AuroraOpenALSoft/OpenAL32/Include/alAuxEffectSlot.h

#ifndef _AL_AUXEFFECTSLOT_H_
#define _AL_AUXEFFECTSLOT_H_

#include "alMain.h"
#include "alEffect.h"

#include "align.h"

#ifdef __cplusplus
extern "C" {
#endif

struct ALeffectStateVtable;
struct ALeffectslot;

typedef struct ALeffectState {
    const struct ALeffectStateVtable *vtbl;

    ALfloat (*OutBuffer)[BUFFERSIZE];
    ALuint OutChannels;
} ALeffectState;

void ALeffectState_Destruct(ALeffectState *state);

struct ALeffectStateVtable {
    void (*const Destruct)(ALeffectState *state);

    ALboolean (*const deviceUpdate)(ALeffectState *state, ALCdevice *device);
    void (*const update)(ALeffectState *state, const ALCdevice *device, const struct ALeffectslot *slot, const union ALeffectProps *props);
    void (*const process)(ALeffectState *state, ALuint samplesToDo, const ALfloat (*restrict samplesIn)[BUFFERSIZE], ALfloat (*restrict samplesOut)[BUFFERSIZE], ALuint numChannels);

    void (*const Delete)(void *ptr);
};

#define DEFINE_ALEFFECTSTATE_VTABLE(T)                                        \
DECLARE_THUNK(T, ALeffectState, void, Destruct)                               \
DECLARE_THUNK1(T, ALeffectState, ALboolean, deviceUpdate, ALCdevice*)         \
DECLARE_THUNK3(T, ALeffectState, void, update, const ALCdevice*, const ALeffectslot*, const ALeffectProps*) \
DECLARE_THUNK4(T, ALeffectState, void, process, ALuint, const ALfloatBUFFERSIZE*restrict, ALfloatBUFFERSIZE*restrict, ALuint) \
static void T##_ALeffectState_Delete(void *ptr)                               \
{ return T##_Delete(STATIC_UPCAST(T, ALeffectState, (ALeffectState*)ptr)); }  \
                                                                              \
static const struct ALeffectStateVtable T##_ALeffectState_vtable = {          \
    T##_ALeffectState_Destruct,                                               \
                                                                              \
    T##_ALeffectState_deviceUpdate,                                           \
    T##_ALeffectState_update,                                                 \
    T##_ALeffectState_process,                                                \
                                                                              \
    T##_ALeffectState_Delete,                                                 \
}


struct ALeffectStateFactoryVtable;

typedef struct ALeffectStateFactory {
    const struct ALeffectStateFactoryVtable *vtbl;
} ALeffectStateFactory;

struct ALeffectStateFactoryVtable {
    ALeffectState *(*const create)(ALeffectStateFactory *factory);
};

#define DEFINE_ALEFFECTSTATEFACTORY_VTABLE(T)                                 \
DECLARE_THUNK(T, ALeffectStateFactory, ALeffectState*, create)                \
                                                                              \
static const struct ALeffectStateFactoryVtable T##_ALeffectStateFactory_vtable = { \
    T##_ALeffectStateFactory_create,                                          \
}


#define MAX_EFFECT_CHANNELS (4)


struct ALeffectslotProps {
    ATOMIC(ALfloat)   Gain;
    ATOMIC(ALboolean) AuxSendAuto;

    ATOMIC(ALenum) Type;
    ALeffectProps Props;

    ATOMIC(ALeffectState*) State;

    ATOMIC(struct ALeffectslotProps*) next;
};


typedef struct ALeffectslot {
    volatile ALfloat   Gain;
    volatile ALboolean AuxSendAuto;

    struct {
        ALenum Type;
        ALeffectProps Props;

        ALeffectState *State;
    } Effect;

    RefCount ref;

    ATOMIC(struct ALeffectslotProps*) Update;
    ATOMIC(struct ALeffectslotProps*) FreeList;

    struct {
        ALfloat   Gain;
        ALboolean AuxSendAuto;

