinearInterpolation(nvoice); - if (FMnewamplitude[nvoice]>1.0) FMnewamplitude[nvoice]=1.0; - if (FMoldamplitude[nvoice]>1.0) FMoldamplitude[nvoice]=1.0; + if(FMnewamplitude[nvoice] > 1.0) + FMnewamplitude[nvoice] = 1.0; + if(FMoldamplitude[nvoice] > 1.0) + FMoldamplitude[nvoice] = 1.0; - if (NoteVoicePar[nvoice].FMVoice>=0) { - //if I use VoiceOut[] as modullator - int FMVoice=NoteVoicePar[nvoice].FMVoice; - for (int k=0;k= 0) { + //if I use VoiceOut[] as modullator + int FMVoice = NoteVoicePar[nvoice].FMVoice; + for(int k = 0; k < unison_size[nvoice]; k++) { + REALTYPE *tw = tmpwave_unison[k]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + amp = INTERPOLATE_AMPLITUDE(FMoldamplitude[nvoice], + FMnewamplitude[nvoice], + i, + SOUND_BUFFER_SIZE); + tw[i] = tw[i] + * (1.0 - amp) + amp * NoteVoicePar[FMVoice].VoiceOut[i]; + } + } + } + else { + for(int k = 0; k < unison_size[nvoice]; k++) { + int poshiFM = oscposhiFM[nvoice][k]; + REALTYPE posloFM = oscposloFM[nvoice][k]; + int freqhiFM = oscfreqhiFM[nvoice][k]; + REALTYPE freqloFM = oscfreqloFM[nvoice][k]; + REALTYPE *tw = tmpwave_unison[k]; - for (i=0;i=1.0) { - posloFM-=1.0; - poshiFM++; - }; - poshiFM+=freqhiFM; - poshiFM&=OSCIL_SIZE-1; - }; - oscposhiFM[nvoice][k]=poshiFM; - oscposloFM[nvoice][k]=posloFM; - }; - }; -}; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + amp = INTERPOLATE_AMPLITUDE(FMoldamplitude[nvoice], + FMnewamplitude[nvoice], + i, + SOUND_BUFFER_SIZE); + tw[i] = tw[i] * (1.0 - amp) + amp + * (NoteVoicePar[nvoice].FMSmp[poshiFM] * (1 - posloFM) + + NoteVoicePar[nvoice].FMSmp[poshiFM + 1] * posloFM); + posloFM += freqloFM; + if(posloFM >= 1.0) { + posloFM -= 1.0; + poshiFM++; + } + poshiFM += freqhiFM; + poshiFM &= OSCIL_SIZE - 1; + } + oscposhiFM[nvoice][k] = poshiFM; + oscposloFM[nvoice][k] = posloFM; + } + } +} /* * Computes the Oscillator (Ring Modulation) */ inline void ADnote::ComputeVoiceOscillatorRingModulation(int nvoice) { - int i; + int i; REALTYPE amp; ComputeVoiceOscillator_LinearInterpolation(nvoice); - if (FMnewamplitude[nvoice]>1.0) FMnewamplitude[nvoice]=1.0; - if (FMoldamplitude[nvoice]>1.0) FMoldamplitude[nvoice]=1.0; - if (NoteVoicePar[nvoice].FMVoice>=0) { - // if I use VoiceOut[] as modullator - for (int k=0;k 1.0) + FMnewamplitude[nvoice] = 1.0; + if(FMoldamplitude[nvoice] > 1.0) + FMoldamplitude[nvoice] = 1.0; + if(NoteVoicePar[nvoice].FMVoice >= 0) { + // if I use VoiceOut[] as modullator + for(int k = 0; k < unison_size[nvoice]; k++) { + REALTYPE *tw = tmpwave_unison[k]; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + amp = INTERPOLATE_AMPLITUDE(FMoldamplitude[nvoice], + FMnewamplitude[nvoice], + i, + SOUND_BUFFER_SIZE); + int FMVoice = NoteVoicePar[nvoice].FMVoice; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tw[i] *= + (1.0 - amp) + amp * NoteVoicePar[FMVoice].VoiceOut[i]; + } + } + } + else { + for(int k = 0; k < unison_size[nvoice]; k++) { + int poshiFM = oscposhiFM[nvoice][k]; + REALTYPE posloFM = oscposloFM[nvoice][k]; + int freqhiFM = oscfreqhiFM[nvoice][k]; + REALTYPE freqloFM = oscfreqloFM[nvoice][k]; + REALTYPE *tw = tmpwave_unison[k]; - for (i=0;i=1.0) { - posloFM-=1.0; - poshiFM++; - }; - poshiFM+=freqhiFM; - poshiFM&=OSCIL_SIZE-1; - }; - oscposhiFM[nvoice][k]=poshiFM; - oscposloFM[nvoice][k]=posloFM; - }; - }; -}; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + amp = INTERPOLATE_AMPLITUDE(FMoldamplitude[nvoice], + FMnewamplitude[nvoice], + i, + SOUND_BUFFER_SIZE); + tw[i] *= (NoteVoicePar[nvoice].FMSmp[poshiFM] * (1.0 - posloFM) + + NoteVoicePar[nvoice].FMSmp[poshiFM + + 1] * posloFM) * amp + + (1.0 - amp); + posloFM += freqloFM; + if(posloFM >= 1.0) { + posloFM -= 1.0; + poshiFM++; + } + poshiFM += freqhiFM; + poshiFM &= OSCIL_SIZE - 1; + } + oscposhiFM[nvoice][k] = poshiFM; + oscposloFM[nvoice][k] = posloFM; + } + } +} /* * Computes the Oscillator (Phase Modulation or Frequency Modulation) */ -inline void ADnote::ComputeVoiceOscillatorFrequencyModulation(int nvoice,int FMmode) +inline void ADnote::ComputeVoiceOscillatorFrequencyModulation(int nvoice, + int FMmode) { - int carposhi=0; - int i,FMmodfreqhi=0; - REALTYPE FMmodfreqlo=0,carposlo=0; + int carposhi = 0; + int i, FMmodfreqhi = 0; + REALTYPE FMmodfreqlo = 0, carposlo = 0; - if (NoteVoicePar[nvoice].FMVoice>=0) { + if(NoteVoicePar[nvoice].FMVoice >= 0) { //if I use VoiceOut[] as modulator - for (int k=0;k=1.0) { - posloFM=fmod(posloFM,1.0); - poshiFM++; - }; - poshiFM+=freqhiFM; - poshiFM&=OSCIL_SIZE-1; - }; - oscposhiFM[nvoice][k]=poshiFM; - oscposloFM[nvoice][k]=posloFM; - }; - }; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { + tw[i] = + (NoteVoicePar[nvoice].FMSmp[poshiFM] * (1.0 - posloFM) + + NoteVoicePar[nvoice].FMSmp[poshiFM + 1] * posloFM); + posloFM += freqloFM; + if(posloFM >= 1.0) { + posloFM = fmod(posloFM, 1.0); + poshiFM++; + } + poshiFM += freqhiFM; + poshiFM &= OSCIL_SIZE - 1; + } + oscposhiFM[nvoice][k] = poshiFM; + oscposloFM[nvoice][k] = posloFM; + } + } // Amplitude interpolation - if (ABOVE_AMPLITUDE_THRESHOLD(FMoldamplitude[nvoice],FMnewamplitude[nvoice])) { - for (int k=0;k=1.0) { - carposhi++; - carposlo=fmod(carposlo,1.0); - }; - carposhi&=(OSCIL_SIZE-1); + if(carposlo >= 1.0) { + carposhi++; + carposlo = fmod(carposlo, 1.0); + } + carposhi &= (OSCIL_SIZE - 1); - tw[i]=NoteVoicePar[nvoice].OscilSmp[carposhi]*(1.0-carposlo) - +NoteVoicePar[nvoice].OscilSmp[carposhi+1]*carposlo; + tw[i] = NoteVoicePar[nvoice].OscilSmp[carposhi] + * (1.0 - carposlo) + + NoteVoicePar[nvoice].OscilSmp[carposhi + + 1] * carposlo; - poslo+=freqlo; - if (poslo>=1.0) { - poslo=fmod(poslo,1.0); - poshi++; - }; + poslo += freqlo; + if(poslo >= 1.0) { + poslo = fmod(poslo, 1.0); + poshi++; + } - poshi+=freqhi; - poshi&=OSCIL_SIZE-1; - }; - oscposhi[nvoice][k]=poshi; - oscposlo[nvoice][k]=poslo; - - }; -}; + poshi += freqhi; + poshi &= OSCIL_SIZE - 1; + } + oscposhi[nvoice][k] = poshi; + oscposlo[nvoice][k] = poslo; + } +} /*Calculeaza Oscilatorul cu PITCH MODULATION*/ inline void ADnote::ComputeVoiceOscillatorPitchModulation(int nvoice) { //TODO -}; +} /* * Computes the Noise */ inline void ADnote::ComputeVoiceNoise(int nvoice) { - for (int k=0;k0)) continue; - if (NoteVoicePar[nvoice].noisetype==0) {//voice mode=sound - switch (NoteVoicePar[nvoice].FMEnabled) { + for(nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + if((NoteVoicePar[nvoice].Enabled != ON) + || (NoteVoicePar[nvoice].DelayTicks > 0)) + continue; + if(NoteVoicePar[nvoice].noisetype == 0) //voice mode=sound + switch(NoteVoicePar[nvoice].FMEnabled) { case MORPH: ComputeVoiceOscillatorMorph(nvoice); break; @@ -1321,266 +1638,328 @@ int ADnote::noteout(REALTYPE *outl,REALTYPE *outr) ComputeVoiceOscillatorRingModulation(nvoice); break; case PHASE_MOD: - ComputeVoiceOscillatorFrequencyModulation(nvoice,0); + ComputeVoiceOscillatorFrequencyModulation(nvoice, 0); break; case FREQ_MOD: - ComputeVoiceOscillatorFrequencyModulation(nvoice,1); + ComputeVoiceOscillatorFrequencyModulation(nvoice, 1); break; - //case PITCH_MOD:ComputeVoiceOscillatorPitchModulation(nvoice);break; + //case PITCH_MOD:ComputeVoiceOscillatorPitchModulation(nvoice);break; default: ComputeVoiceOscillator_LinearInterpolation(nvoice); //if (config.cfg.Interpolation) ComputeVoiceOscillator_CubicInterpolation(nvoice); - - }; - } else ComputeVoiceNoise(nvoice); + } + else + ComputeVoiceNoise(nvoice); // Voice Processing - //mix subvoices into voice - for (i=0;i1) stereo_pos=k/(REALTYPE)(unison_size[nvoice]-1)*2.0-1.0; - REALTYPE stereo_spread=unison_stereo_spread[nvoice]*2.0;//between 0 and 2.0 - if (stereo_spread>1.0){ - REALTYPE stereo_pos_1=(stereo_pos>=0.0)?1.0:-1.0; - stereo_pos=(2.0-stereo_spread)*stereo_pos+(stereo_spread-1.0)*stereo_pos_1; - }else{ - stereo_pos*=stereo_spread; - }; - if (unison_size[nvoice]==1) stereo_pos=0.0; - REALTYPE panning=(stereo_pos+1.0)*0.5; - - - REALTYPE lvol=(1.0-panning)*2.0; - if (lvol>1.0) lvol=1.0; - - REALTYPE rvol=panning*2.0; - if (rvol>1.0) rvol=1.0; - - if (unison_invert_phase[nvoice][k]) { - lvol=-lvol; - rvol=-rvol; - }; - - for (i=0;i 1) + stereo_pos = k + / (REALTYPE)(unison_size[nvoice] + - 1) * 2.0 - 1.0; + REALTYPE stereo_spread = unison_stereo_spread[nvoice] * 2.0; //between 0 and 2.0 + if(stereo_spread > 1.0) { + REALTYPE stereo_pos_1 = (stereo_pos >= 0.0) ? 1.0 : -1.0; + stereo_pos = + (2.0 + - stereo_spread) * stereo_pos + + (stereo_spread - 1.0) * stereo_pos_1; + } + else + stereo_pos *= stereo_spread; + ; + if(unison_size[nvoice] == 1) + stereo_pos = 0.0; + REALTYPE panning = (stereo_pos + 1.0) * 0.5; - REALTYPE unison_amplitude=1.0/sqrt(unison_size[nvoice]);//reduce the amplitude for large unison sizes + REALTYPE lvol = (1.0 - panning) * 2.0; + if(lvol > 1.0) + lvol = 1.0; + + REALTYPE rvol = panning * 2.0; + if(rvol > 1.0) + rvol = 1.0; + + if(unison_invert_phase[nvoice][k]) { + lvol = -lvol; + rvol = -rvol; + } + + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tmpwavel[i] += tw[i] * lvol; + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tmpwaver[i] += tw[i] * rvol; + } + else + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tmpwavel[i] += tw[i]; + ; + } + + + REALTYPE unison_amplitude = 1.0 / sqrt(unison_size[nvoice]); //reduce the amplitude for large unison sizes // Amplitude - REALTYPE oldam=oldamplitude[nvoice]*unison_amplitude; - REALTYPE newam=newamplitude[nvoice]*unison_amplitude; + REALTYPE oldam = oldamplitude[nvoice] * unison_amplitude; + REALTYPE newam = newamplitude[nvoice] * unison_amplitude; - if (ABOVE_AMPLITUDE_THRESHOLD(oldam,newam)) { - int rest=SOUND_BUFFER_SIZE; + if(ABOVE_AMPLITUDE_THRESHOLD(oldam, newam)) { + int rest = SOUND_BUFFER_SIZE; //test if the amplitude if raising and the difference is high - if ((newam>oldam)&&((newam-oldam)>0.25)) { - rest=10; - if (rest>SOUND_BUFFER_SIZE) rest=SOUND_BUFFER_SIZE; - for (int i=0;i oldam) && ((newam - oldam) > 0.25)) { + rest = 10; + if(rest > SOUND_BUFFER_SIZE) + rest = SOUND_BUFFER_SIZE; + for(int i = 0; i < SOUND_BUFFER_SIZE - rest; i++) + tmpwavel[i] *= oldam; + if(stereo) + for(int i = 0; i < SOUND_BUFFER_SIZE - rest; i++) + tmpwaver[i] *= oldam; + } // Amplitude interpolation - for (i=0;ifilterout(&tmpwavel[0]); - if ((stereo)&&(NoteVoicePar[nvoice].VoiceFilterR!=NULL)) NoteVoicePar[nvoice].VoiceFilterR->filterout(&tmpwaver[0]); + if(NoteVoicePar[nvoice].VoiceFilterL != NULL) + NoteVoicePar[nvoice].VoiceFilterL->filterout(&tmpwavel[0]); + if((stereo) && (NoteVoicePar[nvoice].VoiceFilterR != NULL)) + NoteVoicePar[nvoice].VoiceFilterR->filterout(&tmpwaver[0]); //check if the amplitude envelope is finished, if yes, the voice will be fadeout - if (NoteVoicePar[nvoice].AmpEnvelope!=NULL) { - if (NoteVoicePar[nvoice].AmpEnvelope->finished()!=0){ - for (i=0;ifinished() != 0) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tmpwavel[i] *= 1.0 - (REALTYPE)i + / (REALTYPE)SOUND_BUFFER_SIZE; + if(stereo) + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + tmpwaver[i] *= 1.0 - (REALTYPE)i + / (REALTYPE)SOUND_BUFFER_SIZE; + } //the voice is killed later - }; + } // Put the ADnote samples in VoiceOut (without appling Global volume, because I wish to use this voice as a modullator) - if (NoteVoicePar[nvoice].VoiceOut!=NULL){ - if (stereo) { - for (i=0;ifinished()!=0) KillVoice(nvoice); - }; - }; + if(NoteVoicePar[nvoice].AmpEnvelope != NULL) + if(NoteVoicePar[nvoice].AmpEnvelope->finished() != 0) + KillVoice(nvoice); + ; + } //Processing Global parameters NoteGlobalPar.GlobalFilterL->filterout(&outl[0]); - if (stereo==0) { - for (i=0;ifilterout(&outr[0]); + else + NoteGlobalPar.GlobalFilterR->filterout(&outr[0]); - for (i=0;ifinished()!=0) { - for (i=0;ifinished() != 0) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { //fade-out + REALTYPE tmp = 1.0 - (REALTYPE)i / (REALTYPE)SOUND_BUFFER_SIZE; + outl[i] *= tmp; + outr[i] *= tmp; + } KillNote(); - }; - return(1); -}; + } + return 1; +} /* @@ -1589,28 +1968,33 @@ int ADnote::noteout(REALTYPE *outl,REALTYPE *outr) void ADnote::relasekey() { int nvoice; - for (nvoice=0;nvoicerelasekey(); - if (NoteVoicePar[nvoice].FreqEnvelope!=NULL) NoteVoicePar[nvoice].FreqEnvelope->relasekey(); - if (NoteVoicePar[nvoice].FilterEnvelope!=NULL) NoteVoicePar[nvoice].FilterEnvelope->relasekey(); - if (NoteVoicePar[nvoice].FMFreqEnvelope!=NULL) NoteVoicePar[nvoice].FMFreqEnvelope->relasekey(); - if (NoteVoicePar[nvoice].FMAmpEnvelope!=NULL) NoteVoicePar[nvoice].FMAmpEnvelope->relasekey(); - }; + for(nvoice = 0; nvoice < NUM_VOICES; nvoice++) { + if(NoteVoicePar[nvoice].Enabled == 0) + continue; + if(NoteVoicePar[nvoice].AmpEnvelope != NULL) + NoteVoicePar[nvoice].AmpEnvelope->relasekey(); + if(NoteVoicePar[nvoice].FreqEnvelope != NULL) + NoteVoicePar[nvoice].FreqEnvelope->relasekey(); + if(NoteVoicePar[nvoice].FilterEnvelope != NULL) + NoteVoicePar[nvoice].FilterEnvelope->relasekey(); + if(NoteVoicePar[nvoice].FMFreqEnvelope != NULL) + NoteVoicePar[nvoice].FMFreqEnvelope->relasekey(); + if(NoteVoicePar[nvoice].FMAmpEnvelope != NULL) + NoteVoicePar[nvoice].FMAmpEnvelope->relasekey(); + } NoteGlobalPar.FreqEnvelope->relasekey(); NoteGlobalPar.FilterEnvelope->relasekey(); NoteGlobalPar.AmpEnvelope->relasekey(); - -}; +} /* * Check if the note is finished */ int ADnote::finished() const { - if (NoteEnabled==ON) return(0); - else return(1); -}; - - + if(NoteEnabled == ON) + return 0; + else + return 1; +} diff --git a/plugins/zynaddsubfx/src/Synth/ADnote.h b/plugins/zynaddsubfx/src/Synth/ADnote.h index 303944061..9f494a906 100644 --- a/plugins/zynaddsubfx/src/Synth/ADnote.h +++ b/plugins/zynaddsubfx/src/Synth/ADnote.h @@ -40,313 +40,310 @@ /**The "additive" synthesizer*/ class ADnote //ADDitive note { -public: - /**Constructor. - * @param pars Note Parameters - * @param ctl_ Pointer to system Controller - * @param freq Base frequency for note - * @param velocity Velocity of note - * @param portamento_ 1 if the note has portamento - * @param midinote_ The midi number of the note - * @param besilent Start silent note if true*/ - ADnote(ADnoteParameters *pars, Controller *ctl_, REALTYPE freq, - REALTYPE velocity, int portamento_, int midinote_, - bool besilent); - /**Destructor*/ - ~ADnote(); + public: + /**Constructor. + * @param pars Note Parameters + * @param ctl_ Pointer to system Controller + * @param freq Base frequency for note + * @param velocity Velocity of note + * @param portamento_ 1 if the note has portamento + * @param midinote_ The midi number of the note + * @param besilent Start silent note if true*/ + ADnote(ADnoteParameters *pars, Controller *ctl_, REALTYPE freq, + REALTYPE velocity, int portamento_, int midinote_, + bool besilent); + /**Destructor*/ + ~ADnote(); - /**Alters the playing note for legato effect*/ - void ADlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, - int midinote_, bool externcall); + /**Alters the playing note for legato effect*/ + void ADlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, + int midinote_, bool externcall); - /**Compute ADnote Samples. - * @return 0 if note is finished*/ - int noteout(REALTYPE *outl,REALTYPE *outr); + /**Compute ADnote Samples. + * @return 0 if note is finished*/ + int noteout(REALTYPE *outl, REALTYPE *outr); - /**Release the key for the note and start release portion of envelopes.*/ - void relasekey(); - /**Return if note is finished. - * @return finished=1 unfinished=0*/ - int finished() const; + /**Release the key for the note and start release portion of envelopes.*/ + void relasekey(); + /**Return if note is finished. + * @return finished=1 unfinished=0*/ + int finished() const; - /**Nonzero when ready for output(the parameters has been computed) - * zero when parameters need to be computed.*/ - char ready; + /**Nonzero when ready for output(the parameters has been computed) + * zero when parameters need to be computed.*/ + char ready; -private: + private: - /**Changes the frequency of an oscillator. - * @param nvoice voice to run computations on - * @param in_freq new frequency*/ - void setfreq(int nvoice,REALTYPE in_freq); - /**Set the frequency of the modulator oscillator*/ - void setfreqFM(int nvoice,REALTYPE in_freq); - /**Computes relative frequency for unison and unison's vibratto. - * Note: Must be called before setfreq* functions.*/ - void compute_unison_freq_rap(int nvoice); - /**Compute parameters for next tick*/ - void computecurrentparameters(); - /**Initializes All Parameters*/ - void initparameters(); - /**Deallocate/Cleanup given voice*/ - void KillVoice(int nvoice); - /**Deallocate Note resources and voice resources*/ - void KillNote(); - /**Get the Voice's base frequency*/ - inline REALTYPE getvoicebasefreq(int nvoice) const; - /**Get modulator's base frequency*/ - inline REALTYPE getFMvoicebasefreq(int nvoice) const; - /**Compute the Oscillator's samples. - * Affects tmpwave_unison and updates oscposhi/oscposlo*/ - inline void ComputeVoiceOscillator_LinearInterpolation(int nvoice); - /**Compute the Oscillator's samples. - * Affects tmpwave_unison and updates oscposhi/oscposlo - * @todo remove this declaration if it is commented out*/ - inline void ComputeVoiceOscillator_CubicInterpolation(int nvoice); - /**Computes the Oscillator samples with morphing. - * updates tmpwave_unison*/ - inline void ComputeVoiceOscillatorMorph(int nvoice); - /**Computes the Ring Modulated Oscillator.*/ - inline void ComputeVoiceOscillatorRingModulation(int nvoice); - /**Computes the Frequency Modulated Oscillator. - * @param FMmode modulation type 0=Phase 1=Frequency*/ - inline void ComputeVoiceOscillatorFrequencyModulation(int nvoice,int FMmode);//FMmode=0 for phase modulation, 1 for Frequency modulation - // inline void ComputeVoiceOscillatorFrequencyModulation(int nvoice); - /**TODO*/ - inline void ComputeVoiceOscillatorPitchModulation(int nvoice); + /**Changes the frequency of an oscillator. + * @param nvoice voice to run computations on + * @param in_freq new frequency*/ + void setfreq(int nvoice, REALTYPE in_freq); + /**Set the frequency of the modulator oscillator*/ + void setfreqFM(int nvoice, REALTYPE in_freq); + /**Computes relative frequency for unison and unison's vibratto. + * Note: Must be called before setfreq* functions.