| 3 |
* LinuxSampler - modular, streaming capable sampler * |
* LinuxSampler - modular, streaming capable sampler * |
| 4 |
* * |
* * |
| 5 |
* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * |
* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * |
| 6 |
* Copyright (C) 2005 Christian Schoenebeck * |
* Copyright (C) 2005, 2006 Christian Schoenebeck * |
| 7 |
* * |
* * |
| 8 |
* This program is free software; you can redistribute it and/or modify * |
* This program is free software; you can redistribute it and/or modify * |
| 9 |
* it under the terms of the GNU General Public License as published by * |
* it under the terms of the GNU General Public License as published by * |
| 21 |
* MA 02111-1307 USA * |
* MA 02111-1307 USA * |
| 22 |
***************************************************************************/ |
***************************************************************************/ |
| 23 |
|
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|
#include "EGADSR.h" |
|
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#include "Manipulator.h" |
|
| 24 |
#include "../../common/Features.h" |
#include "../../common/Features.h" |
| 25 |
#include "Synthesizer.h" |
#include "Synthesizer.h" |
| 26 |
|
#include "Profiler.h" |
| 27 |
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| 28 |
#include "Voice.h" |
#include "Voice.h" |
| 29 |
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| 31 |
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| 32 |
const float Voice::FILTER_CUTOFF_COEFF(CalculateFilterCutoffCoeff()); |
const float Voice::FILTER_CUTOFF_COEFF(CalculateFilterCutoffCoeff()); |
| 33 |
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const int Voice::FILTER_UPDATE_MASK(CalculateFilterUpdateMask()); |
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| 34 |
float Voice::CalculateFilterCutoffCoeff() { |
float Voice::CalculateFilterCutoffCoeff() { |
| 35 |
return log(CONFIG_FILTER_CUTOFF_MIN / CONFIG_FILTER_CUTOFF_MAX); |
return log(CONFIG_FILTER_CUTOFF_MAX / CONFIG_FILTER_CUTOFF_MIN); |
|
} |
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|
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int Voice::CalculateFilterUpdateMask() { |
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if (CONFIG_FILTER_UPDATE_STEPS <= 0) return 0; |
|
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int power_of_two; |
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for (power_of_two = 0; 1<<power_of_two < CONFIG_FILTER_UPDATE_STEPS; power_of_two++); |
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return (1 << power_of_two) - 1; |
|
| 36 |
} |
} |
| 37 |
|
|
| 38 |
Voice::Voice() { |
Voice::Voice() { |
| 39 |
pEngine = NULL; |
pEngine = NULL; |
| 40 |
pDiskThread = NULL; |
pDiskThread = NULL; |
| 41 |
PlaybackState = playback_state_end; |
PlaybackState = playback_state_end; |
| 42 |
pEG1 = NULL; |
pLFO1 = new LFOUnsigned(1.0f); // amplitude EG (0..1 range) |
| 43 |
pEG2 = NULL; |
pLFO2 = new LFOUnsigned(1.0f); // filter EG (0..1 range) |
| 44 |
pEG3 = NULL; |
pLFO3 = new LFOSigned(1200.0f); // pitch EG (-1200..+1200 range) |
|
pVCAManipulator = NULL; |
|
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pVCFCManipulator = NULL; |
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pVCOManipulator = NULL; |
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pLFO1 = NULL; |
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pLFO2 = NULL; |
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pLFO3 = NULL; |
|
| 45 |
KeyGroup = 0; |
KeyGroup = 0; |
| 46 |
SynthesisMode = 0; // set all mode bits to 0 first |
SynthesisMode = 0; // set all mode bits to 0 first |
| 47 |
// select synthesis implementation (currently either pure C++ or MMX+SSE(1)) |
// select synthesis implementation (currently either pure C++ or MMX+SSE(1)) |
| 48 |
#if ARCH_X86 |
#if CONFIG_ASM && ARCH_X86 |
| 49 |
SYNTHESIS_MODE_SET_IMPLEMENTATION(SynthesisMode, Features::supportsMMX() && Features::supportsSSE()); |
SYNTHESIS_MODE_SET_IMPLEMENTATION(SynthesisMode, Features::supportsMMX() && Features::supportsSSE()); |
| 50 |
#else |
#else |
| 51 |
SYNTHESIS_MODE_SET_IMPLEMENTATION(SynthesisMode, false); |
SYNTHESIS_MODE_SET_IMPLEMENTATION(SynthesisMode, false); |
| 52 |
#endif |
#endif |
| 53 |
SYNTHESIS_MODE_SET_PROFILING(SynthesisMode, true); |
SYNTHESIS_MODE_SET_PROFILING(SynthesisMode, Profiler::isEnabled()); |
| 54 |
|
|
| 55 |
FilterLeft.Reset(); |
finalSynthesisParameters.filterLeft.Reset(); |
| 56 |
FilterRight.Reset(); |
finalSynthesisParameters.filterRight.Reset(); |
| 57 |
} |
} |
| 58 |
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|
| 59 |
Voice::~Voice() { |
Voice::~Voice() { |
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if (pEG1) delete pEG1; |
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if (pEG2) delete pEG2; |
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if (pEG3) delete pEG3; |
|
| 60 |
if (pLFO1) delete pLFO1; |
if (pLFO1) delete pLFO1; |
| 61 |
if (pLFO2) delete pLFO2; |
if (pLFO2) delete pLFO2; |
| 62 |
if (pLFO3) delete pLFO3; |
if (pLFO3) delete pLFO3; |
|
if (pVCAManipulator) delete pVCAManipulator; |
|
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if (pVCFCManipulator) delete pVCFCManipulator; |
|
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if (pVCOManipulator) delete pVCOManipulator; |
|
| 63 |
} |
} |
| 64 |
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| 65 |
void Voice::SetEngine(Engine* pEngine) { |
void Voice::SetEngine(Engine* pEngine) { |
| 66 |
this->pEngine = pEngine; |
this->pEngine = pEngine; |
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// delete old objects |
|
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if (pEG1) delete pEG1; |
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if (pEG2) delete pEG2; |
|
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if (pEG3) delete pEG3; |
|
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if (pVCAManipulator) delete pVCAManipulator; |
|
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if (pVCFCManipulator) delete pVCFCManipulator; |
|
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if (pVCOManipulator) delete pVCOManipulator; |
|
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if (pLFO1) delete pLFO1; |
|
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if (pLFO2) delete pLFO2; |
|
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if (pLFO3) delete pLFO3; |
|
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|
|
|
// create new ones |
|
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pEG1 = new EGADSR(pEngine, Event::destination_vca); |
|
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pEG2 = new EGADSR(pEngine, Event::destination_vcfc); |
|
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pEG3 = new EGDecay(pEngine, Event::destination_vco); |
|
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pVCAManipulator = new VCAManipulator(pEngine); |
|
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pVCFCManipulator = new VCFCManipulator(pEngine); |
|
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pVCOManipulator = new VCOManipulator(pEngine); |
|
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pLFO1 = new LFO<gig::VCAManipulator>(0.0f, 1.0f, LFO<VCAManipulator>::propagation_top_down, pVCAManipulator, pEngine->pEventPool); |
|
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pLFO2 = new LFO<gig::VCFCManipulator>(0.0f, 1.0f, LFO<VCFCManipulator>::propagation_top_down, pVCFCManipulator, pEngine->pEventPool); |
|
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pLFO3 = new LFO<gig::VCOManipulator>(-1200.0f, 1200.0f, LFO<VCOManipulator>::propagation_middle_balanced, pVCOManipulator, pEngine->pEventPool); // +-1 octave (+-1200 cents) max. |
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| 67 |
this->pDiskThread = pEngine->pDiskThread; |
this->pDiskThread = pEngine->pDiskThread; |
| 68 |
dmsg(6,("Voice::SetEngine()\n")); |
dmsg(6,("Voice::SetEngine()\n")); |
| 69 |
} |
} |
| 72 |
* Initializes and triggers the voice, a disk stream will be launched if |
* Initializes and triggers the voice, a disk stream will be launched if |
| 73 |
* needed. |
* needed. |
| 74 |
* |
* |
| 75 |
* @param pEngineChannel - engine channel on which this voice was ordered |
* @param pEngineChannel - engine channel on which this voice was ordered |
| 76 |
* @param itNoteOnEvent - event that caused triggering of this voice |
* @param itNoteOnEvent - event that caused triggering of this voice |
| 77 |
* @param PitchBend - MIDI detune factor (-8192 ... +8191) |
* @param PitchBend - MIDI detune factor (-8192 ... +8191) |
| 78 |
* @param pInstrument - points to the loaded instrument which provides sample wave(s) and articulation data |
* @param pDimRgn - points to the dimension region which provides sample wave(s) and articulation data |
| 79 |
* @param iLayer - layer number this voice refers to (only if this is a layered sound of course) |
* @param VoiceType - type of this voice |
| 80 |
* @param ReleaseTriggerVoice - if this new voice is a release trigger voice (optional, default = false) |
* @param iKeyGroup - a value > 0 defines a key group in which this voice is member of |
|
* @param VoiceStealingAllowed - wether the voice is allowed to steal voices for further subvoices |
|
| 81 |
* @returns 0 on success, a value < 0 if the voice wasn't triggered |
* @returns 0 on success, a value < 0 if the voice wasn't triggered |
| 82 |
* (either due to an error or e.g. because no region is |
