#include "amuse/SoundMacroState.hpp" #include "amuse/Voice.hpp" #include "amuse/Engine.hpp" #include "amuse/Common.hpp" #include "amuse/AudioGroup.hpp" #include "amuse/AudioGroupPool.hpp" #include using namespace std::literals; /* C++17 will error out if an offsetof cannot be computed, so ignore this warning */ #pragma GCC diagnostic ignored "-Winvalid-offsetof" /* Squelch Win32 macro pollution >.< */ #undef SendMessage #undef GetMessage namespace amuse { void SoundMacroState::Evaluator::addComponent(uint8_t midiCtrl, float scale, Combine combine, VarType varType) { m_comps.push_back({midiCtrl, scale, combine, varType}); } float SoundMacroState::Evaluator::evaluate(double time, const Voice& vox, const SoundMacroState& st) const { float value = 0.f; /* Iterate each component */ for (auto it = m_comps.cbegin(); it != m_comps.cend(); ++it) { const Component& comp = *it; float thisValue = 0.f; /* Load selected data */ if (comp.m_varType == VarType::Ctrl) { switch (comp.m_midiCtrl) { case 128: /* Pitchbend */ thisValue = (vox.getPitchWheel() * 0.5f + 0.5f) * 127.f; break; case 129: /* Aftertouch */ thisValue = vox.getAftertouch(); break; case 130: /* LFO1 */ if (vox.m_lfoPeriods[0]) thisValue = (std::sin(time / vox.m_lfoPeriods[0] * 2.f * M_PIF) * 0.5f + 0.5f) * 127.f; break; case 131: /* LFO2 */ if (vox.m_lfoPeriods[1]) thisValue = (std::sin(time / vox.m_lfoPeriods[1] * 2.f * M_PIF) * 0.5f + 0.5f) * 127.f; break; case 132: /* Surround panning */ thisValue = (vox.m_curSpan * 0.5f + 0.5f) * 127.f; break; case 133: /* Macro-starting key */ thisValue = st.m_initKey; break; case 134: /* Macro-starting velocity */ thisValue = st.m_initVel; break; case 135: /* Time since macro-start (ms) */ thisValue = clamp(0.f, float(st.m_execTime * 1000.f), 16383.f); break; default: thisValue = vox.getCtrlValue(comp.m_midiCtrl); break; } } else if (comp.m_varType == VarType::Var) thisValue = st.m_variables[comp.m_midiCtrl & 0x1f]; /* Apply scale */ thisValue *= comp.m_scale; /* Combine */ if (it != m_comps.cbegin()) { switch (comp.m_combine) { case Combine::Add: value += thisValue; break; case Combine::Mult: value *= thisValue; break; default: value = thisValue; break; } } else value = thisValue; } return value; } void SoundMacroState::initialize(ObjectId id, const SoundMacro* macro, int step) { initialize(id, macro, step, 1000.f, 0, 0, 0); } void SoundMacroState::initialize(ObjectId id, const SoundMacro* macro, int step, double ticksPerSec, uint8_t midiKey, uint8_t midiVel, uint8_t midiMod) { m_ticksPerSec = ticksPerSec; m_initKey = midiKey; m_initVel = midiVel; m_initMod = midiMod; m_curVel = midiVel; m_curMod = midiMod; m_curPitch = midiKey * 100; m_pc.clear(); m_pc.emplace_back(id, macro, macro->assertPC(step)); m_inWait = false; m_execTime = 0.f; m_keyoff = false; m_sampleEnd = false; m_loopCountdown = -1; m_lastPlayMacroVid = -1; m_useAdsrControllers = false; m_portamentoMode = SoundMacro::CmdPortamento::PortState::MIDIControlled; m_portamentoTime = 0.5f; } template , int> = 0> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::Invalid; } template , int> = 0> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { static_assert(sizeof(T) == 1, "Enum must be an 8-bit type"); return SoundMacro::CmdIntrospection::Field::Type::Choice; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::Bool; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::Int8; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::UInt8; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::Int16; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::UInt16; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::Int32; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType() { return SoundMacro::CmdIntrospection::Field::Type::UInt32; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType>() { return SoundMacro::CmdIntrospection::Field::Type::SoundMacroId; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType>() { return SoundMacro::CmdIntrospection::Field::Type::SoundMacroStep; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType>() { return SoundMacro::CmdIntrospection::Field::Type::TableId; } template <> constexpr SoundMacro::CmdIntrospection::Field::Type GetFieldType>() { return SoundMacro::CmdIntrospection::Field::Type::SampleId; } #define FIELD_HEAD(tp, var) GetFieldType(), offsetof(tp, var) const SoundMacro::CmdIntrospection SoundMacro::CmdEnd::Introspective = { CmdType::Structure, "End"sv, "End of the macro. This always appears at the end of a given SoundMacro."sv, }; bool SoundMacro::CmdEnd::Do(SoundMacroState& st, Voice& vox) const { st._setPC(-1); return true; } const SoundMacro::CmdIntrospection SoundMacro::CmdStop::Introspective = { CmdType::Structure, "Stop"sv, "Stops the macro at any point."sv, }; bool SoundMacro::CmdStop::Do(SoundMacroState& st, Voice& vox) const { st._setPC(-1); return true; } const SoundMacro::CmdIntrospection SoundMacro::CmdSplitKey::Introspective = { CmdType::Structure, "Split Key"sv, "Conditionally branches macro execution based on MIDI key."sv, { { FIELD_HEAD(SoundMacro::CmdSplitKey, key), "Key"sv, 0, 127, 60 }, { FIELD_HEAD(SoundMacro::CmdSplitKey, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSplitKey, macroStep), "Macro Step"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdSplitKey::Do(SoundMacroState& st, Voice& vox) const { if (st.m_initKey >= key) { /* Do Branch */ if (macro.id == std::get<0>(st.m_pc.back())) st._setPC(macroStep.step); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSplitVel::Introspective = { CmdType::Structure, "Split Velocity"sv, "Conditionally branches macro execution based on velocity."sv, { { FIELD_HEAD(SoundMacro::CmdSplitVel, velocity), "Key"sv, 0, 127, 100 }, { FIELD_HEAD(SoundMacro::CmdSplitVel, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSplitVel, macroStep), "Macro Step"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdSplitVel::Do(SoundMacroState& st, Voice& vox) const { if (st.m_curVel >= velocity) { /* Do Branch */ if (macro.id == std::get<0>(st.m_pc.back())) st._setPC(macroStep.step); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdWaitTicks::Introspective = { CmdType::Structure, "Wait Ticks"sv, "Suspend SoundMacro execution for specified length of time. Value of 65535 " "will wait indefinitely, relying on Key Off or Sample End to signal stop. " "Absolute mode waits relative to the start of the SoundMacro."sv, { { FIELD_HEAD(SoundMacro::CmdWaitTicks, keyOff), "Key Off"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitTicks, random), "Random"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitTicks, sampleEnd), "Sample End"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitTicks, absolute), "Absolute"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitTicks, msSwitch), "Use Millisec"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitTicks, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 96 } } }; bool SoundMacro::CmdWaitTicks::Do(SoundMacroState& st, Voice& vox) const { /* Set wait state */ if (ticksOrMs != 65535) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; /* Randomize at the proper resolution */ if (random) secTime = std::fmod(vox.getEngine().nextRandom() / q, secTime); if (absolute) { if (secTime <= st.m_execTime) return false; st.m_waitCountdown = secTime - st.m_execTime; } else st.m_waitCountdown = secTime; st.m_indefiniteWait = false; } else st.m_indefiniteWait = true; st.m_inWait = true; st.m_keyoffWait = keyOff; st.m_sampleEndWait = sampleEnd; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdLoop::Introspective = { CmdType::Structure, "Loop"sv, "Branch to specified location in a loop for a specified number of Times. " "65535 will cause an endless loop, relying on Key Off or Sample End to signal stop."sv, { { FIELD_HEAD(SoundMacro::CmdLoop, keyOff), "Key Off"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdLoop, random), "Random"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdLoop, sampleEnd), "Sample End"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdLoop, macroStep), "Macro Step"sv, 0, 65535, 0 }, { FIELD_HEAD(SoundMacro::CmdLoop, times), "Times"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdLoop::Do(SoundMacroState& st, Voice& vox) const { if ((keyOff && st.m_keyoff) || (sampleEnd && st.m_sampleEnd)) { /* Break out of loop */ st.m_loopCountdown = -1; return false; } uint32_t useTimes = times; if (random) useTimes = vox.getEngine().nextRandom() % times; if (st.m_loopCountdown == -1 && useTimes != -1) st.m_loopCountdown = useTimes; if (st.m_loopCountdown > 0) { /* Loop back to step */ --st.m_loopCountdown; st._setPC(macroStep.step); } else /* Break out of loop */ st.m_loopCountdown = -1; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdGoto::Introspective = { CmdType::Structure, "Goto"sv, "Unconditional branch to specified SoundMacro location."sv, { { FIELD_HEAD(SoundMacro::CmdGoto, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdGoto, macroStep), "Macro Step"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdGoto::Do(SoundMacroState& st, Voice& vox) const { /* Do Branch */ if (macro.id == std::get<0>(st.m_pc.back())) st._setPC(macroStep.step); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdWaitMs::Introspective = { CmdType::Structure, "Wait Millisec"sv, "Suspend SoundMacro execution for specified length of time. Value of 65535 " "will wait indefinitely, relying on Key Off or Sample End to signal stop. " "Absolute mode waits relative to the start of the SoundMacro."sv, { { FIELD_HEAD(SoundMacro::CmdWaitMs, keyOff), "Key Off"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitMs, random), "Random"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitMs, sampleEnd), "Sample End"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitMs, absolute), "Absolute"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdWaitMs, ms), "Millisec"sv, 0, 65535, 96 } } }; bool SoundMacro::CmdWaitMs::Do(SoundMacroState& st, Voice& vox) const { /* Set wait state */ if (ms != 65535) { float secTime = ms / 1000.f; /* Randomize at the proper resolution */ if (random) secTime = std::fmod(vox.getEngine().nextRandom() / 1000.f, secTime); if (absolute) { if (secTime <= st.m_execTime) return false; st.m_waitCountdown = secTime - st.m_execTime; } else st.m_waitCountdown = secTime; st.m_indefiniteWait = false; } else st.m_indefiniteWait = true; st.m_inWait = true; st.m_keyoffWait = keyOff; st.m_sampleEndWait = sampleEnd; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPlayMacro::Introspective = { CmdType::Structure, "Play Macro"sv, "Play a SoundMacro in parallel to this one. Add Note is added to the " "current SoundMacro note to evaluate the new note."sv, { { FIELD_HEAD(SoundMacro::CmdPlayMacro, addNote), "Add Note"sv, -128, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdPlayMacro, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdPlayMacro, macroStep), "Macro Step"sv, 0, 65535, 0 }, { FIELD_HEAD(SoundMacro::CmdPlayMacro, priority), "Priority"sv, 0, 127, 50 }, { FIELD_HEAD(SoundMacro::CmdPlayMacro, maxVoices), "Max Voices"sv, 0, 255, 255 } } }; bool SoundMacro::CmdPlayMacro::Do(SoundMacroState& st, Voice& vox) const { ObjToken sibVox = vox.startChildMacro(addNote, macro.id, macroStep.step); if (sibVox) st.m_lastPlayMacroVid = sibVox->vid(); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSendKeyOff::Introspective = { CmdType::Structure, "Send Key Off"sv, "Send Key Off to voice specified by VID stored in a variable or the last started voice."sv, { { FIELD_HEAD(SoundMacro::CmdSendKeyOff, variable), "Variable"sv, 0, 31, 0 }, { FIELD_HEAD(SoundMacro::CmdSendKeyOff, lastStarted), "Last Started"sv, 0, 1, 0 } } }; bool SoundMacro::CmdSendKeyOff::Do(SoundMacroState& st, Voice& vox) const { if (lastStarted) { if (st.m_lastPlayMacroVid != -1) { ObjToken otherVox = vox.getEngine().findVoice(st.m_lastPlayMacroVid); if (otherVox) otherVox->keyOff(); } } else { ObjToken otherVox = vox.getEngine().findVoice(st.m_variables[variable & 0x1f]); if (otherVox) otherVox->keyOff(); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSplitMod::Introspective = { CmdType::Structure, "Split Mod"sv, "Conditionally branch if mod wheel is greater than or equal to specified value."sv, { { FIELD_HEAD(SoundMacro::CmdSplitMod, modValue), "Mod Value"sv, 0, 127, 64 }, { FIELD_HEAD(SoundMacro::CmdSplitMod, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSplitMod, macroStep), "Macro Step"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdSplitMod::Do(SoundMacroState& st, Voice& vox) const { if (st.m_curMod >= modValue) { /* Do Branch */ if (macro.id == std::get<0>(st.m_pc.back())) st._setPC(macroStep.step); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPianoPan::Introspective = { CmdType::Control, "Piano Pan"sv, "Gives piano-like sounds a natural-sounding stereo spread. The current key delta " "from Center Key is scaled with Scale and biased with Center Pan to evaluate panning."sv, { { FIELD_HEAD(SoundMacro::CmdPianoPan, scale), "Scale"sv, 0, 127, 127 }, { FIELD_HEAD(SoundMacro::CmdPianoPan, centerKey), "Center Key"sv, 0, 127, 36 }, { FIELD_HEAD(SoundMacro::CmdPianoPan, centerPan), "Center Pan"sv, 0, 127, 64 } } }; bool SoundMacro::CmdPianoPan::Do(SoundMacroState& st, Voice& vox) const { int32_t pan = int32_t(st.m_initKey - centerKey) * scale / 127 + centerPan; pan = std::max(-127, std::min(127, pan)); vox.setPan(pan / 127.f); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetAdsr::Introspective = { CmdType::Volume, "Set ADSR"sv, "Specify ADSR envelope using a pool object. DLS mode must match setting in ADSR."sv, { { FIELD_HEAD(SoundMacro::CmdSetAdsr, table), "ADSR"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSetAdsr, dlsMode), "DLS Mode"sv, 0, 1, 0 } } }; bool SoundMacro::CmdSetAdsr::Do(SoundMacroState& st, Voice& vox) const { vox.setAdsr(table.id, dlsMode); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdScaleVolume::Introspective = { CmdType::Volume, "Scale Volume"sv, "Calculates volume by scaling and biasing velocity. " "The result may be passed through an optional Curve."sv, { { FIELD_HEAD(SoundMacro::CmdScaleVolume, scale), "Scale"sv, 0, 127, 127 }, { FIELD_HEAD(SoundMacro::CmdScaleVolume, add), "Add"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdScaleVolume, table), "Curve"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdScaleVolume, originalVol), "Original