/** * OpenAL cross platform audio library * Copyright (C) 1999-2007 by authors. * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * Or go to http://www.gnu.org/copyleft/lgpl.html */ #include "config.h" #include #include #include #include #ifdef HAVE_MALLOC_H #include #endif #include "alMain.h" #include "alu.h" #include "alError.h" #include "alBuffer.h" #include "alThunk.h" #include "sample_cvt.h" extern inline void LockBuffersRead(ALCdevice *device); extern inline void UnlockBuffersRead(ALCdevice *device); extern inline void LockBuffersWrite(ALCdevice *device); extern inline void UnlockBuffersWrite(ALCdevice *device); extern inline struct ALbuffer *LookupBuffer(ALCdevice *device, ALuint id); extern inline struct ALbuffer *RemoveBuffer(ALCdevice *device, ALuint id); extern inline ALuint FrameSizeFromUserFmt(enum UserFmtChannels chans, enum UserFmtType type); extern inline ALuint FrameSizeFromFmt(enum FmtChannels chans, enum FmtType type); static ALboolean IsValidType(ALenum type) DECL_CONST; static ALboolean IsValidChannels(ALenum channels) DECL_CONST; static ALboolean DecomposeUserFormat(ALenum format, enum UserFmtChannels *chans, enum UserFmtType *type) DECL_CONST; static ALboolean DecomposeFormat(ALenum format, enum FmtChannels *chans, enum FmtType *type) DECL_CONST; static ALboolean SanitizeAlignment(enum UserFmtType type, ALsizei *align); AL_API ALvoid AL_APIENTRY alGenBuffers(ALsizei n, ALuint *buffers) { ALCcontext *context; ALsizei cur = 0; context = GetContextRef(); if(!context) return; if(!(n >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); for(cur = 0;cur < n;cur++) { ALbuffer *buffer = NewBuffer(context); if(!buffer) { alDeleteBuffers(cur, buffers); break; } buffers[cur] = buffer->id; } done: ALCcontext_DecRef(context); } AL_API ALvoid AL_APIENTRY alDeleteBuffers(ALsizei n, const ALuint *buffers) { ALCdevice *device; ALCcontext *context; ALbuffer *ALBuf; ALsizei i; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersWrite(device); if(!(n >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); for(i = 0;i < n;i++) { if(!buffers[i]) continue; /* Check for valid Buffer ID */ if((ALBuf=LookupBuffer(device, buffers[i])) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(ReadRef(&ALBuf->ref) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_OPERATION, done); } for(i = 0;i < n;i++) { if((ALBuf=LookupBuffer(device, buffers[i])) != NULL) DeleteBuffer(device, ALBuf); } done: UnlockBuffersWrite(device); ALCcontext_DecRef(context); } AL_API ALboolean AL_APIENTRY alIsBuffer(ALuint buffer) { ALCcontext *context; ALboolean ret; context = GetContextRef(); if(!context) return AL_FALSE; LockBuffersRead(context->Device); ret = ((!buffer || LookupBuffer(context->Device, buffer)) ? AL_TRUE : AL_FALSE); UnlockBuffersRead(context->Device); ALCcontext_DecRef(context); return ret; } AL_API ALvoid AL_APIENTRY alBufferData(ALuint buffer, ALenum format, const ALvoid *data, ALsizei size, ALsizei freq) { enum UserFmtChannels srcchannels; enum UserFmtType srctype; ALCdevice *device; ALCcontext *context; ALbuffer *albuf; ALenum newformat = AL_NONE; ALuint framesize; ALsizei align; ALenum err; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(size >= 0 && freq > 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if(DecomposeUserFormat(format, &srcchannels, &srctype) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); align = ATOMIC_LOAD(&albuf->UnpackAlign); if(SanitizeAlignment(srctype, &align) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(srctype) { case UserFmtByte: case UserFmtUByte: case UserFmtShort: case UserFmtUShort: case UserFmtFloat: framesize = FrameSizeFromUserFmt(srcchannels, srctype) * align; if((size%framesize) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); err = LoadData(albuf, freq, format, size/framesize*align, srcchannels, srctype, data, align, AL_TRUE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); break; case UserFmtInt: case UserFmtUInt: case UserFmtByte3: case UserFmtUByte3: case UserFmtDouble: framesize = FrameSizeFromUserFmt(srcchannels, srctype) * align; if((size%framesize) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(srcchannels) { case UserFmtMono: newformat = AL_FORMAT_MONO_FLOAT32; break; case UserFmtStereo: newformat = AL_FORMAT_STEREO_FLOAT32; break; case UserFmtRear: newformat = AL_FORMAT_REAR32; break; case UserFmtQuad: newformat = AL_FORMAT_QUAD32; break; case UserFmtX51: newformat = AL_FORMAT_51CHN32; break; case UserFmtX61: newformat = AL_FORMAT_61CHN32; break; case UserFmtX71: newformat = AL_FORMAT_71CHN32; break; case UserFmtBFormat2D: newformat = AL_FORMAT_BFORMAT2D_FLOAT32; break; case UserFmtBFormat3D: newformat = AL_FORMAT_BFORMAT3D_FLOAT32; break; } err = LoadData(albuf, freq, newformat, size/framesize*align, srcchannels, srctype, data, align, AL_TRUE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); break; case UserFmtMulaw: case UserFmtAlaw: framesize = FrameSizeFromUserFmt(srcchannels, srctype) * align; if((size%framesize) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(srcchannels) { case UserFmtMono: newformat = AL_FORMAT_MONO16; break; case UserFmtStereo: newformat = AL_FORMAT_STEREO16; break; case UserFmtRear: newformat = AL_FORMAT_REAR16; break; case UserFmtQuad: newformat = AL_FORMAT_QUAD16; break; case UserFmtX51: newformat = AL_FORMAT_51CHN16; break; case UserFmtX61: newformat = AL_FORMAT_61CHN16; break; case UserFmtX71: newformat = AL_FORMAT_71CHN16; break; case UserFmtBFormat2D: newformat = AL_FORMAT_BFORMAT2D_16; break; case UserFmtBFormat3D: newformat = AL_FORMAT_BFORMAT3D_16; break; } err = LoadData(albuf, freq, newformat, size/framesize*align, srcchannels, srctype, data, align, AL_TRUE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); break; case UserFmtIMA4: framesize = (align-1)/2 + 4; framesize *= ChannelsFromUserFmt(srcchannels); if((size%framesize) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(srcchannels) { case UserFmtMono: newformat = AL_FORMAT_MONO16; break; case UserFmtStereo: newformat = AL_FORMAT_STEREO16; break; case UserFmtRear: newformat = AL_FORMAT_REAR16; break; case UserFmtQuad: newformat = AL_FORMAT_QUAD16; break; case UserFmtX51: newformat = AL_FORMAT_51CHN16; break; case UserFmtX61: newformat = AL_FORMAT_61CHN16; break; case UserFmtX71: newformat = AL_FORMAT_71CHN16; break; case UserFmtBFormat2D: newformat = AL_FORMAT_BFORMAT2D_16; break; case UserFmtBFormat3D: newformat = AL_FORMAT_BFORMAT3D_16; break; } err = LoadData(albuf, freq, newformat, size/framesize*align, srcchannels, srctype, data, align, AL_TRUE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); break; case UserFmtMSADPCM: framesize = (align-2)/2 + 7; framesize *= ChannelsFromUserFmt(srcchannels); if((size%framesize) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(srcchannels) { case UserFmtMono: newformat = AL_FORMAT_MONO16; break; case UserFmtStereo: newformat = AL_FORMAT_STEREO16; break; case UserFmtRear: newformat = AL_FORMAT_REAR16; break; case UserFmtQuad: newformat = AL_FORMAT_QUAD16; break; case UserFmtX51: newformat = AL_FORMAT_51CHN16; break; case UserFmtX61: newformat = AL_FORMAT_61CHN16; break; case UserFmtX71: newformat = AL_FORMAT_71CHN16; break; case UserFmtBFormat2D: newformat = AL_FORMAT_BFORMAT2D_16; break; case UserFmtBFormat3D: newformat = AL_FORMAT_BFORMAT3D_16; break; } err = LoadData(albuf, freq, newformat, size/framesize*align, srcchannels, srctype, data, align, AL_TRUE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); break; } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API ALvoid AL_APIENTRY alBufferSubDataSOFT(ALuint buffer, ALenum format, const ALvoid *data, ALsizei offset, ALsizei length) { enum UserFmtChannels srcchannels; enum UserFmtType srctype; ALCdevice *device; ALCcontext *context; ALbuffer *albuf; ALuint byte_align; ALuint channels; ALuint bytes; ALsizei align; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(length >= 0 && offset >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if(DecomposeUserFormat(format, &srcchannels, &srctype) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); WriteLock(&albuf->lock); align = ATOMIC_LOAD(&albuf->UnpackAlign); if(SanitizeAlignment(srctype, &align) == AL_FALSE) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } if(srcchannels != albuf->OriginalChannels || srctype != albuf->OriginalType) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } if(align != albuf->OriginalAlign) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } if(albuf->OriginalType == UserFmtIMA4) { byte_align = (albuf->OriginalAlign-1)/2 + 4; byte_align *= ChannelsFromUserFmt(albuf->OriginalChannels); } else if(albuf->OriginalType == UserFmtMSADPCM) { byte_align = (albuf->OriginalAlign-2)/2 + 7; byte_align *= ChannelsFromUserFmt(albuf->OriginalChannels); } else { byte_align = albuf->OriginalAlign; byte_align *= FrameSizeFromUserFmt(albuf->OriginalChannels, albuf->OriginalType); } if(offset > albuf->OriginalSize || length > albuf->OriginalSize-offset || (offset%byte_align) != 0 || (length%byte_align) != 0) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } channels = ChannelsFromFmt(albuf->FmtChannels); bytes = BytesFromFmt(albuf->FmtType); /* offset -> byte offset, length -> sample count */ offset = offset/byte_align * channels*bytes; length = length/byte_align * albuf->OriginalAlign; ConvertData((char*)albuf->data+offset, (enum UserFmtType)albuf->FmtType, data, srctype, channels, length, align); WriteUnlock(&albuf->lock); done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBufferSamplesSOFT(ALuint buffer, ALuint samplerate, ALenum internalformat, ALsizei samples, ALenum channels, ALenum type, const ALvoid *data) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; ALsizei align; ALenum err; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(samples >= 0 && samplerate != 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if(IsValidType(type) == AL_FALSE || IsValidChannels(channels) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); align = ATOMIC_LOAD(&albuf->UnpackAlign); if(SanitizeAlignment(type, &align) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if((samples%align) != 0) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); err = LoadData(albuf, samplerate, internalformat, samples, channels, type, data, align, AL_FALSE); if(err != AL_NO_ERROR) SET_ERROR_AND_GOTO(context, err, done); done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBufferSubSamplesSOFT(ALuint buffer, ALsizei offset, ALsizei samples, ALenum channels, ALenum type, const ALvoid *data) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; ALsizei align; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(samples >= 0 && offset >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if(IsValidType(type) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); WriteLock(&albuf->lock); align = ATOMIC_LOAD(&albuf->UnpackAlign); if(SanitizeAlignment(type, &align) == AL_FALSE) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } if(channels != (ALenum)albuf->FmtChannels) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } if(offset > albuf->SampleLen || samples > albuf->SampleLen-offset) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } if((samples%align) != 0) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } /* offset -> byte offset */ offset *= FrameSizeFromFmt(albuf->FmtChannels, albuf->FmtType); ConvertData((char*)albuf->data+offset, (enum UserFmtType)albuf->FmtType, data, type, ChannelsFromFmt(albuf->FmtChannels), samples, align); WriteUnlock(&albuf->lock); done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alGetBufferSamplesSOFT(ALuint buffer, ALsizei offset, ALsizei samples, ALenum channels, ALenum type, ALvoid *data) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; ALsizei align; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(samples >= 0 && offset >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); if(IsValidType(type) == AL_FALSE) SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); ReadLock(&albuf->lock); align = ATOMIC_LOAD(&albuf->PackAlign); if(SanitizeAlignment(type, &align) == AL_FALSE) { ReadUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } if(channels != (ALenum)albuf->FmtChannels) { ReadUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } if(offset > albuf->SampleLen || samples > albuf->SampleLen-offset) { ReadUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } if((samples%align) != 0) { ReadUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } /* offset -> byte offset */ offset *= FrameSizeFromFmt(albuf->FmtChannels, albuf->FmtType); ConvertData(data, type, (char*)albuf->data+offset, (enum UserFmtType)albuf->FmtType, ChannelsFromFmt(albuf->FmtChannels), samples, align); ReadUnlock(&albuf->lock); done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API ALboolean AL_APIENTRY alIsBufferFormatSupportedSOFT(ALenum format) { enum FmtChannels dstchannels; enum FmtType dsttype; ALCcontext *context; ALboolean ret; context = GetContextRef(); if(!context) return AL_FALSE; ret = DecomposeFormat(format, &dstchannels, &dsttype); ALCcontext_DecRef(context); return ret; } AL_API void AL_APIENTRY alBufferf(ALuint buffer, ALenum param, ALfloat UNUSED(value)) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBuffer3f(ALuint buffer, ALenum param, ALfloat UNUSED(value1), ALfloat UNUSED(value2), ALfloat UNUSED(value3)) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBufferfv(ALuint buffer, ALenum param, const ALfloat *values) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(values)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBufferi(ALuint buffer, ALenum param, ALint value) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); switch(param) { case AL_UNPACK_BLOCK_ALIGNMENT_SOFT: if(!(value >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); ATOMIC_STORE(&albuf->UnpackAlign, value); break; case AL_PACK_BLOCK_ALIGNMENT_SOFT: if(!(value >= 0)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); ATOMIC_STORE(&albuf->PackAlign, value); break; default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBuffer3i(ALuint buffer, ALenum param, ALint UNUSED(value1), ALint UNUSED(value2), ALint UNUSED(value3)) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alBufferiv(ALuint buffer, ALenum param, const ALint *values) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; if(values) { switch(param) { case AL_UNPACK_BLOCK_ALIGNMENT_SOFT: case AL_PACK_BLOCK_ALIGNMENT_SOFT: alBufferi(buffer, param, values[0]); return; } } context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(values)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { case AL_LOOP_POINTS_SOFT: WriteLock(&albuf->lock); if(ReadRef(&albuf->ref) != 0) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_OPERATION, done); } if(values[0] >= values[1] || values[0] < 0 || values[1] > albuf->SampleLen) { WriteUnlock(&albuf->lock); SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); } albuf->LoopStart = values[0]; albuf->LoopEnd = values[1]; WriteUnlock(&albuf->lock); break; default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API ALvoid AL_APIENTRY alGetBufferf(ALuint buffer, ALenum param, ALfloat *value) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(value)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { case AL_SEC_LENGTH_SOFT: ReadLock(&albuf->lock); if(albuf->SampleLen != 0) *value = albuf->SampleLen / (ALfloat)albuf->Frequency; else *value = 0.0f; ReadUnlock(&albuf->lock); break; default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alGetBuffer3f(ALuint buffer, ALenum param, ALfloat *value1, ALfloat *value2, ALfloat *value3) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(value1 && value2 && value3)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alGetBufferfv(ALuint buffer, ALenum param, ALfloat *values) { ALCdevice *device; ALCcontext *context; switch(param) { case AL_SEC_LENGTH_SOFT: alGetBufferf(buffer, param, values); return; } context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(values)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API ALvoid AL_APIENTRY alGetBufferi(ALuint buffer, ALenum param, ALint *value) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(value)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { case AL_FREQUENCY: *value = albuf->Frequency; break; case AL_BITS: *value = BytesFromFmt(albuf->FmtType) * 8; break; case AL_CHANNELS: *value = ChannelsFromFmt(albuf->FmtChannels); break; case AL_SIZE: ReadLock(&albuf->lock); *value = albuf->SampleLen * FrameSizeFromFmt(albuf->FmtChannels, albuf->FmtType); ReadUnlock(&albuf->lock); break; case AL_INTERNAL_FORMAT_SOFT: *value = albuf->Format; break; case AL_BYTE_LENGTH_SOFT: *value = albuf->OriginalSize; break; case AL_SAMPLE_LENGTH_SOFT: *value = albuf->SampleLen; break; case AL_UNPACK_BLOCK_ALIGNMENT_SOFT: *value = ATOMIC_LOAD(&albuf->UnpackAlign); break; case AL_PACK_BLOCK_ALIGNMENT_SOFT: *value = ATOMIC_LOAD(&albuf->PackAlign); break; default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alGetBuffer3i(ALuint buffer, ALenum param, ALint *value1, ALint *value2, ALint *value3) { ALCdevice *device; ALCcontext *context; context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if(LookupBuffer(device, buffer) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(value1 && value2 && value3)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } AL_API void AL_APIENTRY alGetBufferiv(ALuint buffer, ALenum param, ALint *values) { ALCdevice *device; ALCcontext *context; ALbuffer *albuf; switch(param) { case AL_FREQUENCY: case AL_BITS: case AL_CHANNELS: case AL_SIZE: case AL_INTERNAL_FORMAT_SOFT: case AL_BYTE_LENGTH_SOFT: case AL_SAMPLE_LENGTH_SOFT: case AL_UNPACK_BLOCK_ALIGNMENT_SOFT: case AL_PACK_BLOCK_ALIGNMENT_SOFT: alGetBufferi(buffer, param, values); return; } context = GetContextRef(); if(!context) return; device = context->Device; LockBuffersRead(device); if((albuf=LookupBuffer(device, buffer)) == NULL) SET_ERROR_AND_GOTO(context, AL_INVALID_NAME, done); if(!