* (either due to an error or e.g. because no region is |
| 83 |
* defined for the given key) |
* defined for the given key) |
| 84 |
*/ |
*/ |
| 85 |
int Voice::Trigger(EngineChannel* pEngineChannel, Pool<Event>::Iterator& itNoteOnEvent, int PitchBend, ::gig::Instrument* pInstrument, int iLayer, bool ReleaseTriggerVoice, bool VoiceStealingAllowed) { |
int Voice::Trigger(EngineChannel* pEngineChannel, Pool<Event>::Iterator& itNoteOnEvent, int PitchBend, ::gig::DimensionRegion* pDimRgn, type_t VoiceType, int iKeyGroup) { |
| 86 |
this->pEngineChannel = pEngineChannel; |
this->pEngineChannel = pEngineChannel; |
| 87 |
if (!pInstrument) { |
this->pDimRgn = pDimRgn; |
| 88 |
dmsg(1,("voice::trigger: !pInstrument\n")); |
|
|
exit(EXIT_FAILURE); |
|
|
} |
|
| 89 |
#if CONFIG_DEVMODE |
#if CONFIG_DEVMODE |
| 90 |
if (itNoteOnEvent->FragmentPos() > pEngine->MaxSamplesPerCycle) { // just a sanity check for debugging |
if (itNoteOnEvent->FragmentPos() > pEngine->MaxSamplesPerCycle) { // just a sanity check for debugging |
| 91 |
dmsg(1,("Voice::Trigger(): ERROR, TriggerDelay > Totalsamples\n")); |
dmsg(1,("Voice::Trigger(): ERROR, TriggerDelay > Totalsamples\n")); |
| 92 |
} |
} |
| 93 |
#endif // CONFIG_DEVMODE |
#endif // CONFIG_DEVMODE |
| 94 |
|
|
| 95 |
Type = type_normal; |
Type = VoiceType; |
| 96 |
MIDIKey = itNoteOnEvent->Param.Note.Key; |
MIDIKey = itNoteOnEvent->Param.Note.Key; |
|
pRegion = pInstrument->GetRegion(MIDIKey); |
|
| 97 |
PlaybackState = playback_state_init; // mark voice as triggered, but no audio rendered yet |
PlaybackState = playback_state_init; // mark voice as triggered, but no audio rendered yet |
| 98 |
Delay = itNoteOnEvent->FragmentPos(); |
Delay = itNoteOnEvent->FragmentPos(); |
| 99 |
itTriggerEvent = itNoteOnEvent; |
itTriggerEvent = itNoteOnEvent; |
| 100 |
itKillEvent = Pool<Event>::Iterator(); |
itKillEvent = Pool<Event>::Iterator(); |
| 101 |
|
KeyGroup = iKeyGroup; |
| 102 |
|
pSample = pDimRgn->pSample; // sample won't change until the voice is finished |
| 103 |
|
|
| 104 |
if (!pRegion) { |
// calculate volume |
| 105 |
dmsg(4, ("gig::Voice: No Region defined for MIDI key %d\n", MIDIKey)); |
const double velocityAttenuation = pDimRgn->GetVelocityAttenuation(itNoteOnEvent->Param.Note.Velocity); |
|
return -1; |
|
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} |
|
| 106 |
|
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| 107 |
// only mark the first voice of a layered voice (group) to be in a |
float volume = velocityAttenuation / 32768.0f; // we downscale by 32768 to convert from int16 value range to DSP value range (which is -1.0..1.0) |
|
// key group, so the layered voices won't kill each other |
|
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KeyGroup = (iLayer == 0 && !ReleaseTriggerVoice) ? pRegion->KeyGroup : 0; |
|
| 108 |
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| 109 |
// get current dimension values to select the right dimension region |
volume *= pDimRgn->SampleAttenuation; |
|
//FIXME: controller values for selecting the dimension region here are currently not sample accurate |
|
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uint DimValues[8] = { 0 }; |
|
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for (int i = pRegion->Dimensions - 1; i >= 0; i--) { |
|
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switch (pRegion->pDimensionDefinitions[i].dimension) { |
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case ::gig::dimension_samplechannel: |
|
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DimValues[i] = 0; //TODO: we currently ignore this dimension |
|
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break; |
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case ::gig::dimension_layer: |
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DimValues[i] = iLayer; |
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break; |
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case ::gig::dimension_velocity: |
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DimValues[i] = itNoteOnEvent->Param.Note.Velocity; |
|
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break; |
|
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case ::gig::dimension_channelaftertouch: |
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DimValues[i] = 0; //TODO: we currently ignore this dimension |
|
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break; |
|
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case ::gig::dimension_releasetrigger: |
|
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Type = (ReleaseTriggerVoice) ? type_release_trigger : (!iLayer) ? type_release_trigger_required : type_normal; |
|
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DimValues[i] = (uint) ReleaseTriggerVoice; |
|
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break; |
|
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case ::gig::dimension_keyboard: |
|
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DimValues[i] = (uint) pEngineChannel->CurrentKeyDimension; |
|
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break; |
|
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case ::gig::dimension_roundrobin: |
|
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DimValues[i] = (uint) pEngineChannel->pMIDIKeyInfo[MIDIKey].RoundRobinIndex; // incremented for each note on |
|
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break; |
|
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case ::gig::dimension_random: |
|
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pEngine->RandomSeed = pEngine->RandomSeed * 1103515245 + 12345; // classic pseudo random number generator |
|
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DimValues[i] = (uint) pEngine->RandomSeed >> (32 - pRegion->pDimensionDefinitions[i].bits); // highest bits are most random |
|
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break; |
|
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case ::gig::dimension_modwheel: |
|
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DimValues[i] = pEngineChannel->ControllerTable[1]; |
|
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break; |
|
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case ::gig::dimension_breath: |
|
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DimValues[i] = pEngineChannel->ControllerTable[2]; |
|
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break; |
|
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case ::gig::dimension_foot: |
|
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DimValues[i] = pEngineChannel->ControllerTable[4]; |
|
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break; |
|
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case ::gig::dimension_portamentotime: |
|
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DimValues[i] = pEngineChannel->ControllerTable[5]; |
|
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break; |
|
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case ::gig::dimension_effect1: |
|
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DimValues[i] = pEngineChannel->ControllerTable[12]; |
|
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break; |
|
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case ::gig::dimension_effect2: |
|
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DimValues[i] = pEngineChannel->ControllerTable[13]; |
|
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break; |
|
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case ::gig::dimension_genpurpose1: |
|
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DimValues[i] = pEngineChannel->ControllerTable[16]; |
|
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break; |
|
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case ::gig::dimension_genpurpose2: |
|
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DimValues[i] = pEngineChannel->ControllerTable[17]; |
|
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break; |
|
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case ::gig::dimension_genpurpose3: |
|
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DimValues[i] = pEngineChannel->ControllerTable[18]; |
|
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break; |
|
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case ::gig::dimension_genpurpose4: |
|
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DimValues[i] = pEngineChannel->ControllerTable[19]; |
|
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break; |
|
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case ::gig::dimension_sustainpedal: |
|
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DimValues[i] = pEngineChannel->ControllerTable[64]; |
|
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break; |
|
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case ::gig::dimension_portamento: |
|
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DimValues[i] = pEngineChannel->ControllerTable[65]; |
|
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break; |
|
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case ::gig::dimension_sostenutopedal: |
|
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DimValues[i] = pEngineChannel->ControllerTable[66]; |
|
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break; |
|
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case ::gig::dimension_softpedal: |
|
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DimValues[i] = pEngineChannel->ControllerTable[67]; |