        ALenum EffectType;
        ALeffectState *EffectState;

        ALfloat RoomRolloff; /* Added to the source's room rolloff, not multiplied. */
        ALfloat DecayTime;
        ALfloat AirAbsorptionGainHF;
    } Params;

    /* Self ID */
    ALuint id;

    ALuint NumChannels;
    BFChannelConfig ChanMap[MAX_EFFECT_CHANNELS];
    /* Wet buffer configuration is ACN channel order with N3D scaling:
     * * Channel 0 is the unattenuated mono signal.
     * * Channel 1 is OpenAL -X
     * * Channel 2 is OpenAL Y
     * * Channel 3 is OpenAL -Z
     * Consequently, effects that only want to work with mono input can use
     * channel 0 by itself. Effects that want multichannel can process the
     * ambisonics signal and make a B-Format pan (ComputeFirstOrderGains) for
     * first-order device output (FOAOut).
     */
    alignas(16) ALfloat WetBuffer[MAX_EFFECT_CHANNELS][BUFFERSIZE];

    ATOMIC(struct ALeffectslot*) next;
} ALeffectslot;

inline void LockEffectSlotsRead(ALCcontext *context)
{ LockUIntMapRead(&context->EffectSlotMap); }
inline void UnlockEffectSlotsRead(ALCcontext *context)
{ UnlockUIntMapRead(&context->EffectSlotMap); }
inline void LockEffectSlotsWrite(ALCcontext *context)
{ LockUIntMapWrite(&context->EffectSlotMap); }
inline void UnlockEffectSlotsWrite(ALCcontext *context)
{ UnlockUIntMapWrite(&context->EffectSlotMap); }

inline struct ALeffectslot *LookupEffectSlot(ALCcontext *context, ALuint id)
{ return (struct ALeffectslot*)LookupUIntMapKeyNoLock(&context->EffectSlotMap, id); }
inline struct ALeffectslot *RemoveEffectSlot(ALCcontext *context, ALuint id)
{ return (struct ALeffectslot*)RemoveUIntMapKeyNoLock(&context->EffectSlotMap, id); }

ALenum InitEffectSlot(ALeffectslot *slot);
void DeinitEffectSlot(ALeffectslot *slot);
void UpdateEffectSlotProps(ALeffectslot *slot);
ALvoid ReleaseALAuxiliaryEffectSlots(ALCcontext *Context);


ALeffectStateFactory *ALnullStateFactory_getFactory(void);
ALeffectStateFactory *ALreverbStateFactory_getFactory(void);
ALeffectStateFactory *ALautowahStateFactory_getFactory(void);
ALeffectStateFactory *ALchorusStateFactory_getFactory(void);
ALeffectStateFactory *ALcompressorStateFactory_getFactory(void);
ALeffectStateFactory *ALdistortionStateFactory_getFactory(void);
ALeffectStateFactory *ALechoStateFactory_getFactory(void);
ALeffectStateFactory *ALequalizerStateFactory_getFactory(void);
ALeffectStateFactory *ALflangerStateFactory_getFactory(void);
ALeffectStateFactory *ALmodulatorStateFactory_getFactory(void);

ALeffectStateFactory *ALdedicatedStateFactory_getFactory(void);


ALenum InitializeEffect(ALCdevice *Device, ALeffectslot *EffectSlot, ALeffect *effect);

void InitEffectFactoryMap(void);
void DeinitEffectFactoryMap(void);

#ifdef __cplusplus
}
#endif

#endif
Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00			`#ifndef _AL_AUXEFFECTSLOT_H_`
			`#define _AL_AUXEFFECTSLOT_H_`

Fix up some more header includes 2012-09-14 09:42:36 +00:00			`#include "alMain.h"`
Implement yet another low-pass filter This one using the Butterworth IIR filter design 2008-07-26 02:31:12 +00:00			`#include "alEffect.h"`
Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00
Use C11 alignas when available 2014-04-19 09:11:04 +00:00			`#include "align.h"`

Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00			`#ifdef __cplusplus`
			`extern "C" {`
			`#endif`

Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`struct ALeffectStateVtable;`
			`struct ALeffectslot;`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`typedef struct ALeffectState {`
			`const struct ALeffectStateVtable *vtbl;`
Store the effect's output buffer in the effect state 2016-03-17 17:10:26 +00:00
			`ALfloat (*OutBuffer)[BUFFERSIZE];`
			`ALuint OutChannels;`
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`} ALeffectState;`
Use macros to help define vtables for effect states 2013-05-21 11:18:02 +00:00
Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`void ALeffectState_Destruct(ALeffectState *state);`

Use macros to help define vtables for effect states 2013-05-21 11:18:02 +00:00			`struct ALeffectStateVtable {`
Use a helper macro for making vtable thunks 2013-10-30 03:08:03 +00:00			`void (const Destruct)(ALeffectState state);`
Fix up the naming convention of effect methods 2013-05-29 18:17:45 +00:00
			`ALboolean (const deviceUpdate)(ALeffectState state, ALCdevice *device);`
Get rid of an unnecessary copy of ALeffectProps 2016-05-14 01:28:01 +00:00			`void (const update)(ALeffectState state, const ALCdevice device, const struct ALeffectslot slot, const union ALeffectProps *props);`
Pass a pointer to the input samples array for effect processing 2016-01-27 16:16:47 +00:00			`void (const process)(ALeffectState state, ALuint samplesToDo, const ALfloat (restrict samplesIn)[BUFFERSIZE], ALfloat (restrict samplesOut)[BUFFERSIZE], ALuint numChannels);`
Use a Delete method for deletable objects 2013-05-26 04:04:00 +00:00
Use a void* for the effect state Delete method param 2014-03-22 06:56:18 +00:00			`void (const Delete)(void ptr);`
Use macros to help define vtables for effect states 2013-05-21 11:18:02 +00:00			`};`

			`#define DEFINE_ALEFFECTSTATE_VTABLE(T) \`
Use a helper macro for making vtable thunks 2013-10-30 03:08:03 +00:00			`DECLARE_THUNK(T, ALeffectState, void, Destruct) \`
			`DECLARE_THUNK1(T, ALeffectState, ALboolean, deviceUpdate, ALCdevice*) \`
Get rid of an unnecessary copy of ALeffectProps 2016-05-14 01:28:01 +00:00			`DECLARE_THUNK3(T, ALeffectState, void, update, const ALCdevice, const ALeffectslot, const ALeffectProps*) \`
Pass a pointer to the input samples array for effect processing 2016-01-27 16:16:47 +00:00			`DECLARE_THUNK4(T, ALeffectState, void, process, ALuint, const ALfloatBUFFERSIZErestrict, ALfloatBUFFERSIZErestrict, ALuint) \`
Use a void* for the effect state Delete method param 2014-03-22 06:56:18 +00:00			`static void T##_ALeffectState_Delete(void *ptr) \`
Add a GCC-specific STATIC_UPCAST macro that checks the object type The check is compile time, and is functionally identical to the old/alternate version. 2014-04-19 09:38:32 +00:00			`{ return T##_Delete(STATIC_UPCAST(T, ALeffectState, (ALeffectState*)ptr)); } \`
Auto-generate wrappers to upcast objects before calling user methods 2013-05-21 12:02:25 +00:00			`\`
Use macros to help define vtables for effect states 2013-05-21 11:18:02 +00:00			`static const struct ALeffectStateVtable T##_ALeffectState_vtable = { \`
Rename the effect state's Destroy method to Destruct 2013-05-21 20:02:56 +00:00			`T##_ALeffectState_Destruct, \`
Fix up the naming convention of effect methods 2013-05-29 18:17:45 +00:00			`\`
			`T##_ALeffectState_deviceUpdate, \`
			`T##_ALeffectState_update, \`
			`T##_ALeffectState_process, \`
			`\`
Use a Delete method for deletable objects 2013-05-26 04:04:00 +00:00			`T##_ALeffectState_Delete, \`
Use macros to help define vtables for effect states 2013-05-21 11:18:02 +00:00			`}`

Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`struct ALeffectStateFactoryVtable;`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`typedef struct ALeffectStateFactory {`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`const struct ALeffectStateFactoryVtable *vtbl;`
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`} ALeffectStateFactory;`

			`struct ALeffectStateFactoryVtable {`
			`ALeffectState (const create)(ALeffectStateFactory *factory);`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`};`

			`#define DEFINE_ALEFFECTSTATEFACTORY_VTABLE(T) \`
Use a helper macro for making vtable thunks 2013-10-30 03:08:03 +00:00			`DECLARE_THUNK(T, ALeffectStateFactory, ALeffectState*, create) \`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`\`
			`static const struct ALeffectStateFactoryVtable T##_ALeffectStateFactory_vtable = { \`
			`T##_ALeffectStateFactory_create, \`
			`}`
Fix up some more header includes 2012-09-14 09:42:36 +00:00
Don't expose effect-specific structures 2009-05-29 20:30:50 +00:00
Mix to multichannel for effects This mixes to a 4-channel first-order ambisonics buffer. With ACN ordering and N3D scaling, this makes it easy to remain compatible with effects that only care about mono input since channel 0 is an unattenuated mono signal. 2016-01-28 08:02:46 +00:00			`#define MAX_EFFECT_CHANNELS (4)`


Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`struct ALeffectslotProps {`
			`ATOMIC(ALfloat) Gain;`
			`ATOMIC(ALboolean) AuxSendAuto;`

			`ATOMIC(ALenum) Type;`
			`ALeffectProps Props;`

			`ATOMIC(ALeffectState*) State;`

			`ATOMIC(struct ALeffectslotProps*) next;`
			`};`

Implement AL_EFFECTSLOT_EFFECT property 2007-12-18 22:22:59 +00:00
Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`typedef struct ALeffectslot {`
Avoid holding the context lock when setting auxiliary slot properties 2011-09-11 09:01:31 +00:00			`volatile ALfloat Gain;`
			`volatile ALboolean AuxSendAuto;`
Implement AL_EFFECTSLOT_GAIN property 2007-12-18 23:47:24 +00:00
Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`struct {`
			`ALenum Type;`
			`ALeffectProps Props;`

			`ALeffectState *State;`
			`} Effect;`
Implement AL_EFFECT_REVERB Here is a quick description of how the reverb effect works: +--->---+(4) \| V new sample +-----+---+---+ \| \|extra\|ltr\|ref\| <- +(1) +-----+---+---+ (3,5)\| \|(2) +-->\| V out sample 1) Apply master reverb gain to incoming sample and place it at the head of the buffer. The master reverb gainhf was already applied when the source was initially mixed. 2) Copy the delayed reflection sample to an output sample and apply the reflection gain. 3) Apply the late reverb gain to the late reverb sample 4) Copy the end of the buffer, applying a decay gain and the decay hf ratio, and add to the late reverb. 5) Copy the late reverb sample, adding to the output sample. Then the head and sampling points are shifted forward, and done again for each new sample. The extra buffer length is determined by the Reverb Density property. A value of 0 gives a length of 0.1 seconds (long, with fairly distinct echos) , and 1 gives 0.075 seconds (short, indistinct echos). The decay gain is calculated such that after a number of loops to satisfy the Decay Time, a sample will be 1/32768th as powerful (virtually insignificant to the resulting output, and only getting further reduced). It is calculated as: DecayGain = pow(1.0f/32768.0f, 1.0/(DecayTime/ExtraLength)); Things to note: Reverb Diffusion is not currently handled, nor is Decay HF Limit. Decay HF Ratios above 1 probably give incorrect results. Also, this method likely sucks, but it's the best I can come up with before release. :) 2008-01-19 05:25:40 +00:00
Use the reference counting functions for the buffer and auxiliary slot refs 2011-08-30 06:05:47 +00:00			`RefCount ref;`
Keep track of references to effect slots, so they aren't deleted while in use 2008-01-16 21:20:09 +00:00
Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`ATOMIC(struct ALeffectslotProps*) Update;`
			`ATOMIC(struct ALeffectslotProps*) FreeList;`

