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#ifndef AL_MAIN_H
#define AL_MAIN_H

#include <string.h>
#include <stdio.h>
#include <stdarg.h>
#include <assert.h>
#include <math.h>
#include <limits.h>

#ifdef HAVE_STRINGS_H
#include <strings.h>
#endif

#ifdef HAVE_FENV_H
#include <fenv.h>
#endif

#include "AL/al.h"
#include "AL/alc.h"
#include "AL/alext.h"

#include "static_assert.h"
#include "align.h"
#include "atomic.h"
#include "uintmap.h"
#include "vector.h"
#include "alstring.h"
#include "almalloc.h"
#include "threads.h"

#ifndef ALC_SOFT_loopback2
#define ALC_SOFT_loopback2 1
#define ALC_AMBISONIC_LAYOUT_SOFT                0x1997
#define ALC_AMBISONIC_SCALING_SOFT               0x1998
#define ALC_AMBISONIC_ORDER_SOFT                 0x1999

#define ALC_BFORMAT3D_SOFT                       0x1508

/* Ambisonic layouts */
#define ALC_ACN_SOFT                             0x1600
#define ALC_FUMA_SOFT                            0x1601

/* Ambisonic scalings (normalization) */
#define ALC_N3D_SOFT                             0x1700
#define ALC_SN3D_SOFT                            0x1701
/*#define ALC_FUMA_SOFT*/

typedef ALCboolean (ALC_APIENTRY*LPALCISAMBISONICFORMATSUPPORTEDSOFT)(ALCdevice *device, ALCenum layout, ALCenum scaling, ALsizei order);
#ifdef AL_ALEXT_PROTOTYPES
ALC_API ALCboolean ALC_APIENTRY alcIsAmbisonicFormatSupportedSOFT(ALCdevice *device, ALCenum layout, ALCenum scaling, ALsizei order);
#endif
#endif

#ifndef ALC_SOFT_device_clock
#define ALC_SOFT_device_clock 1
typedef int64_t ALCint64SOFT;
typedef uint64_t ALCuint64SOFT;
#define ALC_DEVICE_CLOCK_SOFT                    0x1600
#define ALC_DEVICE_LATENCY_SOFT                  0x1601
#define ALC_DEVICE_CLOCK_LATENCY_SOFT            0x1602
typedef void (ALC_APIENTRY*LPALCGETINTEGER64VSOFT)(ALCdevice *device, ALCenum pname, ALsizei size, ALCint64SOFT *values);
#ifdef AL_ALEXT_PROTOTYPES
ALC_API void ALC_APIENTRY alcGetInteger64vSOFT(ALCdevice *device, ALCenum pname, ALsizei size, ALCint64SOFT *values);
#endif
#endif

#ifndef AL_SOFT_buffer_samples2
#define AL_SOFT_buffer_samples2 1
/* Channel configurations */
#define AL_MONO_SOFT                             0x1500
#define AL_STEREO_SOFT                           0x1501
#define AL_REAR_SOFT                             0x1502
#define AL_QUAD_SOFT                             0x1503
#define AL_5POINT1_SOFT                          0x1504
#define AL_6POINT1_SOFT                          0x1505
#define AL_7POINT1_SOFT                          0x1506
#define AL_BFORMAT2D_SOFT                        0x1507
#define AL_BFORMAT3D_SOFT                        0x1508

/* Sample types */
#define AL_BYTE_SOFT                             0x1400
#define AL_UNSIGNED_BYTE_SOFT                    0x1401
#define AL_SHORT_SOFT                            0x1402
#define AL_UNSIGNED_SHORT_SOFT                   0x1403
#define AL_INT_SOFT                              0x1404
#define AL_UNSIGNED_INT_SOFT                     0x1405
#define AL_FLOAT_SOFT                            0x1406
#define AL_DOUBLE_SOFT                           0x1407
#define AL_BYTE3_SOFT                            0x1408
#define AL_UNSIGNED_BYTE3_SOFT                   0x1409
#define AL_MULAW_SOFT                            0x140A