|
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break; |
|
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case ::gig::dimension_genpurpose5: |
|
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DimValues[i] = pEngineChannel->ControllerTable[80]; |
|
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break; |
|
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case ::gig::dimension_genpurpose6: |
|
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DimValues[i] = pEngineChannel->ControllerTable[81]; |
|
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break; |
|
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case ::gig::dimension_genpurpose7: |
|
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DimValues[i] = pEngineChannel->ControllerTable[82]; |
|
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break; |
|
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case ::gig::dimension_genpurpose8: |
|
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DimValues[i] = pEngineChannel->ControllerTable[83]; |
|
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break; |
|
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case ::gig::dimension_effect1depth: |
|
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DimValues[i] = pEngineChannel->ControllerTable[91]; |
|
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break; |
|
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case ::gig::dimension_effect2depth: |
|
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DimValues[i] = pEngineChannel->ControllerTable[92]; |
|
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break; |
|
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case ::gig::dimension_effect3depth: |
|
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DimValues[i] = pEngineChannel->ControllerTable[93]; |
|
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break; |
|
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case ::gig::dimension_effect4depth: |
|
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DimValues[i] = pEngineChannel->ControllerTable[94]; |
|
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break; |
|
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case ::gig::dimension_effect5depth: |
|
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DimValues[i] = pEngineChannel->ControllerTable[95]; |
|
|
break; |
|
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case ::gig::dimension_none: |
|
|
std::cerr << "gig::Voice::Trigger() Error: dimension=none\n" << std::flush; |
|
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break; |
|
|
default: |
|
|
std::cerr << "gig::Voice::Trigger() Error: Unknown dimension\n" << std::flush; |
|
|
} |
|
|
} |
|
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pDimRgn = pRegion->GetDimensionRegionByValue(DimValues); |
|
| 110 |
|
|
| 111 |
pSample = pDimRgn->pSample; // sample won't change until the voice is finished |
// the volume of release triggered samples depends on note length |
| 112 |
if (!pSample || !pSample->SamplesTotal) return -1; // no need to continue if sample is silent |
if (Type == type_release_trigger) { |
| 113 |
|
float noteLength = float(pEngine->FrameTime + Delay - |
| 114 |
|
pEngineChannel->pMIDIKeyInfo[MIDIKey].NoteOnTime) / pEngine->SampleRate; |
| 115 |
|
float attenuation = 1 - 0.01053 * (256 >> pDimRgn->ReleaseTriggerDecay) * noteLength; |
| 116 |
|
if (attenuation <= 0) return -1; |
| 117 |
|
volume *= attenuation; |
| 118 |
|
} |
| 119 |
|
|
| 120 |
// select channel mode (mono or stereo) |
// select channel mode (mono or stereo) |
| 121 |
SYNTHESIS_MODE_SET_CHANNELS(SynthesisMode, pSample->Channels == 2); |
SYNTHESIS_MODE_SET_CHANNELS(SynthesisMode, pSample->Channels == 2); |
| 122 |
|
|
| 123 |
// get starting crossfade volume level |
// get starting crossfade volume level |
| 124 |
|
float crossfadeVolume; |
| 125 |
switch (pDimRgn->AttenuationController.type) { |
switch (pDimRgn->AttenuationController.type) { |
| 126 |
case ::gig::attenuation_ctrl_t::type_channelaftertouch: |
case ::gig::attenuation_ctrl_t::type_channelaftertouch: |
| 127 |
CrossfadeVolume = 1.0f; //TODO: aftertouch not supported yet |
crossfadeVolume = 1.0f; //TODO: aftertouch not supported yet |
| 128 |
break; |
break; |
| 129 |
case ::gig::attenuation_ctrl_t::type_velocity: |
case ::gig::attenuation_ctrl_t::type_velocity: |
| 130 |
CrossfadeVolume = CrossfadeAttenuation(itNoteOnEvent->Param.Note.Velocity); |
crossfadeVolume = Engine::CrossfadeCurve[CrossfadeAttenuation(itNoteOnEvent->Param.Note.Velocity)]; |
| 131 |
break; |
break; |
| 132 |
case ::gig::attenuation_ctrl_t::type_controlchange: //FIXME: currently not sample accurate |
case ::gig::attenuation_ctrl_t::type_controlchange: //FIXME: currently not sample accurate |
| 133 |
CrossfadeVolume = CrossfadeAttenuation(pEngineChannel->ControllerTable[pDimRgn->AttenuationController.controller_number]); |
crossfadeVolume = Engine::CrossfadeCurve[CrossfadeAttenuation(pEngineChannel->ControllerTable[pDimRgn->AttenuationController.controller_number])]; |
| 134 |
break; |
break; |
| 135 |
case ::gig::attenuation_ctrl_t::type_none: // no crossfade defined |
case ::gig::attenuation_ctrl_t::type_none: // no crossfade defined |
| 136 |
default: |
default: |
| 137 |
CrossfadeVolume = 1.0f; |
crossfadeVolume = 1.0f; |
| 138 |
} |
} |
| 139 |
|
|
| 140 |
PanLeft = 1.0f - float(RTMath::Max(pDimRgn->Pan, 0)) / 63.0f; |
VolumeLeft = volume * Engine::PanCurve[64 - pDimRgn->Pan]; |
| 141 |
PanRight = 1.0f - float(RTMath::Min(pDimRgn->Pan, 0)) / -64.0f; |
VolumeRight = volume * Engine::PanCurve[64 + pDimRgn->Pan]; |
| 142 |
|
|
| 143 |
Pos = pDimRgn->SampleStartOffset; // offset where we should start playback of sample (0 - 2000 sample points) |
float subfragmentRate = pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE; |
| 144 |
|
CrossfadeSmoother.trigger(crossfadeVolume, subfragmentRate); |
| 145 |
|
VolumeSmoother.trigger(pEngineChannel->GlobalVolume, subfragmentRate); |
| 146 |
|
PanLeftSmoother.trigger(pEngineChannel->GlobalPanLeft, subfragmentRate); |
| 147 |
|
PanRightSmoother.trigger(pEngineChannel->GlobalPanRight, subfragmentRate); |
| 148 |
|
|
| 149 |
|
finalSynthesisParameters.dPos = pDimRgn->SampleStartOffset; // offset where we should start playback of sample (0 - 2000 sample points) |
| 150 |
|
Pos = pDimRgn->SampleStartOffset; |
| 151 |
|
|
| 152 |
// Check if the sample needs disk streaming or is too short for that |
// Check if the sample needs disk streaming or is too short for that |
| 153 |
long cachedsamples = pSample->GetCache().Size / pSample->FrameSize; |
long cachedsamples = pSample->GetCache().Size / pSample->FrameSize; |
| 154 |
DiskVoice = cachedsamples < pSample->SamplesTotal; |
DiskVoice = cachedsamples < pSample->SamplesTotal; |
| 155 |
|
|
| 156 |
|
const DLS::sample_loop_t& loopinfo = pDimRgn->pSampleLoops[0]; |
| 157 |
|
|
| 158 |
if (DiskVoice) { // voice to be streamed from disk |
if (DiskVoice) { // voice to be streamed from disk |
| 159 |
MaxRAMPos = cachedsamples - (pEngine->MaxSamplesPerCycle << CONFIG_MAX_PITCH) / pSample->Channels; //TODO: this calculation is too pessimistic and may better be moved to Render() method, so it calculates MaxRAMPos dependent to the current demand of sample points to be rendered (e.g. in case of JACK) |
MaxRAMPos = cachedsamples - (pEngine->MaxSamplesPerCycle << CONFIG_MAX_PITCH) / pSample->Channels; //TODO: this calculation is too pessimistic and may better be moved to Render() method, so it calculates MaxRAMPos dependent to the current demand of sample points to be rendered (e.g. in case of JACK) |
| 160 |
|
|
| 161 |
// check if there's a loop defined which completely fits into the cached (RAM) part of the sample |
// check if there's a loop defined which completely fits into the cached (RAM) part of the sample |
| 162 |
if (pSample->Loops && pSample->LoopEnd <= MaxRAMPos) { |
RAMLoop = (pDimRgn->SampleLoops && (loopinfo.LoopStart + loopinfo.LoopLength) <= MaxRAMPos); |
|
RAMLoop = true; |
|
|
LoopCyclesLeft = pSample->LoopPlayCount; |
|
|
} |
|
|
else RAMLoop = false; |
|
| 163 |
|
|
| 164 |
if (pDiskThread->OrderNewStream(&DiskStreamRef, pSample, MaxRAMPos, !RAMLoop) < 0) { |
if (pDiskThread->OrderNewStream(&DiskStreamRef, pDimRgn, MaxRAMPos, !RAMLoop) < 0) { |
| 165 |
dmsg(1,("Disk stream order failed!\n")); |
dmsg(1,("Disk stream order failed!\n")); |
| 166 |
KillImmediately(); |
KillImmediately(); |
| 167 |
return -1; |
return -1; |
| 170 |
} |
} |
| 171 |
else { // RAM only voice |
else { // RAM only voice |
| 172 |
MaxRAMPos = cachedsamples; |
MaxRAMPos = cachedsamples; |
| 173 |
if (pSample->Loops) { |
RAMLoop = (pDimRgn->SampleLoops != 0); |
|
RAMLoop = true; |
|
|
LoopCyclesLeft = pSample->LoopPlayCount; |
|
|
} |
|
|
else RAMLoop = false; |
|
| 174 |
dmsg(4,("RAM only voice launched (Looping: %s)\n", (RAMLoop) ? "yes" : "no")); |
dmsg(4,("RAM only voice launched (Looping: %s)\n", (RAMLoop) ? "yes" : "no")); |
| 175 |
} |
} |
| 176 |
|
if (RAMLoop) { |
| 177 |
|
loop.uiTotalCycles = pSample->LoopPlayCount; |
| 178 |
|
loop.uiCyclesLeft = pSample->LoopPlayCount; |
| 179 |
|
loop.uiStart = loopinfo.LoopStart; |
| 180 |
|
loop.uiEnd = loopinfo.LoopStart + loopinfo.LoopLength; |
| 181 |
|
loop.uiSize = loopinfo.LoopLength; |
| 182 |
|
} |
| 183 |
|
|
| 184 |
// calculate initial pitch value |
// calculate initial pitch value |
| 185 |
{ |
{ |
| 186 |
double pitchbasecents = pDimRgn->FineTune + (int) pEngine->ScaleTuning[MIDIKey % 12]; |