Vol"sv, 0, 1, 1 } } }; bool SoundMacro::CmdScaleVolume::Do(SoundMacroState& st, Voice& vox) const { int32_t eval = int32_t(originalVol ? st.m_initVel : st.m_curVel) * scale / 127 + add; eval = clamp(0, eval, 127); if (table.id != 0) { const Curve* curveData = vox.getAudioGroup().getPool().tableAsCurves(table.id); if (curveData && curveData->data.size() >= 128) { vox.m_curVol = curveData->data[eval] / 127.f; return false; } } vox.m_curVol = eval / 127.f; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPanning::Introspective = { CmdType::Control, "Panning"sv, "Start pan-sweep from Pan Position offset by Width over specified time period."sv, { { FIELD_HEAD(SoundMacro::CmdPanning, panPosition), "Pan Position"sv, 0, 127, 64 }, { FIELD_HEAD(SoundMacro::CmdPanning, timeMs), "Time Millisec"sv, 0, 65535, 0 }, { FIELD_HEAD(SoundMacro::CmdPanning, width), "Width"sv, -128, 127, 0 } } }; bool SoundMacro::CmdPanning::Do(SoundMacroState& st, Voice& vox) const { vox.startPanning(timeMs / 1000.0, panPosition, width); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdEnvelope::Introspective = { CmdType::Volume, "Envelope"sv, "Start a velocity envelope by fading the current velocity to the one " "evaluated by Scale and Add. The result is optionally transformed with a Curve object."sv, { { FIELD_HEAD(SoundMacro::CmdEnvelope, scale), "Scale"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdEnvelope, add), "Add"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdEnvelope, table), "Curve"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdEnvelope, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdEnvelope, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 500 } } }; bool SoundMacro::CmdEnvelope::Do(SoundMacroState& st, Voice& vox) const { double q = msSwitch ? 1000.0 : st.m_ticksPerSec; double secTime = ticksOrMs / q; int32_t eval = int32_t(st.m_curVel) * scale / 127 + add; eval = clamp(0, eval, 127); const Curve* curveData; if (table.id != 0) curveData = vox.getAudioGroup().getPool().tableAsCurves(table.id); else curveData = nullptr; vox.startEnvelope(secTime, eval, curveData); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdStartSample::Introspective = { CmdType::Sample, "Start Sample"sv, "Start a Sample playing on the voice. An Offset in samples may be applied. " "This offset may be scaled with the current velocity."sv, { { FIELD_HEAD(SoundMacro::CmdStartSample, sample), "Sample"sv, 0, 65535, 0 }, { FIELD_HEAD(SoundMacro::CmdStartSample, mode), "Velocity Scale"sv, 0, 2, 0, { "No Scale"sv, "Negative"sv, "Positive"sv } }, { FIELD_HEAD(SoundMacro::CmdStartSample, offset), "Offset"sv, 0, 0xffffff, 0 } } }; bool SoundMacro::CmdStartSample::Do(SoundMacroState& st, Voice& vox) const { uint32_t useOffset = offset; switch (mode) { case Mode::Negative: useOffset = offset * (127 - st.m_curVel) / 127; break; case Mode::Positive: useOffset = offset * st.m_curVel / 127; break; default: break; } vox.startSample(sample.id, useOffset); vox.setPitchKey(st.m_curPitch); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdStopSample::Introspective = { CmdType::Sample, "Stop Sample"sv, "Stops the sample playing on the voice."sv }; bool SoundMacro::CmdStopSample::Do(SoundMacroState& st, Voice& vox) const { vox.stopSample(); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdKeyOff::Introspective = { CmdType::Control, "Key Off"sv, "Sends a Key Off to the current voice."sv }; bool SoundMacro::CmdKeyOff::Do(SoundMacroState& st, Voice& vox) const { vox._macroKeyOff(); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSplitRnd::Introspective = { CmdType::Structure, "Split Rnd"sv, "Conditionally branch if a random value is greater than or equal to RND. " "A lower RND will cause a higher probability of branching."sv, { { FIELD_HEAD(SoundMacro::CmdSplitRnd, rnd), "RND"sv, 0, 255, 128 }, { FIELD_HEAD(SoundMacro::CmdSplitRnd, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSplitRnd, macroStep), "Macro Step"sv, 0, 65535, 0 }, } }; bool SoundMacro::CmdSplitRnd::Do(SoundMacroState& st, Voice& vox) const { if (rnd <= vox.getEngine().nextRandom() % 256) { /* Do branch */ if (macro.id == std::get<0>(st.m_pc.back())) st._setPC(macroStep.step); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdFadeIn::Introspective = { CmdType::Volume, "Fade In"sv, "Start a velocity envelope by fading from silence to the velocity " "evaluated by Scale and Add. The result is optionally transformed with a Curve object."sv, { { FIELD_HEAD(SoundMacro::CmdFadeIn, scale), "Scale"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdFadeIn, add), "Add"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdFadeIn, table), "Curve"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdFadeIn, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdFadeIn, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 500 } } }; bool SoundMacro::CmdFadeIn::Do(SoundMacroState& st, Voice& vox) const { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; int32_t eval = int32_t(st.m_curVel) * scale / 127 + add; eval = clamp(0, eval, 127); const Curve* curveData; if (table.id != 0) curveData = vox.getAudioGroup().getPool().tableAsCurves(table.id); else curveData = nullptr; vox.startFadeIn(secTime, eval, curveData); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSpanning::Introspective = { CmdType::Control, "Spanning"sv, "Start span-sweep from Span Position offset by Width over specified time period."sv, { { FIELD_HEAD(SoundMacro::CmdSpanning, spanPosition), "Span Position"sv, 0, 127, 64 }, { FIELD_HEAD(SoundMacro::CmdSpanning, timeMs), "Time Millisec"sv, 0, 65535, 0 }, { FIELD_HEAD(SoundMacro::CmdSpanning, width), "Width"sv, -128, 127, 0 } } }; bool SoundMacro::CmdSpanning::Do(SoundMacroState& st, Voice& vox) const { vox.startSpanning(timeMs / 1000.0, spanPosition, width); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetAdsrCtrl::Introspective = { CmdType::Volume, "Set ADSR Ctrl"sv, "Bind MIDI controls to ADSR parameters."sv, { { FIELD_HEAD(SoundMacro::CmdSetAdsrCtrl, attack), "Attack Ctrl"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdSetAdsrCtrl, decay), "Decay Ctrl"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdSetAdsrCtrl, sustain), "Sustain Ctrl"sv, 0, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdSetAdsrCtrl, release), "Release Ctrl"sv, 0, 127, 0 }, } }; bool SoundMacro::CmdSetAdsrCtrl::Do(SoundMacroState& st, Voice& vox) const { st.m_useAdsrControllers = true; st.m_midiAttack = attack; st.m_midiDecay = decay; st.m_midiSustain = sustain; st.m_midiRelease = release; /* Bootstrap ADSR defaults here */ if (!vox.getCtrlValue(st.m_midiSustain)) { vox.setCtrlValue(st.m_midiAttack, 10); vox.setCtrlValue(st.m_midiSustain, 127); vox.setCtrlValue(st.m_midiRelease, 10); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdRndNote::Introspective = { CmdType::Pitch, "Random Note"sv, "Sets random pitch between Note Lo and Note Hi, biased by Detune in cents. " "If Free is set, the note will not snap to key steps."sv, { { FIELD_HEAD(SoundMacro::CmdRndNote, noteLo), "Note Lo"sv, -127, 127, 48 }, { FIELD_HEAD(SoundMacro::CmdRndNote, detune), "Detune"sv, 0, 99, 0 }, { FIELD_HEAD(SoundMacro::CmdRndNote, noteHi), "Note Hi"sv, -127, 127, 72 }, { FIELD_HEAD(SoundMacro::CmdRndNote, fixedFree), "Free"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdRndNote, absRel), "Absolute"sv, 0, 1, 0 } } }; bool SoundMacro::CmdRndNote::Do(SoundMacroState& st, Voice& vox) const { int32_t useNoteLo = noteLo; int32_t useNoteHi = noteHi; if (absRel) { useNoteLo = st.m_initKey - noteLo; useNoteHi = noteLo + noteHi; } useNoteLo *= 100; useNoteHi *= 100; if (useNoteHi == useNoteLo) st.m_curPitch = useNoteHi; else st.m_curPitch = (vox.getEngine().nextRandom() % (useNoteHi - useNoteLo)) + useNoteLo; if (!fixedFree) st.m_curPitch = st.m_curPitch / 100 * 100 + detune; vox.setPitchKey(st.m_curPitch); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAddNote::Introspective = { CmdType::Pitch, "Add Note"sv, "Sets new pitch by adding Add, biased by Detune in cents. " "The time parameters behave like a WAIT command when non-zero."sv, { { FIELD_HEAD(SoundMacro::CmdAddNote, add), "Add"sv, -128, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdAddNote, detune), "Detune"sv, -99, 99, 0 }, { FIELD_HEAD(SoundMacro::CmdAddNote, originalKey), "Original Key"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdAddNote, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdAddNote, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdAddNote::Do(SoundMacroState& st, Voice& vox) const { st.m_curPitch += add * 100 + detune; /* Set wait state */ if (msSwitch) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; st.m_waitCountdown = secTime; st.m_inWait = true; } vox.setPitchKey(st.m_curPitch); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetNote::Introspective = { CmdType::Pitch, "Set Note"sv, "Sets new pitch to Key, biased by Detune in cents. " "The time parameters behave like a WAIT command when non-zero."sv, { { FIELD_HEAD(SoundMacro::CmdSetNote, key), "Key"sv, 0, 127, 60 }, { FIELD_HEAD(SoundMacro::CmdSetNote, detune), "Detune"sv, -99, 99, 0 }, { FIELD_HEAD(SoundMacro::CmdSetNote, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdSetNote, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdSetNote::Do(SoundMacroState& st, Voice& vox) const { st.m_curPitch = key * 100 + detune; /* Set wait state */ if (ticksOrMs) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; st.m_waitCountdown = secTime; st.m_inWait = true; } vox.setPitchKey(st.m_curPitch); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdLastNote::Introspective = { CmdType::Pitch, "Last Note"sv, "Sets new pitch by adding Add to last played MIDI note, biased by Detune in cents. " "The time parameters behave like a WAIT command when non-zero."sv, { { FIELD_HEAD(SoundMacro::CmdLastNote, add), "Key"sv, -128, 127, 0 }, { FIELD_HEAD(SoundMacro::CmdLastNote, detune), "Detune"sv, -99, 99, 0 }, { FIELD_HEAD(SoundMacro::CmdLastNote, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdLastNote, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdLastNote::Do(SoundMacroState& st, Voice& vox) const { st.m_curPitch = (add + vox.getLastNote()) * 100 + detune; /* Set wait state */ if (msSwitch) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; st.m_waitCountdown = secTime; st.m_inWait = true; } vox.setPitchKey(st.m_curPitch); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPortamento::Introspective = { CmdType::Setup, "Portamento"sv, "Setup portamento mode for this voice."sv, { { FIELD_HEAD(SoundMacro::CmdPortamento, portState), "Port. State"sv, 0, 2, 1, { "Enable"sv, "Disable"sv, "MIDI Controlled"sv } }, { FIELD_HEAD(SoundMacro::CmdPortamento, portType), "Port. Type"sv, 0, 1, 0, { "Last Pressed"sv, "Always"sv } }, { FIELD_HEAD(SoundMacro::CmdPortamento, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdPortamento, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdPortamento::Do(SoundMacroState& st, Voice& vox) const { st.m_portamentoMode = portState; st.m_portamentoType = portType; float q = msSwitch ? 1000.f : st.m_ticksPerSec; st.m_portamentoTime = ticksOrMs / q; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdVibrato::Introspective = { CmdType::Pitch, "Vibrato"sv, "Setup vibrato mode for this voice. Voice pitch will be " "modulated using the Level magnitude or the modwheel."sv, { { FIELD_HEAD(SoundMacro::CmdVibrato, levelNote), "Level Note"sv, -127, 127, 0, }, { FIELD_HEAD(SoundMacro::CmdVibrato, levelFine), "Level Fine"sv, -99, 99, 15, }, { FIELD_HEAD(SoundMacro::CmdVibrato, modwheelFlag), "Use Modwheel"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdVibrato, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdVibrato, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 250 } } }; bool SoundMacro::CmdVibrato::Do(SoundMacroState& st, Voice& vox) const { float q = msSwitch ? 1000.f : st.m_ticksPerSec; vox.setVibrato(levelNote * 100 + levelFine, modwheelFlag, ticksOrMs / q); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPitchSweep1::Introspective = { CmdType::Pitch, "Pitch Sweep 1"sv, "Setup pitch sweep 1 for this voice. Voice pitch will accumulate Add for Times frames. " "If the time values are non-zero, this command also functions as a WAIT."sv, { { FIELD_HEAD(SoundMacro::CmdPitchSweep1, times), "Times"sv, 0, 127, 100, }, { FIELD_HEAD(SoundMacro::CmdPitchSweep1, add), "Add"sv, -32768, 32767, 100, }, { FIELD_HEAD(SoundMacro::CmdPitchSweep1, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdPitchSweep1, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 1000 } } }; bool SoundMacro::CmdPitchSweep1::Do(SoundMacroState& st, Voice& vox) const { /* Set wait state */ if (msSwitch) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; st.m_waitCountdown = secTime; st.m_inWait = true; } vox.setPitchSweep1(times, add); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPitchSweep2::Introspective = { CmdType::Pitch, "Pitch Sweep 2"sv, "Setup pitch sweep 2 for this voice. Voice pitch will accumulate Add for Times frames. " "If the time values are non-zero, this command also functions as a WAIT."sv, { { FIELD_HEAD(SoundMacro::CmdPitchSweep2, times), "Times"sv, 0, 127, 100, }, { FIELD_HEAD(SoundMacro::CmdPitchSweep2, add), "Add"sv, -32768, 32767, 100, }, { FIELD_HEAD(SoundMacro::CmdPitchSweep2, msSwitch), "Use Millisec"sv, 0, 1, 1 }, { FIELD_HEAD(SoundMacro::CmdPitchSweep2, ticksOrMs), "Ticks/Millisec"sv, 0, 65535, 1000 } } }; bool SoundMacro::CmdPitchSweep2::Do(SoundMacroState& st, Voice& vox) const { /* Set wait state */ if (msSwitch) { float q = msSwitch ? 