/* Storage formats */
#define AL_MONO8_SOFT                            0x1100
#define AL_MONO16_SOFT                           0x1101
#define AL_MONO32F_SOFT                          0x10010
#define AL_STEREO8_SOFT                          0x1102
#define AL_STEREO16_SOFT                         0x1103
#define AL_STEREO32F_SOFT                        0x10011
#define AL_QUAD8_SOFT                            0x1204
#define AL_QUAD16_SOFT                           0x1205
#define AL_QUAD32F_SOFT                          0x1206
#define AL_REAR8_SOFT                            0x1207
#define AL_REAR16_SOFT                           0x1208
#define AL_REAR32F_SOFT                          0x1209
#define AL_5POINT1_8_SOFT                        0x120A
#define AL_5POINT1_16_SOFT                       0x120B
#define AL_5POINT1_32F_SOFT                      0x120C
#define AL_6POINT1_8_SOFT                        0x120D
#define AL_6POINT1_16_SOFT                       0x120E
#define AL_6POINT1_32F_SOFT                      0x120F
#define AL_7POINT1_8_SOFT                        0x1210
#define AL_7POINT1_16_SOFT                       0x1211
#define AL_7POINT1_32F_SOFT                      0x1212
#define AL_BFORMAT2D_8_SOFT                      0x20021
#define AL_BFORMAT2D_16_SOFT                     0x20022
#define AL_BFORMAT2D_32F_SOFT                    0x20023
#define AL_BFORMAT3D_8_SOFT                      0x20031
#define AL_BFORMAT3D_16_SOFT                     0x20032
#define AL_BFORMAT3D_32F_SOFT                    0x20033

/* Buffer attributes */
#define AL_INTERNAL_FORMAT_SOFT                  0x2008
#define AL_BYTE_LENGTH_SOFT                      0x2009
#define AL_SAMPLE_LENGTH_SOFT                    0x200A
#define AL_SEC_LENGTH_SOFT                       0x200B

#if 0
typedef void (AL_APIENTRY*LPALBUFFERSAMPLESSOFT)(ALuint,ALuint,ALenum,ALsizei,ALenum,ALenum,const ALvoid*);
typedef void (AL_APIENTRY*LPALGETBUFFERSAMPLESSOFT)(ALuint,ALsizei,ALsizei,ALenum,ALenum,ALvoid*);
typedef ALboolean (AL_APIENTRY*LPALISBUFFERFORMATSUPPORTEDSOFT)(ALenum);
#ifdef AL_ALEXT_PROTOTYPES
AL_API void AL_APIENTRY alBufferSamplesSOFT(ALuint buffer, ALuint samplerate, ALenum internalformat, ALsizei samples, ALenum channels, ALenum type, const ALvoid *data);
AL_API void AL_APIENTRY alGetBufferSamplesSOFT(ALuint buffer, ALsizei offset, ALsizei samples, ALenum channels, ALenum type, ALvoid *data);
AL_API ALboolean AL_APIENTRY alIsBufferFormatSupportedSOFT(ALenum format);
#endif
#endif
#endif


#if defined(_WIN64)
#define SZFMT "%I64u"
#elif defined(_WIN32)
#define SZFMT "%u"
#else
#define SZFMT "%zu"
#endif


#ifdef __GNUC__
/* Because of a long-standing deficiency in C, you're not allowed to implicitly
 * cast a pointer-to-type-array to a pointer-to-const-type-array. For example,
 *
 * int (*ptr)[10];
 * const int (*cptr)[10] = ptr;
 *
 * is not allowed and most compilers will generate noisy warnings about
 * incompatible types, even though it just makes the array elements const.
 * Clang will allow it if you make the array type a typedef, like this:
 *
 * typedef int int10[10];
 * int10 *ptr;
 * const int10 *cptr = ptr;
 *
 * however GCC does not and still issues the incompatible type warning. The
 * "proper" way to fix it is to add an explicit cast for the constified type,
 * but that removes the vast majority of otherwise useful type-checking you'd
 * get, and runs the risk of improper casts if types are later changed. Leaving
 * it non-const can also be an issue if you use it as a function parameter, and
 * happen to have a const type as input (and also reduce the capabilities of
 * the compiler to better optimize the function).
 *
 * So to work around the problem, we use a macro. The macro first assigns the
 * incoming variable to the specified non-const type to ensure it's the correct
 * type, then casts the variable as the desired constified type. Very ugly, but
 * I'd rather not have hundreds of lines of warnings because I want to tell the
 * compiler that some array(s) can't be changed by the code, or have lots of
 * error-prone casts.
 */
#define SAFE_CONST(T, var) __extension__({                                    \
    T _tmp = (var);                                                           \
    (const T)_tmp;                                                            \
})
#else
/* Non-GNU-compatible compilers have to use a straight cast with no extra
 * checks, due to the lack of multi-statement expressions.
 */
#define SAFE_CONST(T, var) ((const T)(var))
#endif


typedef ALint64SOFT ALint64;
typedef ALuint64SOFT ALuint64;