double pitchbasecents = pDimRgn->FineTune + (int) pEngine->ScaleTuning[MIDIKey % 12]; |
| 187 |
if (pDimRgn->PitchTrack) pitchbasecents += (MIDIKey - (int) pDimRgn->UnityNote) * 100; |
if (pDimRgn->PitchTrack) pitchbasecents += (MIDIKey - (int) pDimRgn->UnityNote) * 100; |
| 188 |
this->PitchBase = RTMath::CentsToFreqRatio(pitchbasecents) * (double(pSample->SamplesPerSecond) / double(pEngine->pAudioOutputDevice->SampleRate())); |
this->PitchBase = RTMath::CentsToFreqRatio(pitchbasecents) * (double(pSample->SamplesPerSecond) / double(pEngine->SampleRate)); |
| 189 |
this->PitchBend = RTMath::CentsToFreqRatio(((double) PitchBend / 8192.0) * 200.0); // pitchbend wheel +-2 semitones = 200 cents |
this->PitchBend = RTMath::CentsToFreqRatio(((double) PitchBend / 8192.0) * 200.0); // pitchbend wheel +-2 semitones = 200 cents |
| 190 |
} |
} |
| 191 |
|
|
|
const double velocityAttenuation = pDimRgn->GetVelocityAttenuation(itNoteOnEvent->Param.Note.Velocity); |
|
|
|
|
|
Volume = velocityAttenuation / 32768.0f; // we downscale by 32768 to convert from int16 value range to DSP value range (which is -1.0..1.0) |
|
|
|
|
|
Volume *= pDimRgn->SampleAttenuation; |
|
|
|
|
| 192 |
// the length of the decay and release curves are dependent on the velocity |
// the length of the decay and release curves are dependent on the velocity |
| 193 |
const double velrelease = 1 / pDimRgn->GetVelocityRelease(itNoteOnEvent->Param.Note.Velocity); |
const double velrelease = 1 / pDimRgn->GetVelocityRelease(itNoteOnEvent->Param.Note.Velocity); |
| 194 |
|
|
| 212 |
} |
} |
| 213 |
if (pDimRgn->EG1ControllerInvert) eg1controllervalue = 127 - eg1controllervalue; |
if (pDimRgn->EG1ControllerInvert) eg1controllervalue = 127 - eg1controllervalue; |
| 214 |
|
|
| 215 |
// calculate influence of EG1 controller on EG1's parameters (TODO: needs to be fine tuned) |
// calculate influence of EG1 controller on EG1's parameters |
| 216 |
double eg1attack = (pDimRgn->EG1ControllerAttackInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG1ControllerAttackInfluence) * eg1controllervalue : 0.0; |
// (eg1attack is different from the others) |
| 217 |
double eg1decay = (pDimRgn->EG1ControllerDecayInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG1ControllerDecayInfluence) * eg1controllervalue : 0.0; |
double eg1attack = (pDimRgn->EG1ControllerAttackInfluence) ? |
| 218 |
double eg1release = (pDimRgn->EG1ControllerReleaseInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG1ControllerReleaseInfluence) * eg1controllervalue : 0.0; |
1 + 0.031 * (double) (pDimRgn->EG1ControllerAttackInfluence == 1 ? |
| 219 |
|
1 : 1 << pDimRgn->EG1ControllerAttackInfluence) * eg1controllervalue : 1.0; |
| 220 |
pEG1->Trigger(pDimRgn->EG1PreAttack, |
double eg1decay = (pDimRgn->EG1ControllerDecayInfluence) ? 1 + 0.00775 * (double) (1 << pDimRgn->EG1ControllerDecayInfluence) * eg1controllervalue : 1.0; |
| 221 |
pDimRgn->EG1Attack + eg1attack, |
double eg1release = (pDimRgn->EG1ControllerReleaseInfluence) ? 1 + 0.00775 * (double) (1 << pDimRgn->EG1ControllerReleaseInfluence) * eg1controllervalue : 1.0; |
| 222 |
pDimRgn->EG1Hold, |
|
| 223 |
pSample->LoopStart, |
EG1.trigger(pDimRgn->EG1PreAttack, |
| 224 |
(pDimRgn->EG1Decay1 + eg1decay) * velrelease, |
pDimRgn->EG1Attack * eg1attack, |
| 225 |
(pDimRgn->EG1Decay2 + eg1decay) * velrelease, |
pDimRgn->EG1Hold, |
| 226 |
pDimRgn->EG1InfiniteSustain, |
pDimRgn->EG1Decay1 * eg1decay * velrelease, |
| 227 |
pDimRgn->EG1Sustain, |
pDimRgn->EG1Decay2 * eg1decay * velrelease, |
| 228 |
(pDimRgn->EG1Release + eg1release) * velrelease, |
pDimRgn->EG1InfiniteSustain, |
| 229 |
// the SSE synthesis implementation requires |
pDimRgn->EG1Sustain, |
| 230 |
// the vca start to be 16 byte aligned |
pDimRgn->EG1Release * eg1release * velrelease, |
| 231 |
SYNTHESIS_MODE_GET_IMPLEMENTATION(SynthesisMode) ? |
velocityAttenuation, |
| 232 |
Delay & 0xfffffffc : Delay, |
pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 233 |
velocityAttenuation); |
} |
| 234 |
} |
|
| 235 |
|
#ifdef CONFIG_INTERPOLATE_VOLUME |
| 236 |
|
// setup initial volume in synthesis parameters |
| 237 |
|
#ifdef CONFIG_PROCESS_MUTED_CHANNELS |
| 238 |
|
if (pEngineChannel->GetMute()) { |
| 239 |
|
finalSynthesisParameters.fFinalVolumeLeft = 0; |
| 240 |
|
finalSynthesisParameters.fFinalVolumeRight = 0; |
| 241 |
|
} |
| 242 |
|
else |
| 243 |
|
#else |
| 244 |
|
{ |
| 245 |
|
float finalVolume = pEngineChannel->GlobalVolume * crossfadeVolume * EG1.getLevel(); |
| 246 |
|
|
| 247 |
|
finalSynthesisParameters.fFinalVolumeLeft = finalVolume * VolumeLeft * pEngineChannel->GlobalPanLeft; |
| 248 |
|
finalSynthesisParameters.fFinalVolumeRight = finalVolume * VolumeRight * pEngineChannel->GlobalPanRight; |
| 249 |
|
} |
| 250 |
|
#endif |
| 251 |
|
#endif |
| 252 |
|
|
| 253 |
// setup EG 2 (VCF Cutoff EG) |
// setup EG 2 (VCF Cutoff EG) |
| 254 |
{ |
{ |
| 270 |
} |
} |
| 271 |
if (pDimRgn->EG2ControllerInvert) eg2controllervalue = 127 - eg2controllervalue; |
if (pDimRgn->EG2ControllerInvert) eg2controllervalue = 127 - eg2controllervalue; |
| 272 |
|
|
| 273 |
// calculate influence of EG2 controller on EG2's parameters (TODO: needs to be fine tuned) |
// calculate influence of EG2 controller on EG2's parameters |
| 274 |
double eg2attack = (pDimRgn->EG2ControllerAttackInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG2ControllerAttackInfluence) * eg2controllervalue : 0.0; |
double eg2attack = (pDimRgn->EG2ControllerAttackInfluence) ? 1 + 0.00775 * (double) (1 << pDimRgn->EG2ControllerAttackInfluence) * eg2controllervalue : 1.0; |
| 275 |
double eg2decay = (pDimRgn->EG2ControllerDecayInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG2ControllerDecayInfluence) * eg2controllervalue : 0.0; |
double eg2decay = (pDimRgn->EG2ControllerDecayInfluence) ? 1 + 0.00775 * (double) (1 << pDimRgn->EG2ControllerDecayInfluence) * eg2controllervalue : 1.0; |
| 276 |
double eg2release = (pDimRgn->EG2ControllerReleaseInfluence) ? 0.0001 * (double) (1 << pDimRgn->EG2ControllerReleaseInfluence) * eg2controllervalue : 0.0; |
double eg2release = (pDimRgn->EG2ControllerReleaseInfluence) ? 1 + 0.00775 * (double) (1 << pDimRgn->EG2ControllerReleaseInfluence) * eg2controllervalue : 1.0; |
| 277 |
|
|
| 278 |
pEG2->Trigger(pDimRgn->EG2PreAttack, |
EG2.trigger(pDimRgn->EG2PreAttack, |
| 279 |
pDimRgn->EG2Attack + eg2attack, |
pDimRgn->EG2Attack * eg2attack, |
| 280 |
false, |
false, |
| 281 |
pSample->LoopStart, |
pDimRgn->EG2Decay1 * eg2decay * velrelease, |
| 282 |
(pDimRgn->EG2Decay1 + eg2decay) * velrelease, |
pDimRgn->EG2Decay2 * eg2decay * velrelease, |
| 283 |
(pDimRgn->EG2Decay2 + eg2decay) * velrelease, |
pDimRgn->EG2InfiniteSustain, |
| 284 |
pDimRgn->EG2InfiniteSustain, |
pDimRgn->EG2Sustain, |
| 285 |
pDimRgn->EG2Sustain, |
pDimRgn->EG2Release * eg2release * velrelease, |
| 286 |
(pDimRgn->EG2Release + eg2release) * velrelease, |
velocityAttenuation, |
| 287 |
Delay, |
pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
|
velocityAttenuation); |
|
| 288 |
} |
} |
| 289 |
|
|
| 290 |
|
|
| 291 |
// setup EG 3 (VCO EG) |
// setup EG 3 (VCO EG) |
| 292 |
{ |
{ |
| 293 |
double eg3depth = RTMath::CentsToFreqRatio(pDimRgn->EG3Depth); |
// if portamento mode is on, we dedicate EG3 purely for portamento, otherwise if portamento is off we do as told by the patch |
| 294 |
pEG3->Trigger(eg3depth, pDimRgn->EG3Attack, Delay); |
bool bPortamento = pEngineChannel->PortamentoMode && pEngineChannel->PortamentoPos >= 0.0f; |
| 295 |
|
float eg3depth = (bPortamento) |
| 296 |
|
? RTMath::CentsToFreqRatio((pEngineChannel->PortamentoPos - (float) MIDIKey) * 100) |
| 297 |
|
: RTMath::CentsToFreqRatio(pDimRgn->EG3Depth); |
| 298 |
|
float eg3time = (bPortamento) |
| 299 |
|
? pEngineChannel->PortamentoTime |
| 300 |
|
: pDimRgn->EG3Attack; |
| 301 |
|
EG3.trigger(eg3depth, eg3time, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 302 |
|
dmsg(5,("PortamentoPos=%f, depth=%f, time=%f\n", pEngineChannel->PortamentoPos, eg3depth, eg3time)); |
| 303 |
} |
} |
| 304 |
|
|
| 305 |
|
|
| 310 |
case ::gig::lfo1_ctrl_internal: |
case ::gig::lfo1_ctrl_internal: |
| 311 |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
| 312 |
pLFO1->ExtController = 0; // no external controller |
pLFO1->ExtController = 0; // no external controller |
| 313 |
|
bLFO1Enabled = (lfo1_internal_depth > 0); |
| 314 |
break; |
break; |
| 315 |
case ::gig::lfo1_ctrl_modwheel: |
case ::gig::lfo1_ctrl_modwheel: |
| 316 |
lfo1_internal_depth = 0; |
lfo1_internal_depth = 0; |
| 317 |
pLFO1->ExtController = 1; // MIDI controller 1 |
pLFO1->ExtController = 1; // MIDI controller 1 |
| 318 |
|
bLFO1Enabled = (pDimRgn->LFO1ControlDepth > 0); |
| 319 |
break; |
break; |
| 320 |
case ::gig::lfo1_ctrl_breath: |
case ::gig::lfo1_ctrl_breath: |
| 321 |
lfo1_internal_depth = 0; |
lfo1_internal_depth = 0; |
| 322 |
pLFO1->ExtController = 2; // MIDI controller 2 |
pLFO1->ExtController = 2; // MIDI controller 2 |
| 323 |
|
bLFO1Enabled = (pDimRgn->LFO1ControlDepth > 0); |
| 324 |
break; |
break; |
| 325 |
case ::gig::lfo1_ctrl_internal_modwheel: |
case ::gig::lfo1_ctrl_internal_modwheel: |
| 326 |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
| 327 |
pLFO1->ExtController = 1; // MIDI controller 1 |
pLFO1->ExtController = 1; // MIDI controller 1 |
| 328 |
|
bLFO1Enabled = (lfo1_internal_depth > 0 || pDimRgn->LFO1ControlDepth > 0); |
| 329 |
break; |
break; |
| 330 |
case ::gig::lfo1_ctrl_internal_breath: |
case ::gig::lfo1_ctrl_internal_breath: |
| 331 |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
