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antpoms 2025-06-11 16:50:48 +02:00
parent f698a38c7e
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SimpleGame/FMOD/api/core/inc/fmod.cs Normal file
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/* ======================================================================================== */
/* FMOD Core API - C header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header in conjunction with fmod_common.h (which contains all the constants / */
/* callbacks) to develop using the C interface */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api.html */
/* ======================================================================================== */
#ifndef _FMOD_H
#define _FMOD_H
#include "fmod_common.h"
#ifdef __cplusplus
extern "C"
{
#endif
/*
FMOD global system functions (optional).
*/
FMOD_RESULT F_API FMOD_Memory_Initialize (void *poolmem, int poollen, FMOD_MEMORY_ALLOC_CALLBACK useralloc, FMOD_MEMORY_REALLOC_CALLBACK userrealloc, FMOD_MEMORY_FREE_CALLBACK userfree, FMOD_MEMORY_TYPE memtypeflags);
FMOD_RESULT F_API FMOD_Memory_GetStats (int *currentalloced, int *maxalloced, FMOD_BOOL blocking);
FMOD_RESULT F_API FMOD_Debug_Initialize (FMOD_DEBUG_FLAGS flags, FMOD_DEBUG_MODE mode, FMOD_DEBUG_CALLBACK callback, const char *filename);
FMOD_RESULT F_API FMOD_File_SetDiskBusy (int busy);
FMOD_RESULT F_API FMOD_File_GetDiskBusy (int *busy);
FMOD_RESULT F_API FMOD_Thread_SetAttributes (FMOD_THREAD_TYPE type, FMOD_THREAD_AFFINITY affinity, FMOD_THREAD_PRIORITY priority, FMOD_THREAD_STACK_SIZE stacksize);
/*
FMOD System factory functions. Use this to create an FMOD System Instance. below you will see FMOD_System_Init/Close to get started.
*/
FMOD_RESULT F_API FMOD_System_Create (FMOD_SYSTEM **system, unsigned int headerversion);
FMOD_RESULT F_API FMOD_System_Release (FMOD_SYSTEM *system);
/*
'System' API
*/
/* Setup functions. */
FMOD_RESULT F_API FMOD_System_SetOutput (FMOD_SYSTEM *system, FMOD_OUTPUTTYPE output);
FMOD_RESULT F_API FMOD_System_GetOutput (FMOD_SYSTEM *system, FMOD_OUTPUTTYPE *output);
FMOD_RESULT F_API FMOD_System_GetNumDrivers (FMOD_SYSTEM *system, int *numdrivers);
FMOD_RESULT F_API FMOD_System_GetDriverInfo (FMOD_SYSTEM *system, int id, char *name, int namelen, FMOD_GUID *guid, int *systemrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels);
FMOD_RESULT F_API FMOD_System_SetDriver (FMOD_SYSTEM *system, int driver);
FMOD_RESULT F_API FMOD_System_GetDriver (FMOD_SYSTEM *system, int *driver);
FMOD_RESULT F_API FMOD_System_SetSoftwareChannels (FMOD_SYSTEM *system, int numsoftwarechannels);
FMOD_RESULT F_API FMOD_System_GetSoftwareChannels (FMOD_SYSTEM *system, int *numsoftwarechannels);
FMOD_RESULT F_API FMOD_System_SetSoftwareFormat (FMOD_SYSTEM *system, int samplerate, FMOD_SPEAKERMODE speakermode, int numrawspeakers);
FMOD_RESULT F_API FMOD_System_GetSoftwareFormat (FMOD_SYSTEM *system, int *samplerate, FMOD_SPEAKERMODE *speakermode, int *numrawspeakers);
FMOD_RESULT F_API FMOD_System_SetDSPBufferSize (FMOD_SYSTEM *system, unsigned int bufferlength, int numbuffers);
FMOD_RESULT F_API FMOD_System_GetDSPBufferSize (FMOD_SYSTEM *system, unsigned int *bufferlength, int *numbuffers);