(values)) SET_ERROR_AND_GOTO(context, AL_INVALID_VALUE, done); switch(param) { case AL_LOOP_POINTS_SOFT: ReadLock(&albuf->lock); values[0] = albuf->LoopStart; values[1] = albuf->LoopEnd; ReadUnlock(&albuf->lock); break; default: SET_ERROR_AND_GOTO(context, AL_INVALID_ENUM, done); } done: UnlockBuffersRead(device); ALCcontext_DecRef(context); } /* * LoadData * * Loads the specified data into the buffer, using the specified formats. * Currently, the new format must have the same channel configuration as the * original format. */ ALenum LoadData(ALbuffer *ALBuf, ALuint freq, ALenum NewFormat, ALsizei frames, enum UserFmtChannels SrcChannels, enum UserFmtType SrcType, const ALvoid *data, ALsizei align, ALboolean storesrc) { ALuint NewChannels, NewBytes; enum FmtChannels DstChannels; enum FmtType DstType; ALuint64 newsize; ALvoid *temp; if(DecomposeFormat(NewFormat, &DstChannels, &DstType) == AL_FALSE || (long)SrcChannels != (long)DstChannels) return AL_INVALID_ENUM; NewChannels = ChannelsFromFmt(DstChannels); NewBytes = BytesFromFmt(DstType); newsize = frames; newsize *= NewBytes; newsize *= NewChannels; if(newsize > INT_MAX) return AL_OUT_OF_MEMORY; WriteLock(&ALBuf->lock); if(ReadRef(&ALBuf->ref) != 0) { WriteUnlock(&ALBuf->lock); return AL_INVALID_OPERATION; } temp = realloc(ALBuf->data, (size_t)newsize); if(!temp && newsize) { WriteUnlock(&ALBuf->lock); return AL_OUT_OF_MEMORY; } ALBuf->data = temp; if(data != NULL) ConvertData(ALBuf->data, (enum UserFmtType)DstType, data, SrcType, NewChannels, frames, align); if(storesrc) { ALBuf->OriginalChannels = SrcChannels; ALBuf->OriginalType = SrcType; if(SrcType == UserFmtIMA4) { ALsizei byte_align = ((align-1)/2 + 4) * ChannelsFromUserFmt(SrcChannels); ALBuf->OriginalSize = frames / align * byte_align; ALBuf->OriginalAlign = align; } else if(SrcType == UserFmtMSADPCM) { ALsizei byte_align = ((align-2)/2 + 7) * ChannelsFromUserFmt(SrcChannels); ALBuf->OriginalSize = frames / align * byte_align; ALBuf->OriginalAlign = align; } else { ALBuf->OriginalSize = frames * FrameSizeFromUserFmt(SrcChannels, SrcType); ALBuf->OriginalAlign = 1; } } else { ALBuf->OriginalChannels = (enum UserFmtChannels)DstChannels; ALBuf->OriginalType = (enum UserFmtType)DstType; ALBuf->OriginalSize = frames * NewBytes * NewChannels; ALBuf->OriginalAlign = 1; } ALBuf->Frequency = freq; ALBuf->FmtChannels = DstChannels; ALBuf->FmtType = DstType; ALBuf->Format = NewFormat; ALBuf->SampleLen = frames; ALBuf->LoopStart = 0; ALBuf->LoopEnd = ALBuf->SampleLen; WriteUnlock(&ALBuf->lock); return AL_NO_ERROR; } ALuint BytesFromUserFmt(enum UserFmtType type) { switch(type) { case UserFmtByte: return sizeof(ALbyte); case UserFmtUByte: return sizeof(ALubyte); case UserFmtShort: return sizeof(ALshort); case UserFmtUShort: return sizeof(ALushort); case UserFmtInt: return sizeof(ALint); case UserFmtUInt: return sizeof(ALuint); case UserFmtFloat: return sizeof(ALfloat); case UserFmtDouble: return sizeof(ALdouble); case UserFmtByte3: return sizeof(ALbyte[3]); case UserFmtUByte3: return sizeof(ALubyte[3]); case UserFmtMulaw: return sizeof(ALubyte); case UserFmtAlaw: return sizeof(ALubyte); case UserFmtIMA4: break; /* not handled here */ case UserFmtMSADPCM: break; /* not handled here */ } return 0; } ALuint ChannelsFromUserFmt(enum UserFmtChannels chans) { switch(chans) { case UserFmtMono: return 1; case UserFmtStereo: return 2; case UserFmtRear: return 2; case UserFmtQuad: return 4; case UserFmtX51: return 6; case UserFmtX61: return 7; case UserFmtX71: return 8; case UserFmtBFormat2D: return 3; case UserFmtBFormat3D: return 4; } return 0; } static ALboolean DecomposeUserFormat(ALenum format, enum UserFmtChannels *chans, enum UserFmtType *type) { static const struct { ALenum format; enum UserFmtChannels channels; enum UserFmtType type; } list[] = { { AL_FORMAT_MONO8, UserFmtMono, UserFmtUByte }, { AL_FORMAT_MONO16, UserFmtMono, UserFmtShort }, { AL_FORMAT_MONO_FLOAT32, UserFmtMono, UserFmtFloat }, { AL_FORMAT_MONO_DOUBLE_EXT, UserFmtMono, UserFmtDouble }, { AL_FORMAT_MONO_IMA4, UserFmtMono, UserFmtIMA4 }, { AL_FORMAT_MONO_MSADPCM_SOFT, UserFmtMono, UserFmtMSADPCM }, { AL_FORMAT_MONO_MULAW, UserFmtMono, UserFmtMulaw }, { AL_FORMAT_MONO_ALAW_EXT, UserFmtMono, UserFmtAlaw }, { AL_FORMAT_STEREO8, UserFmtStereo, UserFmtUByte }, { AL_FORMAT_STEREO16, UserFmtStereo, UserFmtShort }, { AL_FORMAT_STEREO_FLOAT32, UserFmtStereo, UserFmtFloat }, { AL_FORMAT_STEREO_DOUBLE_EXT, UserFmtStereo, UserFmtDouble }, { AL_FORMAT_STEREO_IMA4, UserFmtStereo, UserFmtIMA4 }, { AL_FORMAT_STEREO_MSADPCM_SOFT, UserFmtStereo, UserFmtMSADPCM }, { AL_FORMAT_STEREO_MULAW, UserFmtStereo, UserFmtMulaw }, { AL_FORMAT_STEREO_ALAW_EXT, UserFmtStereo, UserFmtAlaw }, { AL_FORMAT_REAR8, UserFmtRear, UserFmtUByte }, { AL_FORMAT_REAR16, UserFmtRear, UserFmtShort }, { AL_FORMAT_REAR32, UserFmtRear, UserFmtFloat }, { AL_FORMAT_REAR_MULAW, UserFmtRear, UserFmtMulaw }, { AL_FORMAT_QUAD8_LOKI, UserFmtQuad, UserFmtUByte }, { AL_FORMAT_QUAD16_LOKI, UserFmtQuad, UserFmtShort }, { AL_FORMAT_QUAD8, UserFmtQuad, UserFmtUByte }, { AL_FORMAT_QUAD16, UserFmtQuad, UserFmtShort }, { AL_FORMAT_QUAD32, UserFmtQuad, UserFmtFloat }, { AL_FORMAT_QUAD_MULAW, UserFmtQuad, UserFmtMulaw }, { AL_FORMAT_51CHN8, UserFmtX51, UserFmtUByte }, { AL_FORMAT_51CHN16, UserFmtX51, UserFmtShort }, { AL_FORMAT_51CHN32, UserFmtX51, UserFmtFloat }, { AL_FORMAT_51CHN_MULAW, UserFmtX51, UserFmtMulaw }, { AL_FORMAT_61CHN8, UserFmtX61, UserFmtUByte }, { AL_FORMAT_61CHN16, UserFmtX61, UserFmtShort }, { AL_FORMAT_61CHN32, UserFmtX61, UserFmtFloat }, { AL_FORMAT_61CHN_MULAW, UserFmtX61, UserFmtMulaw }, { AL_FORMAT_71CHN8, UserFmtX71, UserFmtUByte }, { AL_FORMAT_71CHN16, UserFmtX71, UserFmtShort }, { AL_FORMAT_71CHN32, UserFmtX71, UserFmtFloat }, { AL_FORMAT_71CHN_MULAW, UserFmtX71, UserFmtMulaw }, { AL_FORMAT_BFORMAT2D_8, UserFmtBFormat2D, UserFmtUByte }, { AL_FORMAT_BFORMAT2D_16, UserFmtBFormat2D, UserFmtShort }, { AL_FORMAT_BFORMAT2D_FLOAT32, UserFmtBFormat2D, UserFmtFloat }, { AL_FORMAT_BFORMAT2D_MULAW, UserFmtBFormat2D, UserFmtMulaw }, { AL_FORMAT_BFORMAT3D_8, UserFmtBFormat3D, UserFmtUByte }, { AL_FORMAT_BFORMAT3D_16, UserFmtBFormat3D, UserFmtShort }, { AL_FORMAT_BFORMAT3D_FLOAT32, UserFmtBFormat3D, UserFmtFloat }, { AL_FORMAT_BFORMAT3D_MULAW, UserFmtBFormat3D, UserFmtMulaw }, }; ALuint i; for(i = 0;i < COUNTOF(list);i++) { if(list[i].format == format) { *chans = list[i].channels; *type = list[i].type; return AL_TRUE; } } return AL_FALSE; } ALuint BytesFromFmt(enum FmtType type) { switch(type) { case FmtByte: return sizeof(ALbyte); case FmtShort: return sizeof(ALshort); case FmtFloat: return sizeof(ALfloat); } return 0; } ALuint ChannelsFromFmt(enum FmtChannels chans) { switch(chans) { case FmtMono: return 1; case FmtStereo: return 2; case FmtRear: return 2; case FmtQuad: return 4; case FmtX51: return 6; case FmtX61: return 7; case FmtX71: return 8; case FmtBFormat2D: return 3; case FmtBFormat3D: return 4; } return 0; } static ALboolean DecomposeFormat(ALenum format, enum FmtChannels *chans, enum FmtType *type) { static const struct { ALenum format; enum FmtChannels channels; enum FmtType type; } list[] = { { AL_MONO8_SOFT, FmtMono, FmtByte }, { AL_MONO16_SOFT, FmtMono, FmtShort }, { AL_MONO32F_SOFT, FmtMono, FmtFloat }, { AL_STEREO8_SOFT, FmtStereo, FmtByte }, { AL_STEREO16_SOFT, FmtStereo, FmtShort }, { AL_STEREO32F_SOFT, FmtStereo, FmtFloat }, { AL_REAR8_SOFT, FmtRear, FmtByte }, { AL_REAR16_SOFT, FmtRear, FmtShort }, { AL_REAR32F_SOFT, FmtRear, FmtFloat }, { AL_FORMAT_QUAD8_LOKI, FmtQuad, FmtByte }, { AL_FORMAT_QUAD16_LOKI, FmtQuad, FmtShort }, { AL_QUAD8_SOFT, FmtQuad, FmtByte }, { AL_QUAD16_SOFT, FmtQuad, FmtShort }, { AL_QUAD32F_SOFT, FmtQuad, FmtFloat }, { AL_5POINT1_8_SOFT, FmtX51, FmtByte }, { AL_5POINT1_16_SOFT, FmtX51, FmtShort }, { AL_5POINT1_32F_SOFT, FmtX51, FmtFloat }, { AL_6POINT1_8_SOFT, FmtX61, FmtByte }, { AL_6POINT1_16_SOFT, FmtX61, FmtShort }, { AL_6POINT1_32F_SOFT, FmtX61, FmtFloat }, { AL_7POINT1_8_SOFT, FmtX71, FmtByte }, { AL_7POINT1_16_SOFT, FmtX71, FmtShort }, { AL_7POINT1_32F_SOFT, FmtX71, FmtFloat }, { AL_BFORMAT2D_8_SOFT, FmtBFormat2D, FmtByte }, { AL_BFORMAT2D_16_SOFT, FmtBFormat2D, FmtShort }, { AL_BFORMAT2D_32F_SOFT, FmtBFormat2D, FmtFloat }, { AL_BFORMAT3D_8_SOFT, FmtBFormat3D, FmtByte }, { AL_BFORMAT3D_16_SOFT, FmtBFormat3D, FmtShort }, { AL_BFORMAT3D_32F_SOFT, FmtBFormat3D, FmtFloat }, }; ALuint i; for(i = 0;i < COUNTOF(list);i++) { if(list[i].format == format) { *chans = list[i].channels; *type = list[i].type; return AL_TRUE; } } return AL_FALSE; } static ALboolean SanitizeAlignment(enum UserFmtType type, ALsizei *align) { if(*align < 0) return AL_FALSE; if(*align == 0) { if(type == UserFmtIMA4) { /* Here is where things vary: * nVidia and Apple use 64+1 sample frames per block -> block_size=36 bytes per channel * Most PC sound software uses 2040+1 sample frames per block -> block_size=1024 bytes per channel */ *align = 65; } else if(type == UserFmtMSADPCM) *align = 64; else *align = 1; return AL_TRUE; } if(type == UserFmtIMA4) { /* IMA4 block alignment must be a multiple of 8, plus 1. */ return ((*align)&7) == 1; } if(type == UserFmtMSADPCM) { /* MSADPCM block alignment must be a multiple of 2. */ /* FIXME: Too strict? Might only require align*channels to be a * multiple of 2. */ return ((*align)&1) == 0; } return AL_TRUE; } static ALboolean IsValidType(ALenum type) { switch(type) { case AL_BYTE_SOFT: case AL_UNSIGNED_BYTE_SOFT: case AL_SHORT_SOFT: case AL_UNSIGNED_SHORT_SOFT: case AL_INT_SOFT: case AL_UNSIGNED_INT_SOFT: case AL_FLOAT_SOFT: case AL_DOUBLE_SOFT: case AL_BYTE3_SOFT: case AL_UNSIGNED_BYTE3_SOFT: case AL_MULAW_SOFT: return AL_TRUE; } return AL_FALSE; } static ALboolean IsValidChannels(ALenum channels) { switch(channels) { case AL_MONO_SOFT: case AL_STEREO_SOFT: case AL_REAR_SOFT: case AL_QUAD_SOFT: case AL_5POINT1_SOFT: case AL_6POINT1_SOFT: case AL_7POINT1_SOFT: case AL_BFORMAT2D_SOFT: case AL_BFORMAT3D_SOFT: return AL_TRUE; } return AL_FALSE; } ALbuffer *NewBuffer(ALCcontext *context) { ALCdevice *device = context->Device; ALbuffer *buffer; ALenum err; buffer = calloc(1, sizeof(ALbuffer)); if(!buffer) SET_ERROR_AND_RETURN_VALUE(context, AL_OUT_OF_MEMORY, NULL); RWLockInit(&buffer->lock); err = NewThunkEntry(&buffer->id); if(err == AL_NO_ERROR) err = InsertUIntMapEntry(&device->BufferMap, buffer->id, buffer); if(err != AL_NO_ERROR) { FreeThunkEntry(buffer->id); memset(buffer, 0, sizeof(ALbuffer)); free(buffer); SET_ERROR_AND_RETURN_VALUE(context, err, NULL); } return buffer; } void DeleteBuffer(ALCdevice *device, ALbuffer *buffer) { RemoveBuffer(device, buffer->id); FreeThunkEntry(buffer->id); free(buffer->data); memset(buffer, 0, sizeof(*buffer)); free(buffer); } /* * ReleaseALBuffers() * * INTERNAL: Called to destroy any buffers that still exist on the device */ ALvoid ReleaseALBuffers(ALCdevice *device) { ALsizei i; for(i = 0;i < device->BufferMap.size;i++) { ALbuffer *temp = device->BufferMap.array[i].value; device->BufferMap.array[i].value = NULL; free(temp->data); FreeThunkEntry(temp->id); memset(temp, 0, sizeof(ALbuffer)); free(temp); } }