			`struct {`
			`ALfloat Gain;`
			`ALboolean AuxSendAuto;`

			`ALenum EffectType;`
			`ALeffectState *EffectState;`

			`ALfloat RoomRolloff; /* Added to the source's room rolloff, not multiplied. */`
			`ALfloat DecayTime;`
			`ALfloat AirAbsorptionGainHF;`
			`} Params;`

Use a consistent name for the self-id field 2012-04-20 05:28:01 +00:00			`/* Self ID */`
			`ALuint id;`
Mix to multichannel for effects This mixes to a 4-channel first-order ambisonics buffer. With ACN ordering and N3D scaling, this makes it easy to remain compatible with effects that only care about mono input since channel 0 is an unattenuated mono signal. 2016-01-28 08:02:46 +00:00
			`ALuint NumChannels;`
Avoid unnecessary loops for setting up effect slot b-format buffer mixing 2016-04-15 04:50:36 +00:00			`BFChannelConfig ChanMap[MAX_EFFECT_CHANNELS];`
Mix to multichannel for effects This mixes to a 4-channel first-order ambisonics buffer. With ACN ordering and N3D scaling, this makes it easy to remain compatible with effects that only care about mono input since channel 0 is an unattenuated mono signal. 2016-01-28 08:02:46 +00:00			`/* Wet buffer configuration is ACN channel order with N3D scaling:`
			`* * Channel 0 is the unattenuated mono signal.`
			`* * Channel 1 is OpenAL -X`
			`* * Channel 2 is OpenAL Y`
			`* * Channel 3 is OpenAL -Z`
			`* Consequently, effects that only want to work with mono input can use`
			`* channel 0 by itself. Effects that want multichannel can process the`
Update a comment 2016-04-15 17:50:46 +00:00			`* ambisonics signal and make a B-Format pan (ComputeFirstOrderGains) for`
			`* first-order device output (FOAOut).`
Mix to multichannel for effects This mixes to a 4-channel first-order ambisonics buffer. With ACN ordering and N3D scaling, this makes it easy to remain compatible with effects that only care about mono input since channel 0 is an unattenuated mono signal. 2016-01-28 08:02:46 +00:00			`*/`
			`alignas(16) ALfloat WetBuffer[MAX_EFFECT_CHANNELS][BUFFERSIZE];`
Use a linked list for active effect slots 2016-05-29 08:40:16 +00:00
			`ATOMIC(struct ALeffectslot*) next;`
Fix effect slot struct declarations so KDevelop doesn't barf on them 2013-10-07 12:41:41 +00:00			`} ALeffectslot;`
Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00
Hold the effectslot map lock while handling it 2016-05-29 09:47:54 +00:00			`inline void LockEffectSlotsRead(ALCcontext *context)`
			`{ LockUIntMapRead(&context->EffectSlotMap); }`
			`inline void UnlockEffectSlotsRead(ALCcontext *context)`
			`{ UnlockUIntMapRead(&context->EffectSlotMap); }`
			`inline void LockEffectSlotsWrite(ALCcontext *context)`
			`{ LockUIntMapWrite(&context->EffectSlotMap); }`
			`inline void UnlockEffectSlotsWrite(ALCcontext *context)`
			`{ UnlockUIntMapWrite(&context->EffectSlotMap); }`

