/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef PannerNode_h_ #define PannerNode_h_ #include "AudioNode.h" #include "mozilla/dom/PannerNodeBinding.h" #include "ThreeDPoint.h" #include "mozilla/WeakPtr.h" #include "mozilla/Preferences.h" #include "WebAudioUtils.h" #include namespace mozilla { namespace dom { class AudioContext; class AudioBufferSourceNode; class PannerNode : public AudioNode, public SupportsWeakPtr { public: MOZ_DECLARE_REFCOUNTED_TYPENAME(PannerNode) explicit PannerNode(AudioContext* aContext); virtual JSObject* WrapObject(JSContext* aCx) MOZ_OVERRIDE; virtual void DestroyMediaStream() MOZ_OVERRIDE; virtual void SetChannelCount(uint32_t aChannelCount, ErrorResult& aRv) MOZ_OVERRIDE { if (aChannelCount > 2) { aRv.Throw(NS_ERROR_DOM_NOT_SUPPORTED_ERR); return; } AudioNode::SetChannelCount(aChannelCount, aRv); } virtual void SetChannelCountModeValue(ChannelCountMode aMode, ErrorResult& aRv) MOZ_OVERRIDE { if (aMode == ChannelCountMode::Max) { aRv.Throw(NS_ERROR_DOM_NOT_SUPPORTED_ERR); return; } AudioNode::SetChannelCountModeValue(aMode, aRv); } NS_DECL_ISUPPORTS_INHERITED NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(PannerNode, AudioNode) PanningModelType PanningModel() const { return mPanningModel; } void SetPanningModel(PanningModelType aPanningModel) { mPanningModel = aPanningModel; SendInt32ParameterToStream(PANNING_MODEL, int32_t(mPanningModel)); } DistanceModelType DistanceModel() const { return mDistanceModel; } void SetDistanceModel(DistanceModelType aDistanceModel) { mDistanceModel = aDistanceModel; SendInt32ParameterToStream(DISTANCE_MODEL, int32_t(mDistanceModel)); } void SetPosition(double aX, double aY, double aZ) { if (WebAudioUtils::FuzzyEqual(mPosition.x, aX) && WebAudioUtils::FuzzyEqual(mPosition.y, aY) && WebAudioUtils::FuzzyEqual(mPosition.z, aZ)) { return; } mPosition.x = aX; mPosition.y = aY; mPosition.z = aZ; SendThreeDPointParameterToStream(POSITION, mPosition); } void SetOrientation(double aX, double aY, double aZ) { ThreeDPoint orientation(aX, aY, aZ); if (!orientation.IsZero()) { orientation.Normalize(); } if (mOrientation.FuzzyEqual(orientation)) { return; } mOrientation = orientation; SendThreeDPointParameterToStream(ORIENTATION, mOrientation); } void SetVelocity(double aX, double aY, double aZ) { if (WebAudioUtils::FuzzyEqual(mVelocity.x, aX) && WebAudioUtils::FuzzyEqual(mVelocity.y, aY) && WebAudioUtils::FuzzyEqual(mVelocity.z, aZ)) { return; } mVelocity.x = aX; mVelocity.y = aY; mVelocity.z = aZ; SendThreeDPointParameterToStream(VELOCITY, mVelocity); SendDopplerToSourcesIfNeeded(); } double RefDistance() const { return mRefDistance; } void SetRefDistance(double aRefDistance) { if (WebAudioUtils::FuzzyEqual(mRefDistance, aRefDistance)) { return; } mRefDistance = aRefDistance; SendDoubleParameterToStream(REF_DISTANCE, mRefDistance); } double MaxDistance() const { return mMaxDistance; } void SetMaxDistance(double aMaxDistance) { if (WebAudioUtils::FuzzyEqual(mMaxDistance, aMaxDistance)) { return; } mMaxDistance = aMaxDistance; SendDoubleParameterToStream(MAX_DISTANCE, mMaxDistance); } double RolloffFactor() const { return mRolloffFactor; } void SetRolloffFactor(double aRolloffFactor) { if (WebAudioUtils::FuzzyEqual(mRolloffFactor, aRolloffFactor)) { return; } mRolloffFactor = aRolloffFactor; SendDoubleParameterToStream(ROLLOFF_FACTOR, mRolloffFactor); } double ConeInnerAngle() const { return mConeInnerAngle; } void SetConeInnerAngle(double aConeInnerAngle) { if (WebAudioUtils::FuzzyEqual(mConeInnerAngle, aConeInnerAngle)) { return; } mConeInnerAngle = aConeInnerAngle; SendDoubleParameterToStream(CONE_INNER_ANGLE, mConeInnerAngle); } double ConeOuterAngle() const { return mConeOuterAngle; } void SetConeOuterAngle(double aConeOuterAngle) { if (WebAudioUtils::FuzzyEqual(mConeOuterAngle, aConeOuterAngle)) { return; } mConeOuterAngle = aConeOuterAngle; SendDoubleParameterToStream(CONE_OUTER_ANGLE, mConeOuterAngle); } double ConeOuterGain() const { return mConeOuterGain; } void SetConeOuterGain(double aConeOuterGain) { if (WebAudioUtils::FuzzyEqual(mConeOuterGain, aConeOuterGain)) { return; } mConeOuterGain = aConeOuterGain; SendDoubleParameterToStream(CONE_OUTER_GAIN, mConeOuterGain); } float ComputeDopplerShift(); void SendDopplerToSourcesIfNeeded(); void FindConnectedSources(); void FindConnectedSources(AudioNode* aNode, nsTArray& aSources, std::set& aSeenNodes); virtual const char* NodeType() const { return "PannerNode"; } virtual size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const MOZ_OVERRIDE; virtual size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const MOZ_OVERRIDE; protected: virtual ~PannerNode(); private: friend class AudioListener; friend class PannerNodeEngine; enum EngineParameters { LISTENER_POSITION, LISTENER_FRONT_VECTOR, // unit length LISTENER_RIGHT_VECTOR, // unit length, orthogonal to LISTENER_FRONT_VECTOR LISTENER_VELOCITY, LISTENER_DOPPLER_FACTOR, LISTENER_SPEED_OF_SOUND, PANNING_MODEL, DISTANCE_MODEL, POSITION, ORIENTATION, // unit length or zero VELOCITY, REF_DISTANCE, MAX_DISTANCE, ROLLOFF_FACTOR, CONE_INNER_ANGLE, CONE_OUTER_ANGLE, CONE_OUTER_GAIN }; private: PanningModelType mPanningModel; DistanceModelType mDistanceModel; ThreeDPoint mPosition; ThreeDPoint mOrientation; ThreeDPoint mVelocity; double mRefDistance; double mMaxDistance; double mRolloffFactor; double mConeInnerAngle; double mConeOuterAngle; double mConeOuterGain; // An array of all the AudioBufferSourceNode connected directly or indirectly // to this AudioPannerNode. nsTArray mSources; }; } } #endif