#ifndef U64
#if defined(_MSC_VER)
#define U64(x) ((ALuint64)(x##ui64))
#elif SIZEOF_LONG == 8
#define U64(x) ((ALuint64)(x##ul))
#elif SIZEOF_LONG_LONG == 8
#define U64(x) ((ALuint64)(x##ull))
#endif
#endif

#ifndef UINT64_MAX
#define UINT64_MAX U64(18446744073709551615)
#endif

#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

#ifdef __GNUC__
#define DECL_FORMAT(x, y, z) __attribute__((format(x, (y), (z))))
#else
#define DECL_FORMAT(x, y, z)
#endif

#if defined(__GNUC__) && defined(__i386__)
/* force_align_arg_pointer is required for proper function arguments aligning
 * when SSE code is used. Some systems (Windows, QNX) do not guarantee our
 * thread functions will be properly aligned on the stack, even though GCC may
 * generate code with the assumption that it is. */
#define FORCE_ALIGN __attribute__((force_align_arg_pointer))
#else
#define FORCE_ALIGN
#endif

#ifdef HAVE_C99_VLA
#define DECL_VLA(T, _name, _size)  T _name[(_size)]
#else
#define DECL_VLA(T, _name, _size)  T *_name = alloca((_size) * sizeof(T))
#endif

#ifndef PATH_MAX
#ifdef MAX_PATH
#define PATH_MAX MAX_PATH
#else
#define PATH_MAX 4096
#endif
#endif


static const union {
    ALuint u;
    ALubyte b[sizeof(ALuint)];
} EndianTest = { 1 };
#define IS_LITTLE_ENDIAN (EndianTest.b[0] == 1)

#define COUNTOF(x) (sizeof((x))/sizeof((x)[0]))


#define DERIVE_FROM_TYPE(t)          t t##_parent
#define STATIC_CAST(to, obj)         (&(obj)->to##_parent)
#ifdef __GNUC__
#define STATIC_UPCAST(to, from, obj) __extension__({                          \
    static_assert(__builtin_types_compatible_p(from, __typeof(*(obj))),       \
                  "Invalid upcast object from type");                         \
    (to*)((char*)(obj) - offsetof(to, from##_parent));                        \
})
#else
#define STATIC_UPCAST(to, from, obj) ((to*)((char*)(obj) - offsetof(to, from##_parent)))
#endif

#define DECLARE_FORWARD(T1, T2, rettype, func)                                \
rettype T1##_##func(T1 *obj)                                                  \
{ return T2##_##func(STATIC_CAST(T2, obj)); }

#define DECLARE_FORWARD1(T1, T2, rettype, func, argtype1)                     \
rettype T1##_##func(T1 *obj, argtype1 a)                                      \
{ return T2##_##func(STATIC_CAST(T2, obj), a); }

#define DECLARE_FORWARD2(T1, T2, rettype, func, argtype1, argtype2)           \
rettype T1##_##func(T1 *obj, argtype1 a, argtype2 b)                          \
{ return T2##_##func(STATIC_CAST(T2, obj), a, b); }

#define DECLARE_FORWARD3(T1, T2, rettype, func, argtype1, argtype2, argtype3) \
rettype T1##_##func(T1 *obj, argtype1 a, argtype2 b, argtype3 c)              \
{ return T2##_##func(STATIC_CAST(T2, obj), a, b, c); }


#define GET_VTABLE1(T1)     (&(T1##_vtable))
#define GET_VTABLE2(T1, T2) (&(T1##_##T2##_vtable))

#define SET_VTABLE1(T1, obj)     ((obj)->vtbl = GET_VTABLE1(T1))
#define SET_VTABLE2(T1, T2, obj) (STATIC_CAST(T2, obj)->vtbl = GET_VTABLE2(T1, T2))

#define DECLARE_THUNK(T1, T2, rettype, func)                                  \
static rettype T1##_##T2##_##func(T2 *obj)                                    \
{ return T1##_##func(STATIC_UPCAST(T1, T2, obj)); }

#define DECLARE_THUNK1(T1, T2, rettype, func, argtype1)                       \
static rettype T1##_##T2##_##func(T2 *obj, argtype1 a)                        \
{ return T1##_##func(STATIC_UPCAST(T1, T2, obj), a); }

#define DECLARE_THUNK2(T1, T2, rettype, func, argtype1, argtype2)             \
static rettype T1##_##T2##_##func(T2 *obj, argtype1 a, argtype2 b)            \
{ return T1##_##func(STATIC_UPCAST(T1, T2, obj), a, b); }