FMOD_RESULT F_API FMOD_System_SetFileSystem (FMOD_SYSTEM *system, FMOD_FILE_OPEN_CALLBACK useropen, FMOD_FILE_CLOSE_CALLBACK userclose, FMOD_FILE_READ_CALLBACK userread, FMOD_FILE_SEEK_CALLBACK userseek, FMOD_FILE_ASYNCREAD_CALLBACK userasyncread, FMOD_FILE_ASYNCCANCEL_CALLBACK userasynccancel, int blockalign);
FMOD_RESULT F_API FMOD_System_AttachFileSystem (FMOD_SYSTEM *system, FMOD_FILE_OPEN_CALLBACK useropen, FMOD_FILE_CLOSE_CALLBACK userclose, FMOD_FILE_READ_CALLBACK userread, FMOD_FILE_SEEK_CALLBACK userseek);
FMOD_RESULT F_API FMOD_System_SetAdvancedSettings (FMOD_SYSTEM *system, FMOD_ADVANCEDSETTINGS *settings);
FMOD_RESULT F_API FMOD_System_GetAdvancedSettings (FMOD_SYSTEM *system, FMOD_ADVANCEDSETTINGS *settings);
FMOD_RESULT F_API FMOD_System_SetCallback (FMOD_SYSTEM *system, FMOD_SYSTEM_CALLBACK callback, FMOD_SYSTEM_CALLBACK_TYPE callbackmask);
/* Plug-in support. */
FMOD_RESULT F_API FMOD_System_SetPluginPath (FMOD_SYSTEM *system, const char *path);
FMOD_RESULT F_API FMOD_System_LoadPlugin (FMOD_SYSTEM *system, const char *filename, unsigned int *handle, unsigned int priority);
FMOD_RESULT F_API FMOD_System_UnloadPlugin (FMOD_SYSTEM *system, unsigned int handle);
FMOD_RESULT F_API FMOD_System_GetNumNestedPlugins (FMOD_SYSTEM *system, unsigned int handle, int *count);
FMOD_RESULT F_API FMOD_System_GetNestedPlugin (FMOD_SYSTEM *system, unsigned int handle, int index, unsigned int *nestedhandle);
FMOD_RESULT F_API FMOD_System_GetNumPlugins (FMOD_SYSTEM *system, FMOD_PLUGINTYPE plugintype, int *numplugins);
FMOD_RESULT F_API FMOD_System_GetPluginHandle (FMOD_SYSTEM *system, FMOD_PLUGINTYPE plugintype, int index, unsigned int *handle);
FMOD_RESULT F_API FMOD_System_GetPluginInfo (FMOD_SYSTEM *system, unsigned int handle, FMOD_PLUGINTYPE *plugintype, char *name, int namelen, unsigned int *version);
FMOD_RESULT F_API FMOD_System_SetOutputByPlugin (FMOD_SYSTEM *system, unsigned int handle);
FMOD_RESULT F_API FMOD_System_GetOutputByPlugin (FMOD_SYSTEM *system, unsigned int *handle);
FMOD_RESULT F_API FMOD_System_CreateDSPByPlugin (FMOD_SYSTEM *system, unsigned int handle, FMOD_DSP **dsp);
FMOD_RESULT F_API FMOD_System_GetDSPInfoByPlugin (FMOD_SYSTEM *system, unsigned int handle, const FMOD_DSP_DESCRIPTION **description);
FMOD_RESULT F_API FMOD_System_RegisterCodec (FMOD_SYSTEM *system, FMOD_CODEC_DESCRIPTION *description, unsigned int *handle, unsigned int priority);
FMOD_RESULT F_API FMOD_System_RegisterDSP (FMOD_SYSTEM *system, const FMOD_DSP_DESCRIPTION *description, unsigned int *handle);
FMOD_RESULT F_API FMOD_System_RegisterOutput (FMOD_SYSTEM *system, const FMOD_OUTPUT_DESCRIPTION *description, unsigned int *handle);
/* Init/Close. */
FMOD_RESULT F_API FMOD_System_Init (FMOD_SYSTEM *system, int maxchannels, FMOD_INITFLAGS flags, void *extradriverdata);
FMOD_RESULT F_API FMOD_System_Close (FMOD_SYSTEM *system);
/* General post-init system functions. */
FMOD_RESULT F_API FMOD_System_Update (FMOD_SYSTEM *system);
FMOD_RESULT F_API FMOD_System_SetSpeakerPosition (FMOD_SYSTEM *system, FMOD_SPEAKER speaker, float x, float y, FMOD_BOOL active);