lfo1_internal_depth = pDimRgn->LFO1InternalDepth; |
| 332 |
pLFO1->ExtController = 2; // MIDI controller 2 |
pLFO1->ExtController = 2; // MIDI controller 2 |
| 333 |
|
bLFO1Enabled = (lfo1_internal_depth > 0 || pDimRgn->LFO1ControlDepth > 0); |
| 334 |
break; |
break; |
| 335 |
default: |
default: |
| 336 |
lfo1_internal_depth = 0; |
lfo1_internal_depth = 0; |
| 337 |
pLFO1->ExtController = 0; // no external controller |
pLFO1->ExtController = 0; // no external controller |
| 338 |
|
bLFO1Enabled = false; |
| 339 |
|
} |
| 340 |
|
if (bLFO1Enabled) { |
| 341 |
|
pLFO1->trigger(pDimRgn->LFO1Frequency, |
| 342 |
|
start_level_max, |
| 343 |
|
lfo1_internal_depth, |
| 344 |
|
pDimRgn->LFO1ControlDepth, |
| 345 |
|
pDimRgn->LFO1FlipPhase, |
| 346 |
|
pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 347 |
|
pLFO1->update(pLFO1->ExtController ? pEngineChannel->ControllerTable[pLFO1->ExtController] : 0); |
| 348 |
} |
} |
|
pLFO1->Trigger(pDimRgn->LFO1Frequency, |
|
|
lfo1_internal_depth, |
|
|
pDimRgn->LFO1ControlDepth, |
|
|
pEngineChannel->ControllerTable[pLFO1->ExtController], |
|
|
pDimRgn->LFO1FlipPhase, |
|
|
pEngine->SampleRate, |
|
|
Delay); |
|
| 349 |
} |
} |
| 350 |
|
|
| 351 |
|
|
| 356 |
case ::gig::lfo2_ctrl_internal: |
case ::gig::lfo2_ctrl_internal: |
| 357 |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
| 358 |
pLFO2->ExtController = 0; // no external controller |
pLFO2->ExtController = 0; // no external controller |
| 359 |
|
bLFO2Enabled = (lfo2_internal_depth > 0); |
| 360 |
break; |
break; |
| 361 |
case ::gig::lfo2_ctrl_modwheel: |
case ::gig::lfo2_ctrl_modwheel: |
| 362 |
lfo2_internal_depth = 0; |
lfo2_internal_depth = 0; |
| 363 |
pLFO2->ExtController = 1; // MIDI controller 1 |
pLFO2->ExtController = 1; // MIDI controller 1 |
| 364 |
|
bLFO2Enabled = (pDimRgn->LFO2ControlDepth > 0); |
| 365 |
break; |
break; |
| 366 |
case ::gig::lfo2_ctrl_foot: |
case ::gig::lfo2_ctrl_foot: |
| 367 |
lfo2_internal_depth = 0; |
lfo2_internal_depth = 0; |
| 368 |
pLFO2->ExtController = 4; // MIDI controller 4 |
pLFO2->ExtController = 4; // MIDI controller 4 |
| 369 |
|
bLFO2Enabled = (pDimRgn->LFO2ControlDepth > 0); |
| 370 |
break; |
break; |
| 371 |
case ::gig::lfo2_ctrl_internal_modwheel: |
case ::gig::lfo2_ctrl_internal_modwheel: |
| 372 |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
| 373 |
pLFO2->ExtController = 1; // MIDI controller 1 |
pLFO2->ExtController = 1; // MIDI controller 1 |
| 374 |
|
bLFO2Enabled = (lfo2_internal_depth > 0 || pDimRgn->LFO2ControlDepth > 0); |
| 375 |
break; |
break; |
| 376 |
case ::gig::lfo2_ctrl_internal_foot: |
case ::gig::lfo2_ctrl_internal_foot: |
| 377 |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
lfo2_internal_depth = pDimRgn->LFO2InternalDepth; |
| 378 |
pLFO2->ExtController = 4; // MIDI controller 4 |
pLFO2->ExtController = 4; // MIDI controller 4 |
| 379 |
|
bLFO2Enabled = (lfo2_internal_depth > 0 || pDimRgn->LFO2ControlDepth > 0); |
| 380 |
break; |
break; |
| 381 |
default: |
default: |
| 382 |
lfo2_internal_depth = 0; |
lfo2_internal_depth = 0; |
| 383 |
pLFO2->ExtController = 0; // no external controller |
pLFO2->ExtController = 0; // no external controller |
| 384 |
|
bLFO2Enabled = false; |
| 385 |
|
} |
| 386 |
|
if (bLFO2Enabled) { |
| 387 |
|
pLFO2->trigger(pDimRgn->LFO2Frequency, |
| 388 |
|
start_level_max, |
| 389 |
|
lfo2_internal_depth, |
| 390 |
|
pDimRgn->LFO2ControlDepth, |
| 391 |
|
pDimRgn->LFO2FlipPhase, |
| 392 |
|
pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 393 |
|
pLFO2->update(pLFO2->ExtController ? pEngineChannel->ControllerTable[pLFO2->ExtController] : 0); |
| 394 |
} |
} |
|
pLFO2->Trigger(pDimRgn->LFO2Frequency, |
|
|
lfo2_internal_depth, |
|
|
pDimRgn->LFO2ControlDepth, |
|
|
pEngineChannel->ControllerTable[pLFO2->ExtController], |
|
|
pDimRgn->LFO2FlipPhase, |
|
|
pEngine->SampleRate, |
|
|
Delay); |
|
| 395 |
} |
} |
| 396 |
|
|
| 397 |
|
|
| 402 |
case ::gig::lfo3_ctrl_internal: |
case ::gig::lfo3_ctrl_internal: |
| 403 |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
| 404 |
pLFO3->ExtController = 0; // no external controller |
pLFO3->ExtController = 0; // no external controller |
| 405 |
|
bLFO3Enabled = (lfo3_internal_depth > 0); |
| 406 |
break; |
break; |
| 407 |
case ::gig::lfo3_ctrl_modwheel: |
case ::gig::lfo3_ctrl_modwheel: |
| 408 |
lfo3_internal_depth = 0; |
lfo3_internal_depth = 0; |
| 409 |
pLFO3->ExtController = 1; // MIDI controller 1 |
pLFO3->ExtController = 1; // MIDI controller 1 |
| 410 |
|
bLFO3Enabled = (pDimRgn->LFO3ControlDepth > 0); |
| 411 |
break; |
break; |
| 412 |
case ::gig::lfo3_ctrl_aftertouch: |
case ::gig::lfo3_ctrl_aftertouch: |
| 413 |
lfo3_internal_depth = 0; |
lfo3_internal_depth = 0; |
| 414 |
pLFO3->ExtController = 0; // TODO: aftertouch not implemented yet |
pLFO3->ExtController = 0; // TODO: aftertouch not implemented yet |
| 415 |
|
bLFO3Enabled = false; // see TODO comment in line above |
| 416 |
break; |
break; |
| 417 |
case ::gig::lfo3_ctrl_internal_modwheel: |
case ::gig::lfo3_ctrl_internal_modwheel: |
| 418 |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
| 419 |
pLFO3->ExtController = 1; // MIDI controller 1 |
pLFO3->ExtController = 1; // MIDI controller 1 |
| 420 |
|
bLFO3Enabled = (lfo3_internal_depth > 0 || pDimRgn->LFO3ControlDepth > 0); |
| 421 |
break; |
break; |
| 422 |
case ::gig::lfo3_ctrl_internal_aftertouch: |
case ::gig::lfo3_ctrl_internal_aftertouch: |
| 423 |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
lfo3_internal_depth = pDimRgn->LFO3InternalDepth; |
| 424 |
pLFO1->ExtController = 0; // TODO: aftertouch not implemented yet |
pLFO1->ExtController = 0; // TODO: aftertouch not implemented yet |
| 425 |
|
bLFO3Enabled = (lfo3_internal_depth > 0 /*|| pDimRgn->LFO3ControlDepth > 0*/); // see TODO comment in line above |
| 426 |
break; |
break; |
| 427 |
default: |
default: |
| 428 |
lfo3_internal_depth = 0; |
lfo3_internal_depth = 0; |
| 429 |
pLFO3->ExtController = 0; // no external controller |
pLFO3->ExtController = 0; // no external controller |
| 430 |
|
bLFO3Enabled = false; |
| 431 |
|
} |
| 432 |
|
if (bLFO3Enabled) { |
| 433 |
|
pLFO3->trigger(pDimRgn->LFO3Frequency, |
| 434 |
|
start_level_mid, |
| 435 |
|
lfo3_internal_depth, |
| 436 |
|
pDimRgn->LFO3ControlDepth, |
| 437 |
|
false, |
| 438 |
|
pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 439 |
|
pLFO3->update(pLFO3->ExtController ? pEngineChannel->ControllerTable[pLFO3->ExtController] : 0); |
| 440 |
} |
} |
|
pLFO3->Trigger(pDimRgn->LFO3Frequency, |
|
|
lfo3_internal_depth, |
|
|
pDimRgn->LFO3ControlDepth, |
|
|
pEngineChannel->ControllerTable[pLFO3->ExtController], |
|
|
false, |
|
|
pEngine->SampleRate, |
|
|
Delay); |
|
| 441 |
} |
} |
| 442 |
|
|
| 443 |
|
|
| 510 |
#endif // CONFIG_OVERRIDE_RESONANCE_CTRL |
#endif // CONFIG_OVERRIDE_RESONANCE_CTRL |
| 511 |
|
|
| 512 |
#ifndef CONFIG_OVERRIDE_FILTER_TYPE |
#ifndef CONFIG_OVERRIDE_FILTER_TYPE |
| 513 |
FilterLeft.SetType(pDimRgn->VCFType); |
finalSynthesisParameters.filterLeft.SetType(pDimRgn->VCFType); |
| 514 |
FilterRight.SetType(pDimRgn->VCFType); |
finalSynthesisParameters.filterRight.SetType(pDimRgn->VCFType); |
| 515 |
#else // override filter type |
#else // override filter type |
| 516 |
FilterLeft.SetType(CONFIG_OVERRIDE_FILTER_TYPE); |
FilterLeft.SetType(CONFIG_OVERRIDE_FILTER_TYPE); |
| 517 |
FilterRight.SetType(CONFIG_OVERRIDE_FILTER_TYPE); |
FilterRight.SetType(CONFIG_OVERRIDE_FILTER_TYPE); |
| 521 |
VCFResonanceCtrl.value = pEngineChannel->ControllerTable[VCFResonanceCtrl.controller]; |
VCFResonanceCtrl.value = pEngineChannel->ControllerTable[VCFResonanceCtrl.controller]; |
| 522 |
|
|
| 523 |
// calculate cutoff frequency |
// calculate cutoff frequency |
| 524 |
float cutoff = (!VCFCutoffCtrl.controller) |
float cutoff = pDimRgn->GetVelocityCutoff(itNoteOnEvent->Param.Note.Velocity); |
|
? exp((float) (127 - itNoteOnEvent->Param.Note.Velocity) * (float) pDimRgn->VCFVelocityScale * 6.2E-5f * FILTER_CUTOFF_COEFF) * CONFIG_FILTER_CUTOFF_MAX |
|
|
: exp((float) VCFCutoffCtrl.value * 0.00787402f * FILTER_CUTOFF_COEFF) * CONFIG_FILTER_CUTOFF_MAX; |
|
|
|
|
|
// calculate resonance |
|
|
float resonance = (float) VCFResonanceCtrl.value * 0.00787f; // 0.0..1.0 |
|
| 525 |
if (pDimRgn->VCFKeyboardTracking) { |
if (pDimRgn->VCFKeyboardTracking) { |
| 526 |
resonance += (float) (itNoteOnEvent->Param.Note.Key - pDimRgn->VCFKeyboardTrackingBreakpoint) * 0.00787f; |
cutoff *= exp((itNoteOnEvent->Param.Note.Key - pDimRgn->VCFKeyboardTrackingBreakpoint) * 0.057762265f); // (ln(2) / 12) |
| 527 |
} |
} |
| 528 |
Constrain(resonance, 0.0, 1.0); // correct resonance if outside allowed value range (0.0..1.0) |
CutoffBase = cutoff; |
| 529 |
|
|
| 530 |
VCFCutoffCtrl.fvalue = cutoff - CONFIG_FILTER_CUTOFF_MIN; |
int cvalue; |
| 531 |
VCFResonanceCtrl.fvalue = resonance; |
if (VCFCutoffCtrl.controller) { |
| 532 |
|
cvalue = pEngineChannel->ControllerTable[VCFCutoffCtrl.controller]; |
| 533 |
|
if (pDimRgn->VCFCutoffControllerInvert) cvalue = 127 - cvalue; |
| 534 |
|
// VCFVelocityScale in this case means Minimum cutoff |
| 535 |
|
if (cvalue < pDimRgn->VCFVelocityScale) cvalue = pDimRgn->VCFVelocityScale; |
| 536 |
|
} |
| 537 |
|
else { |
| 538 |
|
cvalue = pDimRgn->VCFCutoff; |
| 539 |
|
} |
| 540 |
|
cutoff *= float(cvalue) * 0.00787402f; // (1 / 127) |
| 541 |
|
if (cutoff > 1.0) cutoff = 1.0; |
| 542 |
|
cutoff = (cutoff < 0.5 ? cutoff * 4826 - 1 : cutoff * 5715 - 449); |
| 543 |
|
if (cutoff < 1.0) cutoff = 1.0; |
| 544 |
|
|
| 545 |
|
// calculate resonance |
| 546 |
|