*/ + void compute_unison_freq_rap(int nvoice); + /**Compute parameters for next tick*/ + void computecurrentparameters(); + /**Initializes All Parameters*/ + void initparameters(); + /**Deallocate/Cleanup given voice*/ + void KillVoice(int nvoice); + /**Deallocate Note resources and voice resources*/ + void KillNote(); + /**Get the Voice's base frequency*/ + inline REALTYPE getvoicebasefreq(int nvoice) const; + /**Get modulator's base frequency*/ + inline REALTYPE getFMvoicebasefreq(int nvoice) const; + /**Compute the Oscillator's samples. + * Affects tmpwave_unison and updates oscposhi/oscposlo*/ + inline void ComputeVoiceOscillator_LinearInterpolation(int nvoice); + /**Compute the Oscillator's samples. + * Affects tmpwave_unison and updates oscposhi/oscposlo + * @todo remove this declaration if it is commented out*/ + inline void ComputeVoiceOscillator_CubicInterpolation(int nvoice); + /**Computes the Oscillator samples with morphing. + * updates tmpwave_unison*/ + inline void ComputeVoiceOscillatorMorph(int nvoice); + /**Computes the Ring Modulated Oscillator.*/ + inline void ComputeVoiceOscillatorRingModulation(int nvoice); + /**Computes the Frequency Modulated Oscillator. + * @param FMmode modulation type 0=Phase 1=Frequency*/ + inline void ComputeVoiceOscillatorFrequencyModulation(int nvoice, + int FMmode); //FMmode=0 for phase modulation, 1 for Frequency modulation + // inline void ComputeVoiceOscillatorFrequencyModulation(int nvoice); + /**TODO*/ + inline void ComputeVoiceOscillatorPitchModulation(int nvoice); - /**Generate Noise Samples for Voice*/ - inline void ComputeVoiceNoise(int nvoice); + /**Generate Noise Samples for Voice*/ + inline void ComputeVoiceNoise(int nvoice); - /**Fadein in a way that removes clicks but keep sound "punchy"*/ - inline void fadein(REALTYPE *smps) const; + /**Fadein in a way that removes clicks but keep sound "punchy"*/ + inline void fadein(REALTYPE *smps) const; - //GLOBALS - ADnoteParameters *partparams; - unsigned char stereo;//if the note is stereo (allows note Panning) - int midinote; - REALTYPE velocity,basefreq; + //GLOBALS + ADnoteParameters *partparams; + unsigned char stereo; //if the note is stereo (allows note Panning) + int midinote; + REALTYPE velocity, basefreq; - ONOFFTYPE NoteEnabled; - Controller *ctl; + ONOFFTYPE NoteEnabled; + Controller *ctl; - /*****************************************************************/ - /* GLOBAL PARAMETERS */ - /*****************************************************************/ + /*****************************************************************/ + /* GLOBAL PARAMETERS */ + /*****************************************************************/ - struct ADnoteGlobal { - /****************************************** - * FREQUENCY GLOBAL PARAMETERS * - ******************************************/ - REALTYPE Detune;//cents + struct ADnoteGlobal { + /****************************************** + * FREQUENCY GLOBAL PARAMETERS * + ******************************************/ + REALTYPE Detune; //cents - Envelope *FreqEnvelope; - LFO *FreqLfo; + Envelope *FreqEnvelope; + LFO *FreqLfo; - /******************************************** - * AMPLITUDE GLOBAL PARAMETERS * - ********************************************/ - REALTYPE Volume;// [ 0 .. 1 ] + /******************************************** + * AMPLITUDE GLOBAL PARAMETERS * + ********************************************/ + REALTYPE Volume; // [ 0 .. 1 ] - REALTYPE Panning;// [ 0 .. 1 ] + REALTYPE Panning; // [ 0 .. 1 ] - Envelope *AmpEnvelope; - LFO *AmpLfo; + Envelope *AmpEnvelope; + LFO *AmpLfo; + struct { + int Enabled; + REALTYPE initialvalue, dt, t; + } Punch; + + /****************************************** + * FILTER GLOBAL PARAMETERS * + ******************************************/ + Filter *GlobalFilterL, *GlobalFilterR; + + REALTYPE FilterCenterPitch; //octaves + REALTYPE FilterQ; + REALTYPE FilterFreqTracking; + + Envelope *FilterEnvelope; + + LFO *FilterLfo; + } NoteGlobalPar; + + + + /***********************************************************/ + /* VOICE PARAMETERS */ + /***********************************************************/ + struct ADnoteVoice { + /* If the voice is enabled */ + ONOFFTYPE Enabled; + + /* Voice Type (sound/noise)*/ + int noisetype; + + /* Filter Bypass */ + int filterbypass; + + /* Delay (ticks) */ + int DelayTicks; + + /* Waveform of the Voice */ + REALTYPE *OscilSmp; + + /************************************ + * FREQUENCY PARAMETERS * + ************************************/ + int fixedfreq; //if the frequency is fixed to 440 Hz + int fixedfreqET; //if the "fixed" frequency varies according to the note (ET) + + // cents = basefreq*VoiceDetune + REALTYPE Detune, FineDetune; + + Envelope *FreqEnvelope; + LFO *FreqLfo; + + + /*************************** + * AMPLITUDE PARAMETERS * + ***************************/ + + /* Panning 0.0=left, 0.5 - center, 1.0 = right */ + REALTYPE Panning; + REALTYPE Volume; // [-1.0 .. 1.0] + + Envelope *AmpEnvelope; + LFO *AmpLfo; + + /************************* + * FILTER PARAMETERS * + *************************/ + + Filter *VoiceFilterL; + Filter *VoiceFilterR; + + REALTYPE FilterCenterPitch; /* Filter center Pitch*/ + REALTYPE FilterFreqTracking; + + Envelope *FilterEnvelope; + LFO *FilterLfo; + + + /**************************** + * MODULLATOR PARAMETERS * + ****************************/ + + FMTYPE FMEnabled; + + int FMVoice; + + // Voice Output used by other voices if use this as modullator + REALTYPE *VoiceOut; + + /* Wave of the Voice */ + REALTYPE *FMSmp; + + REALTYPE FMVolume; + REALTYPE FMDetune; //in cents + + Envelope *FMFreqEnvelope; + Envelope *FMAmpEnvelope; + } NoteVoicePar[NUM_VOICES]; + + + /********************************************************/ + /* INTERNAL VALUES OF THE NOTE AND OF THE VOICES */ + /********************************************************/ + + //time from the start of the note + REALTYPE time; + + //the size of unison for a single voice + int unison_size[NUM_VOICES]; + + //the stereo spread of the unison subvoices (0.0=mono,1.0=max) + REALTYPE unison_stereo_spread[NUM_VOICES]; + + //fractional part (skip) + REALTYPE *oscposlo[NUM_VOICES], *oscfreqlo[NUM_VOICES]; + + //integer part (skip) + int *oscposhi[NUM_VOICES], *oscfreqhi[NUM_VOICES]; + + //fractional part (skip) of the Modullator + REALTYPE *oscposloFM[NUM_VOICES], *oscfreqloFM[NUM_VOICES]; + + //the unison base_value + REALTYPE *unison_base_freq_rap[NUM_VOICES]; + + //how the unison subvoice's frequency is changed (1.0 for no change) + REALTYPE *unison_freq_rap[NUM_VOICES]; + + //which subvoice has phase inverted + bool *unison_invert_phase[NUM_VOICES]; + + //unison vibratto struct { - int Enabled; - REALTYPE initialvalue,dt,t; - } Punch; - - /****************************************** - * FILTER GLOBAL PARAMETERS * - ******************************************/ - Filter *GlobalFilterL,*GlobalFilterR; - - REALTYPE FilterCenterPitch;//octaves - REALTYPE FilterQ; - REALTYPE FilterFreqTracking; - - Envelope *FilterEnvelope; - - LFO *FilterLfo; - } NoteGlobalPar; + REALTYPE amplitude; //amplitude which be added to unison_freq_rap + REALTYPE *step; //value which increments the position + REALTYPE *position; //between -1.0 and 1.0 + } unison_vibratto[NUM_VOICES]; + //integer part (skip) of the Modullator + unsigned int *oscposhiFM[NUM_VOICES], *oscfreqhiFM[NUM_VOICES]; - /***********************************************************/ - /* VOICE PARAMETERS */ - /***********************************************************/ - struct ADnoteVoice { - /* If the voice is enabled */ - ONOFFTYPE Enabled; + //used to compute and interpolate the amplitudes of voices and modullators + REALTYPE oldamplitude[NUM_VOICES], + newamplitude[NUM_VOICES], + FMoldamplitude[NUM_VOICES], + FMnewamplitude[NUM_VOICES]; - /* Voice Type (sound/noise)*/ - int noisetype; + //used by Frequency Modulation (for integration) + REALTYPE *FMoldsmp[NUM_VOICES]; - /* Filter Bypass */ - int filterbypass; + //temporary buffer + REALTYPE *tmpwavel; + REALTYPE *tmpwaver; + int max_unison; + REALTYPE **tmpwave_unison; - /* Delay (ticks) */ - int DelayTicks; + //Filter bypass samples + REALTYPE *bypassl, *bypassr; - /* Waveform of the Voice */ - REALTYPE *OscilSmp; + //interpolate the amplitudes + REALTYPE globaloldamplitude, globalnewamplitude; - /************************************ - * FREQUENCY PARAMETERS * - ************************************/ - int fixedfreq;//if the frequency is fixed to 440 Hz - int fixedfreqET;//if the "fixed" frequency varies according to the note (ET) + //1 - if it is the fitst tick (used to fade in the sound) + char firsttick[NUM_VOICES]; - // cents = basefreq*VoiceDetune - REALTYPE Detune,FineDetune; + //1 if the note has portamento + int portamento; - Envelope *FreqEnvelope; - LFO *FreqLfo; + //how the fine detunes are made bigger or smaller + REALTYPE bandwidthDetuneMultiplier; - - /*************************** - * AMPLITUDE PARAMETERS * - ***************************/ - - /* Panning 0.0=left, 0.5 - center, 1.0 = right */ - REALTYPE Panning; - REALTYPE Volume;// [-1.0 .. 1.0] - - Envelope *AmpEnvelope; - LFO *AmpLfo; - - /************************* - * FILTER PARAMETERS * - *************************/ - - Filter *VoiceFilterL; - Filter *VoiceFilterR; - - REALTYPE FilterCenterPitch;/* Filter center Pitch*/ - REALTYPE FilterFreqTracking; - - Envelope *FilterEnvelope; - LFO *FilterLfo; - - - /**************************** - * MODULLATOR PARAMETERS * - ****************************/ - - FMTYPE FMEnabled; - - int FMVoice; - - // Voice Output used by other voices if use this as modullator - REALTYPE *VoiceOut; - - /* Wave of the Voice */ - REALTYPE *FMSmp; - - REALTYPE FMVolume; - REALTYPE FMDetune; //in cents - - Envelope *FMFreqEnvelope; - Envelope *FMAmpEnvelope; - - } NoteVoicePar[NUM_VOICES]; - - - /********************************************************/ - /* INTERNAL VALUES OF THE NOTE AND OF THE VOICES */ - /********************************************************/ - - //time from the start of the note - REALTYPE time; - - //the size of unison for a single voice - int unison_size[NUM_VOICES]; - - //the stereo spread of the unison subvoices (0.0=mono,1.0=max) - REALTYPE unison_stereo_spread[NUM_VOICES]; - - //fractional part (skip) - REALTYPE *oscposlo[NUM_VOICES],*oscfreqlo[NUM_VOICES]; - - //integer part (skip) - int *oscposhi[NUM_VOICES],*oscfreqhi[NUM_VOICES]; - - //fractional part (skip) of the Modullator - REALTYPE *oscposloFM[NUM_VOICES],*oscfreqloFM[NUM_VOICES]; - - //the unison base_value - REALTYPE *unison_base_freq_rap[NUM_VOICES]; - - //how the unison subvoice's frequency is changed (1.0 for no change) - REALTYPE *unison_freq_rap[NUM_VOICES]; - - //which subvoice has phase inverted - bool *unison_invert_phase[NUM_VOICES]; - - //unison vibratto - struct { - REALTYPE amplitude; //amplitude which be added to unison_freq_rap - REALTYPE *step; //value which increments the position - REALTYPE *position;//between -1.0 and 1.0 - }unison_vibratto[NUM_VOICES]; - - - //integer part (skip) of the Modullator - unsigned int *oscposhiFM[NUM_VOICES],*oscfreqhiFM[NUM_VOICES]; - - //used to compute and interpolate the amplitudes of voices and modullators - REALTYPE oldamplitude[NUM_VOICES], - newamplitude[NUM_VOICES], - FMoldamplitude[NUM_VOICES], - FMnewamplitude[NUM_VOICES]; - - //used by Frequency Modulation (for integration) - REALTYPE *FMoldsmp[NUM_VOICES]; - - //temporary buffer - REALTYPE *tmpwavel; - REALTYPE *tmpwaver; - int max_unison; - REALTYPE **tmpwave_unison; - - //Filter bypass samples - REALTYPE *bypassl,*bypassr; - - //interpolate the amplitudes - REALTYPE globaloldamplitude,globalnewamplitude; - - //1 - if it is the fitst tick (used to fade in the sound) - char firsttick[NUM_VOICES]; - - //1 if the note has portamento - int portamento; - - //how the fine detunes are made bigger or smaller - REALTYPE bandwidthDetuneMultiplier; - - // Legato vars - struct { - bool silent; - REALTYPE lastfreq; - LegatoMsg msg; - int decounter; - struct { // Fade In/Out vars - int length; - REALTYPE m, step; - } fade; - struct { // Note parameters - REALTYPE freq, vel; - int portamento, midinote; - } param; - } Legato; + // Legato vars + struct { + bool silent; + REALTYPE lastfreq; + LegatoMsg msg; + int decounter; + struct { // Fade In/Out vars + int length; + REALTYPE m, step; + } fade; + struct { // Note parameters + REALTYPE freq, vel; + int portamento, midinote; + } param; + } Legato; }; #endif - - - diff --git a/plugins/zynaddsubfx/src/Synth/Envelope.cpp b/plugins/zynaddsubfx/src/Synth/Envelope.cpp index 83450e31a..ce8456481 100644 --- a/plugins/zynaddsubfx/src/Synth/Envelope.cpp +++ b/plugins/zynaddsubfx/src/Synth/Envelope.cpp @@ -23,64 +23,71 @@ #include #include "Envelope.h" -Envelope::Envelope(EnvelopeParams *envpars,REALTYPE basefreq) +Envelope::Envelope(EnvelopeParams *envpars, REALTYPE basefreq) { int i; - envpoints=envpars->Penvpoints; - if (envpoints>MAX_ENVELOPE_POINTS) envpoints=MAX_ENVELOPE_POINTS; - envsustain=(envpars->Penvsustain==0)?-1:envpars->Penvsustain; - forcedrelase=envpars->Pforcedrelease; - envstretch=pow(440.0/basefreq,envpars->Penvstretch/64.0); - linearenvelope=envpars->Plinearenvelope; + envpoints = envpars->Penvpoints; + if(envpoints > MAX_ENVELOPE_POINTS) + envpoints = MAX_ENVELOPE_POINTS; + envsustain = (envpars->Penvsustain == 0) ? -1 : envpars->Penvsustain; + forcedrelase = envpars->Pforcedrelease; + envstretch = pow(440.0 / basefreq, envpars->Penvstretch / 64.0); + linearenvelope = envpars->Plinearenvelope; - if (envpars->Pfreemode==0) envpars->converttofree(); + if(envpars->Pfreemode == 0) + envpars->converttofree(); - REALTYPE bufferdt=SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE; + REALTYPE bufferdt = SOUND_BUFFER_SIZE / (REALTYPE)SAMPLE_RATE; - int mode=envpars->Envmode; + int mode = envpars->Envmode; //for amplitude envelopes - if ((mode==1)&&(linearenvelope==0)) mode=2;//change to log envelope - if ((mode==2)&&(linearenvelope!=0)) mode=1;//change to linear + if((mode == 1) && (linearenvelope == 0)) + mode = 2; //change to log envelope + if((mode == 2) && (linearenvelope != 0)) + mode = 1; //change to linear - for (i=0;igetdt(i)/1000.0*envstretch; - if (tmp>bufferdt) envdt[i]=bufferdt/tmp; - else envdt[i]=2.0;//any value larger than 1 + for(i = 0; i < MAX_ENVELOPE_POINTS; i++) { + REALTYPE tmp = envpars->getdt(i) / 1000.0 * envstretch; + if(tmp > bufferdt) + envdt[i] = bufferdt / tmp; + else + envdt[i] = 2.0; //any value larger than 1 - switch (mode) { + switch(mode) { case 2: - envval[i]=(1.0-envpars->Penvval[i]/127.0)*MIN_ENVELOPE_DB; + envval[i] = (1.0 - envpars->Penvval[i] / 127.0) * MIN_ENVELOPE_DB; break; case 3: - envval[i]=(pow(2,6.0*fabs(envpars->Penvval[i]-64.0)/64.0)-1.0)*100.0; - if (envpars->Penvval[i]<64) envval[i]=-envval[i]; + envval[i] = + (pow(2, 6.0 + * fabs(envpars->Penvval[i] - 64.0) / 64.0) - 1.0) * 100.0; + if(envpars->Penvval[i] < 64) + envval[i] = -envval[i]; break; case 4: - envval[i]=(envpars->Penvval[i]-64.0)/64.0*6.0;//6 octaves (filtru) + envval[i] = (envpars->Penvval[i] - 64.0) / 64.0 * 6.0; //6 octaves (filtru) break; case 5: - envval[i]=(envpars->Penvval[i]-64.0)/64.0*10; + envval[i] = (envpars->Penvval[i] - 64.0) / 64.0 * 10; break; default: - envval[i]=envpars->Penvval[i]/127.0; - }; + envval[i] = envpars->Penvval[i] / 127.0; + } + } - }; + envdt[0] = 1.0; - envdt[0]=1.0; - - currentpoint=1;//the envelope starts from 1 - keyreleased=0; - t=0.0; - envfinish=0; - inct=envdt[1]; - envoutval=0.0; -}; + currentpoint = 1; //the envelope starts from 1 + keyreleased = 0; + t = 0.0; + envfinish = 0; + inct = envdt[1]; + envoutval = 0.0; +} Envelope::~Envelope() -{ -}; +{} /* @@ -88,10 +95,12 @@ Envelope::~Envelope() */ void Envelope::relasekey() { - if (keyreleased==1) return; - keyreleased=1; - if (forcedrelase!=0) t=0.0; -}; + if(keyreleased == 1) + return; + keyreleased = 1; + if(forcedrelase != 0) + t = 0.0; +} /* * Envelope Output @@ -100,46 +109,54 @@ REALTYPE Envelope::envout() { REALTYPE out; - if (envfinish!=0) {//if the envelope is finished - envoutval=envval[envpoints-1]; - return(envoutval); - }; - if ((currentpoint==envsustain+1)&&(keyreleased==0)) {//if it is sustaining now - envoutval=envval[envsustain]; - return(envoutval); - }; + if(envfinish != 0) { //if the envelope is finished + envoutval = envval[envpoints - 1]; + return envoutval; + } + if((currentpoint == envsustain + 1) && (keyreleased == 0)) { //if it is sustaining now + envoutval = envval[envsustain]; + return envoutval; + } - if ((keyreleased!=0) && (forcedrelase!=0)) {//do the forced release + if((keyreleased != 0) && (forcedrelase != 0)) { //do the forced release + int tmp = (envsustain < 0) ? (envpoints - 1) : (envsustain + 1); //if there is no sustain point, use the last point for release - int tmp=(envsustain<0) ? (envpoints-1):(envsustain+1);//if there is no sustain point, use the last point for release + if(envdt[tmp] < 0.00000001) + out = envval[tmp]; + else + out = envoutval + (envval[tmp] - envoutval) * t; + t += envdt[tmp] * envstretch; - if (envdt[tmp]<0.00000001) out=envval[tmp]; - else out=envoutval+(envval[tmp]-envoutval)*t; - t+=envdt[tmp]*envstretch; + if(t >= 1.0) { + currentpoint = envsustain + 2; + forcedrelase = 0; + t = 0.0; + inct = envdt[currentpoint]; + if((currentpoint >= envpoints) || (envsustain < 0)) + envfinish = 1; + } + return out; + } + if(inct >= 1.0) + out = envval[currentpoint]; + else + out = + envval[currentpoint + - 1] + (envval[currentpoint] - envval[currentpoint - 1]) * t; - if (t>=1.0) { - currentpoint=envsustain+2; - forcedrelase=0; - t=0.0; - inct=envdt[currentpoint]; - if ((currentpoint>=envpoints)||(envsustain<0)) envfinish=1; - }; - return(out); - }; - if (inct>=1.0) out=envval[currentpoint]; - else out=envval[currentpoint-1]+(envval[currentpoint]-envval[currentpoint-1])*t; + t += inct; + if(t >= 1.0) { + if(currentpoint >= envpoints - 1) + envfinish = 1; + else + currentpoint++; + t = 0.0; + inct = envdt[currentpoint]; + } - t+=inct; - if (t>=1.0) { - if (currentpoint>=envpoints-1) envfinish=1; - else currentpoint++; - t=0.0; - inct=envdt[currentpoint]; - }; - - envoutval=out; - return (out); -}; + envoutval = out; + return out; +} /* * Envelope Output (dB) @@ -147,30 +164,35 @@ REALTYPE Envelope::envout() REALTYPE Envelope::envout_dB() { REALTYPE out; - if (linearenvelope!