#include "mdaEPianoData.h" #include "mdaEPiano.h" #include #include #include "config.h" // AudioEffect *createEffectInstance(audioMasterCallback audioMaster) //{ // return new mdaEPiano(audioMaster); //} mdaEPiano::mdaEPiano() // mdaEPiano::mdaEPiano(audioMasterCallback audioMaster) : AudioEffectX(audioMaster, NPROGS, NPARAMS) { Fs = SAMPLE_RATE; iFs = 1.0f / Fs; //just in case... programs = new mdaEPianoProgram[NPROGS]; if (programs) { //fill patches... int32_t i = 0; fillpatch(i++, "Default", 0.500f, 0.500f, 0.500f, 0.500f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.146f, 0.000f); fillpatch(i++, "Bright", 0.500f, 0.500f, 1.000f, 0.800f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.146f, 0.500f); fillpatch(i++, "Mellow", 0.500f, 0.500f, 0.000f, 0.000f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.246f, 0.000f); fillpatch(i++, "Autopan", 0.500f, 0.500f, 0.500f, 0.500f, 0.250f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.246f, 0.000f); fillpatch(i++, "Tremolo", 0.500f, 0.500f, 0.500f, 0.500f, 0.750f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.246f, 0.000f); fillpatch(i++, "(default)", 0.500f, 0.500f, 0.500f, 0.500f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.146f, 0.000f); fillpatch(i++, "(default)", 0.500f, 0.500f, 0.500f, 0.500f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.146f, 0.000f); fillpatch(i++, "(default)", 0.500f, 0.500f, 0.500f, 0.500f, 0.500f, 0.650f, 0.250f, 0.500f, 0.50f, 0.500f, 0.146f, 0.000f); setProgram(0); } /* if(audioMaster) { setNumInputs(0); setNumOutputs(NOUTS); canProcessReplacing(); isSynth(); setUniqueID('MDAe'); /// } */ waves = (short*)epianoData; //Waveform data and keymapping kgrp[ 0].root = 36; kgrp[ 0].high = 39; //C1 kgrp[ 3].root = 43; kgrp[ 3].high = 45; //G1 kgrp[ 6].root = 48; kgrp[ 6].high = 51; //C2 kgrp[ 9].root = 55; kgrp[ 9].high = 57; //G2 kgrp[12].root = 60; kgrp[12].high = 63; //C3 kgrp[15].root = 67; kgrp[15].high = 69; //G3 kgrp[18].root = 72; kgrp[18].high = 75; //C4 kgrp[21].root = 79; kgrp[21].high = 81; //G4 kgrp[24].root = 84; kgrp[24].high = 87; //C5 kgrp[27].root = 91; kgrp[27].high = 93; //G5 kgrp[30].root = 96; kgrp[30].high = 999; //C6 kgrp[0].pos = 0; kgrp[0].end = 8476; kgrp[0].loop = 4400; kgrp[1].pos = 8477; kgrp[1].end = 16248; kgrp[1].loop = 4903; kgrp[2].pos = 16249; kgrp[2].end = 34565; kgrp[2].loop = 6398; kgrp[3].pos = 34566; kgrp[3].end = 41384; kgrp[3].loop = 3938; kgrp[4].pos = 41385; kgrp[4].end = 45760; kgrp[4].loop = 1633; //was 1636; kgrp[5].pos = 45761; kgrp[5].end = 65211; kgrp[5].loop = 5245; kgrp[6].pos = 65212; kgrp[6].end = 72897; kgrp[6].loop = 2937; kgrp[7].pos = 72898; kgrp[7].end = 78626; kgrp[7].loop = 2203; //was 2204; kgrp[8].pos = 78627; kgrp[8].end = 100387; kgrp[8].loop = 6368; kgrp[9].pos = 100388; kgrp[9].end = 116297; kgrp[9].loop = 10452; kgrp[10].pos = 116298; kgrp[10].end = 127661; kgrp[10].loop = 5217; //was 5220; kgrp[11].pos = 127662; kgrp[11].end = 144113; kgrp[11].loop = 3099; kgrp[12].pos = 144114; kgrp[12].end = 152863; kgrp[12].loop = 4284; kgrp[13].pos = 152864; kgrp[13].end = 173107; kgrp[13].loop = 3916; kgrp[14].pos = 173108; kgrp[14].end = 192734; kgrp[14].loop = 2937; kgrp[15].pos = 192735; kgrp[15].end = 204598; kgrp[15].loop = 4732; kgrp[16].pos = 204599; kgrp[16].end = 218995; kgrp[16].loop = 4733; kgrp[17].pos = 218996; kgrp[17].end = 233801; kgrp[17].loop = 2285; kgrp[18].pos = 233802; kgrp[18].end = 248011; kgrp[18].loop = 4098; kgrp[19].pos = 248012; kgrp[19].end = 265287; kgrp[19].loop = 4099; kgrp[20].pos = 265288; kgrp[20].end = 282255; kgrp[20].loop = 3609; kgrp[21].pos = 282256; kgrp[21].end = 293776; kgrp[21].loop = 2446; kgrp[22].pos = 