FMOD_RESULT F_API FMOD_System_GetSpeakerPosition (FMOD_SYSTEM *system, FMOD_SPEAKER speaker, float *x, float *y, FMOD_BOOL *active);
FMOD_RESULT F_API FMOD_System_SetStreamBufferSize (FMOD_SYSTEM *system, unsigned int filebuffersize, FMOD_TIMEUNIT filebuffersizetype);
FMOD_RESULT F_API FMOD_System_GetStreamBufferSize (FMOD_SYSTEM *system, unsigned int *filebuffersize, FMOD_TIMEUNIT *filebuffersizetype);
FMOD_RESULT F_API FMOD_System_Set3DSettings (FMOD_SYSTEM *system, float dopplerscale, float distancefactor, float rolloffscale);
FMOD_RESULT F_API FMOD_System_Get3DSettings (FMOD_SYSTEM *system, float *dopplerscale, float *distancefactor, float *rolloffscale);
FMOD_RESULT F_API FMOD_System_Set3DNumListeners (FMOD_SYSTEM *system, int numlisteners);
FMOD_RESULT F_API FMOD_System_Get3DNumListeners (FMOD_SYSTEM *system, int *numlisteners);
FMOD_RESULT F_API FMOD_System_Set3DListenerAttributes (FMOD_SYSTEM *system, int listener, const FMOD_VECTOR *pos, const FMOD_VECTOR *vel, const FMOD_VECTOR *forward, const FMOD_VECTOR *up);
FMOD_RESULT F_API FMOD_System_Get3DListenerAttributes (FMOD_SYSTEM *system, int listener, FMOD_VECTOR *pos, FMOD_VECTOR *vel, FMOD_VECTOR *forward, FMOD_VECTOR *up);
FMOD_RESULT F_API FMOD_System_Set3DRolloffCallback (FMOD_SYSTEM *system, FMOD_3D_ROLLOFF_CALLBACK callback);
FMOD_RESULT F_API FMOD_System_MixerSuspend (FMOD_SYSTEM *system);
FMOD_RESULT F_API FMOD_System_MixerResume (FMOD_SYSTEM *system);
FMOD_RESULT F_API FMOD_System_GetDefaultMixMatrix (FMOD_SYSTEM *system, FMOD_SPEAKERMODE sourcespeakermode, FMOD_SPEAKERMODE targetspeakermode, float *matrix, int matrixhop);
FMOD_RESULT F_API FMOD_System_GetSpeakerModeChannels (FMOD_SYSTEM *system, FMOD_SPEAKERMODE mode, int *channels);
/* System information functions. */
FMOD_RESULT F_API FMOD_System_GetVersion (FMOD_SYSTEM *system, unsigned int *version, unsigned int *buildnumber);
FMOD_RESULT F_API FMOD_System_GetOutputHandle (FMOD_SYSTEM *system, void **handle);
FMOD_RESULT F_API FMOD_System_GetChannelsPlaying (FMOD_SYSTEM *system, int *channels, int *realchannels);
FMOD_RESULT F_API FMOD_System_GetCPUUsage (FMOD_SYSTEM *system, FMOD_CPU_USAGE *usage);
FMOD_RESULT F_API FMOD_System_GetFileUsage (FMOD_SYSTEM *system, long long *sampleBytesRead, long long *streamBytesRead, long long *otherBytesRead);
/* Sound/DSP/Channel/FX creation and retrieval. */
FMOD_RESULT F_API FMOD_System_CreateSound (FMOD_SYSTEM *system, const char *name_or_data, FMOD_MODE mode, FMOD_CREATESOUNDEXINFO *exinfo, FMOD_SOUND **sound);
FMOD_RESULT F_API FMOD_System_CreateStream (FMOD_SYSTEM *system, const char *name_or_data, FMOD_MODE mode, FMOD_CREATESOUNDEXINFO *exinfo, FMOD_SOUND **sound);
FMOD_RESULT F_API FMOD_System_CreateDSP (FMOD_SYSTEM *system, const FMOD_DSP_DESCRIPTION *description, FMOD_DSP **dsp);
FMOD_RESULT F_API FMOD_System_CreateDSPByType (FMOD_SYSTEM *system, FMOD_DSP_TYPE type, FMOD_DSP **dsp);
FMOD_RESULT F_API FMOD_System_CreateChannelGroup (FMOD_SYSTEM *system, const char *name, FMOD_CHANNELGROUP **channelgroup);
FMOD_RESULT F_API FMOD_System_CreateSoundGroup (FMOD_SYSTEM *system, const char *name, FMOD_SOUNDGROUP **soundgroup);
FMOD_RESULT F_API FMOD_System_CreateReverb3D (FMOD_SYSTEM *system, FMOD_REVERB3D **reverb);