=0) return (envout()); + if(linearenvelope != 0) + return envout(); - if ((currentpoint==1)&&((keyreleased==0)||(forcedrelase==0))) {//first point is always lineary interpolated - REALTYPE v1=dB2rap(envval[0]); - REALTYPE v2=dB2rap(envval[1]); - out=v1+(v2-v1)*t; + if((currentpoint == 1) && ((keyreleased == 0) || (forcedrelase == 0))) { //first point is always lineary interpolated + REALTYPE v1 = dB2rap(envval[0]); + REALTYPE v2 = dB2rap(envval[1]); + out = v1 + (v2 - v1) * t; - t+=inct; - if (t>=1.0) { - t=0.0; - inct=envdt[2]; + t += inct; + if(t >= 1.0) { + t = 0.0; + inct = envdt[2]; currentpoint++; - out=v2; - }; + out = v2; + } - if (out>0.001) envoutval=rap2dB(out); - else envoutval=-40.0; - } else out=dB2rap(envout()); + if(out > 0.001) + envoutval = rap2dB(out); + else + envoutval = -40.0; + } + else + out = dB2rap(envout()); - return(out); -}; + return out; +} int Envelope::finished() { - return(envfinish); -}; + return envfinish; +} diff --git a/plugins/zynaddsubfx/src/Synth/Envelope.h b/plugins/zynaddsubfx/src/Synth/Envelope.h index 60a17ed49..1a15813a7 100644 --- a/plugins/zynaddsubfx/src/Synth/Envelope.h +++ b/plugins/zynaddsubfx/src/Synth/Envelope.h @@ -30,35 +30,35 @@ /**Implementation of a general Envelope*/ class Envelope { -public: + public: - /**Constructor*/ - Envelope(EnvelopeParams *envpars,REALTYPE basefreq); - /**Destructor*/ - ~Envelope(); - void relasekey(); - REALTYPE envout(); - REALTYPE envout_dB(); - /**Determines the status of the Envelope - * - *\todo see if this can be changed to use a boolean - * @return returns 1 if the envelope is finished*/ - int finished(); -private: - int envpoints; - int envsustain;//"-1" means disabled - REALTYPE envdt[MAX_ENVELOPE_POINTS];//millisecons - REALTYPE envval[MAX_ENVELOPE_POINTS];// [0.0 .. 1.0] - REALTYPE envstretch; - int linearenvelope; + /**Constructor*/ + Envelope(EnvelopeParams *envpars, REALTYPE basefreq); + /**Destructor*/ + ~Envelope(); + void relasekey(); + REALTYPE envout(); + REALTYPE envout_dB(); + /**Determines the status of the Envelope + * + *\todo see if this can be changed to use a boolean + * @return returns 1 if the envelope is finished*/ + int finished(); + private: + int envpoints; + int envsustain; //"-1" means disabled + REALTYPE envdt[MAX_ENVELOPE_POINTS]; //millisecons + REALTYPE envval[MAX_ENVELOPE_POINTS]; // [0.0 .. 1.0] + REALTYPE envstretch; + int linearenvelope; - int currentpoint; //current envelope point (starts from 1) - int forcedrelase; - char keyreleased; //if the key was released /** \todo figure out WHY IS THIS A CHAR*/ - char envfinish; /** \todo figure out WHY IS THIS A CHAR*/ - REALTYPE t; // the time from the last point - REALTYPE inct;// the time increment - REALTYPE envoutval;//used to do the forced release + int currentpoint; //current envelope point (starts from 1) + int forcedrelase; + char keyreleased; //if the key was released /** \todo figure out WHY IS THIS A CHAR*/ + char envfinish; /** \todo figure out WHY IS THIS A CHAR*/ + REALTYPE t; // the time from the last point + REALTYPE inct; // the time increment + REALTYPE envoutval; //used to do the forced release }; diff --git a/plugins/zynaddsubfx/src/Synth/LFO.cpp b/plugins/zynaddsubfx/src/Synth/LFO.cpp index 3c1d9962a..a7d00232b 100644 --- a/plugins/zynaddsubfx/src/Synth/LFO.cpp +++ b/plugins/zynaddsubfx/src/Synth/LFO.cpp @@ -27,59 +27,68 @@ #include "LFO.h" -LFO::LFO(LFOParams *lfopars,REALTYPE basefreq) +LFO::LFO(LFOParams *lfopars, REALTYPE basefreq) { - if (lfopars->Pstretch==0) lfopars->Pstretch=1; - REALTYPE lfostretch=pow(basefreq/440.0,(lfopars->Pstretch-64.0)/63.0);//max 2x/octave + if(lfopars->Pstretch == 0) + lfopars->Pstretch = 1; + REALTYPE lfostretch = pow(basefreq / 440.0, + (lfopars->Pstretch - 64.0) / 63.0); //max 2x/octave - REALTYPE lfofreq=(pow(2,lfopars->Pfreq*10.0)-1.0)/12.0*lfostretch; - incx=fabs(lfofreq)*(REALTYPE)SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE; + REALTYPE lfofreq = + (pow(2, lfopars->Pfreq * 10.0) - 1.0) / 12.0 * lfostretch; + incx = fabs(lfofreq) * (REALTYPE)SOUND_BUFFER_SIZE / (REALTYPE)SAMPLE_RATE; - if (lfopars->Pcontinous==0) { - if (lfopars->Pstartphase==0) x=RND; - else x=fmod((lfopars->Pstartphase-64.0)/127.0+1.0,1.0); - } else { - REALTYPE tmp=fmod(lfopars->time*incx,1.0); - x=fmod((lfopars->Pstartphase-64.0)/127.0+1.0+tmp,1.0); - }; + if(lfopars->Pcontinous == 0) { + if(lfopars->Pstartphase == 0) + x = RND; + else + x = fmod((lfopars->Pstartphase - 64.0) / 127.0 + 1.0, 1.0); + } + else { + REALTYPE tmp = fmod(lfopars->time * incx, 1.0); + x = fmod((lfopars->Pstartphase - 64.0) / 127.0 + 1.0 + tmp, 1.0); + } //Limit the Frequency(or else...) - if (incx>0.49999999) incx=0.499999999; + if(incx > 0.49999999) + incx = 0.499999999; - lfornd=lfopars->Prandomness/127.0; - if (lfornd<0.0) lfornd=0.0; - else if (lfornd>1.0) lfornd=1.0; + lfornd = lfopars->Prandomness / 127.0; + if(lfornd < 0.0) + lfornd = 0.0; + else + if(lfornd > 1.0) + lfornd = 1.0; // lfofreqrnd=pow(lfopars->Pfreqrand/127.0,2.0)*2.0*4.0; - lfofreqrnd=pow(lfopars->Pfreqrand/127.0,2.0)*4.0; + lfofreqrnd = pow(lfopars->Pfreqrand / 127.0, 2.0) * 4.0; - switch (lfopars->fel) { + switch(lfopars->fel) { case 1: - lfointensity=lfopars->Pintensity/127.0; + lfointensity = lfopars->Pintensity / 127.0; break; case 2: - lfointensity=lfopars->Pintensity/127.0*4.0; - break;//in octave + lfointensity = lfopars->Pintensity / 127.0 * 4.0; + break; //in octave default: - lfointensity=pow(2,lfopars->Pintensity/127.0*11.0)-1.0;//in centi - x-=0.25;//chance the starting phase + lfointensity = pow(2, lfopars->Pintensity / 127.0 * 11.0) - 1.0; //in centi + x -= 0.25; //chance the starting phase break; - }; + } - amp1=(1-lfornd)+lfornd*RND; - amp2=(1-lfornd)+lfornd*RND; - lfotype=lfopars->PLFOtype; - lfodelay=lfopars->Pdelay/127.0*4.0;//0..4 sec - incrnd=nextincrnd=1.0; - freqrndenabled=(lfopars->Pfreqrand!=0); + amp1 = (1 - lfornd) + lfornd * RND; + amp2 = (1 - lfornd) + lfornd * RND; + lfotype = lfopars->PLFOtype; + lfodelay = lfopars->Pdelay / 127.0 * 4.0; //0..4 sec + incrnd = nextincrnd = 1.0; + freqrndenabled = (lfopars->Pfreqrand != 0); computenextincrnd(); - computenextincrnd();//twice because I want incrnd & nextincrnd to be random -}; + computenextincrnd(); //twice because I want incrnd & nextincrnd to be random +} LFO::~LFO() -{ -}; +{} /* * LFO out @@ -87,53 +96,67 @@ LFO::~LFO() REALTYPE LFO::lfoout() { REALTYPE out; - switch (lfotype) { + switch(lfotype) { case 1: //LFO_TRIANGLE - if ((x>=0.0)&&(x<0.25)) out=4.0*x; - else if ((x>0.25)&&(x<0.75)) out=2-4*x; - else out=4.0*x-4.0; + if((x >= 0.0) && (x < 0.25)) + out = 4.0 * x; + else + if((x > 0.25) && (x < 0.75)) + out = 2 - 4 * x; + else + out = 4.0 * x - 4.0; break; case 2: //LFO_SQUARE - if (x<0.5) out=-1; - else out=1; + if(x < 0.5) + out = -1; + else + out = 1; break; case 3: //LFO_RAMPUP - out=(x-0.5)*2.0; + out = (x - 0.5) * 2.0; break; case 4: //LFO_RAMPDOWN - out=(0.5-x)*2.0; + out = (0.5 - x) * 2.0; break; case 5: //LFO_EXP_DOWN 1 - out=pow(0.05,x)*2.0-1.0; + out = pow(0.05, x) * 2.0 - 1.0; break; case 6: //LFO_EXP_DOWN 2 - out=pow(0.001,x)*2.0-1.0; + out = pow(0.001, x) * 2.0 - 1.0; break; default: - out=cos(x*2.0*PI);//LFO_SINE - }; + out = cos(x * 2.0 * PI); //LFO_SINE + } - if ((lfotype==0)||(lfotype==1)) out*=lfointensity*(amp1+x*(amp2-amp1)); - else out*=lfointensity*amp2; - if (lfodelay<0.00001) { - if (freqrndenabled==0) x+=incx; + if((lfotype == 0) || (lfotype == 1)) + out *= lfointensity * (amp1 + x * (amp2 - amp1)); + else + out *= lfointensity * amp2; + if(lfodelay < 0.00001) { + if(freqrndenabled == 0) + x += incx; else { - float tmp=(incrnd*(1.0-x)+nextincrnd*x); - if (tmp>1.0) tmp=1.0; - else if (tmp<0.0) tmp=0.0; - x+=incx*tmp; - }; - if (x>=1) { - x=fmod(x,1.0); - amp1=amp2; - amp2=(1-lfornd)+lfornd*RND; + float tmp = (incrnd * (1.0 - x) + nextincrnd * x); + if(tmp > 1.0) + tmp = 1.0; + else + if(tmp < 0.0) + tmp = 0.0; + x += incx * tmp; + } + if(x >= 1) { + x = fmod(x, 1.0); + amp1 = amp2; + amp2 = (1 - lfornd) + lfornd * RND; computenextincrnd(); - }; - } else lfodelay-=(REALTYPE)SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE; - return(out); -}; + } + } + else + lfodelay -= (REALTYPE)SOUND_BUFFER_SIZE / (REALTYPE)SAMPLE_RATE; + return out; +} /* * LFO out (for amplitude) @@ -141,17 +164,21 @@ REALTYPE LFO::lfoout() REALTYPE LFO::amplfoout() { REALTYPE out; - out=1.0-lfointensity+lfoout(); - if (out<-1.0) out=-1.0; - else if (out>1.0) out=1.0; - return(out); -}; + out = 1.0 - lfointensity + lfoout(); + if(out < -1.0) + out = -1.0; + else + if(out > 1.0) + out = 1.0; + return out; +} void LFO::computenextincrnd() { - if (freqrndenabled==0) return; - incrnd=nextincrnd; - nextincrnd=pow(0.5,lfofreqrnd)+RND*(pow(2.0,lfofreqrnd)-1.0); -}; + if(freqrndenabled == 0) + return; + incrnd = nextincrnd; + nextincrnd = pow(0.5, lfofreqrnd) + RND * (pow(2.0, lfofreqrnd) - 1.0); +} diff --git a/plugins/zynaddsubfx/src/Synth/LFO.h b/plugins/zynaddsubfx/src/Synth/LFO.h index 12d01325d..9dd984bcf 100644 --- a/plugins/zynaddsubfx/src/Synth/LFO.h +++ b/plugins/zynaddsubfx/src/Synth/LFO.h @@ -29,31 +29,30 @@ /**Class for creating Low Frequency Ocillators*/ class LFO { -public: - /**Constructor - * - * @param lfopars pointer to a LFOParams object - * @param basefreq base frequency of LFO - */ - LFO(LFOParams *lfopars, REALTYPE basefreq); - /**Deconstructor*/ - ~LFO(); - REALTYPE lfoout(); - REALTYPE amplfoout(); -private: - REALTYPE x; - REALTYPE incx,incrnd,nextincrnd; - REALTYPE amp1,amp2;// used for randomness - REALTYPE lfointensity; - REALTYPE lfornd,lfofreqrnd; - REALTYPE lfodelay; - /**\todo see if an enum would be better here*/ - char lfotype; - int freqrndenabled; + public: + /**Constructor + * + * @param lfopars pointer to a LFOParams object + * @param basefreq base frequency of LFO + */ + LFO(LFOParams *lfopars, REALTYPE basefreq); + /**Deconstructor*/ + ~LFO(); + REALTYPE lfoout(); + REALTYPE amplfoout(); + private: + REALTYPE x; + REALTYPE incx, incrnd, nextincrnd; + REALTYPE amp1, amp2; // used for randomness + REALTYPE lfointensity; + REALTYPE lfornd, lfofreqrnd; + REALTYPE lfodelay; + /**\todo see if an enum would be better here*/ + char lfotype; + int freqrndenabled; - void computenextincrnd(); - + void computenextincrnd(); }; #endif diff --git a/plugins/zynaddsubfx/src/Synth/OscilGen.cpp b/plugins/zynaddsubfx/src/Synth/OscilGen.cpp index 9f1da44fe..bbd62f3bb 100644 --- a/plugins/zynaddsubfx/src/Synth/OscilGen.cpp +++ b/plugins/zynaddsubfx/src/Synth/OscilGen.cpp @@ -27,22 +27,22 @@ #include "OscilGen.h" #include "../Effects/Distorsion.h" -OscilGen::OscilGen(FFTwrapper *fft_,Resonance *res_):Presets() +OscilGen::OscilGen(FFTwrapper *fft_, Resonance *res_):Presets() { setpresettype("Poscilgen"); - fft=fft_; - res=res_; + fft = fft_; + res = res_; tmpsmps = new REALTYPE[OSCIL_SIZE]; - newFFTFREQS(&outoscilFFTfreqs, OSCIL_SIZE/2); - newFFTFREQS(&oscilFFTfreqs,OSCIL_SIZE/2); - newFFTFREQS(&basefuncFFTfreqs,OSCIL_SIZE/2); + newFFTFREQS(&outoscilFFTfreqs, OSCIL_SIZE / 2); + newFFTFREQS(&oscilFFTfreqs, OSCIL_SIZE / 2); + newFFTFREQS(&basefuncFFTfreqs, OSCIL_SIZE / 2); - randseed=1; - ADvsPAD=false; + randseed = 1; + ADvsPAD = false; defaults(); -}; +} OscilGen::~OscilGen() { @@ -50,237 +50,271 @@ OscilGen::~OscilGen() deleteFFTFREQS(&outoscilFFTfreqs); deleteFFTFREQS(&basefuncFFTfreqs); deleteFFTFREQS(&oscilFFTfreqs); -}; +} void OscilGen::defaults() { + oldbasefunc = 0; + oldbasepar = 64; + oldhmagtype = 0; + oldwaveshapingfunction = 0; + oldwaveshaping = 64; + oldbasefuncmodulation = 0; + oldharmonicshift = 0; + oldbasefuncmodulationpar1 = 0; + oldbasefuncmodulationpar2 = 0; + oldbasefuncmodulationpar3 = 0; + oldmodulation = 0; + oldmodulationpar1 = 0; + oldmodulationpar2 = 0; + oldmodulationpar3 = 0; - oldbasefunc=0; - oldbasepar=64; - oldhmagtype=0; - oldwaveshapingfunction=0; - oldwaveshaping=64; - oldbasefuncmodulation=0; - oldharmonicshift=0; - oldbasefuncmodulationpar1=0; - oldbasefuncmodulationpar2=0; - oldbasefuncmodulationpar3=0; - oldmodulation=0; - oldmodulationpar1=0; - oldmodulationpar2=0; - oldmodulationpar3=0; + for(int i = 0; i < MAX_AD_HARMONICS; i++) { + hmag[i] = 0.0; + hphase[i] = 0.0; + Phmag[i] = 64; + Phphase[i] = 64; + } + Phmag[0] = 127; + Phmagtype = 0; + if(ADvsPAD) + Prand = 127; //max phase randomness (usefull if the oscil will be imported to a ADsynth from a PADsynth + else + Prand = 64; //no randomness - for (int i=0;ismps2freqs(oscil,freqs); - delete(fft); + get(oscil, -1.0); + FFTwrapper *fft = new FFTwrapper(OSCIL_SIZE); + fft->smps2freqs(oscil, freqs); + delete (fft); - REALTYPE max=0.0; + REALTYPE max = 0.0; - mag[0]=0; - phase[0]=0; - for (int i=0;i127) Phphase[i]=127; + Phphase[i] = 64 - (int) (64.0 * newphase / PI); + if(Phphase[i] > 127) + Phphase[i] = 127; - if (Phmag[i]==64) Phphase[i]=64; - }; + if(Phmag[i] == 64) + Phphase[i] = 64; + } deleteFFTFREQS(&freqs); prepare(); -}; +} /* * Base Functions - START */ -REALTYPE OscilGen::basefunc_pulse(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_pulse(REALTYPE x, REALTYPE a) { - return((fmod(x,1.0)0.99999) a=0.99999; - x=fmod(x,1); - if (x 0.99999) + a = 0.99999; + x = fmod(x, 1); + if(x < a) + return x / a * 2.0 - 1.0; + else + return (1.0 - x) / (1.0 - a) * 2.0 - 1.0; +} -REALTYPE OscilGen::basefunc_triangle(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_triangle(REALTYPE x, REALTYPE a) { - x=fmod(x+0.25,1); - a=1-a; - if (a<0.00001) a=0.00001; - if (x<0.5) x=x*4-1.0; - else x=(1.0-x)*4-1.0; - x/=-a; - if (x<-1.0) x=-1.0; - if (x>1.0) x=1.0; - return(x); -}; + x = fmod(x + 0.25, 1); + a = 1 - a; + if(a < 0.00001) + a = 0.00001; + if(x < 0.5) + x = x * 4 - 1.0; + else + x = (1.0 - x) * 4 - 1.0; + x /= -a; + if(x < -1.0) + x = -1.0; + if(x > 1.0) + x = 1.0; + return x; +} -REALTYPE OscilGen::basefunc_power(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_power(REALTYPE x, REALTYPE a) { - x=fmod(x,1); - if (a<0.00001) a=0.00001; - else if (a>0.99999) a=0.99999; - return(pow(x,exp((a-0.5)*10.0))*2.0-1.0); -}; + x = fmod(x, 1); + if(a < 0.00001) + a = 0.00001; + else + if(a > 0.99999) + a = 0.99999; + return pow(x, exp((a - 0.5) * 10.0)) * 2.0 - 1.0; +} -REALTYPE OscilGen::basefunc_gauss(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_gauss(REALTYPE x, REALTYPE a) { - x=fmod(x,1)*2.0-1.0; - if (a<0.00001) a=0.00001; - return(exp(-x*x*(exp(a*8)+5.0))*2.0-1.0); -}; + x = fmod(x, 1) * 2.0 - 1.0; + if(a < 0.00001) + a = 0.00001; + return exp(-x * x * (exp(a * 8) + 5.0)) * 2.0 - 1.0; +} -REALTYPE OscilGen::basefunc_diode(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_diode(REALTYPE x, REALTYPE a) { - if (a<0.00001) a=0.00001; - else if (a>0.99999) a=0.99999; - a=a*2.0-1.0; - x=cos((x+0.5)*2.0*PI)-a; - if (x<0.0) x=0.0; - return(x/(1.0-a)*2-1.0); -}; + if(a < 0.00001) + a = 0.00001; + else + if(a > 0.99999) + a = 0.99999; + a = a * 2.0 - 1.0; + x = cos((x + 0.5) * 2.0 * PI) - a; + if(x < 0.0) + x = 0.0; + return x / (1.0 - a) * 2 - 1.0; +} -REALTYPE OscilGen::basefunc_abssine(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_abssine(REALTYPE x, REALTYPE a) { - x=fmod(x,1); - if (a<0.00001) a=0.00001; - else if (a>0.99999) a=0.99999; - return(sin(pow(x,exp((a-0.5)*5.0))*PI)*2.0-1.0); -}; + x = fmod(x, 1); + if(a < 0.00001) + a = 0.00001; + else + if(a > 0.99999) + a = 0.99999; + return sin(pow(x, exp((a - 0.5) * 5.0)) * PI) * 2.0 - 1.0; +} -REALTYPE OscilGen::basefunc_pulsesine(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_pulsesine(REALTYPE x, REALTYPE a) { - if (a<0.00001) a=0.00001; - x=(fmod(x,1)-0.5)*exp((a-0.5)*log(128)); - if (x<-0.5) x=-0.5; - else if (x>0.5) x=0.5; - x=sin(x*PI*2.0); - return(x); -}; + if(a < 0.00001) + a = 0.00001; + x = (fmod(x, 1) - 0.5) * exp((a - 0.5) * log(128)); + if(x < -0.5) + x = -0.5; + else + if(x > 0.5) + x = 0.5; + x = sin(x * PI * 2.0); + return x; +} -REALTYPE OscilGen::basefunc_stretchsine(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_stretchsine(REALTYPE x, REALTYPE a) { - x=fmod(x+0.5,1)*2.0-1.0; - a=(a-0.5)*4; - if (a>0.0) a*=2; - a=pow(3.0,a); - REALTYPE b=pow(fabs(x),a); - if (x<0) b=-b; - return(-sin(b*PI)); -}; + x = fmod(x + 0.5, 1) * 2.0 - 1.0; + a = (a - 0.5) * 4; + if(a > 0.0) + a *= 2; + a = pow(3.0, a); + REALTYPE b = pow(fabs(x), a); + if(x < 0) + b = -b; + return -sin(b * PI); +} -REALTYPE OscilGen::basefunc_chirp(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_chirp(REALTYPE x, REALTYPE a) { - x=fmod(x,1.0)*2.0*PI; - a=(a-0.5)*4; - if (a<0.0) a*=2.0; - a=pow(3.0,a); - return(sin(x/2.0)*sin(a*x*x)); -}; + x = fmod(x, 1.0) * 2.0 * PI; + a = (a - 0.5) * 4; + if(a < 0.0) + a *= 2.0; + a = pow(3.0, a); + return sin(x / 2.0) * sin(a * x * x); +} -REALTYPE OscilGen::basefunc_absstretchsine(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_absstretchsine(REALTYPE x, REALTYPE a) { - x=fmod(x+0.5,1)*2.0-1.0; - a=(a-0.5)*9; - a=pow(3.0,a); - REALTYPE b=pow(fabs(x),a); - if (x<0) b=-b; - return(-pow(sin(b*PI),2)); -}; + x = fmod(x + 0.5, 1) * 2.0 - 1.0; + a = (a - 0.5) * 9; + a = pow(3.0, a); + REALTYPE b = pow(fabs(x), a); + if(x < 0) + b = -b; + return -pow(sin(b * PI), 2); +} -REALTYPE OscilGen::basefunc_chebyshev(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_chebyshev(REALTYPE x, REALTYPE a) { - a=a*a*a*30.0+1.0; - return(cos(acos(x*2.0-1.0)*a)); -}; + a = a * a * a * 30.0 + 1.0; + return cos(acos(x * 2.0 - 1.0) * a); +} -REALTYPE OscilGen::basefunc_sqr(REALTYPE x,REALTYPE a) +REALTYPE OscilGen::basefunc_sqr(REALTYPE x, REALTYPE a) { - a=a*a*a*a*160.0+0.001; - return(-atan(sin(x*2.0*PI)*a)); -}; + a = a * a * a * a * 160.0 + 0.001; + return -atan(sin(x * 2.0 * PI) * a); +} /* * Base Functions - END */ @@ -291,223 +325,266 @@ REALTYPE OscilGen::basefunc_sqr(REALTYPE x,REALTYPE a) */ void OscilGen::getbasefunction(REALTYPE *smps) { - int i; - REALTYPE par=(Pbasefuncpar+0.5)/128.0; - if (Pbasefuncpar==64) par=0.5; + int i; + REALTYPE par = (Pbasefuncpar + 0.5) / 128.0; + if(Pbasefuncpar == 64) + par = 0.5; - REALTYPE basefuncmodulationpar1=Pbasefuncmodulationpar1/127.0, - basefuncmodulationpar2=Pbasefuncmodulationpar2/127.0, - basefuncmodulationpar3=Pbasefuncmodulationpar3/127.0; + REALTYPE basefuncmodulationpar1 = Pbasefuncmodulationpar1 / 127.0, + basefuncmodulationpar2 = Pbasefuncmodulationpar2 / 127.0, + basefuncmodulationpar3 = Pbasefuncmodulationpar3 / 127.0; - switch (Pbasefuncmodulation) { + switch(Pbasefuncmodulation) { case 1: - basefuncmodulationpar1=(pow(2,basefuncmodulationpar1*5.0)-1.0)/10.0; - basefuncmodulationpar3=floor((pow(2,basefuncmodulationpar3*5.0)-1.0)); - if (basefuncmodulationpar3<0.9999) basefuncmodulationpar3=-1.0; + basefuncmodulationpar1 = + (pow(2, basefuncmodulationpar1 * 5.0) - 1.0) / 10.0; + basefuncmodulationpar3 = + floor((pow(2, basefuncmodulationpar3 * 5.0) - 1.0)); + if(basefuncmodulationpar3 < 0.9999) + basefuncmodulationpar3 = -1.0; break; case 2: - basefuncmodulationpar1=(pow(2,basefuncmodulationpar1*5.0)-1.0)/10.0; - basefuncmodulationpar3=1.0+floor((pow(2,basefuncmodulationpar3*5.0)-1.0)); + basefuncmodulationpar1 = + (pow(2, basefuncmodulationpar1 * 5.0) - 1.0) / 10.0; + basefuncmodulationpar3 = 1.0 + + floor((pow(2, basefuncmodulationpar3 + * 5.0) - 1.0)); break; case 3: - basefuncmodulationpar1=(pow(2,basefuncmodulationpar1*7.0)-1.0)/10.0; - basefuncmodulationpar3=0.01+(pow(2,basefuncmodulationpar3*16.0)-1.0)/10.0; + basefuncmodulationpar1 = + (pow(2, basefuncmodulationpar1 * 7.0) - 1.0) / 10.0; + basefuncmodulationpar3 = 0.01 + + (pow(2, basefuncmodulationpar3 + * 16.0) - 1.0) / 10.0; break; - }; + } // printf("%.5f %.5f\n",basefuncmodulationpar1,basefuncmodulationpar3); - for (i=0;ipow(2,(1.0-par)*10)?0.0:1.0)*par2+(1.0-par2);//lp2 + tmp = pow(par2, 0.33); + gain = + (i + 1 > + pow(2, (1.0 - par) * 10) ? 