1000.f : st.m_ticksPerSec; float secTime = ticksOrMs / q; st.m_waitCountdown = secTime; st.m_inWait = true; } vox.setPitchSweep2(times, add); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetPitch::Introspective = { CmdType::Pitch, "Set Pitch"sv, "Set the playback sample rate directly."sv, { { FIELD_HEAD(SoundMacro::CmdSetPitch, hz.val), "Hz"sv, 0, 0xffffff, 22050, }, { FIELD_HEAD(SoundMacro::CmdSetPitch, fine), "Level Fine"sv, 0, 65535, 0, } } }; bool SoundMacro::CmdSetPitch::Do(SoundMacroState& st, Voice& vox) const { vox.setPitchFrequency(hz, fine); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetPitchAdsr::Introspective = { CmdType::Pitch, "Set Pitch ADSR"sv, "Define the pitch ADSR from a DLS ADSR pool object. The pitch range is " "specified using Note and Cents parameters."sv, { { FIELD_HEAD(SoundMacro::CmdSetPitchAdsr, table), "ADSR"sv, 0, 65535, 65535, }, { FIELD_HEAD(SoundMacro::CmdSetPitchAdsr, keys), "Note range"sv, -128, 127, 0, }, { FIELD_HEAD(SoundMacro::CmdSetPitchAdsr, cents), "Cents range"sv, -99, 99, 0, } } }; bool SoundMacro::CmdSetPitchAdsr::Do(SoundMacroState& st, Voice& vox) const { vox.setPitchAdsr(table.id, keys * 100 + cents); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdScaleVolumeDLS::Introspective = { CmdType::Volume, "Scale Volume DLS"sv, "Sets new volume by scaling the velocity. A value of 4096 == 100%."sv, { { FIELD_HEAD(SoundMacro::CmdScaleVolumeDLS, scale), "Scale"sv, 0, 16383, 4096, }, { FIELD_HEAD(SoundMacro::CmdScaleVolumeDLS, originalVol), "Original Vol"sv, 0, 1, 1, } } }; bool SoundMacro::CmdScaleVolumeDLS::Do(SoundMacroState& st, Voice& vox) const { vox.m_curVol = int32_t(originalVol ? st.m_initVel : st.m_curVel) * scale / 4096.f / 127.f; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdMod2Vibrange::Introspective = { CmdType::Pitch, "Mod 2 Vibrange"sv, "Values used to scale the modwheel control for vibrato."sv, { { FIELD_HEAD(SoundMacro::CmdMod2Vibrange, keys), "Key range"sv, 0, 16383, 4096, }, { FIELD_HEAD(SoundMacro::CmdMod2Vibrange, cents), "Cent range"sv, 0, 1, 1, } } }; bool SoundMacro::CmdMod2Vibrange::Do(SoundMacroState& st, Voice& vox) const { vox.setMod2VibratoRange(keys * 100 + cents); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetupTremolo::Introspective = { CmdType::Special, "Setup Tremolo"sv, "Setup tremolo effect. Must be combined with Tremolo Select to connect " "with a configured LFO. A value of 4096 == 100%."sv, { { FIELD_HEAD(SoundMacro::CmdSetupTremolo, scale), "Scale"sv, 0, 16383, 8192, }, { FIELD_HEAD(SoundMacro::CmdSetupTremolo, modwAddScale), "Modw. add scale"sv, 0, 16383, 0, } } }; bool SoundMacro::CmdSetupTremolo::Do(SoundMacroState& st, Voice& vox) const { vox.setTremolo(scale / 4096.f, scale / 4096.f); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdReturn::Introspective = { CmdType::Structure, "Return"sv, "Branch to after last Go Subroutine command and pop call stack."sv }; bool SoundMacro::CmdReturn::Do(SoundMacroState& st, Voice& vox) const { if (st.m_pc.size() > 1) { st.m_pc.pop_back(); vox._setObjectId(std::get<0>(st.m_pc.back())); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdGoSub::Introspective = { CmdType::Structure, "Go Subroutine"sv, "Push location onto call stack and branch to specified location."sv, { { FIELD_HEAD(SoundMacro::CmdSplitRnd, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSplitRnd, macroStep), "Macro Step"sv, 0, 65535, 0 }, } }; bool SoundMacro::CmdGoSub::Do(SoundMacroState& st, Voice& vox) const { if (macro.id == std::get<0>(st.m_pc.back())) st.m_pc.emplace_back(std::get<0>(st.m_pc.back()), std::get<1>(st.m_pc.back()), std::get<1>(st.m_pc.back())->assertPC(macroStep.step)); else vox.loadMacroObject(macro.id, macroStep.step, st.m_ticksPerSec, st.m_initKey, st.m_initVel, st.m_initMod, true); vox._setObjectId(std::get<0>(st.m_pc.back())); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdTrapEvent::Introspective = { CmdType::Structure, "Trap Event"sv, "Register event-based branch to a specified location."sv, { { FIELD_HEAD(SoundMacro::CmdTrapEvent, event), "Event"sv, 0, 2, 0, { "Key Off"sv, "Sample End"sv, "Message Recv"sv } }, { FIELD_HEAD(SoundMacro::CmdTrapEvent, macro), "Macro"sv, 0, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdTrapEvent, macroStep), "Macro Step"sv, 0, 65535, 0 }, } }; bool SoundMacro::CmdTrapEvent::Do(SoundMacroState& st, Voice& vox) const { switch (event) { case EventType::KeyOff: vox.m_keyoffTrap.macroId = macro.id; vox.m_keyoffTrap.macroStep = macroStep.step; break; case EventType::SampleEnd: vox.m_sampleEndTrap.macroId = macro.id; vox.m_sampleEndTrap.macroStep = macroStep.step; break; case EventType::MessageRecv: vox.m_messageTrap.macroId = macro.id; vox.m_messageTrap.macroStep = macroStep.step; break; default: break; } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdUntrapEvent::Introspective = { CmdType::Structure, "Untrap Event"sv, "Unregister event-based branch."sv, { { FIELD_HEAD(SoundMacro::CmdUntrapEvent, event), "Event"sv, 0, 2, 0, { "Key Off"sv, "Sample End"sv, "Message Recv"sv } } } }; bool SoundMacro::CmdUntrapEvent::Do(SoundMacroState& st, Voice& vox) const { switch (event) { case CmdTrapEvent::EventType::KeyOff: vox.m_keyoffTrap.macroId = 0xffff; vox.m_keyoffTrap.macroStep = 0xffff; break; case CmdTrapEvent::EventType::SampleEnd: vox.m_sampleEndTrap.macroId = 0xffff; vox.m_sampleEndTrap.macroStep = 0xffff; break; case CmdTrapEvent::EventType::MessageRecv: vox.m_messageTrap.macroId = 0xffff; vox.m_messageTrap.macroStep = 0xffff; break; default: break; } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSendMessage::Introspective = { CmdType::Special, "Send Message"sv, "Send message to SoundMacro or Voice referenced in a variable. " "The message value is retrieved from a variable."sv, { { FIELD_HEAD(SoundMacro::CmdSendMessage, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSendMessage, macro), "Macro"sv, 1, 65535, 65535 }, { FIELD_HEAD(SoundMacro::CmdSendMessage, voiceVar), "Voice Var"sv, 0, 31, 0 }, { FIELD_HEAD(SoundMacro::CmdSendMessage, valueVar), "Value Var"sv, 0, 31, 0 }, } }; bool SoundMacro::CmdSendMessage::Do(SoundMacroState& st, Voice& vox) const { if (isVar) { ObjToken findVox = vox.getEngine().findVoice(st.m_variables[voiceVar & 0x1f]); if (findVox) findVox->message(st.m_variables[valueVar & 0x1f]); } else vox.getEngine().sendMacroMessage(macro.id, st.m_variables[valueVar & 0x1f]); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdGetMessage::Introspective = { CmdType::Special, "Get Message"sv, "Get voice's latest received message and store its value in Variable."sv, { { FIELD_HEAD(SoundMacro::CmdGetMessage, variable), "Variable"sv, 0, 31, 0 } } }; bool SoundMacro::CmdGetMessage::Do(SoundMacroState& st, Voice& vox) const { st.m_variables[variable & 0x1f] = vox.m_latestMessage; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdGetVid::Introspective = { CmdType::Special, "Get VID"sv, "Get ID of current voice or last voice started by Play Macro command and store in Variable."sv, { { FIELD_HEAD(SoundMacro::CmdGetVid, variable), "Variable"sv, 0, 31, 0 }, { FIELD_HEAD(SoundMacro::CmdGetVid, playMacro), "Play Macro"sv, 0, 1, 1 } } }; bool SoundMacro::CmdGetVid::Do(SoundMacroState& st, Voice& vox) const { st.m_variables[variable & 0x1f] = playMacro ? st.m_lastPlayMacroVid : vox.vid(); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAddAgeCount::Introspective = { CmdType::Special, "Add Age Count"sv, "Adds a value to the current voice's age counter."sv, { { FIELD_HEAD(SoundMacro::CmdAddAgeCount, add), "Add"sv, -32768, 32767, -30000 } } }; bool SoundMacro::CmdAddAgeCount::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetAgeCount::Introspective = { CmdType::Special, "Set Age Count"sv, "Set a value into the current voice's age