/* This file is part of the KDE project. Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). This library is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 2.1 or 3 of the License. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . */ #include "volumeeffect.h" #include "qbasefilter.h" #include "qmeminputpin.h" #include //for sqrt QT_BEGIN_NAMESPACE #ifndef QT_NO_PHONON_VOLUMEFADEREFFECT namespace Phonon { namespace DS9 { /************************************************************************** * curve functions *************************************************************************/ static qreal curveValueFadeIn3dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * sqrt(completed)); } static qreal curveValueFadeOut3dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * (1.0 - sqrt(1.0 - completed))); } // in == out for a linear fade static qreal curveValueFade6dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * completed); } static qreal curveValueFadeIn9dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * pow(completed, 1.5)); } static qreal curveValueFadeOut9dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * (1.0 - pow(1.0 - completed, 1.5))); } static qreal curveValueFadeIn12dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { return (fadeStart + fadeDiff * completed * completed); } static qreal curveValueFadeOut12dB(const qreal fadeStart, const qreal fadeDiff, const qreal completed) { const qreal x = 1.0 - completed; return (fadeStart + fadeDiff * (1.0 - x * x)); } static const QVector audioMediaType() { QVector ret; AM_MEDIA_TYPE mt; mt.majortype = MEDIATYPE_Audio; mt.subtype = MEDIASUBTYPE_PCM; mt.bFixedSizeSamples = 1; mt.bTemporalCompression = 0; mt.pUnk = 0; mt.lSampleSize = 1; mt.cbFormat = 0; mt.pbFormat = 0; mt.formattype = GUID_NULL; ret << mt; return ret; } class VolumeMemInputPin : public QMemInputPin { public: VolumeMemInputPin(QBaseFilter *parent, const QVector &mt) : QMemInputPin(parent, mt, true /*transform*/) { } ~VolumeMemInputPin() { } STDMETHODIMP NotifyAllocator(IMemAllocator *alloc, BOOL b) { ALLOCATOR_PROPERTIES prop; HRESULT hr = alloc->GetProperties(&prop); if (SUCCEEDED(hr) && prop.cBuffers > 1) { //this allows to reduce the latency for sound //the problem is that too low numbers makes the whole thing fail... ALLOCATOR_PROPERTIES actual; prop.cBuffers = 1; alloc->SetProperties(&prop, &actual); } return QMemInputPin::NotifyAllocator(alloc, b); } }; class VolumeMemOutputPin : public QPin { public: VolumeMemOutputPin(QBaseFilter *parent, const QVector &mt) : QPin(parent, PINDIR_OUTPUT, mt) { } ~VolumeMemOutputPin() { } }; class VolumeEffectFilter : public QBaseFilter { public: VolumeEffectFilter(VolumeEffect *); //reimplementation virtual HRESULT processSample(IMediaSample *); private: void treatOneSamplePerChannel(BYTE **buffer, int sampleSize, int channelCount, int frequency); QMemInputPin *m_input; QPin *m_output; VolumeEffect *m_volumeEffect; }; VolumeEffectFilter::VolumeEffectFilter(VolumeEffect *ve) : QBaseFilter(CLSID_NULL), m_volumeEffect(ve) { QVector mt; //creating the output m_output = new VolumeMemOutputPin(this, mt); //then creating the input mt << audioMediaType(); m_input = new VolumeMemInputPin(this, mt); m_input->addOutput(m_output); //make the connection here } void VolumeEffectFilter::treatOneSamplePerChannel(BYTE **buffer, int sampleSize, int channelCount, int frequency) { float volume = m_volumeEffect->volume(); if (m_volumeEffect->m_fading) { const qreal lastSample = m_volumeEffect->m_fadeDuration * frequency / 1000; const qreal completed = qreal(m_volumeEffect->m_fadeSamplePosition++) / lastSample; if (qFuzzyCompare(completed, qreal(1.))) { m_volumeEffect->setVolume(m_volumeEffect->m_targetVolume); m_volumeEffect->m_fading = false; //we end the fading effect } else { volume = m_volumeEffect->m_fadeCurveFn(m_volumeEffect->m_initialVolume, m_volumeEffect->m_targetVolume - m_volumeEffect->m_initialVolume, completed); } } for(int c = 0; c < channelCount; ++c) { switch (sampleSize) { case 2: { short *shortBuffer = reinterpret_cast(*buffer); *shortBuffer *= qRound(volume); } break; case 1: **buffer *= qRound(volume); break; default: break; } *buffer += sampleSize; } } HRESULT VolumeEffectFilter::processSample(IMediaSample * ms) { BYTE *buffer = 0; ms->GetPointer(&buffer); if (buffer) { const AM_MEDIA_TYPE &mt = m_output->connectedType(); if (mt.formattype != FORMAT_WaveFormatEx) { return VFW_E_INVALIDMEDIATYPE; } WAVEFORMATEX *format = reinterpret_cast(mt.pbFormat); const int channelCount = format->nChannels; const int sampleSize = format->wBitsPerSample / 8; //...in bytes const BYTE *end = buffer + ms->GetActualDataLength(); while (buffer < end) { treatOneSamplePerChannel(&buffer, sampleSize, channelCount, format->nSamplesPerSec); } } return S_OK; } VolumeEffect::VolumeEffect(QObject *parent) : Effect(parent), m_volume(1), m_fadeCurve(Phonon::VolumeFaderEffect::Fade3Decibel), m_fading(false), m_initialVolume(0), m_targetVolume(0), m_fadeDuration(0), m_fadeSamplePosition(0) { //creation of the effects for(int i = 0; i < FILTER_COUNT; ++i) { VolumeEffectFilter *f = new VolumeEffectFilter(this); m_filters[i] = Filter(f); } } float VolumeEffect::volume() const { return m_volume; } void VolumeEffect::setVolume(float newVolume) { m_volume = newVolume; } Phonon::VolumeFaderEffect::FadeCurve VolumeEffect::fadeCurve() const { return m_fadeCurve; } void VolumeEffect::setFadeCurve(Phonon::VolumeFaderEffect::FadeCurve curve) { m_fadeCurve = curve; } void VolumeEffect::fadeTo(float vol, int duration) { m_fading = true; //will be set back to false when fading is finished m_targetVolume = vol; m_fadeSamplePosition = 0; m_initialVolume = m_volume; m_fadeDuration = duration; //in or out? const bool in = vol > m_volume; switch(m_fadeCurve) { case Phonon::VolumeFaderEffect::Fade6Decibel: m_fadeCurveFn = curveValueFade6dB; break; case Phonon::VolumeFaderEffect::Fade9Decibel: if (in) { m_fadeCurveFn = curveValueFadeIn9dB; } else { m_fadeCurveFn = curveValueFadeOut9dB; } break; case Phonon::VolumeFaderEffect::Fade12Decibel: if (in) { m_fadeCurveFn = curveValueFadeIn12dB; } else { m_fadeCurveFn = curveValueFadeOut12dB; } break; case Phonon::VolumeFaderEffect::Fade3Decibel: default: if (in) { m_fadeCurveFn = curveValueFadeIn3dB; } else { m_fadeCurveFn = curveValueFadeOut3dB; } break; } } } } #endif //QT_NO_PHONON_VOLUMEFADEREFFECT QT_END_NAMESPACE #include "moc_volumeeffect.cpp"