#define DECLARE_THUNK3(T1, T2, rettype, func, argtype1, argtype2, argtype3)   \
static rettype T1##_##T2##_##func(T2 *obj, argtype1 a, argtype2 b, argtype3 c) \
{ return T1##_##func(STATIC_UPCAST(T1, T2, obj), a, b, c); }

#define DECLARE_THUNK4(T1, T2, rettype, func, argtype1, argtype2, argtype3, argtype4) \
static rettype T1##_##T2##_##func(T2 *obj, argtype1 a, argtype2 b, argtype3 c, argtype4 d) \
{ return T1##_##func(STATIC_UPCAST(T1, T2, obj), a, b, c, d); }

#define DECLARE_DEFAULT_ALLOCATORS(T)                                         \
static void* T##_New(size_t size) { return al_malloc(16, size); }             \
static void T##_Delete(void *ptr) { al_free(ptr); }

/* Helper to extract an argument list for VCALL. Not used directly. */
#define EXTRACT_VCALL_ARGS(...)  __VA_ARGS__))

/* Call a "virtual" method on an object, with arguments. */
#define V(obj, func)  ((obj)->vtbl->func((obj), EXTRACT_VCALL_ARGS
/* Call a "virtual" method on an object, with no arguments. */
#define V0(obj, func) ((obj)->vtbl->func((obj) EXTRACT_VCALL_ARGS

#define DELETE_OBJ(obj) do {                                                  \
    if((obj) != NULL)                                                         \
    {                                                                         \
        V0((obj),Destruct)();                                                 \
        V0((obj),Delete)();                                                   \
    }                                                                         \
} while(0)


#define EXTRACT_NEW_ARGS(...)  __VA_ARGS__);                                  \
    }                                                                         \
} while(0)

#define NEW_OBJ(_res, T) do {                                                 \
    _res = T##_New(sizeof(T));                                                \
    if(_res)                                                                  \
    {                                                                         \
        memset(_res, 0, sizeof(T));                                           \
        T##_Construct(_res, EXTRACT_NEW_ARGS
#define NEW_OBJ0(_res, T) do {                                                \
    _res = T##_New(sizeof(T));                                                \
    if(_res)                                                                  \
    {                                                                         \
        memset(_res, 0, sizeof(T));                                           \
        T##_Construct(_res EXTRACT_NEW_ARGS


#ifdef __cplusplus
extern "C" {
#endif

struct Hrtf;


#define DEFAULT_OUTPUT_RATE  (44100)
#define MIN_OUTPUT_RATE      (8000)


/* Find the next power-of-2 for non-power-of-2 numbers. */
inline ALuint NextPowerOf2(ALuint value)
{
    if(value > 0)
    {
        value--;
        value |= value>>1;
        value |= value>>2;
        value |= value>>4;
        value |= value>>8;
        value |= value>>16;
    }
    return value+1;
}

/** Round up a value to the next multiple. */
inline size_t RoundUp(size_t value, size_t r)
{
    value += r-1;
    return value - (value%r);
}

/* Fast float-to-int conversion. Assumes the FPU is already in round-to-zero
 * mode. */
inline ALint fastf2i(ALfloat f)
{
#ifdef HAVE_LRINTF
    return lrintf(f);
#elif defined(_MSC_VER) && defined(_M_IX86)
    ALint i;
    __asm fld f
    __asm fistp i
    return i;
#else
    return (ALint)f;
#endif
}

/* Fast float-to-uint conversion. Assumes the FPU is already in round-to-zero
 * mode. */
inline ALuint fastf2u(ALfloat f)
{ return fastf2i(f); }


enum DevProbe {
    ALL_DEVICE_PROBE,
    CAPTURE_DEVICE_PROBE
};

typedef struct {
    ALCenum (*OpenPlayback)(ALCdevice*, const ALCchar*);
    void (*ClosePlayback)(ALCdevice*);
    ALCboolean (*ResetPlayback)(ALCdevice*);
    ALCboolean (*StartPlayback)(ALCdevice*);
    void (*StopPlayback)(ALCdevice*);

    ALCenum (*OpenCapture)(ALCdevice*, const ALCchar*);
    void (*CloseCapture)(ALCdevice*);
    void (*StartCapture)(ALCdevice*);
    void (*StopCapture)(ALCdevice*);
    ALCenum (*CaptureSamples)(ALCdevice*, void*, ALCuint);
    ALCuint (*AvailableSamples)(ALCdevice*);
} BackendFuncs;

