#ifndef VOICE_H #define VOICE_H #include #include #include "almalloc.h" #include "alspan.h" #include "alu.h" #include "buffer_storage.h" #include "core/bufferline.h" #include "core/devformat.h" #include "core/filters/biquad.h" #include "core/filters/nfc.h" #include "core/filters/splitter.h" #include "core/mixer/defs.h" #include "core/mixer/hrtfdefs.h" #include "vector.h" struct ALCcontext; struct EffectSlot; enum class DistanceModel; using uint = unsigned int; enum class SpatializeMode : unsigned char { Off, On, Auto }; enum class DirectMode : unsigned char { Off, DropMismatch, RemixMismatch }; enum { AF_None = 0, AF_LowPass = 1, AF_HighPass = 2, AF_BandPass = AF_LowPass | AF_HighPass }; struct DirectParams { BiquadFilter LowPass; BiquadFilter HighPass; NfcFilter NFCtrlFilter; struct { HrtfFilter Old; HrtfFilter Target; alignas(16) std::array History; } Hrtf; struct { std::array Current; std::array Target; } Gains; }; struct SendParams { BiquadFilter LowPass; BiquadFilter HighPass; struct { std::array Current; std::array Target; } Gains; }; struct VoiceProps { float Pitch; float Gain; float OuterGain; float MinGain; float MaxGain; float InnerAngle; float OuterAngle; float RefDistance; float MaxDistance; float RolloffFactor; std::array Position; std::array Velocity; std::array Direction; std::array OrientAt; std::array OrientUp; bool HeadRelative; DistanceModel mDistanceModel; Resampler mResampler; DirectMode DirectChannels; SpatializeMode mSpatializeMode; bool DryGainHFAuto; bool WetGainAuto; bool WetGainHFAuto; float OuterGainHF; float AirAbsorptionFactor; float RoomRolloffFactor; float DopplerFactor; std::array StereoPan; float Radius; /** Direct filter and auxiliary send info. */ struct { float Gain; float GainHF; float HFReference; float GainLF; float LFReference; } Direct; struct SendData { EffectSlot *Slot; float Gain; float GainHF; float HFReference; float GainLF; float LFReference; } Send[MAX_SENDS]; }; struct VoicePropsItem : public VoiceProps { std::atomic next{nullptr}; DEF_NEWDEL(VoicePropsItem) }; constexpr uint VoiceIsStatic{ 1u<<0}; constexpr uint VoiceIsCallback{ 1u<<1}; constexpr uint VoiceIsAmbisonic{ 1u<<2}; /* Needs HF scaling for ambisonic upsampling. */ constexpr uint VoiceCallbackStopped{1u<<3}; constexpr uint VoiceIsFading{ 1u<<4}; /* Use gain stepping for smooth transitions. */ constexpr uint VoiceHasHrtf{ 1u<<5}; constexpr uint VoiceHasNfc{ 1u<<6}; struct Voice { enum State { Stopped, Playing, Stopping, Pending }; std::atomic mUpdate{nullptr}; VoiceProps mProps; std::atomic mSourceID{0u}; std::atomic mPlayState{Stopped}; std::atomic mPendingChange{false}; /** * Source offset in samples, relative to the currently playing buffer, NOT * the whole queue. */ std::atomic mPosition; /** Fractional (fixed-point) offset to the next sample. */ std::atomic mPositionFrac; /* Current buffer queue item being played. */ std::atomic mCurrentBuffer; /* Buffer queue item to loop to at end of queue (will be NULL for non- * looping voices). */ std::atomic mLoopBuffer; /* Properties for the attached buffer(s). */ FmtChannels mFmtChannels; uint mFrequency; uint mSampleSize; AmbiLayout mAmbiLayout; AmbiScaling mAmbiScaling; uint mAmbiOrder; /** Current target parameters used for mixing. */ uint mStep{0}; ResamplerFunc mResampler; InterpState mResampleState; uint mFlags{}; uint mNumCallbackSamples{0}; struct TargetData { int FilterType; al::span Buffer; }; TargetData mDirect; std::array mSend; struct ChannelData { alignas(16) std::array mPrevSamples; float mAmbiScale; BandSplitter mAmbiSplitter; DirectParams mDryParams; std::array mWetParams; }; al::vector mChans{2}; Voice() = default; Voice(const Voice&) = delete; ~Voice() { delete mUpdate.exchange(nullptr, std::memory_order_acq_rel); } Voice& operator=(const Voice&) = delete; void mix(const State vstate, ALCcontext *Context, const uint SamplesToDo); DEF_NEWDEL(Voice) }; extern Resampler ResamplerDefault; #endif /* VOICE_H */