/** * OpenAL cross platform audio library * Copyright (C) 1999-2000 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. * Or go to http://www.gnu.org/copyleft/lgpl.html */ #include "config.h" #include #include "alMain.h" #include "AL/alc.h" #include "AL/alext.h" #include "alError.h" #include "alSource.h" #include "alState.h" #include "alDatabuffer.h" static const ALchar alVendor[] = "OpenAL Community"; static const ALchar alVersion[] = "1.1 ALSOFT "ALSOFT_VERSION; static const ALchar alRenderer[] = "OpenAL Soft"; // Error Messages static const ALchar alNoError[] = "No Error"; static const ALchar alErrInvalidName[] = "Invalid Name"; static const ALchar alErrInvalidEnum[] = "Invalid Enum"; static const ALchar alErrInvalidValue[] = "Invalid Value"; static const ALchar alErrInvalidOp[] = "Invalid Operation"; static const ALchar alErrOutOfMemory[] = "Out of Memory"; ALAPI ALvoid ALAPIENTRY alEnable(ALenum capability) { ALCcontext *Context; ALboolean updateSources = AL_FALSE; Context = GetContextSuspended(); if(!Context) return; switch(capability) { case AL_SOURCE_DISTANCE_MODEL: Context->SourceDistanceModel = AL_TRUE; updateSources = AL_TRUE; break; default: alSetError(AL_INVALID_ENUM); break; } if(updateSources) { ALsource *source = Context->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alDisable(ALenum capability) { ALCcontext *Context; ALboolean updateSources = AL_FALSE; Context = GetContextSuspended(); if(!Context) return; switch(capability) { case AL_SOURCE_DISTANCE_MODEL: Context->SourceDistanceModel = AL_FALSE; updateSources = AL_TRUE; break; default: alSetError(AL_INVALID_ENUM); break; } if(updateSources) { ALsource *source = Context->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(Context); } ALAPI ALboolean ALAPIENTRY alIsEnabled(ALenum capability) { ALCcontext *Context; ALboolean value=AL_FALSE; Context = GetContextSuspended(); if(!Context) return AL_FALSE; switch(capability) { case AL_SOURCE_DISTANCE_MODEL: value = Context->SourceDistanceModel; break; default: alSetError(AL_INVALID_ENUM); break; } ProcessContext(Context); return value; } ALAPI ALboolean ALAPIENTRY alGetBoolean(ALenum pname) { ALCcontext *Context; ALboolean value=AL_FALSE; Context = GetContextSuspended(); if(!Context) return AL_FALSE; switch(pname) { case AL_DOPPLER_FACTOR: if(Context->DopplerFactor != 0.0f) value = AL_TRUE; break; case AL_DOPPLER_VELOCITY: if(Context->DopplerVelocity != 0.0f) value = AL_TRUE; break; case AL_DISTANCE_MODEL: if(Context->DistanceModel == AL_INVERSE_DISTANCE_CLAMPED) value = AL_TRUE; break; case AL_SPEED_OF_SOUND: if(Context->flSpeedOfSound != 0.0f) value = AL_TRUE; break; default: alSetError(AL_INVALID_ENUM); break; } ProcessContext(Context); return value; } ALAPI ALdouble ALAPIENTRY alGetDouble(ALenum pname) { ALCcontext *Context; ALdouble value = 0.0; Context = GetContextSuspended(); if(!Context) return 0.0; switch(pname) { case AL_DOPPLER_FACTOR: value = (double)Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: value = (double)Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: value = (double)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: value = (double)Context->flSpeedOfSound; break; default: alSetError(AL_INVALID_ENUM); break; } ProcessContext(Context); return value; } ALAPI ALfloat ALAPIENTRY alGetFloat(ALenum pname) { ALCcontext *Context; ALfloat value = 0.0f; Context = GetContextSuspended(); if(!Context) return 0.0f; switch(pname) { case AL_DOPPLER_FACTOR: value = Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: value = Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: value = (float)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: value = Context->flSpeedOfSound; break; default: alSetError(AL_INVALID_ENUM); break; } ProcessContext(Context); return value; } ALAPI ALint ALAPIENTRY alGetInteger(ALenum pname) { ALCcontext *Context; ALint value = 0; Context = GetContextSuspended(); if(!Context) return 0; switch(pname) { case AL_DOPPLER_FACTOR: value = (ALint)Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: value = (ALint)Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: value = (ALint)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: value = (ALint)Context->flSpeedOfSound; break; case AL_SAMPLE_SOURCE_EXT: if(Context->SampleSource) value = (ALint)Context->SampleSource->databuffer; else value = 0; break; case AL_SAMPLE_SINK_EXT: if(Context->SampleSink) value = (ALint)Context->SampleSink->databuffer; else value = 0; break; default: alSetError(AL_INVALID_ENUM); break; } ProcessContext(Context); return value; } ALAPI ALvoid ALAPIENTRY alGetBooleanv(ALenum pname,ALboolean *data) { ALCcontext *Context; Context = GetContextSuspended(); if(!Context) return; if(data) { switch(pname) { case AL_DOPPLER_FACTOR: *data = (ALboolean)((Context->DopplerFactor != 0.0f) ? AL_TRUE : AL_FALSE); break; case AL_DOPPLER_VELOCITY: *data = (ALboolean)((Context->DopplerVelocity != 0.0f) ? AL_TRUE : AL_FALSE); break; case AL_DISTANCE_MODEL: *data = (ALboolean)((Context->DistanceModel == AL_INVERSE_DISTANCE_CLAMPED) ? AL_TRUE : AL_FALSE); break; case AL_SPEED_OF_SOUND: *data = (ALboolean)((Context->flSpeedOfSound != 0.0f) ? AL_TRUE : AL_FALSE); break; default: alSetError(AL_INVALID_ENUM); break; } } else { // data is a NULL pointer alSetError(AL_INVALID_VALUE); } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alGetDoublev(ALenum pname,ALdouble *data) { ALCcontext *Context; Context = GetContextSuspended(); if(!Context) return; if(data) { switch(pname) { case AL_DOPPLER_FACTOR: *data = (double)Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: *data = (double)Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: *data = (double)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: *data = (double)Context->flSpeedOfSound; break; default: alSetError(AL_INVALID_ENUM); break; } } else { // data is a NULL pointer alSetError(AL_INVALID_VALUE); } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alGetFloatv(ALenum pname,ALfloat *data) { ALCcontext *Context; Context = GetContextSuspended(); if(!Context) return; if(data) { switch(pname) { case AL_DOPPLER_FACTOR: *data = Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: *data = Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: *data = (float)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: *data = Context->flSpeedOfSound; break; default: alSetError(AL_INVALID_ENUM); break; } } else { // data is a NULL pointer alSetError(AL_INVALID_VALUE); } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alGetIntegerv(ALenum pname,ALint *data) { ALCcontext *Context; Context = GetContextSuspended(); if(!Context) return; if(data) { switch(pname) { case AL_DOPPLER_FACTOR: *data = (ALint)Context->DopplerFactor; break; case AL_DOPPLER_VELOCITY: *data = (ALint)Context->DopplerVelocity; break; case AL_DISTANCE_MODEL: *data = (ALint)Context->DistanceModel; break; case AL_SPEED_OF_SOUND: *data = (ALint)Context->flSpeedOfSound; break; case AL_SAMPLE_SOURCE_EXT: if(Context->SampleSource) *data = (ALint)Context->SampleSource->databuffer; else *data = 0; break; case AL_SAMPLE_SINK_EXT: if(Context->SampleSink) *data = (ALint)Context->SampleSink->databuffer; else *data = 0; break; default: alSetError(AL_INVALID_ENUM); break; } } else { // data is a NULL pointer alSetError(AL_INVALID_VALUE); } ProcessContext(Context); } ALAPI const ALchar* ALAPIENTRY alGetString(ALenum pname) { const ALchar *value; ALCcontext *pContext; pContext = GetContextSuspended(); if(!pContext) return NULL; switch(pname) { case AL_VENDOR: value=alVendor; break; case AL_VERSION: value=alVersion; break; case AL_RENDERER: value=alRenderer; break; case AL_EXTENSIONS: value=pContext->ExtensionList;//alExtensions; break; case AL_NO_ERROR: value=alNoError; break; case AL_INVALID_NAME: value=alErrInvalidName; break; case AL_INVALID_ENUM: value=alErrInvalidEnum; break; case AL_INVALID_VALUE: value=alErrInvalidValue; break; case AL_INVALID_OPERATION: value=alErrInvalidOp; break; case AL_OUT_OF_MEMORY: value=alErrOutOfMemory; break; default: value=NULL; alSetError(AL_INVALID_ENUM); break; } ProcessContext(pContext); return value; } ALAPI ALvoid ALAPIENTRY alDopplerFactor(ALfloat value) { ALCcontext *Context; ALboolean updateSources = AL_FALSE; Context = GetContextSuspended(); if(!Context) return; if(value >= 0.0f) { Context->DopplerFactor = value; updateSources = AL_TRUE; } else alSetError(AL_INVALID_VALUE); // Force updating the sources for these parameters, since even head- // relative sources are affected if(updateSources) { ALsource *source = Context->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alDopplerVelocity(ALfloat value) { ALCcontext *Context; ALboolean updateSources = AL_FALSE; Context = GetContextSuspended(); if(!Context) return; if(value > 0.0f) { Context->DopplerVelocity=value; updateSources = AL_TRUE; } else alSetError(AL_INVALID_VALUE); if(updateSources) { ALsource *source = Context->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(Context); } ALAPI ALvoid ALAPIENTRY alSpeedOfSound(ALfloat flSpeedOfSound) { ALCcontext *pContext; ALboolean updateSources = AL_FALSE; pContext = GetContextSuspended(); if(!pContext) return; if(flSpeedOfSound > 0.0f) { pContext->flSpeedOfSound = flSpeedOfSound; updateSources = AL_TRUE; } else alSetError(AL_INVALID_VALUE); if(updateSources) { ALsource *source = pContext->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(pContext); } ALAPI ALvoid ALAPIENTRY alDistanceModel(ALenum value) { ALCcontext *Context; ALboolean updateSources = AL_FALSE; Context = GetContextSuspended(); if(!Context) return; switch(value) { case AL_NONE: case AL_INVERSE_DISTANCE: case AL_INVERSE_DISTANCE_CLAMPED: case AL_LINEAR_DISTANCE: case AL_LINEAR_DISTANCE_CLAMPED: case AL_EXPONENT_DISTANCE: case AL_EXPONENT_DISTANCE_CLAMPED: Context->DistanceModel = value; updateSources = !Context->SourceDistanceModel; break; default: alSetError(AL_INVALID_VALUE); break; } if(updateSources) { ALsource *source = Context->Source; while(source) { source->NeedsUpdate = AL_TRUE; source = source->next; } } ProcessContext(Context); }