0.0 : 1.0) * par2 + (1.0 - par2); //lp2 break; case 7: - tmp=pow(par2,0.33); + tmp = pow(par2, 0.33); //tmp=1.0-(1.0-par2)*(1.0-par2); - gain=(i+1>pow(2,(1.0-par)*7)?1.0:0.0)*par2+(1.0-par2);//hp2 - if (Pfilterpar1==0) gain=1.0; + gain = + (i + 1 > + pow(2, (1.0 - par) * 7) ? 1.0 : 0.0) * par2 + (1.0 - par2); //hp2 + if(Pfilterpar1 == 0) + gain = 1.0; break; case 8: - tmp=pow(par2,0.33); + tmp = pow(par2, 0.33); //tmp=1.0-(1.0-par2)*(1.0-par2); - gain=(fabs(pow(2,(1.0-par)*7)-i)>i/2+1?0.0:1.0)*par2+(1.0-par2);//bp2 + gain = + (fabs(pow(2, + (1.0 + - par) + * 7) - i) > i / 2 + 1 ? 0.0 : 1.0) * par2 + (1.0 - par2); //bp2 break; case 9: - tmp=pow(par2,0.33); - gain=(fabs(pow(2,(1.0-par)*7)-i)1.0) x=1.0; - tmp=pow(1.0-par2,2.0); - gain=cos(x*PI)*(1.0-tmp)+1.01+tmp;//low shelf + p2 = 1.0 - par + 0.2; + x = i / (64.0 * p2 * p2); + if(x < 0.0) + x = 0.0; + else + if(x > 1.0) + x = 1.0; + tmp = pow(1.0 - par2, 2.0); + gain = cos(x * PI) * (1.0 - tmp) + 1.01 + tmp; //low shelf break; case 13: - tmp=(int) (pow(2.0,(1.0-par)*7.2)); - gain=1.0; - if (i==(int) (tmp)) gain=pow(2.0,par2*par2*8.0); + tmp = (int) (pow(2.0, (1.0 - par) * 7.2)); + gain = 1.0; + if(i == (int) (tmp)) + gain = pow(2.0, par2 * par2 * 8.0); break; - }; + } - oscilFFTfreqs.s[i]*=gain; - oscilFFTfreqs.c[i]*=gain; - REALTYPE tmp=oscilFFTfreqs.s[i]*oscilFFTfreqs.s[i]+ - oscilFFTfreqs.c[i]*oscilFFTfreqs.c[i]; - if (maxsmps2freqs(tmpsmps,basefuncFFTfreqs); - basefuncFFTfreqs.c[0]=0.0; - } else { - for (int i=0;ismps2freqs(tmpsmps, basefuncFFTfreqs); + basefuncFFTfreqs.c[0] = 0.0; + } + else { + for(int i = 0; i < OSCIL_SIZE / 2; i++) { + basefuncFFTfreqs.s[i] = 0.0; + basefuncFFTfreqs.c[i] = 0.0; + } //in this case basefuncFFTfreqs_ are not used } - oscilprepared=0; - oldbasefunc=Pcurrentbasefunc; - oldbasepar=Pbasefuncpar; - oldbasefuncmodulation=Pbasefuncmodulation; - oldbasefuncmodulationpar1=Pbasefuncmodulationpar1; - oldbasefuncmodulationpar2=Pbasefuncmodulationpar2; - oldbasefuncmodulationpar3=Pbasefuncmodulationpar3; -}; + oscilprepared = 0; + oldbasefunc = Pcurrentbasefunc; + oldbasepar = Pbasefuncpar; + oldbasefuncmodulation = Pbasefuncmodulation; + oldbasefuncmodulationpar1 = Pbasefuncmodulationpar1; + oldbasefuncmodulationpar2 = Pbasefuncmodulationpar2; + oldbasefuncmodulationpar3 = Pbasefuncmodulationpar3; +} /* * Waveshape @@ -516,32 +593,36 @@ void OscilGen::waveshape() { int i; - oldwaveshapingfunction=Pwaveshapingfunction; - oldwaveshaping=Pwaveshaping; - if (Pwaveshapingfunction==0) return; + oldwaveshapingfunction = Pwaveshapingfunction; + oldwaveshaping = Pwaveshaping; + if(Pwaveshapingfunction == 0) + return; - oscilFFTfreqs.c[0]=0.0;//remove the DC + oscilFFTfreqs.c[0] = 0.0; //remove the DC //reduce the amplitude of the freqs near the nyquist - for (i=1;ifreqs2smps(oscilFFTfreqs,tmpsmps); + for(i = 1; i < OSCIL_SIZE / 8; i++) { + REALTYPE tmp = i / (OSCIL_SIZE / 8.0); + oscilFFTfreqs.s[OSCIL_SIZE / 2 - i] *= tmp; + oscilFFTfreqs.c[OSCIL_SIZE / 2 - i] *= tmp; + } + fft->freqs2smps(oscilFFTfreqs, tmpsmps); //Normalize - REALTYPE max=0.0; - for (i=0;ismps2freqs(tmpsmps,oscilFFTfreqs);//perform FFT -}; + fft->smps2freqs(tmpsmps, oscilFFTfreqs); //perform FFT +} /* @@ -551,79 +632,91 @@ void OscilGen::modulation() { int i; - oldmodulation=Pmodulation; - oldmodulationpar1=Pmodulationpar1; - oldmodulationpar2=Pmodulationpar2; - oldmodulationpar3=Pmodulationpar3; - if (Pmodulation==0) return; + oldmodulation = Pmodulation; + oldmodulationpar1 = Pmodulationpar1; + oldmodulationpar2 = Pmodulationpar2; + oldmodulationpar3 = Pmodulationpar3; + if(Pmodulation == 0) + return; - REALTYPE modulationpar1=Pmodulationpar1/127.0, - modulationpar2=0.5-Pmodulationpar2/127.0, - modulationpar3=Pmodulationpar3/127.0; + REALTYPE modulationpar1 = Pmodulationpar1 / 127.0, + modulationpar2 = 0.5 - Pmodulationpar2 / 127.0, + modulationpar3 = Pmodulationpar3 / 127.0; - switch (Pmodulation) { + switch(Pmodulation) { case 1: - modulationpar1=(pow(2,modulationpar1*7.0)-1.0)/100.0; - modulationpar3=floor((pow(2,modulationpar3*5.0)-1.0)); - if (modulationpar3<0.9999) modulationpar3=-1.0; + modulationpar1 = (pow(2, modulationpar1 * 7.0) - 1.0) / 100.0; + modulationpar3 = floor((pow(2, modulationpar3 * 5.0) - 1.0)); + if(modulationpar3 < 0.9999) + modulationpar3 = -1.0; break; case 2: - modulationpar1=(pow(2,modulationpar1*7.0)-1.0)/100.0; - modulationpar3=1.0+floor((pow(2,modulationpar3*5.0)-1.0)); + modulationpar1 = (pow(2, modulationpar1 * 7.0) - 1.0) / 100.0; + modulationpar3 = 1.0 + floor((pow(2, modulationpar3 * 5.0) - 1.0)); break; case 3: - modulationpar1=(pow(2,modulationpar1*9.0)-1.0)/100.0; - modulationpar3=0.01+(pow(2,modulationpar3*16.0)-1.0)/10.0; + modulationpar1 = (pow(2, modulationpar1 * 9.0) - 1.0) / 100.0; + modulationpar3 = 0.01 + (pow(2, modulationpar3 * 16.0) - 1.0) / 10.0; break; - }; + } - oscilFFTfreqs.c[0]=0.0;//remove the DC + oscilFFTfreqs.c[0] = 0.0; //remove the DC //reduce the amplitude of the freqs near the nyquist - for (i=1;ifreqs2smps(oscilFFTfreqs,tmpsmps); - int extra_points=2; - REALTYPE *in=new REALTYPE[OSCIL_SIZE+extra_points]; + for(i = 1; i < OSCIL_SIZE / 8; i++) { + REALTYPE tmp = i / (OSCIL_SIZE / 8.0); + oscilFFTfreqs.s[OSCIL_SIZE / 2 - i] *= tmp; + oscilFFTfreqs.c[OSCIL_SIZE / 2 - i] *= tmp; + } + fft->freqs2smps(oscilFFTfreqs, tmpsmps); + int extra_points = 2; + REALTYPE *in = new REALTYPE[OSCIL_SIZE + extra_points]; //Normalize - REALTYPE max=0.0; - for (i=0;ismps2freqs(tmpsmps,oscilFFTfreqs);//perform FFT -}; + fft->smps2freqs(tmpsmps, oscilFFTfreqs); //perform FFT +} @@ -632,477 +725,534 @@ void OscilGen::modulation() */ void OscilGen::spectrumadjust() { - if (Psatype==0) return; - REALTYPE par=Psapar/127.0; - switch (Psatype) { + if(Psatype == 0) + return; + REALTYPE par = Psapar / 127.0; + switch(Psatype) { case 1: - par=1.0-par*2.0; - if (par>=0.0) par=pow(5.0,par); - else par=pow(8.0,par); + par = 1.0 - par * 2.0; + if(par >= 0.0) + par = pow(5.0, par); + else + par = pow(8.0, par); break; case 2: - par=pow(10.0,(1.0-par)*3.0)*0.25; + par = pow(10.0, (1.0 - par) * 3.0) * 0.25; break; case 3: - par=pow(10.0,(1.0-par)*3.0)*0.25; + par = pow(10.0, (1.0 - par) * 3.0) * 0.25; break; - }; + } - REALTYPE max=0.0; - for (int i=0;i1.0) mag=1.0; + mag /= par; + if(mag > 1.0) + mag = 1.0; break; - }; - oscilFFTfreqs.c[i]=mag*cos(phase); - oscilFFTfreqs.s[i]=mag*sin(phase); - }; - -}; + } + oscilFFTfreqs.c[i] = mag * cos(phase); + oscilFFTfreqs.s[i] = mag * sin(phase); + } +} void OscilGen::shiftharmonics() { - if (Pharmonicshift==0) return; + if(Pharmonicshift == 0) + return; - REALTYPE hc,hs; - int harmonicshift=-Pharmonicshift; + REALTYPE hc, hs; + int harmonicshift = -Pharmonicshift; - if (harmonicshift>0) { - for (int i=OSCIL_SIZE/2-2;i>=0;i--) { - int oldh=i-harmonicshift; - if (oldh<0) { - hc=0.0; - hs=0.0; - } else { - hc=oscilFFTfreqs.c[oldh+1]; - hs=oscilFFTfreqs.s[oldh+1]; - }; - oscilFFTfreqs.c[i+1]=hc; - oscilFFTfreqs.s[i+1]=hs; - }; - } else { - for (int i=0;i=(OSCIL_SIZE/2-1)) { - hc=0.0; - hs=0.0; - } else { - hc=oscilFFTfreqs.c[oldh+1]; - hs=oscilFFTfreqs.s[oldh+1]; - if (fabs(hc)<0.000001) hc=0.0; - if (fabs(hs)<0.000001) hs=0.0; - }; + if(harmonicshift > 0) { + for(int i = OSCIL_SIZE / 2 - 2; i >= 0; i--) { + int oldh = i - harmonicshift; + if(oldh < 0) { + hc = 0.0; + hs = 0.0; + } + else { + hc = oscilFFTfreqs.c[oldh + 1]; + hs = oscilFFTfreqs.s[oldh + 1]; + } + oscilFFTfreqs.c[i + 1] = hc; + oscilFFTfreqs.s[i + 1] = hs; + } + } + else { + for(int i = 0; i < OSCIL_SIZE / 2 - 1; i++) { + int oldh = i + abs(harmonicshift); + if(oldh >= (OSCIL_SIZE / 2 - 1)) { + hc = 0.0; + hs = 0.0; + } + else { + hc = oscilFFTfreqs.c[oldh + 1]; + hs = oscilFFTfreqs.s[oldh + 1]; + if(fabs(hc) < 0.000001) + hc = 0.0; + if(fabs(hs) < 0.000001) + hs = 0.0; + } - oscilFFTfreqs.c[i+1]=hc; - oscilFFTfreqs.s[i+1]=hs; - }; - }; + oscilFFTfreqs.c[i + 1] = hc; + oscilFFTfreqs.s[i + 1] = hs; + } + } - oscilFFTfreqs.c[0]=0.0; -}; + oscilFFTfreqs.c[0] = 0.0; +} /* * Prepare the Oscillator */ void OscilGen::prepare() { - int i,j,k; - REALTYPE a,b,c,d,hmagnew; + int i, j, k; + REALTYPE a, b, c, d, hmagnew; - if ((oldbasepar!=Pbasefuncpar)||(oldbasefunc!=Pcurrentbasefunc)|| - (oldbasefuncmodulation!=Pbasefuncmodulation)|| - (oldbasefuncmodulationpar1!=Pbasefuncmodulationpar1)|| - (oldbasefuncmodulationpar2!=Pbasefuncmodulationpar2)|| - (oldbasefuncmodulationpar3!=Pbasefuncmodulationpar3)) + if((oldbasepar != Pbasefuncpar) || (oldbasefunc != Pcurrentbasefunc) + || (oldbasefuncmodulation != Pbasefuncmodulation) + || (oldbasefuncmodulationpar1 != Pbasefuncmodulationpar1) + || (oldbasefuncmodulationpar2 != Pbasefuncmodulationpar2) + || (oldbasefuncmodulationpar3 != Pbasefuncmodulationpar3)) changebasefunction(); - for (i=0;i=OSCIL_SIZE/2) break; - a=basefuncFFTfreqs.c[i]; - b=basefuncFFTfreqs.s[i]; - c=hmag[j]*cos(hphase[j]*k); - d=hmag[j]*sin(hphase[j]*k); - oscilFFTfreqs.c[k]+=a*c-b*d; - oscilFFTfreqs.s[k]+=a*d+b*c; - }; - }; + for(i = 0; i < OSCIL_SIZE / 2; i++) { + oscilFFTfreqs.c[i] = 0.0; + oscilFFTfreqs.s[i] = 0.0; + } + if(Pcurrentbasefunc == 0) { //the sine case + for(i = 0; i < MAX_AD_HARMONICS; i++) { + oscilFFTfreqs.c[i + 1] = -hmag[i] * sin(hphase[i] * (i + 1)) / 2.0; + oscilFFTfreqs.s[i + 1] = hmag[i] * cos(hphase[i] * (i + 1)) / 2.0; + } + } + else { + for(j = 0; j < MAX_AD_HARMONICS; j++) { + if(Phmag[j] == 64) + continue; + for(i = 1; i < OSCIL_SIZE / 2; i++) { + k = i * (j + 1); + if(k >= OSCIL_SIZE / 2) + break; + a = basefuncFFTfreqs.c[i]; + b = basefuncFFTfreqs.s[i]; + c = hmag[j] * cos(hphase[j] * k); + d = hmag[j] * sin(hphase[j] * k); + oscilFFTfreqs.c[k] += a * c - b * d; + oscilFFTfreqs.s[k] += a * d + b * c; + } + } + } - }; - - if (Pharmonicshiftfirst!=0) shiftharmonics(); + if(Pharmonicshiftfirst != 0) + shiftharmonics(); - if (Pfilterbeforews==0) { + if(Pfilterbeforews == 0) { waveshape(); oscilfilter(); - } else { + } + else { oscilfilter(); waveshape(); - }; + } modulation(); spectrumadjust(); - if (Pharmonicshiftfirst==0) shiftharmonics(); + if(Pharmonicshiftfirst == 0) + shiftharmonics(); - oscilFFTfreqs.c[0]=0.0; + oscilFFTfreqs.c[0] = 0.0; - oldhmagtype=Phmagtype; - oldharmonicshift=Pharmonicshift+Pharmonicshiftfirst*256; + oldhmagtype = Phmagtype; + oldharmonicshift = Pharmonicshift + Pharmonicshiftfirst * 256; - oscilprepared=1; -}; + oscilprepared = 1; +} -void OscilGen::adaptiveharmonic(FFTFREQS f,REALTYPE freq) +void OscilGen::adaptiveharmonic(FFTFREQS f, REALTYPE freq) { - if ((Padaptiveharmonics==0)/*||(freq<1.0)*/) return; - if (freq<1.0) freq=440.0; + if((Padaptiveharmonics == 0) /*||(freq<1.0)*/) + return; + if(freq < 1.0) + freq = 440.0; FFTFREQS inf; - newFFTFREQS(&inf,OSCIL_SIZE/2); - for (int i=0;i1.0) { - rap=1.0/rap; - down=true; - }; + bool down = false; + if(rap > 1.0) { + rap = 1.0 / rap; + down = true; + } - for (int i=0;i=(OSCIL_SIZE/2-2)) { + if(high >= (OSCIL_SIZE / 2 - 2)) break; - } else { - if (down) { - f.c[high]+=inf.c[i]*(1.0-low); - f.s[high]+=inf.s[i]*(1.0-low); - f.c[high+1]+=inf.c[i]*low; - f.s[high+1]+=inf.s[i]*low; - } else { - hc=inf.c[high]*(1.0-low)+inf.c[high+1]*low; - hs=inf.s[high]*(1.0-low)+inf.s[high+1]*low; - }; - if (fabs(hc)<0.000001) hc=0.0; - if (fabs(hs)<0.000001) hs=0.0; - }; + else { + if(down) { + f.c[high] += inf.c[i] * (1.0 - low); + f.s[high] += inf.s[i] * (1.0 - low); + f.c[high + 1] += inf.c[i] * low; + f.s[high + 1] += inf.s[i] * low; + } + else { + hc = inf.c[high] * (1.0 - low) + inf.c[high + 1] * low; + hs = inf.s[high] * (1.0 - low) + inf.s[high + 1] * low; + } + if(fabs(hc) < 0.000001) + hc = 0.0; + if(fabs(hs) < 0.000001) + hs = 0.0; + } - if (!down) { - if (i==0) {//corect the aplitude of the first harmonic - hc*=rap; - hs*=rap; - }; - f.c[i]=hc; - f.s[i]=hs; - }; - }; + if(!down) { + if(i == 0) { //corect the aplitude of the first harmonic + hc *= rap; + hs *= rap; + } + f.c[i] = hc; + f.s[i] = hs; + } + } - f.c[1]+=f.c[0]; - f.s[1]+=f.s[0]; - f.c[0]=0.0; - f.s[0]=0.0; + f.c[1] += f.c[0]; + f.s[1] += f.s[0]; + f.c[0] = 0.0; + f.s[0] = 0.0; deleteFFTFREQS(&inf); -}; +} -void OscilGen::adaptiveharmonicpostprocess(REALTYPE *f,int size) +void OscilGen::adaptiveharmonicpostprocess(REALTYPE *f, int size) { - if (Padaptiveharmonics<=1) return; - REALTYPE *inf=new REALTYPE[size]; - REALTYPE par=Padaptiveharmonicspar*0.01; - par=1.0-pow((1.0-par),1.5); + if(Padaptiveharmonics <= 1) + return; + REALTYPE *inf = new REALTYPE[size]; + REALTYPE par = Padaptiveharmonicspar * 0.01; + par = 1.0 - pow((1.0 - par), 1.5); - for (int i=0;iget(smps,freqHz,0)); -}; + return this->get(smps, freqHz, 0); +} void OscilGen::newrandseed(unsigned int randseed) { - this->randseed=randseed; -}; + this->randseed = randseed; +} /* * Get the oscillator function */ -short int OscilGen::get(REALTYPE *smps,REALTYPE freqHz,int resonance) +short int OscilGen::get(REALTYPE *smps, REALTYPE freqHz, int resonance) { int i; - int nyquist,outpos; + int nyquist, outpos; - if ((oldbasepar!=Pbasefuncpar)||(oldbasefunc!=Pcurrentbasefunc)||(oldhmagtype!=Phmagtype) - ||(oldwaveshaping!=Pwaveshaping)||(oldwaveshapingfunction!=Pwaveshapingfunction)) oscilprepared=0; - if (oldfilterpars!=Pfiltertype*256+Pfilterpar1+Pfilterpar2*65536+Pfilterbeforews*16777216) { - oscilprepared=0; - oldfilterpars=Pfiltertype*256+Pfilterpar1+Pfilterpar2*65536+Pfilterbeforews*16777216; - }; - if (oldsapars!=Psatype*256+Psapar) { - oscilprepared=0; - oldsapars=Psatype*256+Psapar; - }; + if((oldbasepar != Pbasefuncpar) || (oldbasefunc != Pcurrentbasefunc) + || (oldhmagtype != Phmagtype) + || (oldwaveshaping != Pwaveshaping) + || (oldwaveshapingfunction != Pwaveshapingfunction)) + oscilprepared = 0; + if(oldfilterpars != Pfiltertype * 256 + Pfilterpar1 + Pfilterpar2 * 65536 + + Pfilterbeforews * 16777216) { + oscilprepared = 0; + oldfilterpars = Pfiltertype * 256 + Pfilterpar1 + Pfilterpar2 * 65536 + + Pfilterbeforews * 16777216; + } + if(oldsapars != Psatype * 256 + Psapar) { + oscilprepared = 0; + oldsapars = Psatype * 256 + Psapar; + } - if ((oldbasefuncmodulation!=Pbasefuncmodulation)|| - (oldbasefuncmodulationpar1!=Pbasefuncmodulationpar1)|| - (oldbasefuncmodulationpar2!=Pbasefuncmodulationpar2)|| - (oldbasefuncmodulationpar3!=Pbasefuncmodulationpar3)) - oscilprepared=0; + if((oldbasefuncmodulation != Pbasefuncmodulation) + || (oldbasefuncmodulationpar1 != Pbasefuncmodulationpar1) + || (oldbasefuncmodulationpar2 != Pbasefuncmodulationpar2) + || (oldbasefuncmodulationpar3 != Pbasefuncmodulationpar3)) + oscilprepared = 0; - if ((oldmodulation!=Pmodulation)|| - (oldmodulationpar1!=Pmodulationpar1)|| - (oldmodulationpar2!=Pmodulationpar2)|| - (oldmodulationpar3!=Pmodulationpar3)) - oscilprepared=0; + if((oldmodulation != Pmodulation) + || (oldmodulationpar1 != Pmodulationpar1) + || (oldmodulationpar2 != Pmodulationpar2) + || (oldmodulationpar3 != Pmodulationpar3)) + oscilprepared = 0; - if (oldharmonicshift!=Pharmonicshift+Pharmonicshiftfirst*256) oscilprepared=0; + if(oldharmonicshift != Pharmonicshift + Pharmonicshiftfirst * 256) + oscilprepared = 0; - if (oscilprepared!=1) prepare(); + if(oscilprepared != 1) + prepare(); - outpos=(int)((RND*2.0-1.0)*(REALTYPE) OSCIL_SIZE*(Prand-64.0)/64.0); - outpos=(outpos+2*OSCIL_SIZE) % OSCIL_SIZE; + outpos = + (int)((RND * 2.0 - 1.0) * (REALTYPE) OSCIL_SIZE * (Prand - 64.0) / 64.0); + outpos = (outpos + 2 * OSCIL_SIZE) % OSCIL_SIZE; - for (i=0;iOSCIL_SIZE/2) nyquist=OSCIL_SIZE/2; + nyquist = (int)(0.5 * SAMPLE_RATE / fabs(freqHz)) + 2; + if(ADvsPAD) + nyquist = (int)(OSCIL_SIZE / 2); + if(nyquist > OSCIL_SIZE / 2) + nyquist = OSCIL_SIZE / 2; - int realnyquist=nyquist; + int realnyquist = nyquist; - if (Padaptiveharmonics!