/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. The code included in this file is provided under the terms of the ISC license http://www.isc.org/downloads/software-support-policy/isc-license. Permission To use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted provided that the above copyright notice and this permission notice appear in all copies. JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { MPESynthesiserBase::MPESynthesiserBase() : instrument (new MPEInstrument) { instrument->addListener (this); } MPESynthesiserBase::MPESynthesiserBase (MPEInstrument* inst) : instrument (inst) { jassert (instrument != nullptr); instrument->addListener (this); } //============================================================================== MPEZoneLayout MPESynthesiserBase::getZoneLayout() const noexcept { return instrument->getZoneLayout(); } void MPESynthesiserBase::setZoneLayout (MPEZoneLayout newLayout) { instrument->setZoneLayout (newLayout); } //============================================================================== void MPESynthesiserBase::enableLegacyMode (int pitchbendRange, Range channelRange) { instrument->enableLegacyMode (pitchbendRange, channelRange); } bool MPESynthesiserBase::isLegacyModeEnabled() const noexcept { return instrument->isLegacyModeEnabled(); } Range MPESynthesiserBase::getLegacyModeChannelRange() const noexcept { return instrument->getLegacyModeChannelRange(); } void MPESynthesiserBase::setLegacyModeChannelRange (Range channelRange) { instrument->setLegacyModeChannelRange (channelRange); } int MPESynthesiserBase::getLegacyModePitchbendRange() const noexcept { return instrument->getLegacyModePitchbendRange(); } void MPESynthesiserBase::setLegacyModePitchbendRange (int pitchbendRange) { instrument->setLegacyModePitchbendRange (pitchbendRange); } //============================================================================== void MPESynthesiserBase::setPressureTrackingMode (TrackingMode modeToUse) { instrument->setPressureTrackingMode (modeToUse); } void MPESynthesiserBase::setPitchbendTrackingMode (TrackingMode modeToUse) { instrument->setPitchbendTrackingMode (modeToUse); } void MPESynthesiserBase::setTimbreTrackingMode (TrackingMode modeToUse) { instrument->setTimbreTrackingMode (modeToUse); } //============================================================================== void MPESynthesiserBase::handleMidiEvent (const MidiMessage& m) { instrument->processNextMidiEvent (m); } //============================================================================== template void MPESynthesiserBase::renderNextBlock (AudioBuffer& outputAudio, const MidiBuffer& inputMidi, int startSample, int numSamples) { // you must set the sample rate before using this! jassert (sampleRate != 0); const ScopedLock sl (noteStateLock); auto prevSample = startSample; const auto endSample = startSample + numSamples; for (auto it = inputMidi.findNextSamplePosition (startSample); it != inputMidi.cend(); ++it) { const auto metadata = *it; if (metadata.samplePosition >= endSample) break; const auto smallBlockAllowed = (prevSample == startSample && ! subBlockSubdivisionIsStrict); const auto thisBlockSize = smallBlockAllowed ? 1 : minimumSubBlockSize; if (metadata.samplePosition >= prevSample + thisBlockSize) { renderNextSubBlock (outputAudio, prevSample, metadata.samplePosition - prevSample); prevSample = metadata.samplePosition; } handleMidiEvent (metadata.getMessage()); } if (prevSample < endSample) renderNextSubBlock (outputAudio, prevSample, endSample - prevSample); } // explicit instantiation for supported float types: template void MPESynthesiserBase::renderNextBlock (AudioBuffer&, const MidiBuffer&, int, int); template void MPESynthesiserBase::renderNextBlock (AudioBuffer&, const MidiBuffer&, int, int); //============================================================================== void MPESynthesiserBase::setCurrentPlaybackSampleRate (const double newRate) { if (sampleRate != newRate) { const ScopedLock sl (noteStateLock); instrument->releaseAllNotes(); sampleRate = newRate; } } //============================================================================== void MPESynthesiserBase::setMinimumRenderingSubdivisionSize (int numSamples, bool shouldBeStrict) noexcept { jassert (numSamples > 0); // it wouldn't make much sense for this to be less than 1 minimumSubBlockSize = numSamples; subBlockSubdivisionIsStrict = shouldBeStrict; } #if JUCE_UNIT_TESTS namespace { class MpeSynthesiserBaseTests : public UnitTest { enum class CallbackKind { process, midi }; struct StartAndLength { StartAndLength (int s, int l) : start (s), length (l) {} int start = 0; int length = 0; std::tuple tie() const noexcept { return std::tie (start, length); } bool operator== (const StartAndLength& other) const noexcept { return tie() == other.tie(); } bool operator!