float resonance = (float) (VCFResonanceCtrl.controller ? VCFResonanceCtrl.value : pDimRgn->VCFResonance) * 0.00787f; // 0.0..1.0 |
| 547 |
|
|
| 548 |
FilterUpdateCounter = -1; |
VCFCutoffCtrl.fvalue = cutoff - 1.0; |
| 549 |
|
VCFResonanceCtrl.fvalue = resonance; |
| 550 |
} |
} |
| 551 |
else { |
else { |
| 552 |
VCFCutoffCtrl.controller = 0; |
VCFCutoffCtrl.controller = 0; |
| 570 |
void Voice::Render(uint Samples) { |
void Voice::Render(uint Samples) { |
| 571 |
|
|
| 572 |
// select default values for synthesis mode bits |
// select default values for synthesis mode bits |
|
SYNTHESIS_MODE_SET_INTERPOLATE(SynthesisMode, (PitchBase * PitchBend) != 1.0f); |
|
|
SYNTHESIS_MODE_SET_CONSTPITCH(SynthesisMode, true); |
|
| 573 |
SYNTHESIS_MODE_SET_LOOP(SynthesisMode, false); |
SYNTHESIS_MODE_SET_LOOP(SynthesisMode, false); |
| 574 |
|
|
|
// Reset the synthesis parameter matrix |
|
|
|
|
|
pEngine->ResetSynthesisParameters(Event::destination_vca, this->Volume * this->CrossfadeVolume * pEngineChannel->GlobalVolume); |
|
|
pEngine->ResetSynthesisParameters(Event::destination_vco, this->PitchBase); |
|
|
pEngine->ResetSynthesisParameters(Event::destination_vcfc, VCFCutoffCtrl.fvalue); |
|
|
pEngine->ResetSynthesisParameters(Event::destination_vcfr, VCFResonanceCtrl.fvalue); |
|
|
|
|
|
// Apply events to the synthesis parameter matrix |
|
|
ProcessEvents(Samples); |
|
|
|
|
|
// Let all modulators write their parameter changes to the synthesis parameter matrix for the current audio fragment |
|
|
pEG1->Process(Samples, pEngineChannel->pMIDIKeyInfo[MIDIKey].pEvents, itTriggerEvent, this->Pos, this->PitchBase * this->PitchBend, itKillEvent); |
|
|
pEG2->Process(Samples, pEngineChannel->pMIDIKeyInfo[MIDIKey].pEvents, itTriggerEvent, this->Pos, this->PitchBase * this->PitchBend); |
|
|
if (pEG3->Process(Samples)) { // if pitch EG is active |
|
|
SYNTHESIS_MODE_SET_INTERPOLATE(SynthesisMode, true); |
|
|
SYNTHESIS_MODE_SET_CONSTPITCH(SynthesisMode, false); |
|
|
} |
|
|
pLFO1->Process(Samples); |
|
|
pLFO2->Process(Samples); |
|
|
if (pLFO3->Process(Samples)) { // if pitch LFO modulation is active |
|
|
SYNTHESIS_MODE_SET_INTERPOLATE(SynthesisMode, true); |
|
|
SYNTHESIS_MODE_SET_CONSTPITCH(SynthesisMode, false); |
|
|
} |
|
|
|
|
|
if (SYNTHESIS_MODE_GET_FILTER(SynthesisMode)) |
|
|
CalculateBiquadParameters(Samples); // calculate the final biquad filter parameters |
|
|
|
|
| 575 |
switch (this->PlaybackState) { |
switch (this->PlaybackState) { |
| 576 |
|
|
| 577 |
case playback_state_init: |
case playback_state_init: |
| 586 |
|
|
| 587 |
if (DiskVoice) { |
if (DiskVoice) { |
| 588 |
// check if we reached the allowed limit of the sample RAM cache |
// check if we reached the allowed limit of the sample RAM cache |
| 589 |
if (Pos > MaxRAMPos) { |
if (finalSynthesisParameters.dPos > MaxRAMPos) { |
| 590 |
dmsg(5,("Voice: switching to disk playback (Pos=%f)\n", Pos)); |
dmsg(5,("Voice: switching to disk playback (Pos=%f)\n", finalSynthesisParameters.dPos)); |
| 591 |
this->PlaybackState = playback_state_disk; |
this->PlaybackState = playback_state_disk; |
| 592 |
} |
} |
| 593 |
} |
} else if (finalSynthesisParameters.dPos >= pSample->GetCache().Size / pSample->FrameSize) { |
|
else if (Pos >= pSample->GetCache().Size / pSample->FrameSize) { |
|
| 594 |
this->PlaybackState = playback_state_end; |
this->PlaybackState = playback_state_end; |
| 595 |
} |
} |
| 596 |
} |
} |
| 605 |
KillImmediately(); |
KillImmediately(); |
| 606 |
return; |
return; |
| 607 |
} |
} |
| 608 |
DiskStreamRef.pStream->IncrementReadPos(pSample->Channels * (int(Pos) - MaxRAMPos)); |
DiskStreamRef.pStream->IncrementReadPos(pSample->Channels * (int(finalSynthesisParameters.dPos) - MaxRAMPos)); |
| 609 |
Pos -= int(Pos); |
finalSynthesisParameters.dPos -= int(finalSynthesisParameters.dPos); |
| 610 |
RealSampleWordsLeftToRead = -1; // -1 means no silence has been added yet |
RealSampleWordsLeftToRead = -1; // -1 means no silence has been added yet |
| 611 |
} |
} |
| 612 |
|
|
| 627 |
// render current audio fragment |
// render current audio fragment |
| 628 |
Synthesize(Samples, ptr, Delay); |
Synthesize(Samples, ptr, Delay); |
| 629 |
|
|
| 630 |
const int iPos = (int) Pos; |
const int iPos = (int) finalSynthesisParameters.dPos; |
| 631 |
const int readSampleWords = iPos * pSample->Channels; // amount of sample words actually been read |
const int readSampleWords = iPos * pSample->Channels; // amount of sample words actually been read |
| 632 |
DiskStreamRef.pStream->IncrementReadPos(readSampleWords); |
DiskStreamRef.pStream->IncrementReadPos(readSampleWords); |
| 633 |
Pos -= iPos; // just keep fractional part of Pos |
finalSynthesisParameters.dPos -= iPos; // just keep fractional part of playback position |
| 634 |
|
|
| 635 |
// change state of voice to 'end' if we really reached the end of the sample data |
// change state of voice to 'end' if we really reached the end of the sample data |
| 636 |
if (RealSampleWordsLeftToRead >= 0) { |
if (RealSampleWordsLeftToRead >= 0) { |
| 645 |
break; |
break; |
| 646 |
} |
} |
| 647 |
|
|
|
// Reset synthesis event lists (except VCO, as VCO events apply channel wide currently) |
|
|
pEngineChannel->pSynthesisEvents[Event::destination_vca]->clear(); |
|
|
pEngineChannel->pSynthesisEvents[Event::destination_vcfc]->clear(); |
|
|
pEngineChannel->pSynthesisEvents[Event::destination_vcfr]->clear(); |
|
|
|
|
| 648 |
// Reset delay |
// Reset delay |
| 649 |
Delay = 0; |
Delay = 0; |
| 650 |
|
|
| 651 |
itTriggerEvent = Pool<Event>::Iterator(); |
itTriggerEvent = Pool<Event>::Iterator(); |
| 652 |
|
|
| 653 |
// If sample stream or release stage finished, kill the voice |
// If sample stream or release stage finished, kill the voice |
| 654 |
if (PlaybackState == playback_state_end || pEG1->GetStage() == EGADSR::stage_end) KillImmediately(); |
if (PlaybackState == playback_state_end || EG1.getSegmentType() == EGADSR::segment_end) KillImmediately(); |
| 655 |
} |
} |
| 656 |
|
|
| 657 |
/** |
/** |
| 659 |
* suspended / not running. |
* suspended / not running. |
| 660 |
*/ |
*/ |
| 661 |
void Voice::Reset() { |
void Voice::Reset() { |
| 662 |
pLFO1->Reset(); |
finalSynthesisParameters.filterLeft.Reset(); |
| 663 |
pLFO2->Reset(); |
finalSynthesisParameters.filterRight.Reset(); |
|
pLFO3->Reset(); |
|
|
FilterLeft.Reset(); |
|
|
FilterRight.Reset(); |
|
| 664 |
DiskStreamRef.pStream = NULL; |
DiskStreamRef.pStream = NULL; |
| 665 |
DiskStreamRef.hStream = 0; |
DiskStreamRef.hStream = 0; |
| 666 |
DiskStreamRef.State = Stream::state_unused; |
DiskStreamRef.State = Stream::state_unused; |
| 671 |
} |
} |
| 672 |
|
|
| 673 |
/** |
/** |
| 674 |
* Process the control change event lists of the engine for the current |
* Process given list of MIDI note on, note off and sustain pedal events |
| 675 |
* audio fragment. Event values will be applied to the synthesis parameter |
* for the given time. |
|
* matrix. |
|
| 676 |
* |
* |
| 677 |
* @param Samples - number of samples to be rendered in this audio fragment cycle |
* @param itEvent - iterator pointing to the next event to be processed |
| 678 |
|
* @param End - youngest time stamp where processing should be stopped |
| 679 |
*/ |
*/ |
| 680 |
void Voice::ProcessEvents(uint Samples) { |
void Voice::processTransitionEvents(RTList<Event>::Iterator& itEvent, uint End) { |
| 681 |
|
for (; itEvent && itEvent->FragmentPos() <= End; ++itEvent) { |
| 682 |
|
if (itEvent->Type == Event::type_release) { |
| 683 |
|
EG1.update(EGADSR::event_release, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 684 |
|
EG2.update(EGADSR::event_release, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 685 |
|
} else if (itEvent->Type == Event::type_cancel_release) { |
| 686 |
|
EG1.update(EGADSR::event_cancel_release, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 687 |
|
EG2.update(EGADSR::event_cancel_release, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 688 |
|
} |
| 689 |
|
} |
| 690 |
|
} |
| 691 |
|
|
| 692 |
// dispatch control change events |
/** |
| 693 |
RTList<Event>::Iterator itCCEvent = pEngineChannel->pCCEvents->first(); |
* Process given list of MIDI control change and pitch bend events for |
| 694 |
if (Delay) { // skip events that happened before this voice was triggered |
* the given time. |
| 695 |
while (itCCEvent && itCCEvent->FragmentPos() <= Delay) ++itCCEvent; |
* |
| 696 |
} |
* @param itEvent - iterator pointing to the next event to be processed |
| 697 |
while (itCCEvent) { |
* @param End - youngest time stamp where processing should be stopped |
| 698 |
if (itCCEvent->Param.CC.Controller) { // if valid MIDI controller |
*/ |
| 699 |
if (itCCEvent->Param.CC.Controller == VCFCutoffCtrl.controller) { |
void Voice::processCCEvents(RTList<Event>::Iterator& itEvent, uint End) { |
| 700 |
*pEngineChannel->pSynthesisEvents[Event::destination_vcfc]->allocAppend() = *itCCEvent; |
for (; itEvent && itEvent->FragmentPos() <= End; ++itEvent) { |
| 701 |
} |
if (itEvent->Type == Event::type_control_change && |
| 702 |
if (itCCEvent->Param.CC.Controller == VCFResonanceCtrl.controller) { |
itEvent->Param.CC.Controller) { // if (valid) MIDI control change event |
| 703 |
*pEngineChannel->pSynthesisEvents[Event::destination_vcfr]->allocAppend() = *itCCEvent; |
if (itEvent->Param.CC.Controller == VCFCutoffCtrl.controller) { |
| 704 |
|
processCutoffEvent(itEvent); |
| 705 |
|
} |
| 706 |
|
if (itEvent->Param.CC.Controller == VCFResonanceCtrl.controller) { |
| 707 |
|
processResonanceEvent(itEvent); |
| 708 |
} |
} |
| 709 |