=0) nyquist=OSCIL_SIZE/2; - for (i=1;i64)&&(freqHz>=0.0)&&(!ADvsPAD)) { - REALTYPE rnd,angle,a,b,c,d; - rnd=PI*pow((Prand-64.0)/64.0,2.0); - for (i=1;i 64) && (freqHz >= 0.0) && (!ADvsPAD)) { + REALTYPE rnd, angle, a, b, c, d; + rnd = PI * pow((Prand - 64.0) / 64.0, 2.0); + for(i = 1; i < nyquist - 1; i++) { //to Nyquist only for AntiAliasing + angle = rnd * i * RND; + a = outoscilFFTfreqs.c[i]; + b = outoscilFFTfreqs.s[i]; + c = cos(angle); + d = sin(angle); + outoscilFFTfreqs.c[i] = a * c - b * d; + outoscilFFTfreqs.s[i] = a * d + b * c; + } + } //Harmonic Amplitude Randomness - if ((freqHz>0.1)&&(!ADvsPAD)) { - unsigned int realrnd=rand(); + if((freqHz > 0.1) && (!ADvsPAD)) { + unsigned int realrnd = rand(); srand(randseed); - REALTYPE power=Pamprandpower/127.0; - REALTYPE normalize=1.0/(1.2-power); - switch (Pamprandtype) { + REALTYPE power = Pamprandpower / 127.0; + REALTYPE normalize = 1.0 / (1.2 - power); + switch(Pamprandtype) { case 1: - power=power*2.0-0.5; - power=pow(15.0,power); - for (i=1;i0.1)&&(resonance!=0)) res->applyres(nyquist-1,outoscilFFTfreqs,freqHz); + if((freqHz > 0.1) && (resonance != 0)) + res->applyres(nyquist - 1, outoscilFFTfreqs, freqHz); //Full RMS normalize - REALTYPE sum=0; - for (int j=1;j0.1)) {//in this case the smps will contain the freqs - for (i=1;ifreqs2smps(outoscilFFTfreqs,smps); - for (i=0;i 0.1)) //in this case the smps will contain the freqs + for(i = 1; i < OSCIL_SIZE / 2; i++) + smps[i - 1] = sqrt(outoscilFFTfreqs.c[i] * outoscilFFTfreqs.c[i] + + outoscilFFTfreqs.s[i] * outoscilFFTfreqs.s[i]); + else { + fft->freqs2smps(outoscilFFTfreqs, smps); + for(i = 0; i < OSCIL_SIZE; i++) + smps[i] *= 0.25; //correct the amplitude + } - if (Prand<64) return(outpos); - else return(0); -}; + if(Prand < 64) + return outpos; + else + return 0; +} /* * Get the spectrum of the oscillator for the UI */ -void OscilGen::getspectrum(int n, REALTYPE *spc,int what) +void OscilGen::getspectrum(int n, REALTYPE *spc, int what) { - if (n>OSCIL_SIZE/2) n=OSCIL_SIZE/2; + if(n > OSCIL_SIZE / 2) + n = OSCIL_SIZE / 2; - for (int i=1;ifreqs2smps(basefuncFFTfreqs,smps); - } else getbasefunction(smps);//the sine case -}; + if(Pcurrentbasefunc != 0) + fft->freqs2smps(basefuncFFTfreqs, smps); + else + getbasefunction(smps); //the sine case +} void OscilGen::add2XML(XMLwrapper *xml) { - xml->addpar("harmonic_mag_type",Phmagtype); + xml->addpar("harmonic_mag_type", Phmagtype); - xml->addpar("base_function",Pcurrentbasefunc); - xml->addpar("base_function_par",Pbasefuncpar); - xml->addpar("base_function_modulation",Pbasefuncmodulation); - xml->addpar("base_function_modulation_par1",Pbasefuncmodulationpar1); - xml->addpar("base_function_modulation_par2",Pbasefuncmodulationpar2); - xml->addpar("base_function_modulation_par3",Pbasefuncmodulationpar3); + xml->addpar("base_function", Pcurrentbasefunc); + xml->addpar("base_function_par", Pbasefuncpar); + xml->addpar("base_function_modulation", Pbasefuncmodulation); + xml->addpar("base_function_modulation_par1", Pbasefuncmodulationpar1); + xml->addpar("base_function_modulation_par2", Pbasefuncmodulationpar2); + xml->addpar("base_function_modulation_par3", Pbasefuncmodulationpar3); - xml->addpar("modulation",Pmodulation); - xml->addpar("modulation_par1",Pmodulationpar1); - xml->addpar("modulation_par2",Pmodulationpar2); - xml->addpar("modulation_par3",Pmodulationpar3); + xml->addpar("modulation", Pmodulation); + xml->addpar("modulation_par1", Pmodulationpar1); + xml->addpar("modulation_par2", Pmodulationpar2); + xml->addpar("modulation_par3", Pmodulationpar3); - xml->addpar("wave_shaping",Pwaveshaping); - xml->addpar("wave_shaping_function",Pwaveshapingfunction); + xml->addpar("wave_shaping", Pwaveshaping); + xml->addpar("wave_shaping_function", Pwaveshapingfunction); - xml->addpar("filter_type",Pfiltertype); - xml->addpar("filter_par1",Pfilterpar1); - xml->addpar("filter_par2",Pfilterpar2); - xml->addpar("filter_before_wave_shaping",Pfilterbeforews); + xml->addpar("filter_type", Pfiltertype); + xml->addpar("filter_par1", Pfilterpar1); + xml->addpar("filter_par2", Pfilterpar2); + xml->addpar("filter_before_wave_shaping", Pfilterbeforews); - xml->addpar("spectrum_adjust_type",Psatype); - xml->addpar("spectrum_adjust_par",Psapar); + xml->addpar("spectrum_adjust_type", Psatype); + xml->addpar("spectrum_adjust_par", Psapar); - xml->addpar("rand",Prand); - xml->addpar("amp_rand_type",Pamprandtype); - xml->addpar("amp_rand_power",Pamprandpower); + xml->addpar("rand", Prand); + xml->addpar("amp_rand_type", Pamprandtype); + xml->addpar("amp_rand_power", Pamprandpower); - xml->addpar("harmonic_shift",Pharmonicshift); - xml->addparbool("harmonic_shift_first",Pharmonicshiftfirst); + xml->addpar("harmonic_shift", Pharmonicshift); + xml->addparbool("harmonic_shift_first", Pharmonicshiftfirst); - xml->addpar("adaptive_harmonics",Padaptiveharmonics); - xml->addpar("adaptive_harmonics_base_frequency",Padaptiveharmonicsbasefreq); - xml->addpar("adaptive_harmonics_power",Padaptiveharmonicspower); + xml->addpar("adaptive_harmonics", Padaptiveharmonics); + xml->addpar("adaptive_harmonics_base_frequency", Padaptiveharmonicsbasefreq); + xml->addpar("adaptive_harmonics_power", Padaptiveharmonicspower); xml->beginbranch("HARMONICS"); - for (int n=0;nbeginbranch("HARMONIC",n+1); - xml->addpar("mag",Phmag[n]); - xml->addpar("phase",Phphase[n]); + for(int n = 0; n < MAX_AD_HARMONICS; n++) { + if((Phmag[n] == 64) && (Phphase[n] == 64)) + continue; + xml->beginbranch("HARMONIC", n + 1); + xml->addpar("mag", Phmag[n]); + xml->addpar("phase", Phphase[n]); xml->endbranch(); - }; + } xml->endbranch(); - if (Pcurrentbasefunc==127) { - REALTYPE max=0.0; + if(Pcurrentbasefunc == 127) { + REALTYPE max = 0.0; - for (int i=0;ibeginbranch("BASE_FUNCTION"); - for (int i=1;i0.00001)&&(fabs(xs)>0.00001)) { - xml->beginbranch("BF_HARMONIC",i); - xml->addparreal("cos",xc); - xml->addparreal("sin",xs); + for(int i = 1; i < OSCIL_SIZE / 2; i++) { + REALTYPE xc = basefuncFFTfreqs.c[i] / max; + REALTYPE xs = basefuncFFTfreqs.s[i] / max; + if((fabs(xs) > 0.00001) && (fabs(xs) > 0.00001)) { + xml->beginbranch("BF_HARMONIC", i); + xml->addparreal("cos", xc); + xml->addparreal("sin", xs); xml->endbranch(); - }; - }; + } + } xml->endbranch(); - }; -}; + } +} void OscilGen::getfromXML(XMLwrapper *xml) { + Phmagtype = xml->getpar127("harmonic_mag_type", Phmagtype); - Phmagtype=xml->getpar127("harmonic_mag_type",Phmagtype); + Pcurrentbasefunc = xml->getpar127("base_function", Pcurrentbasefunc); + Pbasefuncpar = xml->getpar127("base_function_par", Pbasefuncpar); - Pcurrentbasefunc=xml->getpar127("base_function",Pcurrentbasefunc); - Pbasefuncpar=xml->getpar127("base_function_par",Pbasefuncpar); + Pbasefuncmodulation = xml->getpar127("base_function_modulation", + Pbasefuncmodulation); + Pbasefuncmodulationpar1 = xml->getpar127("base_function_modulation_par1", + Pbasefuncmodulationpar1); + Pbasefuncmodulationpar2 = xml->getpar127("base_function_modulation_par2", + Pbasefuncmodulationpar2); + Pbasefuncmodulationpar3 = xml->getpar127("base_function_modulation_par3", + Pbasefuncmodulationpar3); - Pbasefuncmodulation=xml->getpar127("base_function_modulation",Pbasefuncmodulation); - Pbasefuncmodulationpar1=xml->getpar127("base_function_modulation_par1",Pbasefuncmodulationpar1); - Pbasefuncmodulationpar2=xml->getpar127("base_function_modulation_par2",Pbasefuncmodulationpar2); - Pbasefuncmodulationpar3=xml->getpar127("base_function_modulation_par3",Pbasefuncmodulationpar3); + Pmodulation = xml->getpar127("modulation", Pmodulation); + Pmodulationpar1 = xml->getpar127("modulation_par1", + Pmodulationpar1); + Pmodulationpar2 = xml->getpar127("modulation_par2", + Pmodulationpar2); + Pmodulationpar3 = xml->getpar127("modulation_par3", + Pmodulationpar3); - Pmodulation=xml->getpar127("modulation",Pmodulation); - Pmodulationpar1=xml->getpar127("modulation_par1",Pmodulationpar1); - Pmodulationpar2=xml->getpar127("modulation_par2",Pmodulationpar2); - Pmodulationpar3=xml->getpar127("modulation_par3",Pmodulationpar3); + Pwaveshaping = xml->getpar127("wave_shaping", Pwaveshaping); + Pwaveshapingfunction = xml->getpar127("wave_shaping_function", + Pwaveshapingfunction); - Pwaveshaping=xml->getpar127("wave_shaping",Pwaveshaping); - Pwaveshapingfunction=xml->getpar127("wave_shaping_function",Pwaveshapingfunction); + Pfiltertype = xml->getpar127("filter_type", Pfiltertype); + Pfilterpar1 = xml->getpar127("filter_par1", Pfilterpar1); + Pfilterpar2 = xml->getpar127("filter_par2", Pfilterpar2); + Pfilterbeforews = xml->getpar127("filter_before_wave_shaping", + Pfilterbeforews); - Pfiltertype=xml->getpar127("filter_type",Pfiltertype); - Pfilterpar1=xml->getpar127("filter_par1",Pfilterpar1); - Pfilterpar2=xml->getpar127("filter_par2",Pfilterpar2); - Pfilterbeforews=xml->getpar127("filter_before_wave_shaping",Pfilterbeforews); + Psatype = xml->getpar127("spectrum_adjust_type", Psatype); + Psapar = xml->getpar127("spectrum_adjust_par", Psapar); - Psatype=xml->getpar127("spectrum_adjust_type",Psatype); - Psapar=xml->getpar127("spectrum_adjust_par",Psapar); + Prand = xml->getpar127("rand", Prand); + Pamprandtype = xml->getpar127("amp_rand_type", Pamprandtype); + Pamprandpower = xml->getpar127("amp_rand_power", Pamprandpower); - Prand=xml->getpar127("rand",Prand); - Pamprandtype=xml->getpar127("amp_rand_type",Pamprandtype); - Pamprandpower=xml->getpar127("amp_rand_power",Pamprandpower); + Pharmonicshift = xml->getpar("harmonic_shift", + Pharmonicshift, + -64, + 64); + Pharmonicshiftfirst = xml->getparbool("harmonic_shift_first", + Pharmonicshiftfirst); - Pharmonicshift=xml->getpar("harmonic_shift",Pharmonicshift,-64,64); - Pharmonicshiftfirst=xml->getparbool("harmonic_shift_first",Pharmonicshiftfirst); - - Padaptiveharmonics=xml->getpar("adaptive_harmonics",Padaptiveharmonics,0,127); - Padaptiveharmonicsbasefreq=xml->getpar("adaptive_harmonics_base_frequency",Padaptiveharmonicsbasefreq,0,255); - Padaptiveharmonicspower=xml->getpar("adaptive_harmonics_power",Padaptiveharmonicspower,0,200); + Padaptiveharmonics = xml->getpar("adaptive_harmonics", + Padaptiveharmonics, + 0, + 127); + Padaptiveharmonicsbasefreq = xml->getpar( + "adaptive_harmonics_base_frequency", + Padaptiveharmonicsbasefreq, + 0, + 255); + Padaptiveharmonicspower = xml->getpar("adaptive_harmonics_power", + Padaptiveharmonicspower, + 0, + 200); - if (xml->enterbranch("HARMONICS")) { - Phmag[0]=64; - Phphase[0]=64; - for (int n=0;nenterbranch("HARMONIC",n+1)==0) continue; - Phmag[n]=xml->getpar127("mag",64); - Phphase[n]=xml->getpar127("phase",64); + if(xml->enterbranch("HARMONICS")) { + Phmag[0] = 64; + Phphase[0] = 64; + for(int n = 0; n < MAX_AD_HARMONICS; n++) { + if(xml->enterbranch("HARMONIC", n + 1) == 0) + continue; + Phmag[n] = xml->getpar127("mag", 64); + Phphase[n] = xml->getpar127("phase", 64); xml->exitbranch(); - }; + } xml->exitbranch(); - }; + } - if (Pcurrentbasefunc!=0) changebasefunction(); + if(Pcurrentbasefunc != 0) + changebasefunction(); - if (xml->enterbranch("BASE_FUNCTION")) { - for (int i=1;ienterbranch("BF_HARMONIC",i)) { - basefuncFFTfreqs.c[i]=xml->getparreal("cos",0.0); - basefuncFFTfreqs.s[i]=xml->getparreal("sin",0.0); + if(xml->enterbranch("BASE_FUNCTION")) { + for(int i = 1; i < OSCIL_SIZE / 2; i++) { + if(xml->enterbranch("BF_HARMONIC", i)) { + basefuncFFTfreqs.c[i] = xml->getparreal("cos", 0.0); + basefuncFFTfreqs.s[i] = xml->getparreal("sin", 0.0); xml->exitbranch(); - }; - - - }; + } + } xml->exitbranch(); - REALTYPE max=0.0; + REALTYPE max = 0.0; - basefuncFFTfreqs.c[0]=0.0; - for (int i=0;ivelocity=velocity; - finished_=false; + pars = parameters; + portamento = portamento_; + ctl = ctl_; + this->velocity = velocity; + finished_ = false; - if (pars->Pfixedfreq==0) basefreq=freq; + if(pars->Pfixedfreq == 0) + basefreq = freq; else { - basefreq=440.0; - int fixedfreqET=pars->PfixedfreqET; - if (fixedfreqET!=0) {//if the frequency varies according the keyboard note - REALTYPE tmp=(midinote-69.0)/12.0*(pow(2.0,(fixedfreqET-1)/63.0)-1.0); - if (fixedfreqET<=64) basefreq*=pow(2.0,tmp); - else basefreq*=pow(3.0,tmp); - }; + basefreq = 440.0; + int fixedfreqET = pars->PfixedfreqET; + if(fixedfreqET != 0) { //if the frequency varies according the keyboard note + REALTYPE tmp = + (midinote + - 69.0) / 12.0 * (pow(2.0, (fixedfreqET - 1) / 63.0) - 1.0); + if(fixedfreqET <= 64) + basefreq *= pow(2.0, tmp); + else + basefreq *= pow(3.0, tmp); + } + } - }; - - firsttime=true; - released=false; - realfreq=basefreq; - NoteGlobalPar.Detune=getdetune(pars->PDetuneType - ,pars->PCoarseDetune,pars->PDetune); + firsttime = true; + released = false; + realfreq = basefreq; + NoteGlobalPar.Detune = getdetune(pars->PDetuneType, + pars->PCoarseDetune, pars->PDetune); //find out the closest note - REALTYPE logfreq=log(basefreq*pow(2.0,NoteGlobalPar.Detune/1200.0)); - REALTYPE mindist=fabs(logfreq-log(pars->sample[0].basefreq+0.0001)); - nsample=0; - for (int i=1;isample[i].smp==NULL) break; - REALTYPE dist=fabs(logfreq-log(pars->sample[i].basefreq+0.0001)); + REALTYPE logfreq = log(basefreq * pow(2.0, NoteGlobalPar.Detune / 1200.0)); + REALTYPE mindist = fabs(logfreq - log(pars->sample[0].basefreq + 0.0001)); + nsample = 0; + for(int i = 1; i < PAD_MAX_SAMPLES; i++) { + if(pars->sample[i].smp == NULL) + break; + REALTYPE dist = fabs(logfreq - log(pars->sample[i].basefreq + 0.0001)); // printf("(mindist=%g) %i %g %g\n",mindist,i,dist,pars->sample[i].basefreq); - if (distsample[nsample].size; - if (size==0) size=1; + int size = pars->sample[nsample].size; + if(size == 0) + size = 1; - poshi_l=(int)(RND*(size-1)); - if (pars->PStereo!=0) poshi_r=(poshi_l+size/2)%size; - else poshi_r=poshi_l; - poslo=0.0; + poshi_l = (int)(RND * (size - 1)); + if(pars->PStereo != 0) + poshi_r = (poshi_l + size / 2) % size; + else + poshi_r = poshi_l; + poslo = 0.0; - tmpwave=new REALTYPE [SOUND_BUFFER_SIZE]; + tmpwave = new REALTYPE [SOUND_BUFFER_SIZE]; - if (pars->PPanning==0) NoteGlobalPar.Panning=RND; - else NoteGlobalPar.Panning=pars->PPanning/128.0; + if(pars->PPanning == 0) + NoteGlobalPar.Panning = RND; + else + NoteGlobalPar.Panning = pars->PPanning / 128.0; - NoteGlobalPar.FilterCenterPitch=pars->GlobalFilter->getfreq()+//center freq - pars->PFilterVelocityScale/127.0*6.0* //velocity sensing - (VelF(velocity,pars->PFilterVelocityScaleFunction)-1); + NoteGlobalPar.FilterCenterPitch = pars->GlobalFilter->getfreq() //center freq + + pars->PFilterVelocityScale / 127.0 + * 6.0 //velocity sensing + * (VelF(velocity, + pars-> + PFilterVelocityScaleFunction) - 1); - if (pars->PPunchStrength!=0) { - NoteGlobalPar.Punch.Enabled=1; - NoteGlobalPar.Punch.t=1.0;//start from 1.0 and to 0.0 - NoteGlobalPar.Punch.initialvalue=( (pow(10,1.5*pars->PPunchStrength/127.0)-1.0) - *VelF(velocity,pars->PPunchVelocitySensing) ); - REALTYPE time=pow(10,3.0*pars->PPunchTime/127.0)/10000.0;//0.1 .. 100 ms - REALTYPE stretch=pow(440.0/freq,pars->PPunchStretch/64.0); - NoteGlobalPar.Punch.dt=1.0/(time*SAMPLE_RATE*stretch); - } else NoteGlobalPar.Punch.Enabled=0; + if(pars->PPunchStrength != 0) { + NoteGlobalPar.Punch.Enabled = 1; + NoteGlobalPar.Punch.t = 1.0; //start from 1.0 and to 0.0 + NoteGlobalPar.Punch.initialvalue = + ((pow(10, 1.5 * pars->PPunchStrength / 127.0) - 1.0) + * VelF(velocity, + pars->PPunchVelocitySensing)); + REALTYPE time = pow(10, 3.0 * pars->PPunchTime / 127.0) / 10000.0; //0.1 .. 100 ms + REALTYPE stretch = pow(440.0 / freq, pars->PPunchStretch / 64.0); + NoteGlobalPar.Punch.dt = 1.0 / (time * SAMPLE_RATE * stretch); + } + else + NoteGlobalPar.Punch.Enabled = 0; - NoteGlobalPar.FreqEnvelope=new Envelope(pars->FreqEnvelope,basefreq); - NoteGlobalPar.FreqLfo=new LFO(pars->FreqLfo,basefreq); + 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.AmpEnvelope = new Envelope(pars->AmpEnvelope, basefreq); + NoteGlobalPar.AmpLfo = new LFO(pars->AmpLfo, basefreq); - NoteGlobalPar.Volume=4.0*pow(0.1,3.0*(1.0-pars->PVolume/96.0))//-60 dB .. 0 dB - *VelF(velocity,pars->PAmpVelocityScaleFunction);//velocity sensing + NoteGlobalPar.Volume = 4.0 * pow(0.1, 3.0 * (1.0 - pars->PVolume / 96.0)) //-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(); + NoteGlobalPar.AmpEnvelope->envout_dB(); //discard the first envelope output + globaloldamplitude = globalnewamplitude = NoteGlobalPar.Volume + * NoteGlobalPar.AmpEnvelope-> + envout_dB() + * NoteGlobalPar.AmpLfo->amplfoout(); - NoteGlobalPar.GlobalFilterL=new Filter(pars->GlobalFilter); - NoteGlobalPar.GlobalFilterR=new Filter(pars->GlobalFilter); + NoteGlobalPar.GlobalFilterL = new Filter(pars->GlobalFilter); + NoteGlobalPar.GlobalFilterR = new Filter(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); + 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); - ready=1;///sa il pun pe asta doar cand e chiar gata + ready = 1; ///sa il pun pe asta doar cand e chiar gata - if (parameters->sample[nsample].smp==NULL) { - finished_=true; + if(parameters->sample[nsample].smp == NULL) { + finished_ = true; return; - }; -}; + } +} // PADlegatonote: This function is (mostly) a copy of PADnote(...) // with some lines removed so that it only alter the already playing // note (to perform legato). It is possible I left stuff that is not // required for this. -void PADnote::PADlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, int midinote, bool externcall) +void PADnote::PADlegatonote(REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool externcall) { - PADnoteParameters *parameters=pars; + PADnoteParameters *parameters = pars; //Controller *ctl_=ctl; // Manage legato stuff - if (externcall) Legato.msg=LM_Norm; - if (Legato.msg!=LM_CatchUp) { - Legato.lastfreq=Legato.param.freq; - Legato.param.freq=freq; - Legato.param.vel=velocity; - Legato.param.portamento=portamento_; - Legato.param.midinote=midinote; - if (Legato.msg==LM_Norm) { - if (Legato.silent) { - Legato.fade.m=0.0; - Legato.msg=LM_FadeIn; - } else { - Legato.fade.m=1.0; - Legato.msg=LM_FadeOut; + if(externcall) + Legato.msg = LM_Norm; + if(Legato.msg != LM_CatchUp) { + Legato.lastfreq = Legato.param.freq; + Legato.param.freq = freq; + Legato.param.vel = velocity; + Legato.param.portamento = portamento_; + Legato.param.midinote = midinote; + if(Legato.msg == LM_Norm) { + if(Legato.silent) { + Legato.fade.m = 0.0; + Legato.msg = LM_FadeIn; + } + else { + Legato.fade.m = 1.0; + Legato.msg = LM_FadeOut; return; } } - if (Legato.msg==LM_ToNorm) Legato.msg=LM_Norm; + if(Legato.msg == LM_ToNorm) + Legato.msg = LM_Norm; } - portamento=portamento_; - this->velocity=velocity; - finished_=false; + portamento = portamento_; + this->velocity = velocity; + finished_ = false; - if (pars->Pfixedfreq==0) basefreq=freq; + if(pars->Pfixedfreq == 0) + basefreq = freq; else { - basefreq=440.0; - int fixedfreqET=pars->PfixedfreqET; - if (fixedfreqET!