/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2017 - ROLI Ltd. JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 5 End-User License Agreement and JUCE 5 Privacy Policy (both updated and effective as of the 27th April 2017). End User License Agreement: www.juce.com/juce-5-licence Privacy Policy: www.juce.com/juce-5-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). 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 { SamplerSound::SamplerSound (const String& soundName, AudioFormatReader& source, const BigInteger& notes, int midiNoteForNormalPitch, double attackTimeSecs, double releaseTimeSecs, double maxSampleLengthSeconds) : name (soundName), sourceSampleRate (source.sampleRate), midiNotes (notes), midiRootNote (midiNoteForNormalPitch) { if (sourceSampleRate > 0 && source.lengthInSamples > 0) { length = jmin ((int) source.lengthInSamples, (int) (maxSampleLengthSeconds * sourceSampleRate)); data.reset (new AudioBuffer (jmin (2, (int) source.numChannels), length + 4)); source.read (data.get(), 0, length + 4, 0, true, true); params.attack = static_cast (attackTimeSecs); params.release = static_cast (releaseTimeSecs); } } SamplerSound::~SamplerSound() { } bool SamplerSound::appliesToNote (int midiNoteNumber) { return midiNotes[midiNoteNumber]; } bool SamplerSound::appliesToChannel (int /*midiChannel*/) { return true; } //============================================================================== SamplerVoice::SamplerVoice() {} SamplerVoice::~SamplerVoice() {} bool SamplerVoice::canPlaySound (SynthesiserSound* sound) { return dynamic_cast (sound) != nullptr; } void SamplerVoice::startNote (int midiNoteNumber, float velocity, SynthesiserSound* s, int /*currentPitchWheelPosition*/) { if (auto* sound = dynamic_cast (s)) { pitchRatio = std::pow (2.0, (midiNoteNumber - sound->midiRootNote) / 12.0) * sound->sourceSampleRate / getSampleRate(); sourceSamplePosition = 0.0; lgain = velocity; rgain = velocity; adsr.setSampleRate (sound->sourceSampleRate); adsr.setParameters (sound->params); adsr.noteOn(); } else { jassertfalse; // this object can only play SamplerSounds! } } void SamplerVoice::stopNote (float /*velocity*/, bool allowTailOff) { if (allowTailOff) { adsr.noteOff(); } else { clearCurrentNote(); adsr.reset(); } } void SamplerVoice::pitchWheelMoved (int /*newValue*/) {} void SamplerVoice::controllerMoved (int /*controllerNumber*/, int /*newValue*/) {} //============================================================================== void SamplerVoice::renderNextBlock (AudioBuffer& outputBuffer, int startSample, int numSamples) { if (auto* playingSound = static_cast (getCurrentlyPlayingSound().get())) { auto& data = *playingSound->data; const float* const inL = data.getReadPointer (0); const float* const inR = data.getNumChannels() > 1 ? data.getReadPointer (1) : nullptr; float* outL = outputBuffer.getWritePointer (0, startSample); float* outR = outputBuffer.getNumChannels() > 1 ? outputBuffer.getWritePointer (1, startSample) : nullptr; while (--numSamples >= 0) { auto pos = (int) sourceSamplePosition; auto alpha = (float) (sourceSamplePosition - pos); auto invAlpha = 1.0f - alpha; // just using a very simple linear interpolation here.. float l = (inL[pos] * invAlpha + inL[pos + 1] * alpha); float r = (inR != nullptr) ? (inR[pos] * invAlpha + inR[pos + 1] * alpha) : l; auto envelopeValue = adsr.getNextSample(); l *= lgain * envelopeValue; r *= rgain * envelopeValue; if (outR != nullptr) { *outL++ += l; *outR++ += r; } else { *outL++ += (l + r) * 0.5f; } sourceSamplePosition += pitchRatio; if (sourceSamplePosition > playingSound->length) { stopNote (0.0f, false); break; } } } } } // namespace juce