#ifndef AL_MAIN_H #define AL_MAIN_H #include #include #include #include #include #include #include #ifdef HAVE_STRINGS_H #include #endif #include #include #include #include #include #include "AL/al.h" #include "AL/alc.h" #include "AL/alext.h" #include "inprogext.h" #include "atomic.h" #include "vector.h" #include "almalloc.h" #include "alnumeric.h" #include "threads.h" #include "ambidefs.h" #include "hrtf.h" template constexpr inline size_t countof(const T(&)[N]) noexcept { return N; } #define COUNTOF countof #ifndef UNUSED #if defined(__cplusplus) #define UNUSED(x) #elif defined(__GNUC__) #define UNUSED(x) UNUSED_##x __attribute__((unused)) #elif defined(__LCLINT__) #define UNUSED(x) /*@unused@*/ x #else #define UNUSED(x) x #endif #endif #if defined(__BYTE_ORDER__) && defined(__ORDER_LITTLE_ENDIAN__) #define IS_LITTLE_ENDIAN (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) #else static const union { ALuint u; ALubyte b[sizeof(ALuint)]; } EndianTest = { 1 }; #define IS_LITTLE_ENDIAN (EndianTest.b[0] == 1) #endif struct HrtfEntry; struct HrtfHandle; struct EnumeratedHrtf; struct DirectHrtfState; struct FrontStablizer; struct Compressor; struct BackendBase; struct ALbuffer; struct ALeffect; struct ALfilter; struct EffectState; struct Uhj2Encoder; class BFormatDec; class AmbiUpsampler; struct bs2b; #define DEFAULT_UPDATE_SIZE (1024) #define DEFAULT_NUM_UPDATES (3) #define DEFAULT_OUTPUT_RATE (44100) #define MIN_OUTPUT_RATE (8000) enum Channel { FrontLeft = 0, FrontRight, FrontCenter, LFE, BackLeft, BackRight, BackCenter, SideLeft, SideRight, UpperFrontLeft, UpperFrontRight, UpperBackLeft, UpperBackRight, LowerFrontLeft, LowerFrontRight, LowerBackLeft, LowerBackRight, Aux0, Aux1, Aux2, Aux3, Aux4, Aux5, Aux6, Aux7, Aux8, Aux9, Aux10, Aux11, Aux12, Aux13, Aux14, Aux15, MaxChannels }; /* Device formats */ enum DevFmtType { DevFmtByte = ALC_BYTE_SOFT, DevFmtUByte = ALC_UNSIGNED_BYTE_SOFT, DevFmtShort = ALC_SHORT_SOFT, DevFmtUShort = ALC_UNSIGNED_SHORT_SOFT, DevFmtInt = ALC_INT_SOFT, DevFmtUInt = ALC_UNSIGNED_INT_SOFT, DevFmtFloat = ALC_FLOAT_SOFT, DevFmtTypeDefault = DevFmtFloat }; enum DevFmtChannels { DevFmtMono = ALC_MONO_SOFT, DevFmtStereo = ALC_STEREO_SOFT, DevFmtQuad = ALC_QUAD_SOFT, DevFmtX51 = ALC_5POINT1_SOFT, DevFmtX61 = ALC_6POINT1_SOFT, DevFmtX71 = ALC_7POINT1_SOFT, DevFmtAmbi3D = ALC_BFORMAT3D_SOFT, /* Similar to 5.1, except using rear channels instead of sides */ DevFmtX51Rear = 0x80000000, DevFmtChannelsDefault = DevFmtStereo }; #define MAX_OUTPUT_CHANNELS (16) /* DevFmtType traits, providing the type, etc given a DevFmtType. */ template struct DevFmtTypeTraits { }; template<> struct DevFmtTypeTraits { using Type = ALbyte; }; template<> struct DevFmtTypeTraits { using Type = ALubyte; }; template<> struct DevFmtTypeTraits { using Type = ALshort; }; template<> struct DevFmtTypeTraits { using Type = ALushort; }; template<> struct DevFmtTypeTraits { using Type = ALint; }; template<> struct DevFmtTypeTraits { using Type = ALuint; }; template<> struct DevFmtTypeTraits { using Type = ALfloat; }; ALsizei BytesFromDevFmt(DevFmtType type) noexcept; ALsizei ChannelsFromDevFmt(DevFmtChannels chans, ALsizei ambiorder) noexcept; inline ALsizei FrameSizeFromDevFmt(DevFmtChannels chans, DevFmtType type, ALsizei ambiorder) noexcept { return ChannelsFromDevFmt(chans, ambiorder) * BytesFromDevFmt(type); } enum