Move some inline methods to their appropriate headers 2013-11-04 21:51:19 +00:00			`inline struct ALeffectslot LookupEffectSlot(ALCcontext context, ALuint id)`
Hold the effectslot map lock while handling it 2016-05-29 09:47:54 +00:00			`{ return (struct ALeffectslot*)LookupUIntMapKeyNoLock(&context->EffectSlotMap, id); }`
Move some inline methods to their appropriate headers 2013-11-04 21:51:19 +00:00			`inline struct ALeffectslot RemoveEffectSlot(ALCcontext context, ALuint id)`
Hold the effectslot map lock while handling it 2016-05-29 09:47:54 +00:00			`{ return (struct ALeffectslot*)RemoveUIntMapKeyNoLock(&context->EffectSlotMap, id); }`
Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00
Avoid duplicating some initialization code 2012-01-21 00:23:15 +00:00			`ALenum InitEffectSlot(ALeffectslot *slot);`
Provide (mostly) lockless updates for effect slots Similar to the listener, separate containers are provided atomically for the mixer thread to apply updates without needing to block, and a free-list is used to reuse container objects. A couple things to note. First, the lock is still used when the effect state's deviceUpdate method is called to prevent asynchronous calls to reset the device from interfering. This can be fixed by using the list lock in ALc.c instead. Secondly, old effect states aren't immediately deleted when the effect type changes (the actual type, not just its properties). This is because the mixer thread is intended to be real-time safe, and so can't be freeing anything. They are cleared away when updates reuse the container they were kept in, and they don't incur any extra processing cost, but there may be cases where the memory is kept around until the effect slot is deleted. 2016-05-13 01:26:33 +00:00			`void DeinitEffectSlot(ALeffectslot *slot);`
Avoid using a flag to specify if the effect state needs to be updated This fixes a potential missed state change if an update with a new state got replaced with one that doesn't. 2016-05-15 08:19:05 +00:00			`void UpdateEffectSlotProps(ALeffectslot *slot);`
Store effect slots in the context 2008-01-16 00:22:39 +00:00			`ALvoid ReleaseALAuxiliaryEffectSlots(ALCcontext *Context);`
Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00
Don't expose effect-specific structures 2009-05-29 20:30:50 +00:00
Move the AL_EFFECT_NULL state into a separate file 2013-05-24 01:50:07 +00:00			`ALeffectStateFactory *ALnullStateFactory_getFactory(void);`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`ALeffectStateFactory *ALreverbStateFactory_getFactory(void);`
Implement the Autowah effect. 2013-10-03 10:32:54 +00:00			`ALeffectStateFactory *ALautowahStateFactory_getFactory(void);`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`ALeffectStateFactory *ALchorusStateFactory_getFactory(void);`
Implement the Compressor effect 2013-10-03 14:55:12 +00:00			`ALeffectStateFactory *ALcompressorStateFactory_getFactory(void);`
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`ALeffectStateFactory *ALdistortionStateFactory_getFactory(void);`
			`ALeffectStateFactory *ALechoStateFactory_getFactory(void);`
			`ALeffectStateFactory *ALequalizerStateFactory_getFactory(void);`
			`ALeffectStateFactory *ALflangerStateFactory_getFactory(void);`
			`ALeffectStateFactory *ALmodulatorStateFactory_getFactory(void);`

			`ALeffectStateFactory *ALdedicatedStateFactory_getFactory(void);`

Don't expose effect-specific structures 2009-05-29 20:30:50 +00:00
Pass the device to InitializeEffect and return the error enum from it 2012-03-13 21:58:34 +00:00			`ALenum InitializeEffect(ALCdevice Device, ALeffectslot EffectSlot, ALeffect *effect);`
Don't expose effect-specific structures 2009-05-29 20:30:50 +00:00
Use factories to create and destroy effect states 2013-05-21 19:47:18 +00:00			`void InitEffectFactoryMap(void);`
			`void DeinitEffectFactoryMap(void);`

Add auxiliary effect slot function skeletons 2007-12-18 01:43:19 +00:00			`#ifdef __cplusplus`
			`}`
			`#endif`

			`#endif`