ALCboolean alc_ca_init(BackendFuncs *func_list);
void alc_ca_deinit(void);
void alc_ca_probe(enum DevProbe type);
ALCboolean alc_qsa_init(BackendFuncs *func_list);
void alc_qsa_deinit(void);
void alc_qsa_probe(enum DevProbe type);

struct ALCbackend;


enum DistanceModel {
    InverseDistanceClamped  = AL_INVERSE_DISTANCE_CLAMPED,
    LinearDistanceClamped   = AL_LINEAR_DISTANCE_CLAMPED,
    ExponentDistanceClamped = AL_EXPONENT_DISTANCE_CLAMPED,
    InverseDistance  = AL_INVERSE_DISTANCE,
    LinearDistance   = AL_LINEAR_DISTANCE,
    ExponentDistance = AL_EXPONENT_DISTANCE,
    DisableDistance  = AL_NONE,

    DefaultDistanceModel = InverseDistanceClamped
};

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,

    InvalidChannel
};


/* 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,

    /* Similar to 5.1, except using rear channels instead of sides */
    DevFmtX51Rear = 0x80000000,

    /* Ambisonic formats should be kept together */
    DevFmtAmbi1,
    DevFmtAmbi2,
    DevFmtAmbi3,

    DevFmtChannelsDefault = DevFmtStereo
};
#define MAX_OUTPUT_CHANNELS  (16)

ALsizei BytesFromDevFmt(enum DevFmtType type);
ALsizei ChannelsFromDevFmt(enum DevFmtChannels chans);
inline ALsizei FrameSizeFromDevFmt(enum DevFmtChannels chans, enum DevFmtType type)
{
    return ChannelsFromDevFmt(chans) * BytesFromDevFmt(type);
}

enum AmbiLayout {
    AmbiLayout_FuMa = ALC_FUMA_SOFT, /* FuMa channel order */
    AmbiLayout_ACN = ALC_ACN_SOFT,   /* ACN channel order */

    AmbiLayout_Default = AmbiLayout_ACN
};

enum AmbiNorm {
    AmbiNorm_FuMa = ALC_FUMA_SOFT, /* FuMa normalization */
    AmbiNorm_SN3D = ALC_SN3D_SOFT, /* SN3D normalization */
    AmbiNorm_N3D = ALC_N3D_SOFT,   /* N3D normalization */

    AmbiNorm_Default = AmbiNorm_SN3D
};


extern const struct EffectList {
    const char *name;
    int type;
    const char *ename;
    ALenum val;
} EffectList[];


enum DeviceType {
    Playback,
    Capture,
    Loopback
};


enum RenderMode {
    NormalRender,
    StereoPair,
    HrtfRender
};


/* The maximum number of Ambisonics coefficients. For a given order (o), the
 * size needed will be (o+1)**2, thus zero-order has 1, first-order has 4,
 * second-order has 9, third-order has 16, and fourth-order has 25.
 */
#define MAX_AMBI_ORDER  3
#define MAX_AMBI_COEFFS ((MAX_AMBI_ORDER+1) * (MAX_AMBI_ORDER+1))

/* A bitmask of ambisonic channels with height information. If none of these
 * channels are used/needed, there's no height (e.g. with most surround sound
 * speaker setups). This only specifies up to 4th order, which is the highest
 * order a 32-bit mask value can specify (a 64-bit mask could handle up to 7th
 * order). This is ACN ordering, with bit 0 being ACN 0, etc.
 */
#define AMBI_PERIPHONIC_MASK (0xfe7ce4)

/* The maximum number of Ambisonic coefficients for 2D (non-periphonic)
 * representation. This is 2 per each order above zero-order, plus 1 for zero-
 * order. Or simply, o*2 + 1.
 */
#define MAX_AMBI2D_COEFFS (MAX_AMBI_ORDER*2 + 1)


typedef ALfloat ChannelConfig[MAX_AMBI_COEFFS];
typedef struct BFChannelConfig {
    ALfloat Scale;
    ALsizei Index;
} BFChannelConfig;

typedef union AmbiConfig {
    /* Ambisonic coefficients for mixing to the dry buffer. */
    ChannelConfig Coeffs[MAX_OUTPUT_CHANNELS];
    /* Coefficient channel mapping for mixing to the dry buffer. */
    BFChannelConfig Map[MAX_OUTPUT_CHANNELS];
} AmbiConfig;


#define HRTF_HISTORY_BITS   (6)
#define HRTF_HISTORY_LENGTH (1<<HRTF_HISTORY_BITS)
#define HRTF_HISTORY_MASK   (HRTF_HISTORY_LENGTH-1)

