#include "config.h" #include #include #include #include #include "AL/alc.h" #include "router.h" #include "almalloc.h" #define COUNTOF(x) (sizeof(x)/sizeof(x[0])) #define DECL(x) { #x, (ALCvoid*)(x) } static const struct { const ALCchar *funcName; ALCvoid *address; } alcFunctions[] = { DECL(alcCreateContext), DECL(alcMakeContextCurrent), DECL(alcProcessContext), DECL(alcSuspendContext), DECL(alcDestroyContext), DECL(alcGetCurrentContext), DECL(alcGetContextsDevice), DECL(alcOpenDevice), DECL(alcCloseDevice), DECL(alcGetError), DECL(alcIsExtensionPresent), DECL(alcGetProcAddress), DECL(alcGetEnumValue), DECL(alcGetString), DECL(alcGetIntegerv), DECL(alcCaptureOpenDevice), DECL(alcCaptureCloseDevice), DECL(alcCaptureStart), DECL(alcCaptureStop), DECL(alcCaptureSamples), DECL(alEnable), DECL(alDisable), DECL(alIsEnabled), DECL(alGetString), DECL(alGetBooleanv), DECL(alGetIntegerv), DECL(alGetFloatv), DECL(alGetDoublev), DECL(alGetBoolean), DECL(alGetInteger), DECL(alGetFloat), DECL(alGetDouble), DECL(alGetError), DECL(alIsExtensionPresent), DECL(alGetProcAddress), DECL(alGetEnumValue), DECL(alListenerf), DECL(alListener3f), DECL(alListenerfv), DECL(alListeneri), DECL(alListener3i), DECL(alListeneriv), DECL(alGetListenerf), DECL(alGetListener3f), DECL(alGetListenerfv), DECL(alGetListeneri), DECL(alGetListener3i), DECL(alGetListeneriv), DECL(alGenSources), DECL(alDeleteSources), DECL(alIsSource), DECL(alSourcef), DECL(alSource3f), DECL(alSourcefv), DECL(alSourcei), DECL(alSource3i), DECL(alSourceiv), DECL(alGetSourcef), DECL(alGetSource3f), DECL(alGetSourcefv), DECL(alGetSourcei), DECL(alGetSource3i), DECL(alGetSourceiv), DECL(alSourcePlayv), DECL(alSourceStopv), DECL(alSourceRewindv), DECL(alSourcePausev), DECL(alSourcePlay), DECL(alSourceStop), DECL(alSourceRewind), DECL(alSourcePause), DECL(alSourceQueueBuffers), DECL(alSourceUnqueueBuffers), DECL(alGenBuffers), DECL(alDeleteBuffers), DECL(alIsBuffer), DECL(alBufferData), DECL(alBufferf), DECL(alBuffer3f), DECL(alBufferfv), DECL(alBufferi), DECL(alBuffer3i), DECL(alBufferiv), DECL(alGetBufferf), DECL(alGetBuffer3f), DECL(alGetBufferfv), DECL(alGetBufferi), DECL(alGetBuffer3i), DECL(alGetBufferiv), DECL(alDopplerFactor), DECL(alDopplerVelocity), DECL(alSpeedOfSound), DECL(alDistanceModel), }; #undef DECL #define DECL(x) { #x, (x) } static const struct { const ALCchar *enumName; ALCenum value; } alcEnumerations[] = { DECL(ALC_INVALID), DECL(ALC_FALSE), DECL(ALC_TRUE), DECL(ALC_MAJOR_VERSION), DECL(ALC_MINOR_VERSION), DECL(ALC_ATTRIBUTES_SIZE), DECL(ALC_ALL_ATTRIBUTES), DECL(ALC_DEFAULT_DEVICE_SPECIFIER), DECL(ALC_DEVICE_SPECIFIER), DECL(ALC_ALL_DEVICES_SPECIFIER), DECL(ALC_DEFAULT_ALL_DEVICES_SPECIFIER), DECL(ALC_EXTENSIONS), DECL(ALC_FREQUENCY), DECL(ALC_REFRESH), DECL(ALC_SYNC), DECL(ALC_MONO_SOURCES), DECL(ALC_STEREO_SOURCES), DECL(ALC_CAPTURE_DEVICE_SPECIFIER), DECL(ALC_CAPTURE_DEFAULT_DEVICE_SPECIFIER), DECL(ALC_CAPTURE_SAMPLES), DECL(ALC_NO_ERROR), DECL(ALC_INVALID_DEVICE), DECL(ALC_INVALID_CONTEXT), DECL(ALC_INVALID_ENUM), DECL(ALC_INVALID_VALUE), DECL(ALC_OUT_OF_MEMORY), DECL(AL_INVALID), DECL(AL_NONE), DECL(AL_FALSE), DECL(AL_TRUE), DECL(AL_SOURCE_RELATIVE