=0) {//if the frequency varies according the keyboard note - REALTYPE tmp=(midinote-69.0)/12.0*(pow(2.0,(fixedfreqET-1)/63.0)-1.0); - if (fixedfreqET<=64) basefreq*=pow(2.0,tmp); - else basefreq*=pow(3.0,tmp); - }; - }; + basefreq = 440.0; + int fixedfreqET = pars->PfixedfreqET; + if(fixedfreqET != 0) { //if the frequency varies according the keyboard note + REALTYPE tmp = + (midinote + - 69.0) / 12.0 * (pow(2.0, (fixedfreqET - 1) / 63.0) - 1.0); + if(fixedfreqET <= 64) + basefreq *= pow(2.0, tmp); + else + basefreq *= pow(3.0, tmp); + } + } - released=false; - realfreq=basefreq; + released = false; + realfreq = basefreq; - getdetune(pars->PDetuneType,pars->PCoarseDetune,pars->PDetune); + getdetune(pars->PDetuneType, pars->PCoarseDetune, pars->PDetune); //find out the closest note - REALTYPE logfreq=log(basefreq*pow(2.0,NoteGlobalPar.Detune/1200.0)); - REALTYPE mindist=fabs(logfreq-log(pars->sample[0].basefreq+0.0001)); - nsample=0; - for (int i=1;isample[i].smp==NULL) break; - REALTYPE dist=fabs(logfreq-log(pars->sample[i].basefreq+0.0001)); + REALTYPE logfreq = log(basefreq * pow(2.0, NoteGlobalPar.Detune / 1200.0)); + REALTYPE mindist = fabs(logfreq - log(pars->sample[0].basefreq + 0.0001)); + nsample = 0; + for(int i = 1; i < PAD_MAX_SAMPLES; i++) { + if(pars->sample[i].smp == NULL) + break; + REALTYPE dist = fabs(logfreq - log(pars->sample[i].basefreq + 0.0001)); - if (distsample[nsample].size; - if (size==0) size=1; + int size = pars->sample[nsample].size; + if(size == 0) + size = 1; - if (pars->PPanning==0) NoteGlobalPar.Panning=RND; - else NoteGlobalPar.Panning=pars->PPanning/128.0; + if(pars->PPanning == 0) + NoteGlobalPar.Panning = RND; + else + NoteGlobalPar.Panning = pars->PPanning / 128.0; - NoteGlobalPar.FilterCenterPitch=pars->GlobalFilter->getfreq()+//center freq - pars->PFilterVelocityScale/127.0*6.0* //velocity sensing - (VelF(velocity,pars->PFilterVelocityScaleFunction)-1); + NoteGlobalPar.FilterCenterPitch = pars->GlobalFilter->getfreq() //center freq + + pars->PFilterVelocityScale / 127.0 + * 6.0 //velocity sensing + * (VelF(velocity, + pars-> + PFilterVelocityScaleFunction) - 1); - NoteGlobalPar.Volume=4.0*pow(0.1,3.0*(1.0-pars->PVolume/96.0))//-60 dB .. 0 dB - *VelF(velocity,pars->PAmpVelocityScaleFunction);//velocity sensing + NoteGlobalPar.Volume = 4.0 * pow(0.1, 3.0 * (1.0 - pars->PVolume / 96.0)) //-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(); + NoteGlobalPar.AmpEnvelope->envout_dB(); //discard the first envelope output + globaloldamplitude = globalnewamplitude = NoteGlobalPar.Volume + * NoteGlobalPar.AmpEnvelope-> + envout_dB() + * NoteGlobalPar.AmpLfo->amplfoout(); - NoteGlobalPar.FilterQ=pars->GlobalFilter->getq(); - NoteGlobalPar.FilterFreqTracking=pars->GlobalFilter->getfreqtracking(basefreq); + NoteGlobalPar.FilterQ = pars->GlobalFilter->getq(); + NoteGlobalPar.FilterFreqTracking = pars->GlobalFilter->getfreqtracking( + basefreq); - if (parameters->sample[nsample].smp==NULL) { - finished_=true; + if(parameters->sample[nsample].smp == NULL) { + finished_ = true; return; - }; + } // End of the PADlegatonote function. -}; +} PADnote::~PADnote() @@ -246,282 +298,317 @@ PADnote::~PADnote() delete (NoteGlobalPar.FilterEnvelope); delete (NoteGlobalPar.FilterLfo); delete [] tmpwave; -}; +} inline void PADnote::fadein(REALTYPE *smps) { - int zerocrossings=0; - for (int i=1;i0.0)) zerocrossings++;//this is only the possitive crossings + int zerocrossings = 0; + for(int i = 1; i < SOUND_BUFFER_SIZE; i++) + if((smps[i - 1] < 0.0) && (smps[i] > 0.0)) + zerocrossings++; //this is only the possitive crossings - REALTYPE tmp=(SOUND_BUFFER_SIZE-1.0)/(zerocrossings+1)/3.0; - if (tmp<8.0) tmp=8.0; + REALTYPE tmp = (SOUND_BUFFER_SIZE - 1.0) / (zerocrossings + 1) / 3.0; + if(tmp < 8.0) + tmp = 8.0; int n; - F2I(tmp,n);//how many samples is the fade-in - if (n>SOUND_BUFFER_SIZE) n=SOUND_BUFFER_SIZE; - for (int i=0;i SOUND_BUFFER_SIZE) + n = SOUND_BUFFER_SIZE; + for(int i = 0; i < n; i++) { //fade-in + REALTYPE tmp = 0.5 - cos((REALTYPE)i / (REALTYPE) n * PI) * 0.5; + smps[i] *= tmp; + } +} void PADnote::computecurrentparameters() { - REALTYPE globalpitch,globalfilterpitch; - globalpitch=0.01*(NoteGlobalPar.FreqEnvelope->envout()+ - NoteGlobalPar.FreqLfo->lfoout()*ctl->modwheel.relmod+NoteGlobalPar.Detune); - globaloldamplitude=globalnewamplitude; - globalnewamplitude=NoteGlobalPar.Volume*NoteGlobalPar.AmpEnvelope->envout_dB()*NoteGlobalPar.AmpLfo->amplfoout(); + REALTYPE globalpitch, globalfilterpitch; + globalpitch = 0.01 * (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; + globalfilterpitch = NoteGlobalPar.FilterEnvelope->envout() + + NoteGlobalPar.FilterLfo->lfoout() + + NoteGlobalPar.FilterCenterPitch; - REALTYPE tmpfilterfreq=globalfilterpitch+ctl->filtercutoff.relfreq - +NoteGlobalPar.FilterFreqTracking; + REALTYPE tmpfilterfreq = globalfilterpitch + ctl->filtercutoff.relfreq + + NoteGlobalPar.FilterFreqTracking; - tmpfilterfreq=NoteGlobalPar.GlobalFilterL->getrealfreq(tmpfilterfreq); + tmpfilterfreq = NoteGlobalPar.GlobalFilterL->getrealfreq(tmpfilterfreq); - REALTYPE globalfilterq=NoteGlobalPar.FilterQ*ctl->filterq.relq; - NoteGlobalPar.GlobalFilterL->setfreq_and_q(tmpfilterfreq,globalfilterq); - NoteGlobalPar.GlobalFilterR->setfreq_and_q(tmpfilterfreq,globalfilterq); + REALTYPE 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 - REALTYPE portamentofreqrap=1.0; - 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" - }; - }; + REALTYPE portamentofreqrap = 1.0; + 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*pow(2.0,globalpitch/12.0)*ctl->pitchwheel.relfreq; -}; + realfreq = basefreq * portamentofreqrap + * pow(2.0, globalpitch / 12.0) * ctl->pitchwheel.relfreq; +} -int PADnote::Compute_Linear(REALTYPE *outl,REALTYPE *outr,int freqhi,REALTYPE freqlo) +int PADnote::Compute_Linear(REALTYPE *outl, + REALTYPE *outr, + int freqhi, + REALTYPE freqlo) { - REALTYPE *smps=pars->sample[nsample].smp; - if (smps==NULL) { - finished_=true; - return(1); - }; - int size=pars->sample[nsample].size; - for (int i=0;i=1.0) { - poshi_l+=1; - poshi_r+=1; - poslo-=1.0; - }; - if (poshi_l>=size) poshi_l%=size; - if (poshi_r>=size) poshi_r%=size; + REALTYPE *smps = pars->sample[nsample].smp; + if(smps == NULL) { + finished_ = true; + return 1; + } + int size = pars->sample[nsample].size; + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + poshi_l += freqhi; + poshi_r += freqhi; + poslo += freqlo; + if(poslo >= 1.0) { + poshi_l += 1; + poshi_r += 1; + poslo -= 1.0; + } + if(poshi_l >= size) + poshi_l %= size; + if(poshi_r >= size) + poshi_r %= size; - outl[i]=smps[poshi_l]*(1.0-poslo)+smps[poshi_l+1]*poslo; - outr[i]=smps[poshi_r]*(1.0-poslo)+smps[poshi_r+1]*poslo; - }; - return(1); -}; -int PADnote::Compute_Cubic(REALTYPE *outl,REALTYPE *outr,int freqhi,REALTYPE freqlo) + outl[i] = smps[poshi_l] * (1.0 - poslo) + smps[poshi_l + 1] * poslo; + outr[i] = smps[poshi_r] * (1.0 - poslo) + smps[poshi_r + 1] * poslo; + } + return 1; +} +int PADnote::Compute_Cubic(REALTYPE *outl, + REALTYPE *outr, + int freqhi, + REALTYPE freqlo) { - REALTYPE *smps=pars->sample[nsample].smp; - if (smps==NULL) { - finished_=true; - return(1); - }; - int size=pars->sample[nsample].size; - REALTYPE xm1,x0,x1,x2,a,b,c; - for (int i=0;i=1.0) { - poshi_l+=1; - poshi_r+=1; - poslo-=1.0; - }; - if (poshi_l>=size) poshi_l%=size; - if (poshi_r>=size) poshi_r%=size; + REALTYPE *smps = pars->sample[nsample].smp; + if(smps == NULL) { + finished_ = true; + return 1; + } + int size = pars->sample[nsample].size; + REALTYPE xm1, x0, x1, x2, a, b, c; + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + poshi_l += freqhi; + poshi_r += freqhi; + poslo += freqlo; + if(poslo >= 1.0) { + poshi_l += 1; + poshi_r += 1; + poslo -= 1.0; + } + 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 = (3.0 * (x0-x1) - xm1 + x2)*0.5; - b = 2.0*x1 + xm1 - (5.0*x0 + x2)*0.5; - c = (x1 - xm1)*0.5; + xm1 = smps[poshi_l]; + x0 = smps[poshi_l + 1]; + x1 = smps[poshi_l + 2]; + x2 = smps[poshi_l + 3]; + a = (3.0 * (x0 - x1) - xm1 + x2) * 0.5; + b = 2.0 * x1 + xm1 - (5.0 * x0 + x2) * 0.5; + c = (x1 - xm1) * 0.5; 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 = (3.0 * (x0-x1) - xm1 + x2)*0.5; - b = 2.0*x1 + xm1 - (5.0*x0 + x2)*0.5; - c = (x1 - xm1)*0.5; + xm1 = smps[poshi_r]; + x0 = smps[poshi_r + 1]; + x1 = smps[poshi_r + 2]; + x2 = smps[poshi_r + 3]; + a = (3.0 * (x0 - x1) - xm1 + x2) * 0.5; + b = 2.0 * x1 + xm1 - (5.0 * x0 + x2) * 0.5; + c = (x1 - xm1) * 0.5; outr[i] = (((a * poslo) + b) * poslo + c) * poslo + x0; - }; - return(1); -}; + } + return 1; +} -int PADnote::noteout(REALTYPE *outl,REALTYPE *outr) +int PADnote::noteout(REALTYPE *outl, REALTYPE *outr) { computecurrentparameters(); - REALTYPE *smps=pars->sample[nsample].smp; - if (smps==NULL) { - for (int i=0;isample[nsample].basefreq; + REALTYPE *smps = pars->sample[nsample].smp; + if(smps == NULL) { + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { + outl[i] = 0.0; + outr[i] = 0.0; + } + return 1; + } + REALTYPE smpfreq = pars->sample[nsample].basefreq; - REALTYPE freqrap=realfreq/smpfreq; - int freqhi=(int) (floor(freqrap)); - REALTYPE freqlo=freqrap-floor(freqrap); + REALTYPE freqrap = realfreq / smpfreq; + int freqhi = (int) (floor(freqrap)); + REALTYPE freqlo = freqrap - floor(freqrap); - if (config.cfg.Interpolation) Compute_Cubic(outl,outr,freqhi,freqlo); - else Compute_Linear(outl,outr,freqhi,freqlo); + if(config.cfg.Interpolation) + Compute_Cubic(outl, outr, freqhi, freqlo); + else + Compute_Linear(outl, outr, freqhi, freqlo); - if (firsttime) { + if(firsttime) { fadein(outl); fadein(outr); - firsttime=false; - }; + firsttime = false; + } NoteGlobalPar.GlobalFilterL->filterout(outl); NoteGlobalPar.GlobalFilterR->filterout(outr); //Apply the punch - if (NoteGlobalPar.Punch.Enabled!=0) { - for (int i=0;ifinished()!=0) { - for (int i=0;ifinished() != 0) { + for(int i = 0; i < SOUND_BUFFER_SIZE; i++) { //fade-out + REALTYPE tmp = 1.0 - (REALTYPE)i / (REALTYPE)SOUND_BUFFER_SIZE; + outl[i] *= tmp; + outr[i] *= tmp; + } + finished_ = 1; + } - return(1); -}; + return 1; +} int PADnote::finished() { - return(finished_); -}; + return finished_; +} void PADnote::relasekey() { NoteGlobalPar.FreqEnvelope->relasekey(); NoteGlobalPar.FilterEnvelope->relasekey(); NoteGlobalPar.AmpEnvelope->relasekey(); -}; +} diff --git a/plugins/zynaddsubfx/src/Synth/PADnote.h b/plugins/zynaddsubfx/src/Synth/PADnote.h index 4722857f0..956353218 100644 --- a/plugins/zynaddsubfx/src/Synth/PADnote.h +++ b/plugins/zynaddsubfx/src/Synth/PADnote.h @@ -32,95 +32,112 @@ /**The "pad" synthesizer*/ class PADnote { -public: - PADnote(PADnoteParameters *parameters, Controller *ctl_,REALTYPE freq, REALTYPE velocity, int portamento_, int midinote, bool besilent); - ~PADnote(); + public: + PADnote(PADnoteParameters *parameters, + Controller *ctl_, + REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool besilent); + ~PADnote(); - void PADlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, int midinote, bool externcall); + void PADlegatonote(REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool externcall); - int noteout(REALTYPE *outl,REALTYPE *outr); - int finished(); - void relasekey(); + int noteout(REALTYPE *outl, REALTYPE *outr); + int finished(); + void relasekey(); - int ready; + int ready; -private: - void fadein(REALTYPE *smps); - void computecurrentparameters(); - bool finished_; - PADnoteParameters *pars; + private: + void fadein(REALTYPE *smps); + void computecurrentparameters(); + bool finished_; + PADnoteParameters *pars; - int poshi_l,poshi_r; - REALTYPE poslo; + int poshi_l, poshi_r; + REALTYPE poslo; - REALTYPE basefreq; - bool firsttime,released; + REALTYPE basefreq; + bool firsttime, released; - int nsample,portamento; + int nsample, portamento; - int Compute_Linear(REALTYPE *outl,REALTYPE *outr,int freqhi,REALTYPE freqlo); - int Compute_Cubic(REALTYPE *outl,REALTYPE *outr,int freqhi,REALTYPE freqlo); + int Compute_Linear(REALTYPE *outl, + REALTYPE *outr, + int freqhi, + REALTYPE freqlo); + int Compute_Cubic(REALTYPE *outl, + REALTYPE *outr, + int freqhi, + REALTYPE freqlo); - struct { - /****************************************** - * FREQUENCY GLOBAL PARAMETERS * - ******************************************/ - REALTYPE Detune;//cents - - Envelope *FreqEnvelope; - LFO *FreqLfo; - - /******************************************** - * AMPLITUDE GLOBAL PARAMETERS * - ********************************************/ - REALTYPE Volume;// [ 0 .. 1 ] - - REALTYPE Panning;// [ 0 .. 1 ] - - Envelope *AmpEnvelope; - LFO *AmpLfo; - struct { - int Enabled; - REALTYPE initialvalue,dt,t; - } Punch; + /****************************************** + * FREQUENCY GLOBAL PARAMETERS * + ******************************************/ + REALTYPE Detune; //cents - /****************************************** - * FILTER GLOBAL PARAMETERS * - ******************************************/ - Filter *GlobalFilterL,*GlobalFilterR; + Envelope *FreqEnvelope; + LFO *FreqLfo; - REALTYPE FilterCenterPitch;//octaves - REALTYPE FilterQ; - REALTYPE FilterFreqTracking; + /******************************************** + * AMPLITUDE GLOBAL PARAMETERS * + ********************************************/ + REALTYPE Volume; // [ 0 .. 1 ] - Envelope *FilterEnvelope; + REALTYPE Panning; // [ 0 .. 1 ] - LFO *FilterLfo; - } NoteGlobalPar; + Envelope *AmpEnvelope; + LFO *AmpLfo; + + struct { + int Enabled; + REALTYPE initialvalue, dt, t; + } Punch; + + /****************************************** + * FILTER GLOBAL PARAMETERS * + ******************************************/ + Filter *GlobalFilterL, *GlobalFilterR; + + REALTYPE FilterCenterPitch; //octaves + REALTYPE FilterQ; + REALTYPE FilterFreqTracking; + + Envelope *FilterEnvelope; + + LFO *FilterLfo; + } NoteGlobalPar; - REALTYPE globaloldamplitude,globalnewamplitude,velocity,realfreq; - REALTYPE *tmpwave; - Controller *ctl; + REALTYPE globaloldamplitude, globalnewamplitude, velocity, realfreq; + REALTYPE *tmpwave; + Controller *ctl; - // Legato vars - struct { - bool silent; - REALTYPE lastfreq; - LegatoMsg msg; - int decounter; - struct { // Fade In/Out vars - int length; - REALTYPE m, step; - } fade; - struct { // Note parameters - REALTYPE freq, vel; - int portamento, midinote; - } param; - } Legato; + // Legato vars + struct { + bool silent; + REALTYPE lastfreq; + LegatoMsg msg; + int decounter; + struct { // Fade In/Out vars + int length; + REALTYPE m, step; + } fade; + struct { // Note parameters + REALTYPE freq, vel; + int portamento, midinote; + } param; + } Legato; }; #endif + diff --git a/plugins/zynaddsubfx/src/Synth/Resonance.cpp b/plugins/zynaddsubfx/src/Synth/Resonance.cpp index fcf043d3a..4e12572a3 100644 --- a/plugins/zynaddsubfx/src/Synth/Resonance.cpp +++ b/plugins/zynaddsubfx/src/Synth/Resonance.cpp @@ -30,68 +30,79 @@ Resonance::Resonance():Presets() { setpresettype("Presonance"); defaults(); -}; +} Resonance::~Resonance() -{ -}; +{} void Resonance::defaults() { - Penabled=0; - PmaxdB=20; - Pcenterfreq=64;//1 kHz - Poctavesfreq=64; - Pprotectthefundamental=0; - ctlcenter=1.0; - ctlbw=1.0; - for (int i=0;i=N_RES_POINTS)) return; - Prespoints[n]=p; -}; + if((n < 0) || (n >= N_RES_POINTS)) + return; + Prespoints[n] = p; +} /* * Apply the resonance to FFT data */ -void Resonance::applyres(int n,FFTFREQS fftdata,REALTYPE freq) +void Resonance::applyres(int n, FFTFREQS fftdata, REALTYPE freq) { - if (Penabled==0) return;//if the resonance is disabled - REALTYPE sum=0.0, - l1=log(getfreqx(0.0)*ctlcenter), - l2=log(2.0)*getoctavesfreq()*ctlbw; + if(Penabled == 0) + return; //if the resonance is disabled + REALTYPE sum = 0.0, + l1 = log(getfreqx(0.0) * ctlcenter), + l2 = log(2.0) * getoctavesfreq() * ctlbw; - for (int i=0;i=N_RES_POINTS) kx1=N_RES_POINTS-1; - int kx2=kx1+1; - if (kx2>=N_RES_POINTS) kx2=N_RES_POINTS-1; - REALTYPE y=(Prespoints[kx1]*(1.0-dx)+Prespoints[kx2]*dx)/127.0-sum/127.0; + x *= N_RES_POINTS; + REALTYPE dx = x - floor(x); + x = floor(x); + int kx1 = (int)x; + if(kx1 >= N_RES_POINTS) + kx1 = N_RES_POINTS - 1; + int kx2 = kx1 + 1; + if(kx2 >= N_RES_POINTS) + kx2 = N_RES_POINTS - 1; + REALTYPE y = + (Prespoints[kx1] + * (1.0 - dx) + Prespoints[kx2] * dx) / 127.0 - sum / 127.0; - y=pow(10.0,y*PmaxdB/20.0); + y = pow(10.0, y * PmaxdB / 20.0); - if ((Pprotectthefundamental!