#define HRIR_BITS        (7)
#define HRIR_LENGTH      (1<<HRIR_BITS)
#define HRIR_MASK        (HRIR_LENGTH-1)

typedef struct HrtfState {
    alignas(16) ALfloat History[HRTF_HISTORY_LENGTH];
    alignas(16) ALfloat Values[HRIR_LENGTH][2];
} HrtfState;

typedef struct HrtfParams {
    alignas(16) ALfloat Coeffs[HRIR_LENGTH][2];
    ALsizei Delay[2];
} HrtfParams;

typedef struct DirectHrtfState {
    /* HRTF filter state for dry buffer content */
    alignas(16) ALfloat Values[9][HRIR_LENGTH][2];
    alignas(16) ALfloat Coeffs[9][HRIR_LENGTH][2];
    ALsizei Offset;
    ALsizei IrSize;
} DirectHrtfState;

typedef struct HrtfEntry {
    al_string name;

    const struct Hrtf *hrtf;
} HrtfEntry;
TYPEDEF_VECTOR(HrtfEntry, vector_HrtfEntry)


/* Maximum delay in samples for speaker distance compensation. */
#define MAX_DELAY_LENGTH 1024

typedef struct DistanceComp {
    ALfloat Gain;
    ALsizei Length; /* Valid range is [0...MAX_DELAY_LENGTH). */
    ALfloat *Buffer;
} DistanceComp;

/* 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 2048

struct ALCdevice_struct
{
    RefCount ref;

    ALCboolean Connected;
    enum DeviceType Type;

    ALuint Frequency;
    ALuint UpdateSize;
    ALuint NumUpdates;
    enum DevFmtChannels FmtChans;
    enum DevFmtType     FmtType;
    ALboolean IsHeadphones;
    /* For DevFmtAmbi* output only, specifies the channel order and
     * normalization.
     */
    enum AmbiLayout AmbiLayout;
    enum AmbiNorm   AmbiScale;

    al_string DeviceName;

    ATOMIC(ALCenum) LastError;

    // 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
    UIntMap BufferMap;

    // Map of Effects for this device
    UIntMap EffectMap;

    // Map of Filters for this device
    UIntMap FilterMap;

    /* HRTF state and info */
    DirectHrtfState *Hrtf;
    al_string HrtfName;
    const struct Hrtf *HrtfHandle;
    vector_HrtfEntry HrtfList;
    ALCenum HrtfStatus;

    /* UHJ encoder state */
    struct Uhj2Encoder *Uhj_Encoder;

    /* High quality Ambisonic decoder */
    struct BFormatDec *AmbiDecoder;

    /* Stereo-to-binaural filter */
    struct bs2b *Bs2b;

    /* First-order ambisonic upsampler for higher-order output */
    struct AmbiUpsampler *AmbiUp;

    /* Rendering mode. */
    enum RenderMode Render_Mode;

    // Device flags
    ALuint Flags;

    ALuint64 ClockBase;
    ALuint SamplesDone;

    /* Temp storage used for each source when mixing. */
    alignas(16) ALfloat SourceData[BUFFERSIZE];
    alignas(16) ALfloat ResampledData[BUFFERSIZE];
    alignas(16) ALfloat FilteredData[BUFFERSIZE];
    alignas(16) ALfloat NFCtrlData[BUFFERSIZE];

    /* The "dry" path corresponds to the main output. */
    struct {
        AmbiConfig Ambi;
        /* Number of coefficients in each Ambi.Coeffs to mix together (4 for
         * first-order, 9 for second-order, etc). If the count is 0, Ambi.Map
         * is used instead to map each output to a coefficient index.
         */
        ALsizei CoeffCount;

        ALfloat (*Buffer)[BUFFERSIZE];
        ALsizei NumChannels;
        ALsizei NumChannelsPerOrder[MAX_AMBI_ORDER+1];
    } Dry;

    /* First-order ambisonics output, to be upsampled to the dry buffer if different. */
    struct {
        AmbiConfig Ambi;
        /* Will only be 4 or 0. */
        ALsizei CoeffCount;

        ALfloat (*Buffer)[BUFFERSIZE];
        ALsizei NumChannels;
    } FOAOut;

    /* "Real" output, which will be written to the device buffer. May alias the
     * dry buffer.
     */
    struct {
        enum Channel ChannelName[MAX_OUTPUT_CHANNELS];

        ALfloat (*Buffer)[BUFFERSIZE];
        ALsizei NumChannels;
    } RealOut;