= (const StartAndLength& other) const noexcept { return tie() != other.tie(); } bool operator< (const StartAndLength& other) const noexcept { return tie() < other.tie(); } }; struct Events { std::vector blocks; std::vector messages; std::vector order; }; class MockSynthesiser : public MPESynthesiserBase { public: Events events; void handleMidiEvent (const MidiMessage& m) override { events.messages.emplace_back (m); events.order.emplace_back (CallbackKind::midi); } private: using MPESynthesiserBase::renderNextSubBlock; void renderNextSubBlock (AudioBuffer&, int startSample, int numSamples) override { events.blocks.push_back ({ startSample, numSamples }); events.order.emplace_back (CallbackKind::process); } }; static MidiBuffer makeTestBuffer (const int bufferLength) { MidiBuffer result; for (int i = 0; i != bufferLength; ++i) result.addEvent ({}, i); return result; } public: MpeSynthesiserBaseTests() : UnitTest ("MPE Synthesiser Base", UnitTestCategories::midi) {} void runTest() override { const auto sumBlockLengths = [] (const std::vector& b) { const auto addBlock = [] (int acc, const StartAndLength& info) { return acc + info.length; }; return std::accumulate (b.begin(), b.end(), 0, addBlock); }; beginTest ("Rendering sparse subblocks works"); { const int blockSize = 512; const auto midi = [&] { MidiBuffer b; b.addEvent ({}, blockSize / 2); return b; }(); AudioBuffer audio (1, blockSize); const auto processEvents = [&] (int start, int length) { MockSynthesiser synth; synth.setMinimumRenderingSubdivisionSize (1, false); synth.setCurrentPlaybackSampleRate (44100); synth.renderNextBlock (audio, midi, start, length); return synth.events; }; { const auto e = processEvents (0, blockSize); expect (e.blocks.size() == 2); expect (e.messages.size() == 1); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == blockSize); expect (e.order == std::vector { CallbackKind::process, CallbackKind::midi, CallbackKind::process }); } } beginTest ("Rendering subblocks processes only contained midi events"); { const int blockSize = 512; const auto midi = makeTestBuffer (blockSize); AudioBuffer audio (1, blockSize); const auto processEvents = [&] (int start, int length) { MockSynthesiser synth; synth.setMinimumRenderingSubdivisionSize (1, false); synth.setCurrentPlaybackSampleRate (44100); synth.renderNextBlock (audio, midi, start, length); return synth.events; }; { const int subBlockLength = 0; const auto e = processEvents (0, subBlockLength); expect (e.blocks.size() == 0); expect (e.messages.size() == 0); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == subBlockLength); } { const int subBlockLength = 0; const auto e = processEvents (1, subBlockLength); expect (e.blocks.size() == 0); expect (e.messages.size() == 0); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == subBlockLength); } { const int subBlockLength = 1; const auto e = processEvents (1, subBlockLength); expect (e.blocks.size() == 1); expect (e.messages.size() == 1); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == subBlockLength); expect (e.order == std::vector { CallbackKind::midi, CallbackKind::process }); } { const auto e = processEvents (0, blockSize); expect (e.blocks.size() == blockSize); expect (e.messages.size() == blockSize); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == blockSize); expect (e.order.front() == CallbackKind::midi); } } beginTest ("Subblocks respect their minimum size"); { const int blockSize = 512; const auto midi = makeTestBuffer (blockSize); AudioBuffer audio (1, blockSize); const auto blockLengthsAreValid = [] (const std::vector& info, int minLength, bool strict) { if (info.size() <= 1) return true; const auto lengthIsValid = [&] (const StartAndLength& s) { return minLength <= s.length; }; const auto begin = strict ? info.begin() : std::next (info.begin()); // The final block is allowed to be shorter than the minLength return std::all_of (begin, std::prev (info.end()), lengthIsValid); }; for (auto strict : { false, true }) { for (auto subblockSize : { 1, 16, 32, 64, 1024 }) { MockSynthesiser synth; synth.setMinimumRenderingSubdivisionSize (subblockSize, strict); synth.setCurrentPlaybackSampleRate (44100); synth.renderNextBlock (audio, midi, 0, blockSize); const auto& e = synth.events; expectWithinAbsoluteError (float (e.blocks.size()), std::ceil ((float) blockSize / (float) subblockSize), 1.0f); expect (e.messages.size() == blockSize); expect (std::is_sorted (e.blocks.begin(), e.blocks.end())); expect (sumBlockLengths (e.blocks) == blockSize); expect (blockLengthsAreValid (e.blocks, subblockSize, strict)); } } { MockSynthesiser synth; synth.setMinimumRenderingSubdivisionSize (32, true); synth.setCurrentPlaybackSampleRate (44100); synth.renderNextBlock (audio, MidiBuffer{}, 0, 16); expect (synth.events.blocks == std::vector { { 0, 16 } }); expect (synth.events.order == std::vector { CallbackKind::process }); expect (synth.events.messages.empty()); } } } }; MpeSynthesiserBaseTests mpeSynthesiserBaseTests; } #endif } // namespace juce