counter."sv, { { FIELD_HEAD(SoundMacro::CmdSetAgeCount, counter), "Counter"sv, 0, 65535, 0 } } }; bool SoundMacro::CmdSetAgeCount::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSendFlag::Introspective = { CmdType::Special, "Send Flag"sv, "Send a flag value to the host application."sv, { { FIELD_HEAD(SoundMacro::CmdSendFlag, flagId), "Flag ID"sv, 0, 15, 0 }, { FIELD_HEAD(SoundMacro::CmdSendFlag, value), "Value"sv, 0, 255, 255 } } }; bool SoundMacro::CmdSendFlag::Do(SoundMacroState& st, Voice& vox) const { /* TODO: figure out a good API */ return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPitchWheelR::Introspective = { CmdType::Setup, "Pitch Wheel Range"sv, "Specifies the number of note steps for the range of the pitch wheel."sv, { { FIELD_HEAD(SoundMacro::CmdPitchWheelR, rangeUp), "Range Up"sv, 0, 127, 2 }, { FIELD_HEAD(SoundMacro::CmdPitchWheelR, rangeDown), "Range Down"sv, 0, 127, 2 } } }; bool SoundMacro::CmdPitchWheelR::Do(SoundMacroState& st, Voice& vox) const { vox.setPitchWheelRange(rangeUp, rangeDown); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetPriority::Introspective = { CmdType::Special, "Set Priority"sv, "Sets the priority of the current voice."sv, { { FIELD_HEAD(SoundMacro::CmdSetPriority, prio), "Priority"sv, 0, 254, 50 } } }; bool SoundMacro::CmdSetPriority::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAddPriority::Introspective = { CmdType::Special, "Add Priority"sv, "Adds to the priority of the current voice."sv, { { FIELD_HEAD(SoundMacro::CmdAddPriority, prio), "Priority"sv, -255, 255, 1 } } }; bool SoundMacro::CmdAddPriority::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAgeCntSpeed::Introspective = { CmdType::Special, "Age Count Speed"sv, "Sets the speed the current voice's age counter is decremented."sv, { { FIELD_HEAD(SoundMacro::CmdAgeCntSpeed, time), "Millisec"sv, 0, 16777215, 1080000 } } }; bool SoundMacro::CmdAgeCntSpeed::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAgeCntVel::Introspective = { CmdType::Special, "Age Count Velocity"sv, "Sets the current voice's age counter by scaling the velocity."sv, { { FIELD_HEAD(SoundMacro::CmdAgeCntVel, ageBase), "Base"sv, 0, 65535, 60000 }, { FIELD_HEAD(SoundMacro::CmdAgeCntVel, ageScale), "Scale"sv, 0, 65535, 127 } } }; bool SoundMacro::CmdAgeCntVel::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdVolSelect::Introspective = { CmdType::Setup, "Volume Select"sv, "Appends an evaluator component for computing the voice's volume."sv, { { FIELD_HEAD(SoundMacro::CmdVolSelect, midiControl), "MIDI Control"sv, 0, 132, 7 }, { FIELD_HEAD(SoundMacro::CmdVolSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdVolSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdVolSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdVolSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdVolSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_volumeSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPanSelect::Introspective = { CmdType::Setup, "Pan Select"sv, "Appends an evaluator component for computing the voice's pan."sv, { { FIELD_HEAD(SoundMacro::CmdPanSelect, midiControl), "MIDI Control"sv, 0, 132, 10 }, { FIELD_HEAD(SoundMacro::CmdPanSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPanSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPanSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPanSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPanSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_panSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPitchWheelSelect::Introspective = { CmdType::Setup, "Pitch Wheel Select"sv, "Appends an evaluator component for computing the voice's pitch wheel."sv, { { FIELD_HEAD(SoundMacro::CmdPitchWheelSelect, midiControl), "MIDI Control"sv, 0, 132, 128 }, { FIELD_HEAD(SoundMacro::CmdPitchWheelSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPitchWheelSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPitchWheelSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPitchWheelSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPitchWheelSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_pitchWheelSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdModWheelSelect::Introspective = { CmdType::Setup, "Mod Wheel Select"sv, "Appends an evaluator component for computing the voice's mod wheel."sv, { { FIELD_HEAD(SoundMacro::CmdModWheelSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdModWheelSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdModWheelSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdModWheelSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdModWheelSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdModWheelSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_modWheelSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPedalSelect::Introspective = { CmdType::Setup, "Pedal Select"sv, "Appends an evaluator component for computing the voice's pedal."sv, { { FIELD_HEAD(SoundMacro::CmdPedalSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdPedalSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPedalSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPedalSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPedalSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPedalSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_pedalSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPortamentoSelect::Introspective = { CmdType::Setup, "Portamento Select"sv, "Appends an evaluator component for computing the voice's portamento."sv, { { FIELD_HEAD(SoundMacro::CmdPortamentoSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdPortamentoSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPortamentoSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPortamentoSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPortamentoSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPortamentoSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_portamentoSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdReverbSelect::Introspective = { CmdType::Setup, "Reverb Select"sv, "Appends an evaluator component for computing the voice's reverb."sv, { { FIELD_HEAD(SoundMacro::CmdReverbSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdReverbSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdReverbSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdReverbSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdReverbSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdReverbSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_reverbSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSpanSelect::Introspective = { CmdType::Setup, "Span Select"sv, "Appends an evaluator component for computing the voice's span."sv, { { FIELD_HEAD(SoundMacro::CmdSpanSelect, midiControl), "MIDI Control"sv, 0, 132, 19 }, { FIELD_HEAD(SoundMacro::CmdSpanSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdSpanSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdSpanSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSpanSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdSpanSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_spanSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdDopplerSelect::Introspective = { CmdType::Setup, "Doppler Select"sv, "Appends an evaluator component for computing the voice's doppler."sv, { { FIELD_HEAD(SoundMacro::CmdDopplerSelect, midiControl), "MIDI Control"sv, 0, 132, 132 }, { FIELD_HEAD(SoundMacro::CmdDopplerSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdDopplerSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdDopplerSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdDopplerSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdDopplerSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_dopplerSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdTremoloSelect::Introspective = { CmdType::Setup, "Tremolo Select"sv, "Appends an evaluator component for computing the voice's tremolo."sv, { { FIELD_HEAD(SoundMacro::CmdTremoloSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdTremoloSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdTremoloSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdTremoloSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdTremoloSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdTremoloSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_tremoloSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPreASelect::Introspective = { CmdType::Setup, "PreA Select"sv, "Appends an evaluator component for computing the voice's pre-AUXA."sv, { { FIELD_HEAD(SoundMacro::CmdPreASelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdPreASelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPreASelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPreASelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPreASelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPreASelect::Do(SoundMacroState& st, Voice& vox) const { st.m_preAuxASel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPreBSelect::Introspective = { CmdType::Setup, "PreB Select"sv, "Appends an evaluator component for computing the voice's pre-AUXB."sv, { { FIELD_HEAD(SoundMacro::CmdPreBSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdPreBSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPreBSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPreBSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPreBSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPreBSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_preAuxBSel.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdPostBSelect::Introspective = { CmdType::Setup, "PostB Select"sv, "Appends an evaluator component for computing the voice's post-AUXB."sv, { { FIELD_HEAD(SoundMacro::CmdPostBSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdPostBSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdPostBSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdPostBSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdPostBSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 } } }; bool SoundMacro::CmdPostBSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_postAuxB.addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAuxAFXSelect::Introspective = { CmdType::Setup, "AuxA FX Select"sv, "Appends an evaluator component for computing the AUXA Parameter."sv, { { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 }, { FIELD_HEAD(SoundMacro::CmdAuxAFXSelect, paramIndex), "Param Index"sv, 0, 2, 0 } } }; bool SoundMacro::CmdAuxAFXSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_auxAFxSel[std::min(paramIndex, atUint8(3))]. addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAuxBFXSelect::Introspective = { CmdType::Setup, "AuxB FX Select"sv, "Appends an evaluator component for computing the AUXB Parameter."sv, { { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, midiControl), "MIDI Control"sv, 0, 132, 1 }, { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, scalingPercentage), "Scale Percentage"sv, -10000, 10000, 100 }, { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, combine), "Combine Mode"sv, 0, 2, 0, { "Set"sv, "Add"sv, "Mult"sv } }, { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, isVar), "Is Var"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, fineScaling), "Fine Scaling"sv, -100, 100, 0 }, { FIELD_HEAD(SoundMacro::CmdAuxBFXSelect, paramIndex), "Param Index"sv, 0, 2, 0 } } }; bool SoundMacro::CmdAuxBFXSelect::Do(SoundMacroState& st, Voice& vox) const { st.m_auxBFxSel[std::min(paramIndex, atUint8(3))]. addComponent(midiControl, (scalingPercentage + fineScaling / 100.f) / 100.f, SoundMacroState::Evaluator::Combine(combine), SoundMacroState::Evaluator::VarType(isVar)); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetupLFO::Introspective = { CmdType::Setup, "Setup LFO"sv, "Configures voice's LFO period in milliseconds."sv, { { FIELD_HEAD(SoundMacro::CmdSetupLFO, lfoNumber), "LFO Number"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSetupLFO, periodInMs), "Period"sv, -10000, 10000, 100 } } }; bool SoundMacro::CmdSetupLFO::Do(SoundMacroState& st, Voice& vox) const { if (lfoNumber == 0) vox.setLFO1Period(periodInMs / 1000.f); else if (lfoNumber == 1) vox.setLFO2Period(periodInMs / 1000.f); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdModeSelect::Introspective = { CmdType::Setup, "Mode Select"sv, "Sets operating modes for current voice."sv, { { FIELD_HEAD(SoundMacro::CmdModeSelect, dlsVol), "DLS Vol"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdModeSelect, itd), "ITD"sv, 0, 1, 0 } } }; bool SoundMacro::CmdModeSelect::Do(SoundMacroState& st, Voice& vox) const { vox.m_dlsVol = dlsVol; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetKeygroup::Introspective = { CmdType::Setup, "Set Keygroup"sv, "Selects keygroup for current voice."sv, { { FIELD_HEAD(SoundMacro::CmdSetKeygroup, group), "Group"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdSetKeygroup, killNow), "Kill now"sv, 0, 1, 0 } } }; bool SoundMacro::CmdSetKeygroup::Do(SoundMacroState& st, Voice& vox) const { vox.setKeygroup(0); if (group) { vox.getEngine().killKeygroup(group, killNow); vox.setKeygroup(group); } return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSRCmodeSelect::Introspective = { CmdType::Setup, "SRC Mode Select"sv, "Sets operating modes for sample rate converter."sv, { { FIELD_HEAD(SoundMacro::CmdSRCmodeSelect, srcType), "SRC Type"sv, 0, 2, 0 }, { FIELD_HEAD(SoundMacro::CmdSRCmodeSelect, type0SrcFilter), "Type 0 SRC Filter"sv, 0, 2, 1 } } }; bool SoundMacro::CmdSRCmodeSelect::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdWiiUnknown::Introspective = { CmdType::Setup, "Wii Unknown"sv, "????"sv, { { FIELD_HEAD(SoundMacro::CmdWiiUnknown, flag), "?"sv, 0, 1, 0 } } }; bool SoundMacro::CmdWiiUnknown::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdWiiUnknown2::Introspective = { CmdType::Setup, "Wii Unknown 2"sv, "????"sv, { { FIELD_HEAD(SoundMacro::CmdWiiUnknown2, flag), "?"sv, 0, 1, 0 } } }; bool SoundMacro::CmdWiiUnknown2::Do(SoundMacroState& st, Voice& vox) const { return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAddVars::Introspective = { CmdType::Special, "Add Vars"sv, "A = B + C"sv, { { FIELD_HEAD(SoundMacro::CmdAddVars, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAddVars, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdAddVars, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAddVars, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdAddVars, varCtrlC), "Use Ctrl C"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAddVars, c), "C"sv, 0, 255, 0 }, } }; bool SoundMacro::CmdAddVars::Do(SoundMacroState& st, Voice& vox) const { int32_t useB, useC; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if (varCtrlC) useC = vox.getCtrlValue(c); else useC = st.m_variables[c & 0x1f]; if (varCtrlA) vox.setCtrlValue(a, useB + useC); else st.m_variables[a & 0x1f] = useB + useC; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSubVars::Introspective = { CmdType::Special, "Sub Vars"sv, "A = B - C"sv, { { FIELD_HEAD(SoundMacro::CmdSubVars, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSubVars, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdSubVars, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSubVars, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdSubVars, varCtrlC), "Use Ctrl C"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSubVars, c), "C"sv, 0, 255, 0 }, } }; bool SoundMacro::CmdSubVars::Do(SoundMacroState& st, Voice& vox) const { int32_t useB, useC; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if (varCtrlC) useC = vox.getCtrlValue(c); else useC = st.m_variables[c & 0x1f]; if (varCtrlA) vox.setCtrlValue(a, useB - useC); else st.m_variables[a & 0x1f] = useB - useC; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdMulVars::Introspective = { CmdType::Special, "Mul Vars"sv, "A = B * C"sv, { { FIELD_HEAD(SoundMacro::CmdMulVars, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdMulVars, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdMulVars, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdMulVars, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdMulVars, varCtrlC), "Use Ctrl C"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdMulVars, c), "C"sv, 0, 255, 0 }, } }; bool SoundMacro::CmdMulVars::Do(SoundMacroState& st, Voice& vox) const { int32_t useB, useC; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if (varCtrlC) useC = vox.getCtrlValue(c); else useC = st.m_variables[c & 0x1f]; if (varCtrlA) vox.setCtrlValue(a, useB * useC); else st.m_variables[a & 0x1f] = useB * useC; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdDivVars::Introspective = { CmdType::Special, "Div Vars"sv, "A = B / C"sv, { { FIELD_HEAD(SoundMacro::CmdDivVars, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdDivVars, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdDivVars, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdDivVars, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdDivVars, varCtrlC), "Use Ctrl C"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdDivVars, c), "C"sv, 0, 255, 0 }, } }; bool SoundMacro::CmdDivVars::Do(SoundMacroState& st, Voice& vox) const { int32_t useB, useC; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if (varCtrlC) useC = vox.getCtrlValue(c); else useC = st.m_variables[c & 0x1f]; if (varCtrlA) vox.setCtrlValue(a, useB / useC); else st.m_variables[a & 0x1f] = useB / useC; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdAddIVars::Introspective = { CmdType::Special, "Add Imm Vars"sv, "A = B + Immediate"sv, { { FIELD_HEAD(SoundMacro::CmdAddIVars, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAddIVars, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdAddIVars, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdAddIVars, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdAddIVars, imm), "Immediate"sv, -32768, 32767, 0 }, } }; bool SoundMacro::CmdAddIVars::Do(SoundMacroState& st, Voice& vox) const { int32_t useB; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if (varCtrlA) vox.setCtrlValue(a, useB + imm); else st.m_variables[a & 0x1f] = useB + imm; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdSetVar::Introspective = { CmdType::Special, "Set Var"sv, "A = Immediate"sv, { { FIELD_HEAD(SoundMacro::CmdSetVar, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdSetVar, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdSetVar, imm), "Immediate"sv, -32768, 32767, 0 }, } }; bool SoundMacro::CmdSetVar::Do(SoundMacroState& st, Voice& vox) const { if (varCtrlA) vox.setCtrlValue(a, imm); else st.m_variables[a & 0x1f] = imm; return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdIfEqual::Introspective = { CmdType::Structure, "If Equal"sv, "Branches to specified step if A == B."sv, { { FIELD_HEAD(SoundMacro::CmdIfEqual, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfEqual, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdIfEqual, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfEqual, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdIfEqual, notEq), "Not"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfEqual, macroStep), "Macro Step"sv, 0, 65535, 0 }, } }; bool SoundMacro::CmdIfEqual::Do(SoundMacroState& st, Voice& vox) const { int32_t useA, useB; if (varCtrlA) useA = vox.getCtrlValue(a); else useA = st.m_variables[a & 0x1f]; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if ((useA == useB) ^ notEq) st._setPC(macroStep.step); return false; } const SoundMacro::CmdIntrospection SoundMacro::CmdIfLess::Introspective = { CmdType::Structure, "If Less"sv, "Branches to specified step if A < B."sv, { { FIELD_HEAD(SoundMacro::CmdIfLess, varCtrlA), "Use Ctrl A"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfLess, a), "A"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdIfLess, varCtrlB), "Use Ctrl B"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfLess, b), "B"sv, 0, 255, 0 }, { FIELD_HEAD(SoundMacro::CmdIfLess, notLt), "Not"sv, 0, 1, 0 }, { FIELD_HEAD(SoundMacro::CmdIfLess, macroStep), "Macro Step"sv, 0, 65535, 0 }, } }; bool SoundMacro::CmdIfLess::Do(SoundMacroState& st, Voice& vox) const { int32_t useA, useB; if (varCtrlA) useA = vox.getCtrlValue(a); else useA = st.m_variables[a & 0x1f]; if (varCtrlB) useB = vox.getCtrlValue(b); else useB = st.m_variables[b & 0x1f]; if ((useA < useB) ^ notLt) st._setPC(macroStep.step); return false; } bool SoundMacroState::advance(Voice& vox, double dt) { /* Nothing if uninitialized or finished */ if (m_pc.empty() || std::get<1>(m_pc.back()) == nullptr || std::get<2>(m_pc.back()) == -1) return true; /* Loop through as many commands as we can for this time period */ while (true) { /* Advance wait timer if active, returning if waiting */ if (m_inWait) { if (m_keyoffWait && m_keyoff) m_inWait = false; else if (m_sampleEndWait && m_sampleEnd) m_inWait = false; else if (!m_indefiniteWait) { m_waitCountdown -= dt; if (m_waitCountdown < 0.f) m_inWait = false; } if (m_inWait) { m_execTime += dt; return false; } } /* Load next command based on counter */ const SoundMacro::ICmd& cmd = std::get<1>(m_pc.back())->getCmd(std::get<2>(m_pc.back())++); /* Perform function of command */ if (cmd.Do(*this, vox)) return true; } m_execTime += dt; return false; } void SoundMacroState::keyoffNotify(Voice& vox) { m_keyoff = true; } void SoundMacroState::sampleEndNotify(Voice& vox) { m_sampleEnd = true; } }