class AmbiLayout { FuMa = ALC_FUMA_SOFT, /* FuMa channel order */ ACN = ALC_ACN_SOFT, /* ACN channel order */ Default = ACN }; enum class AmbiNorm { FuMa = ALC_FUMA_SOFT, /* FuMa normalization */ SN3D = ALC_SN3D_SOFT, /* SN3D normalization */ N3D = ALC_N3D_SOFT, /* N3D normalization */ Default = SN3D }; enum DeviceType { Playback, Capture, Loopback }; enum RenderMode { NormalRender, StereoPair, HrtfRender }; struct BufferSubList { uint64_t FreeMask{~0_u64}; ALbuffer *Buffers{nullptr}; /* 64 */ BufferSubList() noexcept = default; BufferSubList(const BufferSubList&) = delete; BufferSubList(BufferSubList&& rhs) noexcept : FreeMask{rhs.FreeMask}, Buffers{rhs.Buffers} { rhs.FreeMask = ~0_u64; rhs.Buffers = nullptr; } ~BufferSubList(); BufferSubList& operator=(const BufferSubList&) = delete; BufferSubList& operator=(BufferSubList&& rhs) noexcept { std::swap(FreeMask, rhs.FreeMask); std::swap(Buffers, rhs.Buffers); return *this; } }; struct EffectSubList { uint64_t FreeMask{~0_u64}; ALeffect *Effects{nullptr}; /* 64 */ EffectSubList() noexcept = default; EffectSubList(const EffectSubList&) = delete; EffectSubList(EffectSubList&& rhs) noexcept : FreeMask{rhs.FreeMask}, Effects{rhs.Effects} { rhs.FreeMask = ~0_u64; rhs.Effects = nullptr; } ~EffectSubList(); EffectSubList& operator=(const EffectSubList&) = delete; EffectSubList& operator=(EffectSubList&& rhs) noexcept { std::swap(FreeMask, rhs.FreeMask); std::swap(Effects, rhs.Effects); return *this; } }; struct FilterSubList { uint64_t FreeMask{~0_u64}; ALfilter *Filters{nullptr}; /* 64 */ FilterSubList() noexcept = default; FilterSubList(const FilterSubList&) = delete; FilterSubList(FilterSubList&& rhs) noexcept : FreeMask{rhs.FreeMask}, Filters{rhs.Filters} { rhs.FreeMask = ~0_u64; rhs.Filters = nullptr; } ~FilterSubList(); FilterSubList& operator=(const FilterSubList&) = delete; FilterSubList& operator=(FilterSubList&& rhs) noexcept { std::swap(FreeMask, rhs.FreeMask); std::swap(Filters, rhs.Filters); return *this; } }; /* Maximum delay in samples for speaker distance compensation. */ #define MAX_DELAY_LENGTH 1024 class DistanceComp { public: struct DistData { ALfloat Gain{1.0f}; ALsizei Length{0}; /* Valid range is [0...MAX_DELAY_LENGTH). */ ALfloat *Buffer{nullptr}; }; private: DistData mChannel[MAX_OUTPUT_CHANNELS]; al::vector mSamples; public: void resize(size_t new_size) { mSamples.resize(new_size); } void shrink_to_fit() { mSamples.shrink_to_fit(); } void clear() noexcept { for(auto &chan : mChannel) { chan.Gain = 1.0f; chan.Length = 0; chan.Buffer = nullptr; } mSamples.clear(); } DistData *begin() noexcept { return std::begin(mChannel); } const DistData *begin() const noexcept { return std::begin(mChannel); } const DistData *cbegin() const noexcept { return std::begin(mChannel); } DistData *end() noexcept { return std::end(mChannel); } const DistData *end() const noexcept { return std::end(mChannel); } const DistData *cend() const noexcept { return std::end(mChannel); } ALfloat *data() noexcept { return mSamples.data(); } const ALfloat *data() const noexcept { return mSamples.data(); } DistData& operator[](size_t o) noexcept { return mChannel[o]; } const DistData& operator[](size_t o) const noexcept { return mChannel[o]; } }; struct BFChannelConfig { ALfloat Scale; ALsizei Index; }; /* Size for temporary storage of buffer data, in ALfloats. Larger