), DECL(AL_CONE_INNER_ANGLE), DECL(AL_CONE_OUTER_ANGLE), DECL(AL_PITCH), DECL(AL_POSITION), DECL(AL_DIRECTION), DECL(AL_VELOCITY), DECL(AL_LOOPING), DECL(AL_BUFFER), DECL(AL_GAIN), DECL(AL_MIN_GAIN), DECL(AL_MAX_GAIN), DECL(AL_ORIENTATION), DECL(AL_REFERENCE_DISTANCE), DECL(AL_ROLLOFF_FACTOR), DECL(AL_CONE_OUTER_GAIN), DECL(AL_MAX_DISTANCE), DECL(AL_SEC_OFFSET), DECL(AL_SAMPLE_OFFSET), DECL(AL_BYTE_OFFSET), DECL(AL_SOURCE_TYPE), DECL(AL_STATIC), DECL(AL_STREAMING), DECL(AL_UNDETERMINED), DECL(AL_SOURCE_STATE), DECL(AL_INITIAL), DECL(AL_PLAYING), DECL(AL_PAUSED), DECL(AL_STOPPED), DECL(AL_BUFFERS_QUEUED), DECL(AL_BUFFERS_PROCESSED), DECL(AL_FORMAT_MONO8), DECL(AL_FORMAT_MONO16), DECL(AL_FORMAT_STEREO8), DECL(AL_FORMAT_STEREO16), DECL(AL_FREQUENCY), DECL(AL_BITS), DECL(AL_CHANNELS), DECL(AL_SIZE), DECL(AL_UNUSED), DECL(AL_PENDING), DECL(AL_PROCESSED), DECL(AL_NO_ERROR), DECL(AL_INVALID_NAME), DECL(AL_INVALID_ENUM), DECL(AL_INVALID_VALUE), DECL(AL_INVALID_OPERATION), DECL(AL_OUT_OF_MEMORY), DECL(AL_VENDOR), DECL(AL_VERSION), DECL(AL_RENDERER), DECL(AL_EXTENSIONS), DECL(AL_DOPPLER_FACTOR), DECL(AL_DOPPLER_VELOCITY), DECL(AL_DISTANCE_MODEL), DECL(AL_SPEED_OF_SOUND), DECL(AL_INVERSE_DISTANCE), DECL(AL_INVERSE_DISTANCE_CLAMPED), DECL(AL_LINEAR_DISTANCE), DECL(AL_LINEAR_DISTANCE_CLAMPED), DECL(AL_EXPONENT_DISTANCE), DECL(AL_EXPONENT_DISTANCE_CLAMPED), }; #undef DECL static const ALCchar alcNoError[] = "No Error"; static const ALCchar alcErrInvalidDevice[] = "Invalid Device"; static const ALCchar alcErrInvalidContext[] = "Invalid Context"; static const ALCchar alcErrInvalidEnum[] = "Invalid Enum"; static const ALCchar alcErrInvalidValue[] = "Invalid Value"; static const ALCchar alcErrOutOfMemory[] = "Out of Memory"; static const ALCchar alcExtensionList[] = "ALC_ENUMERATE_ALL_EXT ALC_ENUMERATION_EXT ALC_EXT_CAPTURE"; static const ALCint alcMajorVersion = 1; static const ALCint alcMinorVersion = 1; static ATOMIC(ALCenum) LastError = ATOMIC_INIT_STATIC(ALC_NO_ERROR); static PtrIntMap DeviceIfaceMap = PTRINTMAP_STATIC_INITIALIZE; static PtrIntMap ContextIfaceMap = PTRINTMAP_STATIC_INITIALIZE; typedef struct EnumeratedList { ALCchar *Names; ALCchar *NamesEnd; ALCint *Indicies; ALCsizei IndexSize; } EnumeratedList; static EnumeratedList DevicesList = { NULL, NULL, NULL, 0 }; static EnumeratedList AllDevicesList = { NULL, NULL, NULL, 0 }; static EnumeratedList CaptureDevicesList = { NULL, NULL, NULL, 0 }; static void ClearDeviceList(EnumeratedList *list) { al_free(list->Names); list->Names = NULL; list->NamesEnd = NULL; al_free(list->Indicies); list->Indicies = NULL; list->IndexSize = 0; } static void AppendDeviceList(EnumeratedList *list, const ALCchar *names, ALint idx) { const ALCchar *name_end = names; ALCsizei count = 0; ALCchar *new_list; ALCint *new_indicies; size_t len; ALCsizei i; if(!name_end) return; while(*name_end) { TRACE("Enumerated \"%s\", driver %d\n", name_end, idx); count++; name_end += strlen(name_end)+1; } if(names == name_end) return; len = (list->NamesEnd - list->Names) + (name_end - names); new_list = al_calloc(DEF_ALIGN, len + 1); memcpy(new_list, list->Names, list->NamesEnd - list->Names); memcpy(new_list + (list->NamesEnd - list->Names), names, name_end - names); al_free(list->Names); list->Names = new_list; list->NamesEnd = list->Names + len; new_indicies = al_calloc(16, sizeof(ALCint)*(list->IndexSize + count)); for(i = 0;i < list->IndexSize;i++) new_indicies[i] = list->Indicies[i]; for(i = 0;i < count;i++) new_indicies[list->IndexSize+i] = idx; al_free(list->Indicies); list->Indicies = new_indicies; list->IndexSize += count; } static ALint GetDriverIndexForName(const EnumeratedList *list, const ALCchar *name) { const ALCchar *devnames = list->Names; const ALCint *index = list->Indicies; while(devnames && *devnames) { if(strcmp(name, devnames) == 0) return *index; devnames += strlen(devnames)+1; index++; } return -1; } void ReleaseALC(void) { ClearDeviceList(&DevicesList); ClearDeviceList(&AllDevicesList); ClearDeviceList(&CaptureDevicesList); ResetPtrIntMap(&ContextIfaceMap); ResetPtrIntMap(&DeviceIfaceMap); } ALC_API ALCdevice* ALC_APIENTRY alcOpenDevice(const ALCchar *devicename) { ALCdevice *device; ALint idx = 0; /* Prior to the enumeration extension, apps would hardcode these names as a * quality hint for the wrapper driver. Ignore them since there's no sane * way to map them. */ if(devicename && (devicename[0] == '\0' || strcmp(devicename, "DirectSound3D") == 0 || strcmp(devicename, "DirectSound") == 0 || strcmp(devicename, "MMSYSTEM") == 0)) devicename = NULL; if(devicename) { almtx_lock(&EnumerationLock); if(!DevicesList.Names) (void)alcGetString(NULL, ALC_DEVICE_SPECIFIER); idx = GetDriverIndexForName(&DevicesList, devicename); if(idx < 0) { if(!AllDevicesList.Names) (void)alcGetString(NULL, ALC_ALL_DEVICES_SPECIFIER); idx = GetDriverIndexForName(&AllDevicesList, devicename); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_VALUE); almtx_unlock(&EnumerationLock); return NULL; } } almtx_unlock(&EnumerationLock); } else { int i; for(i = 0;i < DriverListSize;i++) { if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATION_EXT")) { idx = i; break; } } } device = DriverList[idx].alcOpenDevice(devicename); if(device) { if(InsertPtrIntMapEntry(&DeviceIfaceMap, device, idx) != ALC_NO_ERROR) { DriverList[idx].alcCloseDevice(device); device = NULL; } } return device; } ALC_API ALCboolean ALC_APIENTRY alcCloseDevice(ALCdevice *device) { ALint idx; if(!device || (idx=LookupPtrIntMapKey(&DeviceIfaceMap, device)) < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return ALC_FALSE; } if(!DriverList[idx].alcCloseDevice(device)) return ALC_FALSE; RemovePtrIntMapKey(&DeviceIfaceMap, device); return ALC_TRUE; } ALC_API ALCcontext* ALC_APIENTRY alcCreateContext(ALCdevice *device, const ALCint *attrlist) { ALCcontext *context; ALint idx; if(!device || (idx=LookupPtrIntMapKey(&DeviceIfaceMap, device)) < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return ALC_FALSE; } context = DriverList[idx].alcCreateContext(device, attrlist); if(context) { if(InsertPtrIntMapEntry(&ContextIfaceMap, context, idx) != ALC_NO_ERROR) { DriverList[idx].alcDestroyContext(context); context = NULL; } } return context; } ALC_API ALCboolean ALC_APIENTRY alcMakeContextCurrent(ALCcontext *context) { ALint idx = -1; almtx_lock(&ContextSwitchLock); if(context) { idx = LookupPtrIntMapKey(&ContextIfaceMap, context); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_CONTEXT); almtx_unlock(&ContextSwitchLock); return ALC_FALSE; } if(!DriverList[idx].alcMakeContextCurrent(context)) { almtx_unlock(&ContextSwitchLock); return ALC_FALSE; } } /* Unset the context from the old driver if it's different from the new * current one. */ if(idx < 0) { DriverIface *oldiface = ATOMIC_EXCHANGE_PTR_SEQ(&CurrentCtxDriver, NULL); if(oldiface) oldiface->alcMakeContextCurrent(NULL); } else { DriverIface *oldiface = ATOMIC_EXCHANGE_PTR_SEQ(&CurrentCtxDriver, &DriverList[idx]); if(oldiface && oldiface != &DriverList[idx]) oldiface->alcMakeContextCurrent(NULL); } almtx_unlock(&ContextSwitchLock); return ALC_TRUE; } ALC_API void ALC_APIENTRY alcProcessContext(ALCcontext *context) { if(context) { ALint idx = LookupPtrIntMapKey(&ContextIfaceMap, context); if(idx >= 0) return DriverList[idx].alcProcessContext(context); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_CONTEXT); } ALC_API void ALC_APIENTRY alcSuspendContext(ALCcontext *context) { if(context) { ALint idx = LookupPtrIntMapKey(&ContextIfaceMap, context); if(idx >= 0) return DriverList[idx].alcSuspendContext(context); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_CONTEXT); } ALC_API void ALC_APIENTRY alcDestroyContext(ALCcontext *context) { ALint idx; if(!context || (idx=LookupPtrIntMapKey(&ContextIfaceMap, context)) < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_CONTEXT); return; } DriverList[idx].alcDestroyContext(context); RemovePtrIntMapKey(&ContextIfaceMap, context); } ALC_API ALCcontext* ALC_APIENTRY alcGetCurrentContext(void) { DriverIface *iface = ATOMIC_LOAD_SEQ(&CurrentCtxDriver); return iface ? iface->alcGetCurrentContext() : NULL; } ALC_API ALCdevice* ALC_APIENTRY alcGetContextsDevice(ALCcontext *context) { if(context) { ALint idx = LookupPtrIntMapKey(&ContextIfaceMap, context); if(idx >= 0) return DriverList[idx].alcGetContextsDevice(context); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_CONTEXT); return NULL; } ALC_API ALCenum ALC_APIENTRY alcGetError(ALCdevice *device) { if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) return ALC_INVALID_DEVICE; return DriverList[idx].alcGetError(device); } return ATOMIC_EXCHANGE_SEQ(&LastError, ALC_NO_ERROR); } ALC_API ALCboolean ALC_APIENTRY alcIsExtensionPresent(ALCdevice *device, const ALCchar *extname) { const char *ptr; size_t len; if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return ALC_FALSE; } return DriverList[idx].alcIsExtensionPresent(device, extname); } len = strlen(extname); ptr = alcExtensionList; while(ptr && *ptr) { if(strncasecmp(ptr, extname, len) == 0 && (ptr[len] == '\0' || isspace(ptr[len]))) return ALC_TRUE; if((ptr=strchr(ptr, ' ')) != NULL) { do { ++ptr; } while(isspace(*ptr)); } } return ALC_FALSE; } ALC_API void* ALC_APIENTRY alcGetProcAddress(ALCdevice *device, const ALCchar *funcname) { size_t i; if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return NULL; } return DriverList[idx].alcGetProcAddress(device, funcname); } for(i = 0;i < COUNTOF(alcFunctions);i++) { if(strcmp(funcname, alcFunctions[i].funcName) == 