=0)&&(i==1)) y=1.0; + if((Pprotectthefundamental != 0) && (i == 1)) + y = 1.0; - fftdata.c[i]*=y; - fftdata.s[i]*=y; - }; -}; + fftdata.c[i] *= y; + fftdata.s[i] *= y; + } +} /* * Gets the response at the frequency "freq" @@ -99,25 +110,33 @@ void Resonance::applyres(int n,FFTFREQS fftdata,REALTYPE freq) REALTYPE Resonance::getfreqresponse(REALTYPE freq) { - REALTYPE l1=log(getfreqx(0.0)*ctlcenter), - l2=log(2.0)*getoctavesfreq()*ctlbw,sum=0.0; + REALTYPE l1 = log(getfreqx(0.0) * ctlcenter), + l2 = log(2.0) * getoctavesfreq() * ctlbw, sum = 0.0; - for (int i=0;i=N_RES_POINTS) kx1=N_RES_POINTS-1; - int kx2=kx1+1; - if (kx2>=N_RES_POINTS) kx2=N_RES_POINTS-1; - REALTYPE result=(Prespoints[kx1]*(1.0-dx)+Prespoints[kx2]*dx)/127.0-sum/127.0; - result=pow(10.0,result*PmaxdB/20.0); - return(result); -}; + REALTYPE x = (log(freq) - l1) / l2; //compute where the n-th hamonics fits to the graph + if(x < 0.0) + x = 0.0; + x *= N_RES_POINTS; + REALTYPE dx = x - floor(x); + x = floor(x); + int kx1 = (int)x; + if(kx1 >= N_RES_POINTS) + kx1 = N_RES_POINTS - 1; + int kx2 = kx1 + 1; + if(kx2 >= N_RES_POINTS) + kx2 = N_RES_POINTS - 1; + REALTYPE result = + (Prespoints[kx1] + * (1.0 - dx) + Prespoints[kx2] * dx) / 127.0 - sum / 127.0; + result = pow(10.0, result * PmaxdB / 20.0); + return result; +} /* @@ -125,129 +144,139 @@ REALTYPE Resonance::getfreqresponse(REALTYPE freq) */ void Resonance::smooth() { - REALTYPE old=Prespoints[0]; - for (int i=0;i0;i--) { - old=old*0.4+Prespoints[i]*0.6; - Prespoints[i]=(int) old+1; - if (Prespoints[i]>127) Prespoints[i]=127; - }; -}; + REALTYPE old = Prespoints[0]; + for(int i = 0; i < N_RES_POINTS; i++) { + old = old * 0.4 + Prespoints[i] * 0.6; + Prespoints[i] = (int) old; + } + old = Prespoints[N_RES_POINTS - 1]; + for(int i = N_RES_POINTS - 1; i > 0; i--) { + old = old * 0.4 + Prespoints[i] * 0.6; + Prespoints[i] = (int) old + 1; + if(Prespoints[i] > 127) + Prespoints[i] = 127; + } +} /* * Randomize the resonance function */ void Resonance::randomize(int type) { - int r=(int)(RND*127.0); - for (int i=0;i1.0) x=1.0; - REALTYPE octf=pow(2.0,getoctavesfreq()); - return(getcenterfreq()/sqrt(octf)*pow(octf,x)); -}; + if(x > 1.0) + x = 1.0; + REALTYPE octf = pow(2.0, getoctavesfreq()); + return getcenterfreq() / sqrt(octf) * pow(octf, x); +} /* * Get the x coordinate from frequency (used by the UI) */ REALTYPE Resonance::getfreqpos(REALTYPE freq) { - return((log(freq)-log(getfreqx(0.0)))/log(2.0)/getoctavesfreq()); -}; + return (log(freq) - log(getfreqx(0.0))) / log(2.0) / getoctavesfreq(); +} /* * Get the center frequency of the resonance graph */ REALTYPE Resonance::getcenterfreq() { - return(10000.0*pow(10,-(1.0-Pcenterfreq/127.0)*2.0)); -}; + return 10000.0 * pow(10, -(1.0 - Pcenterfreq / 127.0) * 2.0); +} /* * Get the number of octave that the resonance functions applies to */ REALTYPE Resonance::getoctavesfreq() { - return(0.25+10.0*Poctavesfreq/127.0); -}; + return 0.25 + 10.0 * Poctavesfreq / 127.0; +} -void Resonance::sendcontroller(MidiControllers ctl,REALTYPE par) +void Resonance::sendcontroller(MidiControllers ctl, REALTYPE par) { - if (ctl==C_resonance_center) ctlcenter=par; - else ctlbw=par; -}; + if(ctl == C_resonance_center) + ctlcenter = par; + else + ctlbw = par; +} void Resonance::add2XML(XMLwrapper *xml) { - xml->addparbool("enabled",Penabled); + xml->addparbool("enabled", Penabled); - if ((Penabled==0)&&(xml->minimal)) return; + if((Penabled == 0) && (xml->minimal)) + return; - xml->addpar("max_db",PmaxdB); - xml->addpar("center_freq",Pcenterfreq); - xml->addpar("octaves_freq",Poctavesfreq); - xml->addparbool("protect_fundamental_frequency",Pprotectthefundamental); - xml->addpar("resonance_points",N_RES_POINTS); - for (int i=0;ibeginbranch("RESPOINT",i); - xml->addpar("val",Prespoints[i]); + xml->addpar("max_db", PmaxdB); + xml->addpar("center_freq", Pcenterfreq); + xml->addpar("octaves_freq", Poctavesfreq); + xml->addparbool("protect_fundamental_frequency", Pprotectthefundamental); + xml->addpar("resonance_points", N_RES_POINTS); + for(int i = 0; i < N_RES_POINTS; i++) { + xml->beginbranch("RESPOINT", i); + xml->addpar("val", Prespoints[i]); xml->endbranch(); - }; -}; + } +} void Resonance::getfromXML(XMLwrapper *xml) { - Penabled=xml->getparbool("enabled",Penabled); + Penabled = xml->getparbool("enabled", Penabled); - PmaxdB=xml->getpar127("max_db",PmaxdB); - Pcenterfreq=xml->getpar127("center_freq",Pcenterfreq); - Poctavesfreq=xml->getpar127("octaves_freq",Poctavesfreq); - Pprotectthefundamental=xml->getparbool("protect_fundamental_frequency",Pprotectthefundamental); - for (int i=0;ienterbranch("RESPOINT",i)==0) continue; - Prespoints[i]=xml->getpar127("val",Prespoints[i]); + PmaxdB = xml->getpar127("max_db", PmaxdB); + Pcenterfreq = xml->getpar127("center_freq", Pcenterfreq); + Poctavesfreq = xml->getpar127("octaves_freq", Poctavesfreq); + Pprotectthefundamental = xml->getparbool("protect_fundamental_frequency", + Pprotectthefundamental); + for(int i = 0; i < N_RES_POINTS; i++) { + if(xml->enterbranch("RESPOINT", i) == 0) + continue; + Prespoints[i] = xml->getpar127("val", Prespoints[i]); xml->exitbranch(); - }; -}; - + } +} diff --git a/plugins/zynaddsubfx/src/Synth/Resonance.h b/plugins/zynaddsubfx/src/Synth/Resonance.h index 458ace0c4..6df43093d 100644 --- a/plugins/zynaddsubfx/src/Synth/Resonance.h +++ b/plugins/zynaddsubfx/src/Synth/Resonance.h @@ -31,39 +31,40 @@ class Resonance:public Presets { -public: - Resonance(); - ~Resonance(); - void setpoint(int n,unsigned char p); - void applyres(int n,FFTFREQS fftdata,REALTYPE freq); - void smooth(); - void interpolatepeaks(int type); - void randomize(int type); + public: + Resonance(); + ~Resonance(); + void setpoint(int n, unsigned char p); + void applyres(int n, FFTFREQS fftdata, REALTYPE freq); + void smooth(); + void interpolatepeaks(int type); + void randomize(int type); - void add2XML(XMLwrapper *xml); - void defaults(); - void getfromXML(XMLwrapper *xml); + void add2XML(XMLwrapper *xml); + void defaults(); + void getfromXML(XMLwrapper *xml); - REALTYPE getfreqpos(REALTYPE freq); - REALTYPE getfreqx(REALTYPE x); - REALTYPE getfreqresponse(REALTYPE freq); - REALTYPE getcenterfreq(); - REALTYPE getoctavesfreq(); - void sendcontroller(MidiControllers ctl,REALTYPE par); + REALTYPE getfreqpos(REALTYPE freq); + REALTYPE getfreqx(REALTYPE x); + REALTYPE getfreqresponse(REALTYPE freq); + REALTYPE getcenterfreq(); + REALTYPE getoctavesfreq(); + void sendcontroller(MidiControllers ctl, REALTYPE par); - //parameters - unsigned char Penabled; //if the ressonance is enabled - unsigned char Prespoints[N_RES_POINTS]; //how many points define the resonance function - unsigned char PmaxdB; //how many dB the signal may be amplified - unsigned char Pcenterfreq,Poctavesfreq; //the center frequency of the res. func., and the number of octaves - unsigned char Pprotectthefundamental; //the fundamental (1-st harmonic) is not damped, even it resonance function is low + //parameters + unsigned char Penabled; //if the ressonance is enabled + unsigned char Prespoints[N_RES_POINTS]; //how many points define the resonance function + unsigned char PmaxdB; //how many dB the signal may be amplified + unsigned char Pcenterfreq, Poctavesfreq; //the center frequency of the res. func., and the number of octaves + unsigned char Pprotectthefundamental; //the fundamental (1-st harmonic) is not damped, even it resonance function is low - //controllers - REALTYPE ctlcenter;//center frequency(relative) - REALTYPE ctlbw;//bandwidth(relative) + //controllers + REALTYPE ctlcenter; //center frequency(relative) + REALTYPE ctlbw; //bandwidth(relative) -private: + private: }; #endif + diff --git a/plugins/zynaddsubfx/src/Synth/SUBnote.cpp b/plugins/zynaddsubfx/src/Synth/SUBnote.cpp index 4dbd6c1c9..0a3affba5 100644 --- a/plugins/zynaddsubfx/src/Synth/SUBnote.cpp +++ b/plugins/zynaddsubfx/src/Synth/SUBnote.cpp @@ -27,419 +27,491 @@ #include "SUBnote.h" #include "../Misc/Util.h" -SUBnote::SUBnote(SUBnoteParameters *parameters,Controller *ctl_,REALTYPE freq,REALTYPE velocity,int portamento_,int midinote,bool besilent) +SUBnote::SUBnote(SUBnoteParameters *parameters, + Controller *ctl_, + REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool besilent) { - ready=0; + ready = 0; - tmpsmp=new REALTYPE[SOUND_BUFFER_SIZE]; - tmprnd=new REALTYPE[SOUND_BUFFER_SIZE]; + tmpsmp = new REALTYPE[SOUND_BUFFER_SIZE]; + tmprnd = new REALTYPE[SOUND_BUFFER_SIZE]; // Initialise some legato-specific vars - Legato.msg=LM_Norm; - Legato.fade.length=(int)(SAMPLE_RATE*0.005);// 0.005 seems ok. - if (Legato.fade.length<1) Legato.fade.length=1;// (if something's fishy) - Legato.fade.step=(1.0/Legato.fade.length); - Legato.decounter=-10; - Legato.param.freq=freq; - Legato.param.vel=velocity; - Legato.param.portamento=portamento_; - Legato.param.midinote=midinote; - Legato.silent=besilent; + Legato.msg = LM_Norm; + Legato.fade.length = (int)(SAMPLE_RATE * 0.005); // 0.005 seems ok. + if(Legato.fade.length < 1) + Legato.fade.length = 1; // (if something's fishy) + Legato.fade.step = (1.0 / Legato.fade.length); + Legato.decounter = -10; + Legato.param.freq = freq; + Legato.param.vel = velocity; + Legato.param.portamento = portamento_; + Legato.param.midinote = midinote; + Legato.silent = besilent; - pars=parameters; - ctl=ctl_; - portamento=portamento_; - NoteEnabled=ON; - volume=pow(0.1,3.0*(1.0-pars->PVolume/96.0));//-60 dB .. 0 dB - volume*=VelF(velocity,pars->PAmpVelocityScaleFunction); - if (pars->PPanning!=0) panning=pars->PPanning/127.0; - else panning=RND; - numstages=pars->Pnumstages; - stereo=pars->Pstereo; - start=pars->Pstart; - firsttick=1; + pars = parameters; + ctl = ctl_; + portamento = portamento_; + NoteEnabled = ON; + volume = pow(0.1, 3.0 * (1.0 - pars->PVolume / 96.0)); //-60 dB .. 0 dB + volume *= VelF(velocity, pars->PAmpVelocityScaleFunction); + if(pars->PPanning != 0) + panning = pars->PPanning / 127.0; + else + panning = RND; + numstages = pars->Pnumstages; + stereo = pars->Pstereo; + start = pars->Pstart; + firsttick = 1; int pos[MAX_SUB_HARMONICS]; - if (pars->Pfixedfreq==0) basefreq=freq; + if(pars->Pfixedfreq == 0) + basefreq = freq; else { - basefreq=440.0; - int fixedfreqET=pars->PfixedfreqET; - if (fixedfreqET!=0) {//if the frequency varies according the keyboard note - REALTYPE tmp=(midinote-69.0)/12.0*(pow(2.0,(fixedfreqET-1)/63.0)-1.0); - if (fixedfreqET<=64) basefreq*=pow(2.0,tmp); - else basefreq*=pow(3.0,tmp); - }; - - }; - REALTYPE detune=getdetune(pars->PDetuneType,pars->PCoarseDetune,pars->PDetune); - basefreq*=pow(2.0,detune/1200.0);//detune + basefreq = 440.0; + int fixedfreqET = pars->PfixedfreqET; + if(fixedfreqET != 0) { //if the frequency varies according the keyboard note + REALTYPE tmp = + (midinote + - 69.0) / 12.0 * (pow(2.0, (fixedfreqET - 1) / 63.0) - 1.0); + if(fixedfreqET <= 64) + basefreq *= pow(2.0, tmp); + else + basefreq *= pow(3.0, tmp); + } + } + REALTYPE detune = getdetune(pars->PDetuneType, + pars->PCoarseDetune, + pars->PDetune); + basefreq *= pow(2.0, detune / 1200.0); //detune // basefreq*=ctl->pitchwheel.relfreq;//pitch wheel //global filter - GlobalFilterCenterPitch=pars->GlobalFilter->getfreq()+//center freq - (pars->PGlobalFilterVelocityScale/127.0*6.0)* //velocity sensing - (VelF(velocity,pars->PGlobalFilterVelocityScaleFunction)-1); + GlobalFilterCenterPitch = pars->GlobalFilter->getfreq() //center freq + + (pars->PGlobalFilterVelocityScale / 127.0 * 6.0) //velocity sensing + * (VelF(velocity, + pars->PGlobalFilterVelocityScaleFunction) + - 1); - GlobalFilterL=NULL; - GlobalFilterR=NULL; - GlobalFilterEnvelope=NULL; + GlobalFilterL = NULL; + GlobalFilterR = NULL; + GlobalFilterEnvelope = NULL; //select only harmonics that desire to compute - numharmonics=0; - for (int n=0;nPhmag[n]==0)continue; - if (n*basefreq>SAMPLE_RATE/2.0) break;//remove the freqs above the Nyquist freq - pos[numharmonics++]=n; - }; - firstnumharmonics=numharmonics;//(gf)Useful in legato mode. + numharmonics = 0; + for(int n = 0; n < MAX_SUB_HARMONICS; n++) { + if(pars->Phmag[n] == 0) + continue; + if(n * basefreq > SAMPLE_RATE / 2.0) + break; //remove the freqs above the Nyquist freq + pos[numharmonics++] = n; + } + firstnumharmonics = numharmonics; //(gf)Useful in legato mode. - if (numharmonics==0) { - NoteEnabled=OFF; + if(numharmonics == 0) { + NoteEnabled = OFF; return; - }; + } - lfilter=new bpfilter[numstages*numharmonics]; - if (stereo!=0) rfilter=new bpfilter[numstages*numharmonics]; + lfilter = new bpfilter[numstages * numharmonics]; + if(stereo != 0) + rfilter = new bpfilter[numstages * numharmonics]; //how much the amplitude is normalised (because the harmonics) - REALTYPE reduceamp=0.0; + REALTYPE reduceamp = 0.0; - for (int n=0;nPbandwidth-127.0)/127.0*4)*numstages; + REALTYPE bw = + pow(10, (pars->Pbandwidth - 127.0) / 127.0 * 4) * numstages; //Bandwidth Scale - bw*=pow(1000/freq,(pars->Pbwscale-64.0)/64.0*3.0); + bw *= pow(1000 / freq, (pars->Pbwscale - 64.0) / 64.0 * 3.0); //Relative BandWidth - bw*=pow(100,(pars->Phrelbw[pos[n]]-64.0)/64.0); + bw *= pow(100, (pars->Phrelbw[pos[n]] - 64.0) / 64.0); - if (bw>25.0) bw=25.0; + if(bw > 25.0) + bw = 25.0; //try to keep same amplitude on all freqs and bw. (empirically) - REALTYPE gain=sqrt(1500.0/(bw*freq)); + REALTYPE gain = sqrt(1500.0 / (bw * freq)); - REALTYPE hmagnew=1.0-pars->Phmag[pos[n]]/127.0; + REALTYPE hmagnew = 1.0 - pars->Phmag[pos[n]] / 127.0; REALTYPE hgain; - switch (pars->Phmagtype) { + switch(pars->Phmagtype) { case 1: - hgain=exp(hmagnew*log(0.01)); + hgain = exp(hmagnew * log(0.01)); break; case 2: - hgain=exp(hmagnew*log(0.001)); + hgain = exp(hmagnew * log(0.001)); break; case 3: - hgain=exp(hmagnew*log(0.0001)); + hgain = exp(hmagnew * log(0.0001)); break; case 4: - hgain=exp(hmagnew*log(0.00001)); + hgain = exp(hmagnew * log(0.00001)); break; default: - hgain=1.0-hmagnew; - }; - gain*=hgain; - reduceamp+=hgain; + hgain = 1.0 - hmagnew; + } + gain *= hgain; + reduceamp += hgain; - for (int nph=0;nphPfixedfreq==0) initparameters(basefreq); - else initparameters(basefreq/440.0*freq); + oldpitchwheel = 0; + oldbandwidth = 64; + if(pars->Pfixedfreq == 0) + initparameters(basefreq); + else + initparameters(basefreq / 440.0 * freq); - oldamplitude=newamplitude; - ready=1; -}; + oldamplitude = newamplitude; + ready = 1; +} // SUBlegatonote: This function is (mostly) a copy of SUBnote(...) and // initparameters(...) stuck together with some lines removed so that // it only alter the already playing note (to perform legato). It is // possible I left stuff that is not required for this. -void SUBnote::SUBlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, int midinote, bool externcall) +void SUBnote::SUBlegatonote(REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool externcall) { //SUBnoteParameters *parameters=pars; //Controller *ctl_=ctl; // Manage legato stuff - if (externcall) Legato.msg=LM_Norm; - if (Legato.msg!=LM_CatchUp) { - Legato.lastfreq=Legato.param.freq; - Legato.param.freq=freq; - Legato.param.vel=velocity; - Legato.param.portamento=portamento_; - Legato.param.midinote=midinote; - if (Legato.msg==LM_Norm) { - if (Legato.silent) { - Legato.fade.m=0.0; - Legato.msg=LM_FadeIn; - } else { - Legato.fade.m=1.0; - Legato.msg=LM_FadeOut; + if(externcall) + Legato.msg = LM_Norm; + if(Legato.msg != LM_CatchUp) { + Legato.lastfreq = Legato.param.freq; + Legato.param.freq = freq; + Legato.param.vel = velocity; + Legato.param.portamento = portamento_; + Legato.param.midinote = midinote; + if(Legato.msg == LM_Norm) { + if(Legato.silent) { + Legato.fade.m = 0.0; + Legato.msg = LM_FadeIn; + } + else { + Legato.fade.m = 1.0; + Legato.msg = LM_FadeOut; return; } } - if (Legato.msg==LM_ToNorm) Legato.msg=LM_Norm; + if(Legato.msg == LM_ToNorm) + Legato.msg = LM_Norm; } - portamento=portamento_; + portamento = portamento_; - volume=pow(0.1,3.0*(1.0-pars->PVolume/96.0));//-60 dB .. 0 dB - volume*=VelF(velocity,pars->PAmpVelocityScaleFunction); - if (pars->PPanning!=0) panning=pars->PPanning/127.0; - else panning=RND; + volume = pow(0.1, 3.0 * (1.0 - pars->PVolume / 96.0)); //-60 dB .. 0 dB + volume *= VelF(velocity, pars->PAmpVelocityScaleFunction); + if(pars->PPanning != 0) + panning = pars->PPanning / 127.0; + else + panning = RND; ///start=pars->Pstart; int pos[MAX_SUB_HARMONICS]; - if (pars->Pfixedfreq==0) basefreq=freq; + if(pars->Pfixedfreq == 0) + basefreq = freq; else { - basefreq=440.0; - int fixedfreqET=pars->PfixedfreqET; - if (fixedfreqET!=0) {//if the frequency varies according the keyboard note - REALTYPE tmp=(midinote-69.0)/12.0*(pow(2.0,(fixedfreqET-1)/63.0)-1.0); - if (fixedfreqET<=64) basefreq*=pow(2.0,tmp); - else basefreq*=pow(3.0,tmp); - }; - }; - REALTYPE detune=getdetune(pars->PDetuneType,pars->PCoarseDetune,pars->PDetune); - basefreq*=pow(2.0,detune/1200.0);//detune + basefreq = 440.0; + int fixedfreqET = pars->PfixedfreqET; + if(fixedfreqET != 0) { //if the frequency varies according the keyboard note + REALTYPE tmp = + (midinote + - 69.0) / 12.0 * (pow(2.0, (fixedfreqET - 1) / 63.0) - 1.0); + if(fixedfreqET <= 64) + basefreq *= pow(2.0, tmp); + else + basefreq *= pow(3.0, tmp); + } + } + REALTYPE detune = getdetune(pars->PDetuneType, + pars->PCoarseDetune, + pars->PDetune); + basefreq *= pow(2.0, detune / 1200.0); //detune //global filter - GlobalFilterCenterPitch=pars->GlobalFilter->getfreq()+//center freq - (pars->PGlobalFilterVelocityScale/127.0*6.0)* //velocity sensing - (VelF(velocity,pars->PGlobalFilterVelocityScaleFunction)-1); + GlobalFilterCenterPitch = pars->GlobalFilter->getfreq() //center freq + + (pars->PGlobalFilterVelocityScale / 127.0 * 6.0) //velocity sensing + * (VelF(velocity, + pars->PGlobalFilterVelocityScaleFunction) + - 1); - int legatonumharmonics=0; - for (int n=0;nPhmag[n]==0)continue; - if (n*basefreq>SAMPLE_RATE/2.0) break;//remove the freqs above the Nyquist freq - pos[legatonumharmonics++]=n; - }; - if (legatonumharmonics>firstnumharmonics) numharmonics=firstnumharmonics; - else numharmonics=legatonumharmonics; + int legatonumharmonics = 0; + for(int n = 0; n < MAX_SUB_HARMONICS; n++) { + if(pars->Phmag[n] == 0) + continue; + if(n * basefreq > SAMPLE_RATE / 2.0) + break; //remove the freqs above the Nyquist freq + pos[legatonumharmonics++] = n; + } + if(legatonumharmonics > firstnumharmonics) + numharmonics = firstnumharmonics; + else + numharmonics = legatonumharmonics; - if (numharmonics==0) { - NoteEnabled=OFF; + if(numharmonics == 0) { + NoteEnabled = OFF; return; - }; + } //how much the amplitude is normalised (because the harmonics) - REALTYPE reduceamp=0.0; + REALTYPE reduceamp = 0.0; - for (int n=0;nPbandwidth-127.0)/127.0*4)*numstages; + REALTYPE bw = + pow(10, (pars->Pbandwidth - 127.0) / 127.0 * 4) * numstages; //Bandwidth Scale - bw*=pow(1000/freq,(pars->Pbwscale-64.0)/64.0*3.0); + bw *= pow(1000 / freq, (pars->Pbwscale - 64.0) / 64.0 * 3.0); //Relative BandWidth - bw*=pow(100,(pars->Phrelbw[pos[n]]-64.0)/64.0); + bw *= pow(100, (pars->Phrelbw[pos[n]] - 64.0) / 64.0); - if (bw>25.0) bw=25.0; + if(bw > 25.0) + bw = 25.0; //try to keep same amplitude on all freqs and bw. (empirically) - REALTYPE gain=sqrt(1500.0/(bw*freq)); + REALTYPE gain = sqrt(1500.0 / (bw * freq)); - REALTYPE hmagnew=1.0-pars->Phmag[pos[n]]/127.0; + REALTYPE hmagnew = 1.0 - pars->Phmag[pos[n]] / 127.0; REALTYPE hgain; - switch (pars->Phmagtype) { + switch(pars->Phmagtype) { case 1: - hgain=exp(hmagnew*log(0.01)); + hgain = exp(hmagnew * log(0.01)); break; case 2: - hgain=exp(hmagnew*log(0.001)); + hgain = exp(hmagnew * log(0.001)); break; case 3: - hgain=exp(hmagnew*log(0.0001)); + hgain = exp(hmagnew * log(0.0001)); break; case 4: - hgain=exp(hmagnew*log(0.00001)); + hgain = exp(hmagnew * log(0.00001)); break; default: - hgain=1.0-hmagnew; - }; - gain*=hgain; - reduceamp+=hgain; + hgain = 1.0 - hmagnew; + } + gain *= hgain; + reduceamp += hgain; - for (int nph=0;nphPfixedfreq==0) freq=basefreq; - else freq*=basefreq/440.0; + if(pars->Pfixedfreq == 0) + freq = basefreq; + else + freq *= basefreq / 440.0; /////////////// // Altered initparameters(...) content: - if (pars->PGlobalFilterEnabled!