293777; kgrp[22].end = 312566; kgrp[22].loop = 6278; kgrp[23].pos = 312567; kgrp[23].end = 330200; kgrp[23].loop = 2283; kgrp[24].pos = 330201; kgrp[24].end = 348889; kgrp[24].loop = 2689; kgrp[25].pos = 348890; kgrp[25].end = 365675; kgrp[25].loop = 4370; kgrp[26].pos = 365676; kgrp[26].end = 383661; kgrp[26].loop = 5225; kgrp[27].pos = 383662; kgrp[27].end = 393372; kgrp[27].loop = 2811; kgrp[28].pos = 383662; kgrp[28].end = 393372; kgrp[28].loop = 2811; //ghost kgrp[29].pos = 393373; kgrp[29].end = 406045; kgrp[29].loop = 4522; kgrp[30].pos = 406046; kgrp[30].end = 414486; kgrp[30].loop = 2306; kgrp[31].pos = 406046; kgrp[31].end = 414486; kgrp[31].loop = 2306; //ghost kgrp[32].pos = 414487; kgrp[32].end = 422408; kgrp[32].loop = 2169; /* //extra xfade looping... for (int32_t k = 0; k < 28; k++) { int32_t p0 = kgrp[k].end; int32_t p1 = kgrp[k].end - kgrp[k].loop; float xf = 1.0f; float dxf = -0.02f; Serial.println("3"); while (xf > 0.0f) { waves[p0] = (short)((1.0f - xf) * (float)waves[p0] + xf * (float)waves[p1]); p0--; p1--; xf += dxf; } }*/ //initialise... for (int32_t v = 0; v < NVOICES; v++) { voice[v].env = 0.0f; voice[v].dec = 0.99f; //all notes off } volume = 0.2f; muff = 160.0f; sustain = activevoices = 0; tl = tr = lfo0 = dlfo = 0.0f; lfo1 = 1.0f; guiUpdate = 0; update(); // suspend(); } void mdaEPiano::update() //parameter change { float * param = programs[curProgram].param; size = (int32_t)(12.0f * param[2] - 6.0f); treb = 4.0f * param[3] * param[3] - 1.0f; //treble gain if (param[3] > 0.5f) tfrq = 14000.0f; else tfrq = 5000.0f; //treble freq tfrq = 1.0f - (float)exp(-iFs * tfrq); rmod = lmod = param[4] + param[4] - 1.0f; //lfo depth if (param[4] < 0.5f) rmod = -rmod; dlfo = 6.283f * iFs * (float)exp(6.22f * param[5] - 2.61f); //lfo rate velsens = 1.0f + param[6] + param[6]; if (param[6] < 0.25f) velsens -= 0.75f - 3.0f * param[6]; width = 0.03f * param[7]; poly = 1 + (int32_t)(31.9f * param[8]); fine = param[9] - 0.5f; random = 0.077f * param[10] * param[10]; stretch = 0.0f; //0.000434f * (param[11] - 0.5f); parameter re-used for overdrive! overdrive = 1.8f * param[11]; } void mdaEPiano::resume() { //Fs = getSampleRate(); Fs = SAMPLE_RATE; iFs = 1.0f / Fs; dlfo = 6.283f * iFs * (float)exp(6.22f * programs[curProgram].param[5] - 2.61f); //lfo rate //DECLARE_VST_DEPRECATED (wantEvents) (); } mdaEPiano::~mdaEPiano () //destroy any buffers... { if (programs) delete [] programs; } void mdaEPiano::setProgram(int32_t program) { curProgram = program; update(); } void mdaEPiano::setParameter(int32_t index, float value) { programs[curProgram].param[index] = value; update(); //if(editor) editor->postUpdate(); ///For GUI guiUpdate = index + 0x100 + (guiUpdate & 0xFFFF00); } void mdaEPiano::fillpatch(int32_t p, char *name, float p0, float p1, float p2, float p3, float p4, float p5, float p6, float p7, float p8, float p9, float p10, float p11) { strcpy(programs[p].name, name); programs[p].param[0] = p0; programs[p].param[1] = p1; programs[p].param[2] = p2; programs[p].param[3] = p3; programs[p].param[4] = p4; programs[p].param[5] = p5; programs[p].param[6] = p6; programs[p].param[7] = p7; programs[p].param[8] = p8; programs[p].param[9] = p9; programs[p].param[10] = p10; programs[p].param[11] = p11; } float mdaEPiano::getParameter(int32_t index) { return programs[curProgram].param[index]; } /* void mdaEPiano::setProgramName(char *name) { strcpy(programs[curProgram].name, name); } void mdaEPiano::getProgramName(char *name) { strcpy(name, programs[curProgram].name); } void mdaEPiano::setBlockSize(int32_t blockSize) { AudioEffectX::setBlockSize(blockSize); } bool mdaEPiano::getEffectName(char* name) { strcpy(name, "ePiano"); return