if (itCCEvent->Param.CC.Controller == pLFO1->ExtController) { |
if (itEvent->Param.CC.Controller == pLFO1->ExtController) { |
| 710 |
pLFO1->SendEvent(itCCEvent); |
pLFO1->update(itEvent->Param.CC.Value); |
| 711 |
} |
} |
| 712 |
if (itCCEvent->Param.CC.Controller == pLFO2->ExtController) { |
if (itEvent->Param.CC.Controller == pLFO2->ExtController) { |
| 713 |
pLFO2->SendEvent(itCCEvent); |
pLFO2->update(itEvent->Param.CC.Value); |
| 714 |
} |
} |
| 715 |
if (itCCEvent->Param.CC.Controller == pLFO3->ExtController) { |
if (itEvent->Param.CC.Controller == pLFO3->ExtController) { |
| 716 |
pLFO3->SendEvent(itCCEvent); |
pLFO3->update(itEvent->Param.CC.Value); |
| 717 |
} |
} |
| 718 |
if (pDimRgn->AttenuationController.type == ::gig::attenuation_ctrl_t::type_controlchange && |
if (pDimRgn->AttenuationController.type == ::gig::attenuation_ctrl_t::type_controlchange && |
| 719 |
itCCEvent->Param.CC.Controller == pDimRgn->AttenuationController.controller_number) { // if crossfade event |
itEvent->Param.CC.Controller == pDimRgn->AttenuationController.controller_number) { |
| 720 |
*pEngineChannel->pSynthesisEvents[Event::destination_vca]->allocAppend() = *itCCEvent; |
CrossfadeSmoother.update(Engine::CrossfadeCurve[CrossfadeAttenuation(itEvent->Param.CC.Value)]); |
| 721 |
} |
} |
| 722 |
|
if (itEvent->Param.CC.Controller == 7) { // volume |
| 723 |
|
VolumeSmoother.update(Engine::VolumeCurve[itEvent->Param.CC.Value] * CONFIG_GLOBAL_ATTENUATION); |
| 724 |
|
} else if (itEvent->Param.CC.Controller == 10) { // panpot |
| 725 |
|
PanLeftSmoother.update(Engine::PanCurve[128 - itEvent->Param.CC.Value]); |
| 726 |
|
PanRightSmoother.update(Engine::PanCurve[itEvent->Param.CC.Value]); |
| 727 |
|
} |
| 728 |
|
} else if (itEvent->Type == Event::type_pitchbend) { // if pitch bend event |
| 729 |
|
processPitchEvent(itEvent); |
| 730 |
} |
} |
| 731 |
|
} |
| 732 |
|
} |
| 733 |
|
|
| 734 |
++itCCEvent; |
void Voice::processPitchEvent(RTList<Event>::Iterator& itEvent) { |
| 735 |
|
const float pitch = RTMath::CentsToFreqRatio(((double) itEvent->Param.Pitch.Pitch / 8192.0) * 200.0); // +-two semitones = +-200 cents |
| 736 |
|
finalSynthesisParameters.fFinalPitch *= pitch; |
| 737 |
|
PitchBend = pitch; |
| 738 |
|
} |
| 739 |
|
|
| 740 |
|
void Voice::processCutoffEvent(RTList<Event>::Iterator& itEvent) { |
| 741 |
|
int ccvalue = itEvent->Param.CC.Value; |
| 742 |
|
if (VCFCutoffCtrl.value == ccvalue) return; |
| 743 |
|
VCFCutoffCtrl.value == ccvalue; |
| 744 |
|
if (pDimRgn->VCFCutoffControllerInvert) ccvalue = 127 - ccvalue; |
| 745 |
|
if (ccvalue < pDimRgn->VCFVelocityScale) ccvalue = pDimRgn->VCFVelocityScale; |
| 746 |
|
float cutoff = CutoffBase * float(ccvalue) * 0.00787402f; // (1 / 127) |
| 747 |
|
if (cutoff > 1.0) cutoff = 1.0; |
| 748 |
|
cutoff = (cutoff < 0.5 ? cutoff * 4826 - 1 : cutoff * 5715 - 449); |
| 749 |
|
if (cutoff < 1.0) cutoff = 1.0; |
| 750 |
|
|
| 751 |
|
VCFCutoffCtrl.fvalue = cutoff - 1.0; // needed for initialization of fFinalCutoff next time |
| 752 |
|
fFinalCutoff = cutoff; |
| 753 |
|
} |
| 754 |
|
|
| 755 |
|
void Voice::processResonanceEvent(RTList<Event>::Iterator& itEvent) { |
| 756 |
|
// convert absolute controller value to differential |
| 757 |
|
const int ctrldelta = itEvent->Param.CC.Value - VCFResonanceCtrl.value; |
| 758 |
|
VCFResonanceCtrl.value = itEvent->Param.CC.Value; |
| 759 |
|
const float resonancedelta = (float) ctrldelta * 0.00787f; // 0.0..1.0 |
| 760 |
|
fFinalResonance += resonancedelta; |
| 761 |
|
// needed for initialization of parameter |
| 762 |
|
VCFResonanceCtrl.fvalue = itEvent->Param.CC.Value * 0.00787f; |
| 763 |
|
} |
| 764 |
|
|
| 765 |
|
/** |
| 766 |
|
* Synthesizes the current audio fragment for this voice. |
| 767 |
|
* |
| 768 |
|
* @param Samples - number of sample points to be rendered in this audio |
| 769 |
|
* fragment cycle |
| 770 |
|
* @param pSrc - pointer to input sample data |
| 771 |
|
* @param Skip - number of sample points to skip in output buffer |
| 772 |
|
*/ |
| 773 |
|
void Voice::Synthesize(uint Samples, sample_t* pSrc, uint Skip) { |
| 774 |
|
finalSynthesisParameters.pOutLeft = &pEngineChannel->pOutputLeft[Skip]; |
| 775 |
|
finalSynthesisParameters.pOutRight = &pEngineChannel->pOutputRight[Skip]; |
| 776 |
|
finalSynthesisParameters.pSrc = pSrc; |
| 777 |
|
|
| 778 |
|
RTList<Event>::Iterator itCCEvent = pEngineChannel->pEvents->first(); |
| 779 |
|
RTList<Event>::Iterator itNoteEvent = pEngineChannel->pMIDIKeyInfo[MIDIKey].pEvents->first(); |
| 780 |
|
|
| 781 |
|
if (Skip) { // skip events that happened before this voice was triggered |
| 782 |
|
while (itCCEvent && itCCEvent->FragmentPos() <= Skip) ++itCCEvent; |
| 783 |
|
while (itNoteEvent && itNoteEvent->FragmentPos() <= Skip) ++itNoteEvent; |
| 784 |
} |
} |
| 785 |
|
|
| 786 |
|
uint killPos; |
| 787 |
|
if (itKillEvent) killPos = RTMath::Min(itKillEvent->FragmentPos(), pEngine->MaxFadeOutPos); |
| 788 |
|
|
| 789 |
// process pitch events |
uint i = Skip; |
| 790 |
{ |
while (i < Samples) { |
| 791 |
RTList<Event>* pVCOEventList = pEngineChannel->pSynthesisEvents[Event::destination_vco]; |
int iSubFragmentEnd = RTMath::Min(i + CONFIG_DEFAULT_SUBFRAGMENT_SIZE, Samples); |
| 792 |
RTList<Event>::Iterator itVCOEvent = pVCOEventList->first(); |
|
| 793 |
if (Delay) { // skip events that happened before this voice was triggered |
// initialize all final synthesis parameters |
| 794 |
while (itVCOEvent && itVCOEvent->FragmentPos() <= Delay) ++itVCOEvent; |
finalSynthesisParameters.fFinalPitch = PitchBase * PitchBend; |
| 795 |
} |
fFinalCutoff = VCFCutoffCtrl.fvalue; |
| 796 |
// apply old pitchbend value until first pitch event occurs |
fFinalResonance = VCFResonanceCtrl.fvalue; |
| 797 |
if (this->PitchBend != 1.0) { |
|
| 798 |
uint end = (itVCOEvent) ? itVCOEvent->FragmentPos() : Samples; |
// process MIDI control change and pitchbend events for this subfragment |
| 799 |
for (uint i = Delay; i < end; i++) { |
processCCEvents(itCCEvent, iSubFragmentEnd); |
| 800 |
pEngine->pSynthesisParameters[Event::destination_vco][i] *= this->PitchBend; |
|
| 801 |
} |
float fFinalVolume = VolumeSmoother.render() * CrossfadeSmoother.render(); |
| 802 |
|
#ifdef CONFIG_PROCESS_MUTED_CHANNELS |
| 803 |
|
if (pEngineChannel->GetMute()) fFinalVolume = 0; |
| 804 |
|
#endif |
| 805 |
|
|
| 806 |
|
// process transition events (note on, note off & sustain pedal) |
| 807 |
|
processTransitionEvents(itNoteEvent, iSubFragmentEnd); |
| 808 |
|
|
| 809 |
|
// if the voice was killed in this subfragment switch EG1 to fade out stage |
| 810 |
|
if (itKillEvent && killPos <= iSubFragmentEnd) { |
| 811 |
|
EG1.enterFadeOutStage(); |
| 812 |
|
itKillEvent = Pool<Event>::Iterator(); |
| 813 |
} |
} |
|
float pitch; |
|
|
while (itVCOEvent) { |
|
|
RTList<Event>::Iterator itNextVCOEvent = itVCOEvent; |
|
|
++itNextVCOEvent; |
|
|
|
|
|
// calculate the influence length of this event (in sample points) |
|
|
uint end = (itNextVCOEvent) ? itNextVCOEvent->FragmentPos() : Samples; |
|
|
|
|
|
pitch = RTMath::CentsToFreqRatio(((double) itVCOEvent->Param.Pitch.Pitch / 8192.0) * 200.0); // +-two semitones = +-200 cents |
|
|
|
|
|
// apply pitch value to the pitch parameter sequence |
|
|
for (uint i = itVCOEvent->FragmentPos(); i < end; i++) { |
|
|
pEngine->pSynthesisParameters[Event::destination_vco][i] *= pitch; |
|
|
} |
|
| 814 |
|
|
| 815 |
itVCOEvent = itNextVCOEvent; |
// process envelope generators |
| 816 |
|
switch (EG1.getSegmentType()) { |
| 817 |
|
case EGADSR::segment_lin: |
| 818 |
|
fFinalVolume *= EG1.processLin(); |
| 819 |
|
break; |
| 820 |
|
case EGADSR::segment_exp: |
| 821 |
|
fFinalVolume *= EG1.processExp(); |
| 822 |
|
break; |
| 823 |
|
case EGADSR::segment_end: |
| 824 |
|
fFinalVolume *= EG1.getLevel(); |
| 825 |
|
break; // noop |
| 826 |
} |
} |
| 827 |
if (!pVCOEventList->isEmpty()) { |
switch (EG2.getSegmentType()) { |
| 828 |
this->PitchBend = pitch; |
case EGADSR::segment_lin: |
| 829 |
SYNTHESIS_MODE_SET_INTERPOLATE(SynthesisMode, true); |
fFinalCutoff *= EG2.processLin(); |
| 830 |
SYNTHESIS_MODE_SET_CONSTPITCH(SynthesisMode, false); |
break; |
| 831 |
|
case EGADSR::segment_exp: |
| 832 |
|
fFinalCutoff *= EG2.processExp(); |
| 833 |
|
break; |
| 834 |
|
case EGADSR::segment_end: |
| 835 |
|
fFinalCutoff *= EG2.getLevel(); |
| 836 |
|
break; // noop |
| 837 |
} |
} |
| 838 |
} |
if (EG3.active()) finalSynthesisParameters.fFinalPitch *= EG3.render(); |
| 839 |
|
|
| 840 |
// process volume / attenuation events (TODO: we only handle and _expect_ crossfade events here ATM !) |
// process low frequency oscillators |
| 841 |
{ |
if (bLFO1Enabled) fFinalVolume *= pLFO1->render(); |
| 842 |
RTList<Event>* pVCAEventList = pEngineChannel->pSynthesisEvents[Event::destination_vca]; |
if (bLFO2Enabled) fFinalCutoff *= pLFO2->render(); |
| 843 |
RTList<Event>::Iterator itVCAEvent = pVCAEventList->first(); |
if (bLFO3Enabled) finalSynthesisParameters.fFinalPitch *= RTMath::CentsToFreqRatio(pLFO3->render()); |
|
if (Delay) { // skip events that happened before this voice was triggered |
|
|
while (itVCAEvent && itVCAEvent->FragmentPos() <= Delay) ++itVCAEvent; |
|
|
} |
|
|
float crossfadevolume; |
|
|
while (itVCAEvent) { |
|
|
RTList<Event>::Iterator itNextVCAEvent = itVCAEvent; |
|
|
++itNextVCAEvent; |
|
|
|
|
|
// calculate the influence length of this event (in sample points) |
|
|
uint end = (itNextVCAEvent) ? itNextVCAEvent->FragmentPos() : Samples; |
|
|
|
|
|
crossfadevolume = CrossfadeAttenuation(itVCAEvent->Param.CC.Value); |
|
|
|
|
|