    /* The average speaker distance as determined by the ambdec configuration
     * (or alternatively, by the NFC-HOA reference delay). Only used for NFC.
     */
    ALfloat AvgSpeakerDist;

    /* Delay buffers used to compensate for speaker distances. */
    DistanceComp ChannelDelay[MAX_OUTPUT_CHANNELS];

    /* 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;

    /* Default effect slot */
    struct ALeffectslot *DefaultSlot;

    // Contexts created on this device
    ATOMIC(ALCcontext*) ContextList;

    almtx_t BackendLock;
    struct ALCbackend *Backend;

    void *ExtraData; // For the backend's use

    ALCdevice *volatile next;

    /* Memory space used by the default slot (Playback devices only) */
    alignas(16) ALCbyte _slot_mem[];
};

// 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)


/* Nanosecond resolution for the device clock time. */
#define DEVICE_CLOCK_RES  U64(1000000000)


/* 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"


struct ALCcontext_struct {
    RefCount ref;

    struct ALlistener *Listener;

    UIntMap SourceMap;
    UIntMap EffectSlotMap;

    ATOMIC(ALenum) LastError;

    enum DistanceModel DistanceModel;
    ALboolean SourceDistanceModel;

    ALfloat DopplerFactor;
    ALfloat DopplerVelocity;
    ALfloat SpeedOfSound;
    ATOMIC(ALenum) DeferUpdates;

    RWLock PropLock;

    /* Counter for the pre-mixing updates, in 31.1 fixed point (lowest bit
     * indicates if updates are currently happening).
     */
    RefCount UpdateCount;
    ATOMIC(ALenum) HoldUpdates;

    ALfloat GainBoost;

    struct ALvoice **Voices;
    ALsizei VoiceCount;
    ALsizei MaxVoices;

    ATOMIC(struct ALeffectslot*) ActiveAuxSlotList;

    ALCdevice  *Device;
    const ALCchar *ExtensionList;

    ALCcontext *volatile next;

    /* Memory space used by the listener */
    alignas(16) ALCbyte _listener_mem[];
};

ALCcontext *GetContextRef(void);

void ALCcontext_IncRef(ALCcontext *context);
void ALCcontext_DecRef(ALCcontext *context);

void AllocateVoices(ALCcontext *context, ALsizei num_voices, ALsizei old_sends);

void AppendAllDevicesList(const ALCchar *name);
void AppendCaptureDeviceList(const ALCchar *name);

void ALCdevice_Lock(ALCdevice *device);
void ALCdevice_Unlock(ALCdevice *device);

void ALCcontext_DeferUpdates(ALCcontext *context, ALenum type);
void ALCcontext_ProcessUpdates(ALCcontext *context);

enum {
    DeferOff = AL_FALSE,
    DeferAll,
    DeferAllowPlay
};


typedef struct {
#ifdef HAVE_FENV_H
    DERIVE_FROM_TYPE(fenv_t);
#else
    int state;
#endif
#ifdef HAVE_SSE
    int sse_state;
#endif
} FPUCtl;
void SetMixerFPUMode(FPUCtl *ctl);
void RestoreFPUMode(const FPUCtl *ctl);


typedef struct ll_ringbuffer ll_ringbuffer_t;
typedef struct ll_ringbuffer_data {
    char *buf;
    size_t len;
} ll_ringbuffer_data_t;
ll_ringbuffer_t *ll_ringbuffer_create(size_t sz, size_t elem_sz);
void ll_ringbuffer_free(ll_ringbuffer_t *rb);
void ll_ringbuffer_get_read_vector(const ll_ringbuffer_t *rb, ll_ringbuffer_data_t *vec);
void ll_ringbuffer_get_write_vector(const ll_ringbuffer_t *rb, ll_ringbuffer_data_t *vec);
size_t ll_ringbuffer_read(ll_ringbuffer_t *rb, char *dest, size_t cnt);
size_t ll_ringbuffer_peek(ll_ringbuffer_t *rb, char *dest, size_t cnt);
void ll_ringbuffer_read_advance(ll_ringbuffer_t *rb, size_t cnt);
size_t ll_ringbuffer_read_space(const ll_ringbuffer_t *rb);
int ll_ringbuffer_mlock(ll_ringbuffer_t *rb);
void ll_ringbuffer_reset(ll_ringbuffer_t *rb);
size_t ll_ringbuffer_write(ll_ringbuffer_t *rb, const char *src, size_t cnt);
void ll_ringbuffer_write_advance(ll_ringbuffer_t *rb, size_t cnt);
size_t ll_ringbuffer_write_space(const ll_ringbuffer_t *rb);