0) return alcFunctions[i].address; } return NULL; } ALC_API ALCenum ALC_APIENTRY alcGetEnumValue(ALCdevice *device, const ALCchar *enumname) { size_t i; if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return 0; } return DriverList[idx].alcGetEnumValue(device, enumname); } for(i = 0;i < COUNTOF(alcEnumerations);i++) { if(strcmp(enumname, alcEnumerations[i].enumName) == 0) return alcEnumerations[i].value; } return 0; } ALC_API const ALCchar* ALC_APIENTRY alcGetString(ALCdevice *device, ALCenum param) { ALsizei i = 0; if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return NULL; } return DriverList[idx].alcGetString(device, param); } switch(param) { case ALC_NO_ERROR: return alcNoError; case ALC_INVALID_ENUM: return alcErrInvalidEnum; case ALC_INVALID_VALUE: return alcErrInvalidValue; case ALC_INVALID_DEVICE: return alcErrInvalidDevice; case ALC_INVALID_CONTEXT: return alcErrInvalidContext; case ALC_OUT_OF_MEMORY: return alcErrOutOfMemory; case ALC_EXTENSIONS: return alcExtensionList; case ALC_DEVICE_SPECIFIER: almtx_lock(&EnumerationLock); ClearDeviceList(&DevicesList); for(i = 0;i < DriverListSize;i++) { /* Only enumerate names from drivers that support it. */ if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATION_EXT")) AppendDeviceList(&DevicesList, DriverList[i].alcGetString(NULL, ALC_DEVICE_SPECIFIER), i ); } almtx_unlock(&EnumerationLock); return DevicesList.Names; case ALC_ALL_DEVICES_SPECIFIER: almtx_lock(&EnumerationLock); ClearDeviceList(&AllDevicesList); for(i = 0;i < DriverListSize;i++) { /* If the driver doesn't support ALC_ENUMERATE_ALL_EXT, substitute * standard enumeration. */ if(DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATE_ALL_EXT")) AppendDeviceList(&AllDevicesList, DriverList[i].alcGetString(NULL, ALC_ALL_DEVICES_SPECIFIER), i ); else if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATION_EXT")) AppendDeviceList(&AllDevicesList, DriverList[i].alcGetString(NULL, ALC_DEVICE_SPECIFIER), i ); } almtx_unlock(&EnumerationLock); return AllDevicesList.Names; case ALC_CAPTURE_DEVICE_SPECIFIER: almtx_lock(&EnumerationLock); ClearDeviceList(&CaptureDevicesList); for(i = 0;i < DriverListSize;i++) { if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_EXT_CAPTURE")) AppendDeviceList(&CaptureDevicesList, DriverList[i].alcGetString(NULL, ALC_CAPTURE_DEVICE_SPECIFIER), i ); } almtx_unlock(&EnumerationLock); return CaptureDevicesList.Names; case ALC_DEFAULT_DEVICE_SPECIFIER: for(i = 0;i < DriverListSize;i++) { if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATION_EXT")) return DriverList[i].alcGetString(NULL, ALC_DEFAULT_DEVICE_SPECIFIER); } return ""; case ALC_DEFAULT_ALL_DEVICES_SPECIFIER: for(i = 0;i < DriverListSize;i++) { if(DriverList[i].alcIsExtensionPresent(NULL, "ALC_ENUMERATE_ALL_EXT")) return DriverList[i].alcGetString(NULL, ALC_DEFAULT_ALL_DEVICES_SPECIFIER); } return ""; case ALC_CAPTURE_DEFAULT_DEVICE_SPECIFIER: for(i = 0;i < DriverListSize;i++) { if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_EXT_CAPTURE")) return DriverList[i].alcGetString(NULL, ALC_CAPTURE_DEFAULT_DEVICE_SPECIFIER); } return ""; default: ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_ENUM); break; } return NULL; } ALC_API void ALC_APIENTRY alcGetIntegerv(ALCdevice *device, ALCenum param, ALCsizei size, ALCint *values) { if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return; } return DriverList[idx].alcGetIntegerv(device, param, size, values); } if(size <= 0 || values == NULL) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_VALUE); return; } switch(param) { case ALC_MAJOR_VERSION: if(size >= 1) { values[0] = alcMajorVersion; return; } /*fall-through*/ case ALC_MINOR_VERSION: if(size >= 1) { values[0] = alcMinorVersion; return; } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_VALUE); return; case ALC_ATTRIBUTES_SIZE: case ALC_ALL_ATTRIBUTES: case ALC_FREQUENCY: case ALC_REFRESH: case ALC_SYNC: case ALC_MONO_SOURCES: case ALC_STEREO_SOURCES: case ALC_CAPTURE_SAMPLES: ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return; default: ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_ENUM); return; } } ALC_API ALCdevice* ALC_APIENTRY alcCaptureOpenDevice(const ALCchar *devicename, ALCuint frequency, ALCenum format, ALCsizei buffersize) { ALCdevice *device; ALint idx = 0; if(devicename && devicename[0] == '\0') devicename = NULL; if(devicename) { almtx_lock(&EnumerationLock); if(!CaptureDevicesList.Names) (void)alcGetString(NULL, ALC_CAPTURE_DEVICE_SPECIFIER); idx = GetDriverIndexForName(&CaptureDevicesList, devicename); if(idx < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_VALUE); almtx_unlock(&EnumerationLock); return NULL; } almtx_unlock(&EnumerationLock); } else { int i; for(i = 0;i < DriverListSize;i++) { if(DriverList[i].ALCVer >= MAKE_ALC_VER(1, 1) || DriverList[i].alcIsExtensionPresent(NULL, "ALC_EXT_CAPTURE")) { idx = i; break; } } } device = DriverList[idx].alcCaptureOpenDevice(devicename, frequency, format, buffersize); if(device) { if(InsertPtrIntMapEntry(&DeviceIfaceMap, device, idx) != ALC_NO_ERROR) { DriverList[idx].alcCaptureCloseDevice(device); device = NULL; } } return device; } ALC_API ALCboolean ALC_APIENTRY alcCaptureCloseDevice(ALCdevice *device) { ALint idx; if(!device || (idx=LookupPtrIntMapKey(&DeviceIfaceMap, device)) < 0) { ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); return ALC_FALSE; } if(!DriverList[idx].alcCaptureCloseDevice(device)) return ALC_FALSE; RemovePtrIntMapKey(&DeviceIfaceMap, device); return ALC_TRUE; } ALC_API void ALC_APIENTRY alcCaptureStart(ALCdevice *device) { if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx >= 0) return DriverList[idx].alcCaptureStart(device); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); } ALC_API void ALC_APIENTRY alcCaptureStop(ALCdevice *device) { if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx >= 0) return DriverList[idx].alcCaptureStop(device); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); } ALC_API void ALC_APIENTRY alcCaptureSamples(ALCdevice *device, ALCvoid *buffer, ALCsizei samples) { if(device) { ALint idx = LookupPtrIntMapKey(&DeviceIfaceMap, device); if(idx >= 0) return DriverList[idx].alcCaptureSamples(device, buffer, samples); } ATOMIC_STORE_SEQ(&LastError, ALC_INVALID_DEVICE); }