float effective_volume = crossfadevolume * this->Volume * pEngineChannel->GlobalVolume; |
|
|
|
|
|
// apply volume value to the volume parameter sequence |
|
|
for (uint i = itVCAEvent->FragmentPos(); i < end; i++) { |
|
|
pEngine->pSynthesisParameters[Event::destination_vca][i] = effective_volume; |
|
|
} |
|
| 844 |
|
|
| 845 |
itVCAEvent = itNextVCAEvent; |
// if filter enabled then update filter coefficients |
| 846 |
|
if (SYNTHESIS_MODE_GET_FILTER(SynthesisMode)) { |
| 847 |
|
finalSynthesisParameters.filterLeft.SetParameters(fFinalCutoff + 1.0, fFinalResonance, pEngine->SampleRate); |
| 848 |
|
finalSynthesisParameters.filterRight.SetParameters(fFinalCutoff + 1.0, fFinalResonance, pEngine->SampleRate); |
| 849 |
} |
} |
|
if (!pVCAEventList->isEmpty()) this->CrossfadeVolume = crossfadevolume; |
|
|
} |
|
| 850 |
|
|
| 851 |
// process filter cutoff events |
// do we need resampling? |
| 852 |
{ |
const float __PLUS_ONE_CENT = 1.000577789506554859250142541782224725466f; |
| 853 |
RTList<Event>* pCutoffEventList = pEngineChannel->pSynthesisEvents[Event::destination_vcfc]; |
const float __MINUS_ONE_CENT = 0.9994225441413807496009516495583113737666f; |
| 854 |
RTList<Event>::Iterator itCutoffEvent = pCutoffEventList->first(); |
const bool bResamplingRequired = !(finalSynthesisParameters.fFinalPitch <= __PLUS_ONE_CENT && |
| 855 |
if (Delay) { // skip events that happened before this voice was triggered |
finalSynthesisParameters.fFinalPitch >= __MINUS_ONE_CENT); |
| 856 |
while (itCutoffEvent && itCutoffEvent->FragmentPos() <= Delay) ++itCutoffEvent; |
SYNTHESIS_MODE_SET_INTERPOLATE(SynthesisMode, bResamplingRequired); |
|
} |
|
|
float cutoff; |
|
|
while (itCutoffEvent) { |
|
|
RTList<Event>::Iterator itNextCutoffEvent = itCutoffEvent; |
|
|
++itNextCutoffEvent; |
|
|
|
|
|
// calculate the influence length of this event (in sample points) |
|
|
uint end = (itNextCutoffEvent) ? itNextCutoffEvent->FragmentPos() : Samples; |
|
|
|
|
|
cutoff = exp((float) itCutoffEvent->Param.CC.Value * 0.00787402f * FILTER_CUTOFF_COEFF) * CONFIG_FILTER_CUTOFF_MAX - CONFIG_FILTER_CUTOFF_MIN; |
|
|
|
|
|
// apply cutoff frequency to the cutoff parameter sequence |
|
|
for (uint i = itCutoffEvent->FragmentPos(); i < end; i++) { |
|
|
pEngine->pSynthesisParameters[Event::destination_vcfc][i] = cutoff; |
|
|
} |
|
| 857 |
|
|
| 858 |
itCutoffEvent = itNextCutoffEvent; |
// prepare final synthesis parameters structure |
| 859 |
} |
finalSynthesisParameters.uiToGo = iSubFragmentEnd - i; |
| 860 |
if (!pCutoffEventList->isEmpty()) VCFCutoffCtrl.fvalue = cutoff; // needed for initialization of parameter matrix next time |
#ifdef CONFIG_INTERPOLATE_VOLUME |
| 861 |
} |
finalSynthesisParameters.fFinalVolumeDeltaLeft = |
| 862 |
|
(fFinalVolume * VolumeLeft * PanLeftSmoother.render() - |
| 863 |
|
finalSynthesisParameters.fFinalVolumeLeft) / finalSynthesisParameters.uiToGo; |
| 864 |
|
finalSynthesisParameters.fFinalVolumeDeltaRight = |
| 865 |
|
(fFinalVolume * VolumeRight * PanRightSmoother.render() - |
| 866 |
|
finalSynthesisParameters.fFinalVolumeRight) / finalSynthesisParameters.uiToGo; |
| 867 |
|
#else |
| 868 |
|
finalSynthesisParameters.fFinalVolumeLeft = |
| 869 |
|
fFinalVolume * VolumeLeft * PanLeftSmoother.render(); |
| 870 |
|
finalSynthesisParameters.fFinalVolumeRight = |
| 871 |
|
fFinalVolume * VolumeRight * PanRightSmoother.render(); |
| 872 |
|
#endif |
| 873 |
|
// render audio for one subfragment |
| 874 |
|
RunSynthesisFunction(SynthesisMode, &finalSynthesisParameters, &loop); |
| 875 |
|
|
| 876 |
// process filter resonance events |
// stop the rendering if volume EG is finished |
| 877 |
{ |
if (EG1.getSegmentType() == EGADSR::segment_end) break; |
|
RTList<Event>* pResonanceEventList = pEngineChannel->pSynthesisEvents[Event::destination_vcfr]; |
|
|
RTList<Event>::Iterator itResonanceEvent = pResonanceEventList->first(); |
|
|
if (Delay) { // skip events that happened before this voice was triggered |
|
|
while (itResonanceEvent && itResonanceEvent->FragmentPos() <= Delay) ++itResonanceEvent; |
|
|
} |
|
|
while (itResonanceEvent) { |
|
|
RTList<Event>::Iterator itNextResonanceEvent = itResonanceEvent; |
|
|
++itNextResonanceEvent; |
|
|
|
|
|
// calculate the influence length of this event (in sample points) |
|
|
uint end = (itNextResonanceEvent) ? itNextResonanceEvent->FragmentPos() : Samples; |
|
|
|
|
|
// convert absolute controller value to differential |
|
|
int ctrldelta = itResonanceEvent->Param.CC.Value - VCFResonanceCtrl.value; |
|
|
VCFResonanceCtrl.value = itResonanceEvent->Param.CC.Value; |
|
|
|
|
|
float resonancedelta = (float) ctrldelta * 0.00787f; // 0.0..1.0 |
|
|
|
|
|
// apply cutoff frequency to the cutoff parameter sequence |
|
|
for (uint i = itResonanceEvent->FragmentPos(); i < end; i++) { |
|
|
pEngine->pSynthesisParameters[Event::destination_vcfr][i] += resonancedelta; |
|
|
} |
|
| 878 |
|
|
| 879 |
itResonanceEvent = itNextResonanceEvent; |
const double newPos = Pos + (iSubFragmentEnd - i) * finalSynthesisParameters.fFinalPitch; |
|
} |
|
|
if (!pResonanceEventList->isEmpty()) VCFResonanceCtrl.fvalue = pResonanceEventList->last()->Param.CC.Value * 0.00787f; // needed for initialization of parameter matrix next time |
|
|
} |
|
|
} |
|
| 880 |
|
|
| 881 |
/** |
// increment envelopes' positions |
| 882 |
* Calculate all necessary, final biquad filter parameters. |
if (EG1.active()) { |
| 883 |
* |
|
| 884 |
* @param Samples - number of samples to be rendered in this audio fragment cycle |
// if sample has a loop and loop start has been reached in this subfragment, send a special event to EG1 to let it finish the attack hold stage |
| 885 |
*/ |
if (pDimRgn->SampleLoops && Pos <= pDimRgn->pSampleLoops[0].LoopStart && pDimRgn->pSampleLoops[0].LoopStart < newPos) { |
| 886 |
void Voice::CalculateBiquadParameters(uint Samples) { |
EG1.update(EGADSR::event_hold_end, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
|
biquad_param_t bqbase; |
|
|
biquad_param_t bqmain; |
|
|
float prev_cutoff = pEngine->pSynthesisParameters[Event::destination_vcfc][0]; |
|
|
float prev_res = pEngine->pSynthesisParameters[Event::destination_vcfr][0]; |
|
|
FilterLeft.SetParameters( &bqbase, &bqmain, prev_cutoff + CONFIG_FILTER_CUTOFF_MIN, prev_res, pEngine->SampleRate); |
|
|
FilterRight.SetParameters(&bqbase, &bqmain, prev_cutoff + CONFIG_FILTER_CUTOFF_MIN, prev_res, pEngine->SampleRate); |
|
|
pEngine->pBasicFilterParameters[0] = bqbase; |
|
|
pEngine->pMainFilterParameters[0] = bqmain; |
|
|
|
|
|
float* bq; |
|
|
for (int i = 1; i < Samples; i++) { |
|
|
// recalculate biquad parameters if cutoff or resonance differ from previous sample point |
|
|
if (!(i & FILTER_UPDATE_MASK)) { |
|
|
if (pEngine->pSynthesisParameters[Event::destination_vcfr][i] != prev_res || |
|
|
pEngine->pSynthesisParameters[Event::destination_vcfc][i] != prev_cutoff) |
|
|
{ |
|
|
prev_cutoff = pEngine->pSynthesisParameters[Event::destination_vcfc][i]; |
|
|
prev_res = pEngine->pSynthesisParameters[Event::destination_vcfr][i]; |
|
|
FilterLeft.SetParameters( &bqbase, &bqmain, prev_cutoff + CONFIG_FILTER_CUTOFF_MIN, prev_res, pEngine->SampleRate); |
|
|
FilterRight.SetParameters(&bqbase, &bqmain, prev_cutoff + CONFIG_FILTER_CUTOFF_MIN, prev_res, pEngine->SampleRate); |
|
| 887 |
} |
} |
| 888 |
|
|
| 889 |
|
EG1.increment(1); |
| 890 |
|
if (!EG1.toStageEndLeft()) EG1.update(EGADSR::event_stage_end, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 891 |
|
} |
| 892 |
|
if (EG2.active()) { |
| 893 |
|
EG2.increment(1); |
| 894 |
|
if (!EG2.toStageEndLeft()) EG2.update(EGADSR::event_stage_end, pEngine->SampleRate / CONFIG_DEFAULT_SUBFRAGMENT_SIZE); |
| 895 |
} |
} |
| 896 |
|
EG3.increment(1); |
| 897 |
|
if (!EG3.toEndLeft()) EG3.update(); // neutralize envelope coefficient if end reached |
| 898 |
|
|
| 899 |
//same as 'pEngine->pBasicFilterParameters[i] = bqbase;' |
Pos = newPos; |
| 900 |
bq = (float*) &pEngine->pBasicFilterParameters[i]; |
i = iSubFragmentEnd; |
|
bq[0] = bqbase.b0; |
|
|
bq[1] = bqbase.b1; |
|
|
bq[2] = bqbase.b2; |
|
|
bq[3] = bqbase.a1; |
|
|
bq[4] = bqbase.a2; |
|
|
|
|
|
// same as 'pEngine->pMainFilterParameters[i] = bqmain;' |
|
|
bq = (float*) &pEngine->pMainFilterParameters[i]; |
|
|
bq[0] = bqmain.b0; |
|
|
bq[1] = bqmain.b1; |
|
|
bq[2] = bqmain.b2; |
|
|
bq[3] = bqmain.a1; |
|
|
bq[4] = bqmain.a2; |
|
| 901 |
} |
} |
| 902 |
} |
} |
| 903 |
|
|
| 904 |
/** |
/** @brief Update current portamento position. |
|
* Synthesizes the current audio fragment for this voice. |
|
| 905 |
* |
* |
| 906 |
* @param Samples - number of sample points to be rendered in this audio |
* Will be called when portamento mode is enabled to get the final |
| 907 |
* fragment cycle |
* portamento position of this active voice from where the next voice(s) |
| 908 |
* @param pSrc - pointer to input sample data |
* might continue to slide on. |
| 909 |
* @param Skip - number of sample points to skip in output buffer |
* |
| 910 |
|
* @param itNoteOffEvent - event which causes this voice to die soon |
| 911 |
*/ |
*/ |
| 912 |
void Voice::Synthesize(uint Samples, sample_t* pSrc, uint Skip) { |
void Voice::UpdatePortamentoPos(Pool<Event>::Iterator& itNoteOffEvent) { |
| 913 |
RunSynthesisFunction(SynthesisMode, *this, Samples, pSrc, Skip); |
const float fFinalEG3Level = EG3.level(itNoteOffEvent->FragmentPos()); |
| 914 |
|
pEngineChannel->PortamentoPos = (float) MIDIKey + RTMath::FreqRatioToCents(fFinalEG3Level) * 0.01f; |
| 915 |
} |
} |
| 916 |
|
|
| 917 |
/** |
/** |
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