void ReadALConfig(void);
void FreeALConfig(void);
int ConfigValueExists(const char *devName, const char *blockName, const char *keyName);
const char *GetConfigValue(const char *devName, const char *blockName, const char *keyName, const char *def);
int GetConfigValueBool(const char *devName, const char *blockName, const char *keyName, int def);
int ConfigValueStr(const char *devName, const char *blockName, const char *keyName, const char **ret);
int ConfigValueInt(const char *devName, const char *blockName, const char *keyName, int *ret);
int ConfigValueUInt(const char *devName, const char *blockName, const char *keyName, unsigned int *ret);
int ConfigValueFloat(const char *devName, const char *blockName, const char *keyName, float *ret);
int ConfigValueBool(const char *devName, const char *blockName, const char *keyName, int *ret);

void SetRTPriority(void);

void SetDefaultChannelOrder(ALCdevice *device);
void SetDefaultWFXChannelOrder(ALCdevice *device);

const ALCchar *DevFmtTypeString(enum DevFmtType type);
const ALCchar *DevFmtChannelsString(enum DevFmtChannels chans);

/**
 * GetChannelIdxByName
 *
 * Returns the index for the given channel name (e.g. FrontCenter), or -1 if it
 * doesn't exist.
 */
inline ALint GetChannelIndex(const enum Channel names[MAX_OUTPUT_CHANNELS], enum Channel chan)
{
    ALint i;
    for(i = 0;i < MAX_OUTPUT_CHANNELS;i++)
    {
        if(names[i] == chan)
            return i;
    }
    return -1;
}
#define GetChannelIdxByName(x, c) GetChannelIndex((x).ChannelName, (c))

extern FILE *LogFile;

#if defined(__GNUC__) && !defined(_WIN32) && !defined(IN_IDE_PARSER)
#define AL_PRINT(T, MSG, ...) fprintf(LogFile, "AL lib: %s %s: "MSG, T, __FUNCTION__ , ## __VA_ARGS__)
#else
void al_print(const char *type, const char *func, const char *fmt, ...) DECL_FORMAT(printf, 3,4);
#define AL_PRINT(T, ...) al_print((T), __FUNCTION__, __VA_ARGS__)
#endif

#ifdef __ANDROID__
#include <android/log.h>
#define LOG_ANDROID(T, MSG, ...) __android_log_print(T, "openal", "AL lib: %s: "MSG, __FUNCTION__ , ## __VA_ARGS__)
#else
#define LOG_ANDROID(T, MSG, ...) ((void)0)
#endif

enum LogLevel {
    NoLog,
    LogError,
    LogWarning,
    LogTrace,
    LogRef
};
extern enum LogLevel LogLevel;

#define TRACEREF(...) do {                                                    \
    if(LogLevel >= LogRef)                                                    \
        AL_PRINT("(--)", __VA_ARGS__);                                        \
} while(0)

#define TRACE(...) do {                                                       \
    if(LogLevel >= LogTrace)                                                  \
        AL_PRINT("(II)", __VA_ARGS__);                                        \
    LOG_ANDROID(ANDROID_LOG_DEBUG, __VA_ARGS__);                              \
} while(0)

#define WARN(...) do {                                                        \
    if(LogLevel >= LogWarning)                                                \
        AL_PRINT("(WW)", __VA_ARGS__);                                        \
    LOG_ANDROID(ANDROID_LOG_WARN, __VA_ARGS__);                               \
} while(0)

#define ERR(...) do {                                                         \
    if(LogLevel >= LogError)                                                  \
        AL_PRINT("(EE)", __VA_ARGS__);                                        \
    LOG_ANDROID(ANDROID_LOG_ERROR, __VA_ARGS__);                              \
} while(0)


extern ALint RTPrioLevel;


extern ALuint CPUCapFlags;
enum {
    CPU_CAP_SSE    = 1<<0,
    CPU_CAP_SSE2   = 1<<1,
    CPU_CAP_SSE3   = 1<<2,
    CPU_CAP_SSE4_1 = 1<<3,
    CPU_CAP_NEON   = 1<<4,
};

void FillCPUCaps(ALuint capfilter);

vector_al_string SearchDataFiles(const char *match, const char *subdir);

/* Small hack to use a pointer-to-array type as a normal argument type.
 * Shouldn't be used directly. */
typedef ALfloat ALfloatBUFFERSIZE[BUFFERSIZE];


#ifdef __cplusplus
}
#endif

#endif