=0) { - globalfiltercenterq=pars->GlobalFilter->getq(); - GlobalFilterFreqTracking=pars->GlobalFilter->getfreqtracking(basefreq); - }; + if(pars->PGlobalFilterEnabled != 0) { + globalfiltercenterq = pars->GlobalFilter->getq(); + GlobalFilterFreqTracking = pars->GlobalFilter->getfreqtracking(basefreq); + } // end of the altered initparameters function content. /////////////// - oldamplitude=newamplitude; + oldamplitude = newamplitude; // End of the SUBlegatonote function. -}; +} SUBnote::~SUBnote() { - if (NoteEnabled!=OFF) KillNote(); + if(NoteEnabled != OFF) + KillNote(); delete [] tmpsmp; delete [] tmprnd; -}; +} /* * Kill the note */ void SUBnote::KillNote() { - if (NoteEnabled!=OFF) { + if(NoteEnabled != OFF) { delete [] lfilter; - lfilter=NULL; - if (stereo!=0) delete [] rfilter; - rfilter=NULL; - delete(AmpEnvelope); - if (FreqEnvelope!=NULL) delete(FreqEnvelope); - if (BandWidthEnvelope!=NULL) delete(BandWidthEnvelope); - NoteEnabled=OFF; - }; - -}; + lfilter = NULL; + if(stereo != 0) + delete [] rfilter; + rfilter = NULL; + delete (AmpEnvelope); + if(FreqEnvelope != NULL) + delete (FreqEnvelope); + if(BandWidthEnvelope != NULL) + delete (BandWidthEnvelope); + NoteEnabled = OFF; + } +} /* * Compute the filters coefficients */ -void SUBnote::computefiltercoefs(bpfilter &filter,REALTYPE freq,REALTYPE bw,REALTYPE gain) +void SUBnote::computefiltercoefs(bpfilter &filter, + REALTYPE freq, + REALTYPE bw, + REALTYPE gain) { - if (freq>SAMPLE_RATE/2.0-200.0) { - freq=SAMPLE_RATE/2.0-200.0; - }; + if(freq > SAMPLE_RATE / 2.0 - 200.0) + freq = SAMPLE_RATE / 2.0 - 200.0; + ; - REALTYPE omega=2.0*PI*freq/SAMPLE_RATE; - REALTYPE sn=sin(omega); - REALTYPE cs=cos(omega); - REALTYPE alpha=sn*sinh(LOG_2/2.0*bw*omega/sn); + REALTYPE omega = 2.0 * PI * freq / SAMPLE_RATE; + REALTYPE sn = sin(omega); + REALTYPE cs = cos(omega); + REALTYPE alpha = sn * sinh(LOG_2 / 2.0 * bw * omega / sn); - if (alpha>1) alpha=1; - if (alpha>bw) alpha=bw; + if(alpha > 1) + alpha = 1; + if(alpha > bw) + alpha = bw; - filter.b0=alpha/(1.0+alpha)*filter.amp*gain; - filter.b2=-alpha/(1.0+alpha)*filter.amp*gain; - filter.a1=-2.0*cs/(1.0+alpha); - filter.a2=(1.0-alpha)/(1.0+alpha); - -}; + filter.b0 = alpha / (1.0 + alpha) * filter.amp * gain; + filter.b2 = -alpha / (1.0 + alpha) * filter.amp * gain; + filter.a1 = -2.0 * cs / (1.0 + alpha); + filter.a2 = (1.0 - alpha) / (1.0 + alpha); +} /* * Initialise the filters */ -void SUBnote::initfilter(bpfilter &filter,REALTYPE freq,REALTYPE bw,REALTYPE amp,REALTYPE mag) +void SUBnote::initfilter(bpfilter &filter, + REALTYPE freq, + REALTYPE bw, + REALTYPE amp, + REALTYPE mag) { - filter.xn1=0.0; - filter.xn2=0.0; + filter.xn1 = 0.0; + filter.xn2 = 0.0; - if (start==0) { - filter.yn1=0.0; - filter.yn2=0.0; - } else { - REALTYPE a=0.1*mag;//empirically - REALTYPE p=RND*2.0*PI; - if (start==1) a*=RND; - filter.yn1=a*cos(p); - filter.yn2=a*cos(p+freq*2.0*PI/SAMPLE_RATE); + if(start == 0) { + filter.yn1 = 0.0; + filter.yn2 = 0.0; + } + else { + REALTYPE a = 0.1 * mag; //empirically + REALTYPE p = RND * 2.0 * PI; + if(start == 1) + a *= RND; + filter.yn1 = a * cos(p); + filter.yn2 = a * cos(p + freq * 2.0 * PI / SAMPLE_RATE); //correct the error of computation the start amplitude //at very high frequencies - if (freq>SAMPLE_RATE*0.96) { - filter.yn1=0.0; - filter.yn2=0.0; + if(freq > SAMPLE_RATE * 0.96) { + filter.yn1 = 0.0; + filter.yn2 = 0.0; + } + } - }; - }; - - filter.amp=amp; - filter.freq=freq; - filter.bw=bw; - computefiltercoefs(filter,freq,bw,1.0); -}; + filter.amp = amp; + filter.freq = freq; + filter.bw = bw; + computefiltercoefs(filter, freq, bw, 1.0); +} /* * Do the filtering */ -void SUBnote::filter(bpfilter &filter,REALTYPE *smps) +void SUBnote::filter(bpfilter &filter, REALTYPE *smps) { - int i; + int i; REALTYPE out; - for (i=0;iAmpEnvelope,freq); - if (pars->PFreqEnvelopeEnabled!=0) FreqEnvelope=new Envelope(pars->FreqEnvelope,freq); - else FreqEnvelope=NULL; - if (pars->PBandWidthEnvelopeEnabled!=0) BandWidthEnvelope=new Envelope(pars->BandWidthEnvelope,freq); - else BandWidthEnvelope=NULL; - if (pars->PGlobalFilterEnabled!=0) { - globalfiltercenterq=pars->GlobalFilter->getq(); - GlobalFilterL=new Filter(pars->GlobalFilter); - if (stereo!=0) GlobalFilterR=new Filter(pars->GlobalFilter); - GlobalFilterEnvelope=new Envelope(pars->GlobalFilterEnvelope,freq); - GlobalFilterFreqTracking=pars->GlobalFilter->getfreqtracking(basefreq); - }; + AmpEnvelope = new Envelope(pars->AmpEnvelope, freq); + if(pars->PFreqEnvelopeEnabled != 0) + FreqEnvelope = new Envelope(pars->FreqEnvelope, freq); + else + FreqEnvelope = NULL; + if(pars->PBandWidthEnvelopeEnabled != 0) + BandWidthEnvelope = new Envelope(pars->BandWidthEnvelope, freq); + else + BandWidthEnvelope = NULL; + if(pars->PGlobalFilterEnabled != 0) { + globalfiltercenterq = pars->GlobalFilter->getq(); + GlobalFilterL = new Filter(pars->GlobalFilter); + if(stereo != 0) + GlobalFilterR = new Filter(pars->GlobalFilter); + GlobalFilterEnvelope = new Envelope(pars->GlobalFilterEnvelope, + freq); + GlobalFilterFreqTracking = pars->GlobalFilter->getfreqtracking(basefreq); + } computecurrentparameters(); -}; +} /* @@ -447,209 +519,249 @@ void SUBnote::initparameters(REALTYPE freq) */ void SUBnote::computecurrentparameters() { - if ((FreqEnvelope!=NULL)||(BandWidthEnvelope!=NULL)|| - (oldpitchwheel!=ctl->pitchwheel.data)|| - (oldbandwidth!=ctl->bandwidth.data)|| - (portamento!=0)) { - REALTYPE envfreq=1.0; - REALTYPE envbw=1.0; - REALTYPE gain=1.0; + if((FreqEnvelope != NULL) || (BandWidthEnvelope != NULL) + || (oldpitchwheel != ctl->pitchwheel.data) + || (oldbandwidth != ctl->bandwidth.data) + || (portamento != 0)) { + REALTYPE envfreq = 1.0; + REALTYPE envbw = 1.0; + REALTYPE gain = 1.0; - if (FreqEnvelope!=NULL) { - envfreq=FreqEnvelope->envout()/1200; - envfreq=pow(2.0,envfreq); - }; - envfreq*=ctl->pitchwheel.relfreq;//pitch wheel - if (portamento!=0) {//portamento is used - envfreq*=ctl->portamento.freqrap; - if (ctl->portamento.used==0) {//the portamento has finished - portamento=0;//this note is no longer "portamented" - }; - }; + if(FreqEnvelope != NULL) { + envfreq = FreqEnvelope->envout() / 1200; + envfreq = pow(2.0, envfreq); + } + envfreq *= ctl->pitchwheel.relfreq; //pitch wheel + if(portamento != 0) { //portamento is used + envfreq *= ctl->portamento.freqrap; + if(ctl->portamento.used == 0) //the portamento has finished + portamento = 0; //this note is no longer "portamented" + ; + } - if (BandWidthEnvelope!=NULL) { - envbw=BandWidthEnvelope->envout(); - envbw=pow(2,envbw); - }; - envbw*=ctl->bandwidth.relbw;//bandwidth controller + if(BandWidthEnvelope != NULL) { + envbw = BandWidthEnvelope->envout(); + envbw = pow(2, envbw); + } + envbw *= ctl->bandwidth.relbw; //bandwidth controller - REALTYPE tmpgain=1.0/sqrt(envbw*envfreq); + REALTYPE tmpgain = 1.0 / sqrt(envbw * envfreq); - for (int n=0;nbandwidth.data; - oldpitchwheel=ctl->pitchwheel.data; - }; - newamplitude=volume*AmpEnvelope->envout_dB()*2.0; + for(int n = 0; n < numharmonics; n++) { + for(int nph = 0; nph < numstages; nph++) { + if(nph == 0) + gain = tmpgain; + else + gain = 1.0; + computefiltercoefs(lfilter[nph + n * numstages], + lfilter[nph + n * numstages].freq * envfreq, + lfilter[nph + n * numstages].bw * envbw, + gain); + } + } + if(stereo != 0) + for(int n = 0; n < numharmonics; n++) { + for(int nph = 0; nph < numstages; nph++) { + if(nph == 0) + gain = tmpgain; + else + gain = 1.0; + computefiltercoefs( + rfilter[nph + n * numstages], + rfilter[nph + n + * numstages].freq * envfreq, + rfilter[nph + n * numstages].bw * envbw, + gain); + } + } + ; + oldbandwidth = ctl->bandwidth.data; + oldpitchwheel = ctl->pitchwheel.data; + } + newamplitude = volume * AmpEnvelope->envout_dB() * 2.0; //Filter - if (GlobalFilterL!=NULL) { - REALTYPE globalfilterpitch=GlobalFilterCenterPitch+GlobalFilterEnvelope->envout(); - REALTYPE filterfreq=globalfilterpitch+ctl->filtercutoff.relfreq+GlobalFilterFreqTracking; - filterfreq=GlobalFilterL->getrealfreq(filterfreq); + if(GlobalFilterL != NULL) { + REALTYPE globalfilterpitch = GlobalFilterCenterPitch + + GlobalFilterEnvelope->envout(); + REALTYPE filterfreq = globalfilterpitch + ctl->filtercutoff.relfreq + + GlobalFilterFreqTracking; + filterfreq = GlobalFilterL->getrealfreq(filterfreq); - GlobalFilterL->setfreq_and_q(filterfreq,globalfiltercenterq*ctl->filterq.relq); - if (GlobalFilterR!=NULL) GlobalFilterR->setfreq_and_q(filterfreq,globalfiltercenterq*ctl->filterq.relq); - }; - -}; + GlobalFilterL->setfreq_and_q(filterfreq, + globalfiltercenterq * ctl->filterq.relq); + if(GlobalFilterR != NULL) + GlobalFilterR->setfreq_and_q( + filterfreq, + globalfiltercenterq + * ctl->filterq.relq); + } +} /* * Note Output */ -int SUBnote::noteout(REALTYPE *outl,REALTYPE *outr) +int SUBnote::noteout(REALTYPE *outl, REALTYPE *outr) { int i; memcpy(outl, denormalkillbuf, SOUND_BUFFER_SIZE * sizeof(REALTYPE)); memcpy(outr, denormalkillbuf, SOUND_BUFFER_SIZE * sizeof(REALTYPE)); - if (NoteEnabled==OFF) return(0); + if(NoteEnabled == OFF) + return 0; //left channel - for (i=0;ifilterout(&outl[0]); + if(GlobalFilterL != NULL) + GlobalFilterL->filterout(&outl[0]); //right channel - if (stereo!=0) { - for (i=0;ifilterout(&outr[0]); - } else memcpy(outr, outl, SOUND_BUFFER_SIZE * sizeof(REALTYPE)); + for(int nph = 0; nph < numstages; nph++) + filter(rfilter[nph + n * numstages], tmpsmp); + for(i = 0; i < SOUND_BUFFER_SIZE; i++) + outr[i] += tmpsmp[i]; + } + if(GlobalFilterR != NULL) + GlobalFilterR->filterout(&outr[0]); + } + else + memcpy(outr, outl, SOUND_BUFFER_SIZE * sizeof(REALTYPE)); - if (firsttick!=0) { - int n=10; - if (n>SOUND_BUFFER_SIZE) n=SOUND_BUFFER_SIZE; - for (i=0;i SOUND_BUFFER_SIZE) + n = SOUND_BUFFER_SIZE; + for(i = 0; i < n; i++) { + REALTYPE ampfadein = 0.5 - 0.5 * cos( + (REALTYPE) i / (REALTYPE) n * PI); + outl[i] *= ampfadein; + outr[i] *= ampfadein; + } + firsttick = 0; + } - if (ABOVE_AMPLITUDE_THRESHOLD(oldamplitude,newamplitude)) { + if(ABOVE_AMPLITUDE_THRESHOLD(oldamplitude, newamplitude)) { // Amplitude interpolation - for (i=0;ifinished()!=0) { - for (i=0;ifinished() != 0) { + for(i = 0; i < SOUND_BUFFER_SIZE; i++) { //fade-out + REALTYPE tmp = 1.0 - (REALTYPE)i / (REALTYPE)SOUND_BUFFER_SIZE; + outl[i] *= tmp; + outr[i] *= tmp; + } KillNote(); - }; - return(1); -}; + } + return 1; +} /* * Relase Key (Note Off) @@ -657,17 +769,22 @@ int SUBnote::noteout(REALTYPE *outl,REALTYPE *outr) void SUBnote::relasekey() { AmpEnvelope->relasekey(); - if (FreqEnvelope!=NULL) FreqEnvelope->relasekey(); - if (BandWidthEnvelope!=NULL) BandWidthEnvelope->relasekey(); - if (GlobalFilterEnvelope!=NULL) GlobalFilterEnvelope->relasekey(); -}; + if(FreqEnvelope != NULL) + FreqEnvelope->relasekey(); + if(BandWidthEnvelope != NULL) + BandWidthEnvelope->relasekey(); + if(GlobalFilterEnvelope != NULL) + GlobalFilterEnvelope->relasekey(); +} /* * Check if the note is finished */ int SUBnote::finished() { - if (NoteEnabled==OFF) return(1); - else return(0); -}; + if(NoteEnabled == OFF) + return 1; + else + return 0; +} diff --git a/plugins/zynaddsubfx/src/Synth/SUBnote.h b/plugins/zynaddsubfx/src/Synth/SUBnote.h index 586a46b7f..e6b875e48 100644 --- a/plugins/zynaddsubfx/src/Synth/SUBnote.h +++ b/plugins/zynaddsubfx/src/Synth/SUBnote.h @@ -31,84 +31,101 @@ class SUBnote { -public: - SUBnote(SUBnoteParameters *parameters,Controller *ctl_,REALTYPE freq,REALTYPE velocity,int portamento_,int midinote,bool besilent); - ~SUBnote(); + public: + SUBnote(SUBnoteParameters *parameters, + Controller *ctl_, + REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool besilent); + ~SUBnote(); - void SUBlegatonote(REALTYPE freq, REALTYPE velocity, int portamento_, int midinote, bool externcall); + void SUBlegatonote(REALTYPE freq, + REALTYPE velocity, + int portamento_, + int midinote, + bool externcall); - int noteout(REALTYPE *outl,REALTYPE *outr);//note output,return 0 if the note is finished - void relasekey(); - int finished(); + int noteout(REALTYPE *outl, REALTYPE *outr); //note output,return 0 if the note is finished + void relasekey(); + int finished(); - int ready; //if I can get the sampledata + int ready; //if I can get the sampledata -private: + private: - void computecurrentparameters(); - void initparameters(REALTYPE freq); - void KillNote(); + void computecurrentparameters(); + void initparameters(REALTYPE freq); + void KillNote(); - SUBnoteParameters *pars; + SUBnoteParameters *pars; - //parameters - int stereo; - int numstages;//number of stages of filters - int numharmonics;//number of harmonics (after the too higher hamonics are removed) - int firstnumharmonics;//To keep track of the first note's numharmonics value, useful in legato mode. - int start;//how the harmonics start - REALTYPE basefreq; - REALTYPE panning; - Envelope *AmpEnvelope; - Envelope *FreqEnvelope; - Envelope *BandWidthEnvelope; + //parameters + int stereo; + int numstages; //number of stages of filters + int numharmonics; //number of harmonics (after the too higher hamonics are removed) + int firstnumharmonics; //To keep track of the first note's numharmonics value, useful in legato mode. + int start; //how the harmonics start + REALTYPE basefreq; + REALTYPE panning; + Envelope *AmpEnvelope; + Envelope *FreqEnvelope; + Envelope *BandWidthEnvelope; - Filter *GlobalFilterL,*GlobalFilterR; + Filter *GlobalFilterL, *GlobalFilterR; - Envelope *GlobalFilterEnvelope; + Envelope *GlobalFilterEnvelope; - //internal values - ONOFFTYPE NoteEnabled; - int firsttick,portamento; - REALTYPE volume,oldamplitude,newamplitude; + //internal values + ONOFFTYPE NoteEnabled; + int firsttick, portamento; + REALTYPE volume, oldamplitude, newamplitude; - REALTYPE GlobalFilterCenterPitch;//octaves - REALTYPE GlobalFilterFreqTracking; + REALTYPE GlobalFilterCenterPitch; //octaves + REALTYPE GlobalFilterFreqTracking; - struct bpfilter { - REALTYPE freq,bw,amp; //filter parameters - REALTYPE a1,a2,b0,b2;//filter coefs. b1=0 - REALTYPE xn1,xn2,yn1,yn2; //filter internal values - }; + struct bpfilter { + REALTYPE freq, bw, amp; //filter parameters + REALTYPE a1, a2, b0, b2; //filter coefs. b1=0 + REALTYPE xn1, xn2, yn1, yn2; //filter internal values + }; - void initfilter(bpfilter &filter,REALTYPE freq,REALTYPE bw,REALTYPE amp,REALTYPE mag); - void computefiltercoefs(bpfilter &filter,REALTYPE freq,REALTYPE bw,REALTYPE gain); - inline void filter(bpfilter &filter,REALTYPE *smps); + void initfilter(bpfilter &filter, + REALTYPE freq, + REALTYPE bw, + REALTYPE amp, + REALTYPE mag); + void computefiltercoefs(bpfilter &filter, + REALTYPE freq, + REALTYPE bw, + REALTYPE gain); + inline void filter(bpfilter &filter, REALTYPE *smps); - bpfilter *lfilter,*rfilter; + bpfilter *lfilter, *rfilter; - REALTYPE *tmpsmp; - REALTYPE *tmprnd;//this is filled with random numbers + REALTYPE *tmpsmp; + REALTYPE *tmprnd; //this is filled with random numbers - Controller *ctl; - int oldpitchwheel,oldbandwidth; - REALTYPE globalfiltercenterq; + Controller *ctl; + int oldpitchwheel, oldbandwidth; + REALTYPE globalfiltercenterq; - // Legato vars - struct { - bool silent; - REALTYPE lastfreq; - LegatoMsg msg; - int decounter; - struct { // Fade In/Out vars - int length; - REALTYPE m, step; - } fade; - struct { // Note parameters - REALTYPE freq, vel; - int portamento, midinote; - } param; - } Legato; + // Legato vars + struct { + bool silent; + REALTYPE lastfreq; + LegatoMsg msg; + int decounter; + struct { // Fade In/Out vars + int length; + REALTYPE m, step; + } fade; + struct { // Note parameters + REALTYPE freq, vel; + int portamento, midinote; + } param; + } Legato; }; diff --git a/plugins/zynaddsubfx/src/globals.h b/plugins/zynaddsubfx/src/globals.h index 5ad669daa..7c0717168 100644 --- a/plugins/zynaddsubfx/src/globals.h +++ b/plugins/zynaddsubfx/src/globals.h @@ -29,10 +29,10 @@ #define REALTYPE float struct FFTFREQS { - REALTYPE *s,*c;//sine and cosine components + REALTYPE *s, *c; //sine and cosine components }; -extern void newFFTFREQS(FFTFREQS *f,int size); +extern void newFFTFREQS(FFTFREQS *f, int size); extern void deleteFFTFREQS(FFTFREQS *f); /**Sampling rate*/ @@ -131,7 +131,7 @@ extern int OSCIL_SIZE; * The maximum number of bands of the equaliser */ #define MAX_EQ_BANDS 8 -#if (MAX_EQ_BANDS>=20) +#if (MAX_EQ_BANDS >= 20) #error "Too many EQ bands in globals.h" #endif @@ -162,47 +162,67 @@ extern int OSCIL_SIZE; /* * How the amplitude threshold is computed */ -#define ABOVE_AMPLITUDE_THRESHOLD(a,b) ( ( 2.0*fabs( (b) - (a) ) / \ - ( fabs( (b) + (a) + 0.0000000001) ) ) > AMPLITUDE_INTERPOLATION_THRESHOLD ) +#define ABOVE_AMPLITUDE_THRESHOLD(a, b) ((2.0 * fabs((b) - (a)) \ + / (fabs((b) + (a) + 0.0000000001))) > \ + AMPLITUDE_INTERPOLATION_THRESHOLD) /* * Interpolate Amplitude */ -#define INTERPOLATE_AMPLITUDE(a,b,x,size) ( (a) + \ - ( (b) - (a) ) * (REALTYPE)(x) / (REALTYPE) (size) ) +#define INTERPOLATE_AMPLITUDE(a, b, x, size) ((a) \ + + ((b) \ + - (a)) * (REALTYPE)(x) \ + / (REALTYPE) (size)) /* * dB */ -#define dB2rap(dB) ((exp((dB)*LOG_10/20.0))) -#define rap2dB(rap) ((20*log(rap)/LOG_10)) +#define dB2rap(dB) ((exp((dB) * LOG_10 / 20.0))) +#define rap2dB(rap) ((20 * log(rap) / LOG_10)) /* * The random generator (0.0..1.0) */ -#define RND (rand()/(RAND_MAX+1.0)) +#define RND (rand() / (RAND_MAX + 1.0)) -#define ZERO(data,size) {char *data_=(char *) data;for (int i=0;i0) ? ( (int)(f) ) :( (int)(f-1.0) )); +#define F2I(f, i) (i) = ((f > 0) ? ((int)(f)) : ((int)(f - 1.0))); #endif