values need * more memory, while smaller values may need more iterations. The value needs * to be a sensible size, however, as it constrains the max stepping value used * for mixing, as well as the maximum number of samples per mixing iteration. */ #define BUFFERSIZE 1024 /* Maximum number of samples to pad on either end of a buffer for resampling. * Note that both the beginning and end need padding! */ #define MAX_RESAMPLE_PADDING 24 struct MixParams { /* Coefficient channel mapping for mixing to the buffer. */ std::array AmbiMap; ALfloat (*Buffer)[BUFFERSIZE]{nullptr}; ALsizei NumChannels{0}; }; struct RealMixParams { std::array ChannelIndex{}; ALfloat (*Buffer)[BUFFERSIZE]{nullptr}; ALsizei NumChannels{0}; }; using POSTPROCESS = void(*)(ALCdevice *device, const ALsizei SamplesToDo); struct ALCdevice { RefCount ref{1u}; std::atomic Connected{true}; const DeviceType Type{}; ALuint Frequency{}; ALuint UpdateSize{}; ALuint BufferSize{}; DevFmtChannels FmtChans{}; DevFmtType FmtType{}; ALboolean IsHeadphones{AL_FALSE}; ALsizei mAmbiOrder{0}; /* For DevFmtAmbi* output only, specifies the channel order and * normalization. */ AmbiLayout mAmbiLayout{AmbiLayout::Default}; AmbiNorm mAmbiScale{AmbiNorm::Default}; ALCenum LimiterState{ALC_DONT_CARE_SOFT}; std::string DeviceName; // Device flags ALuint Flags{0u}; std::string HrtfName; al::vector HrtfList; ALCenum HrtfStatus{ALC_FALSE}; std::atomic LastError{ALC_NO_ERROR}; // Maximum number of sources that can be created ALuint SourcesMax{}; // Maximum number of slots that can be created ALuint AuxiliaryEffectSlotMax{}; ALCuint NumMonoSources{}; ALCuint NumStereoSources{}; ALsizei NumAuxSends{}; // Map of Buffers for this device std::mutex BufferLock; al::vector BufferList; // Map of Effects for this device std::mutex EffectLock; al::vector EffectList; // Map of Filters for this device std::mutex FilterLock; al::vector FilterList; /* Rendering mode. */ RenderMode mRenderMode{NormalRender}; /* The average speaker distance as determined by the ambdec configuration * (or alternatively, by the NFC-HOA reference delay). Only used for NFC. */ ALfloat AvgSpeakerDist{0.0f}; ALuint SamplesDone{0u}; std::chrono::nanoseconds ClockBase{0}; std::chrono::nanoseconds FixedLatency{0}; /* Temp storage used for mixer processing. */ alignas(16) ALfloat SourceData[BUFFERSIZE + MAX_RESAMPLE_PADDING*2]; alignas(16) ALfloat ResampledData[BUFFERSIZE]; alignas(16) ALfloat FilteredData[BUFFERSIZE]; union { alignas(16) ALfloat HrtfSourceData[BUFFERSIZE + HRTF_HISTORY_LENGTH]; alignas(16) ALfloat NfcSampleData[BUFFERSIZE]; }; alignas(16) float2 HrtfAccumData[BUFFERSIZE + HRIR_LENGTH]; /* Mixing buffer used by the Dry mix and Real output. */ al::vector, 16> MixBuffer; /* The "dry" path corresponds to the main output. */ MixParams Dry; ALsizei NumChannelsPerOrder[MAX_AMBI_ORDER+1]{}; /* "Real" output, which will be written to the device buffer. May alias the * dry buffer. */ RealMixParams RealOut; /* HRTF state and info */ std::unique_ptr mHrtfState; HrtfEntry *mHrtf{nullptr}; /* Ambisonic-to-UHJ encoder */ std::unique_ptr Uhj_Encoder; /* Ambisonic decoder for speakers */ std::unique_ptr AmbiDecoder; /* Stereo-to-binaural filter */ std::unique_ptr Bs2b; POSTPROCESS PostProcess{}; std::unique_ptr Stablizer; std::unique_ptr Limiter; /* Delay buffers used to compensate for speaker