true; } bool mdaEPiano::getVendorString(char* text) { strcpy(text, "mda"); return true; } bool mdaEPiano::getProductString(char* text) { strcpy(text, "mda ePiano"); return true; } bool mdaEPiano::getOutputProperties(int32_t index, VstPinProperties* properties) { if(indexlabel, "ePiano"); else sprintf(properties->label, "ePiano"); properties->flags = kVstPinIsActive; if(index<2) properties->flags |= kVstPinIsStereo; //make channel 1+2 stereo return true; } return false; } bool mdaEPiano::getProgramNameIndexed(int32_t category, int32_t index, char* text) { if ((unsigned int)index < NPROGS) { strcpy(text, programs[index].name); return true; } return false; } bool mdaEPiano::copyProgram(int32_t destination) { if(destination 0.5f) sprintf(string, "Trem %.0f", 200.0f * param[index] - 100.0f); else sprintf(string, "Pan %.0f", 100.0f - 200.0f * param[index]); break; case 5: sprintf(string, "%.2f", (float)exp(6.22f * param[5] - 2.61f)); break; //LFO Hz case 7: sprintf(string, "%.0f", 200.0f * param[index]); break; case 8: sprintf(string, "%d", poly); break; case 10: sprintf(string, "%.1f", 50.0f * param[index] * param[index]); break; case 11: sprintf(string, "%.1f", 100.0f * param[index]); break; default: sprintf(string, "%.0f", 100.0f * param[index]); } string[8] = 0; strcpy(text, (char *)string); } void mdaEPiano::getParameterLabel(int32_t index, char *label) { switch(index) { case 5: strcpy(label, "Hz"); break; case 8: strcpy(label, "voices"); break; case 9: case 10: strcpy(label, "cents"); break; default: strcpy(label, "%"); } } void mdaEPiano::guiGetDisplay(int32_t index, char *label) { getParameterName(index, label); strcat(label, " = "); getParameterDisplay(index, label + strlen(label)); getParameterLabel(index, label + strlen(label)); } */ void mdaEPiano::process(int16_t *outputs_r, int16_t *outputs_l) { int16_t v; float x, l, r, od = overdrive; int32_t i; int16_t frame; for (frame = 0; frame < AUDIO_BLOCK_SAMPLES; frame++) { VOICE *V = voice; l = r = 0.0f; for (v = 0; v < activevoices; v++) { V->frac += V->delta; //integer-based linear interpolation V->pos += V->frac >> 16; V->frac &= 0xFFFF; if (V->pos > V->end) V->pos -= V->loop; i = waves[V->pos] + ((V->frac * (waves[V->pos + 1] - waves[V->pos])) >> 16); x = V->env * static_cast(i) / 32768.0f; V->env = V->env * V->dec; //envelope if (x > 0.0f) { x -= od * x * x; //overdrive if (x < -V->env) x = -V->env; } l += V->outl * x; r += V->outr * x; V++; } tl += tfrq * (l - tl); //treble boost tr += tfrq * (r - tr); r += treb * (r - tr); l += treb * (l - tl); lfo0 += dlfo * lfo1; //LFO for tremolo and autopan lfo1 -= dlfo * lfo0; l += l * lmod * lfo1; r += r * rmod * lfo1; //worth making all these local variables? outputs_l[frame] = static_cast(l) >> REDUCE_LOUDNESS; outputs_r[frame] = static_cast(r) >> REDUCE_LOUDNESS; } if (fabs(tl) < 1.0e-10) tl = 0.0f; //anti-denormal if (fabs(tr) < 1.0e-10) tr = 0.0f; for (v = 0; v < activevoices; v++) if (voice[v].env < SILENCE) voice[v] = voice[--activevoices]; } void mdaEPiano::noteOn(int32_t note, int32_t velocity) { float * param = programs[curProgram].param; float l = 99.0f; int32_t v, vl = 0, k, s; if (velocity > 0) { if (activevoices < poly) //add a note { vl = activevoices; activevoices++; voice[vl].f0 = voice[vl].f1 = 0.0f; } else //steal a note { for (v = 0; v < poly; v++) //find quietest voice { if (voice[v].env < l) { l = voice[v].env; vl = v; } } } k = (note - 60) * (note - 60); l = fine + random * ((float)(k % 13) - 6.5f); //random & fine tune if (note > 60) l += stretch * (float)k; //stretch s = size; //if(velocity > 40) s += (int32_t)(sizevel * (float)(velocity - 40)); - no velocity to hardness in ePiano k = 0; while (note > (kgrp[k].high + s)) k += 3; //find keygroup l += (float)(note - kgrp[k].root); //pitch l = 32000.0f * iFs * (float)exp(0.05776226505 * l); voice[vl].delta = (int32_t)(65536.0f * l); voice[vl].frac = 0; if (velocity > 48) k++; //mid velocity sample if (velocity > 80) k++; //high velocity sample voice[vl].pos = kgrp[k].pos; voice[vl].end = kgrp[k].end - 1; voice[vl].loop = kgrp[k].loop; voice[vl].env = (3.0f + 2.0f * velsens) * (float)pow(0.0078f * velocity, velsens); //velocity if (note > 60) voice[vl].env *= (float)exp(0.01f * (float)(60 - note)); //new! high notes quieter l = 50.0f + param[4] * param[4] * muff + muffvel * (float)(velocity - 64); //muffle if (l < (55.0f + 0.4f * (float)note)) l = 55.0f + 0.4f * (float)note; if (l > 210.0f) l = 210.0f; voice[vl].ff = l * l * iFs; voice[vl].note = note; //note->pan if (note < 12) note = 12; if (note > 108) note = 108; l = volume; voice[vl].outr = l + l * width * (float)(note - 60); voice[vl].outl = l + l - voice[vl].outr; if (note < 44) note = 44; //limit max decay length voice[vl].dec = (float)exp(-iFs * exp(-1.0 + 0.03 * (double)note - 2.0f * param[0])); } else //note off { for (v = 0; v < NVOICES; v++) if (voice[v].note == note) //any voices playing that note? { if (sustain == 0) { voice[v].dec = (float)exp(-iFs * exp(6.0 + 0.01 * (double)note - 5.0 * param[1])); } else voice[v].note = SUSTAIN; } } } bool mdaEPiano::processMidiMessage(uint8_t type, uint8_t data1, uint8_t data2) { float* param = programs[curProgram].param; switch (type) { case 0x80: //note off noteOn(data1 & 0x7F, 0); break; case 0x90: //note on noteOn(data1 & 0x7F, data2 & 0x7F); break; case 0xB0: //controller switch (data1) { case 0x01: //mod wheel modwhl = 0.0078f * (float)(data2); if (modwhl > 0.05f) //over-ride pan/trem depth { rmod = lmod = modwhl; //lfo depth if (param[4] < 0.5f) rmod = -rmod; } break; case 0x07: //volume volume = 0.00002f * (float)(data2 * data2); break; case 0x40: //sustain pedal case 0x42: //sustenuto pedal sustain = data2 & 0x40; if (sustain == 0) { noteOn(SUSTAIN, 0); //end all sustained notes } break; default: //all notes off if (data1 > 0x7A) { for (int32_t v = 0; v < NVOICES; v++) voice[v].dec = 0.99f; sustain = 0; muff = 160.0f; } break; } break; case 0xC0: //program change if (data1 < NPROGS) setProgram(data1); break; default: break; } return (true); } /* int32_t mdaEPiano::processEvents() { float * param = programs[curProgram].param; int32_t npos=0; for (int32_t i=0; inumEvents; i++) { if((ev->events[i])->type != kVstMidiType) continue; VstMidiEvent* event = (VstMidiEvent*)ev->events[i]; char* midiData = event->midiData; switch(midiData[0] & 0xf0) //status byte (all channels) { case 0x80: //note off notes[npos++] = event->deltaFrames; //delta notes[npos++] = midiData[1] & 0x7F; //note notes[npos++] = 0; //vel break; case 0x90: //note on notes[npos++] = event->deltaFrames; //delta notes[npos++] = midiData[1] & 0x7F; //note notes[npos++] = midiData[2] & 0x7F; //vel break; case 0xB0: //controller switch(midiData[1]) { case 0x01: //mod wheel modwhl = 0.0078f * (float)(midiData[2]); if(modwhl > 0.05f) //over-ride pan/trem depth { rmod = lmod = modwhl; //lfo depth if(param[4] < 0.5f) rmod = -rmod; } break; case 0x07: //volume volume = 0.00002f * (float)(midiData[2] * midiData[2]); break; case 0x40: //sustain pedal case 0x42: //sustenuto pedal sustain = midiData[2] & 0x40; if(sustain==0) { notes[npos++] = event->deltaFrames; notes[npos++] = SUSTAIN; //end all sustained notes notes[npos++] = 0; } break; default: //all notes off if(midiData[1]>0x7A) { for(int32_t v=0; vEVENTBUFFER) npos -= 3; //discard events if buffer full!! event++; //? } notes[npos] = EVENTS_DONE; return 1; } */