distances. */ DistanceComp ChannelDelay; /* Dithering control. */ ALfloat DitherDepth{0.0f}; ALuint DitherSeed{0u}; /* Running count of the mixer invocations, in 31.1 fixed point. This * actually increments *twice* when mixing, first at the start and then at * the end, so the bottom bit indicates if the device is currently mixing * and the upper bits indicates how many mixes have been done. */ RefCount MixCount{0u}; // Contexts created on this device std::atomic ContextList{nullptr}; /* This lock protects the device state (format, update size, etc) from * being from being changed in multiple threads, or being accessed while * being changed. It's also used to serialize calls to the backend. */ std::mutex StateLock; std::unique_ptr Backend; ALCdevice(DeviceType type); ALCdevice(const ALCdevice&) = delete; ALCdevice& operator=(const ALCdevice&) = delete; ~ALCdevice(); ALsizei bytesFromFmt() const noexcept { return BytesFromDevFmt(FmtType); } ALsizei channelsFromFmt() const noexcept { return ChannelsFromDevFmt(FmtChans, mAmbiOrder); } ALsizei frameSizeFromFmt() const noexcept { return bytesFromFmt() * channelsFromFmt(); } static constexpr inline const char *CurrentPrefix() noexcept { return "ALCdevice::"; } DEF_NEWDEL(ALCdevice) }; // Frequency was requested by the app or config file #define DEVICE_FREQUENCY_REQUEST (1u<<1) // Channel configuration was requested by the config file #define DEVICE_CHANNELS_REQUEST (1u<<2) // Sample type was requested by the config file #define DEVICE_SAMPLE_TYPE_REQUEST (1u<<3) // Specifies if the DSP is paused at user request #define DEVICE_PAUSED (1u<<30) // Specifies if the device is currently running #define DEVICE_RUNNING (1u<<31) /* Must be less than 15 characters (16 including terminating null) for * compatibility with pthread_setname_np limitations. */ #define MIXER_THREAD_NAME "alsoft-mixer" #define RECORD_THREAD_NAME "alsoft-record" enum { /* End event thread processing. */ EventType_KillThread = 0, /* User event types. */ EventType_SourceStateChange = 1<<0, EventType_BufferCompleted = 1<<1, EventType_Error = 1<<2, EventType_Performance = 1<<3, EventType_Deprecated = 1<<4, EventType_Disconnected = 1<<5, /* Internal events. */ EventType_ReleaseEffectState = 65536, }; struct AsyncEvent { unsigned int EnumType{0u}; union { char dummy; struct { ALuint id; ALenum state; } srcstate; struct { ALuint id; ALsizei count; } bufcomp; struct { ALenum type; ALuint id; ALuint param; ALchar msg[1008]; } user; EffectState *mEffectState; } u{}; AsyncEvent() noexcept = default; constexpr AsyncEvent(unsigned int type) noexcept : EnumType{type} { } }; void AllocateVoices(ALCcontext *context, ALsizei num_voices, ALsizei old_sends); extern ALint RTPrioLevel; void SetRTPriority(void); void SetDefaultChannelOrder(ALCdevice *device); void SetDefaultWFXChannelOrder(ALCdevice *device); const ALCchar *DevFmtTypeString(DevFmtType type) noexcept; const ALCchar *DevFmtChannelsString(DevFmtChannels chans) noexcept; /** * GetChannelIdxByName * * Returns the index for the given channel name (e.g. FrontCenter), or -1 if it * doesn't exist. */ inline ALint GetChannelIdxByName(const RealMixParams &real, Channel chan) noexcept { return real.ChannelIndex[chan]; } void StartEventThrd(ALCcontext *ctx); void StopEventThrd(ALCcontext *ctx); al::vector SearchDataFiles(const char *match, const char *subdir); #endif