FMOD_RESULT F_API FMOD_System_PlaySound (FMOD_SYSTEM *system, FMOD_SOUND *sound, FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL paused, FMOD_CHANNEL **channel);
FMOD_RESULT F_API FMOD_System_PlayDSP (FMOD_SYSTEM *system, FMOD_DSP *dsp, FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL paused, FMOD_CHANNEL **channel);
FMOD_RESULT F_API FMOD_System_GetChannel (FMOD_SYSTEM *system, int channelid, FMOD_CHANNEL **channel);
FMOD_RESULT F_API FMOD_System_GetDSPInfoByType (FMOD_SYSTEM *system, FMOD_DSP_TYPE type, const FMOD_DSP_DESCRIPTION **description);
FMOD_RESULT F_API FMOD_System_GetMasterChannelGroup (FMOD_SYSTEM *system, FMOD_CHANNELGROUP **channelgroup);
FMOD_RESULT F_API FMOD_System_GetMasterSoundGroup (FMOD_SYSTEM *system, FMOD_SOUNDGROUP **soundgroup);
/* Routing to ports. */
FMOD_RESULT F_API FMOD_System_AttachChannelGroupToPort (FMOD_SYSTEM *system, FMOD_PORT_TYPE portType, FMOD_PORT_INDEX portIndex, FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL passThru);
FMOD_RESULT F_API FMOD_System_DetachChannelGroupFromPort(FMOD_SYSTEM *system, FMOD_CHANNELGROUP *channelgroup);
/* Reverb API. */
FMOD_RESULT F_API FMOD_System_SetReverbProperties (FMOD_SYSTEM *system, int instance, const FMOD_REVERB_PROPERTIES *prop);
FMOD_RESULT F_API FMOD_System_GetReverbProperties (FMOD_SYSTEM *system, int instance, FMOD_REVERB_PROPERTIES *prop);
/* System level DSP functionality. */
FMOD_RESULT F_API FMOD_System_LockDSP (FMOD_SYSTEM *system);
FMOD_RESULT F_API FMOD_System_UnlockDSP (FMOD_SYSTEM *system);
/* Recording API. */
FMOD_RESULT F_API FMOD_System_GetRecordNumDrivers (FMOD_SYSTEM *system, int *numdrivers, int *numconnected);
FMOD_RESULT F_API FMOD_System_GetRecordDriverInfo (FMOD_SYSTEM *system, int id, char *name, int namelen, FMOD_GUID *guid, int *systemrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels, FMOD_DRIVER_STATE *state);
FMOD_RESULT F_API FMOD_System_GetRecordPosition (FMOD_SYSTEM *system, int id, unsigned int *position);
FMOD_RESULT F_API FMOD_System_RecordStart (FMOD_SYSTEM *system, int id, FMOD_SOUND *sound, FMOD_BOOL loop);
FMOD_RESULT F_API FMOD_System_RecordStop (FMOD_SYSTEM *system, int id);
FMOD_RESULT F_API FMOD_System_IsRecording (FMOD_SYSTEM *system, int id, FMOD_BOOL *recording);
/* Geometry API. */
FMOD_RESULT F_API FMOD_System_CreateGeometry (FMOD_SYSTEM *system, int maxpolygons, int maxvertices, FMOD_GEOMETRY **geometry);
FMOD_RESULT F_API FMOD_System_SetGeometrySettings (FMOD_SYSTEM *system, float maxworldsize);
FMOD_RESULT F_API FMOD_System_GetGeometrySettings (FMOD_SYSTEM *system, float *maxworldsize);
FMOD_RESULT F_API FMOD_System_LoadGeometry (FMOD_SYSTEM *system, const void *data, int datasize, FMOD_GEOMETRY **geometry);
FMOD_RESULT F_API FMOD_System_GetGeometryOcclusion (FMOD_SYSTEM *system, const FMOD_VECTOR *listener, const FMOD_VECTOR *source, float *direct, float *reverb);
/* Network functions. */
FMOD_RESULT F_API FMOD_System_SetNetworkProxy (FMOD_SYSTEM *system, const char *proxy);
FMOD_RESULT F_API FMOD_System_GetNetworkProxy (FMOD_SYSTEM *system, char *proxy, int proxylen);
FMOD_RESULT F_API FMOD_System_SetNetworkTimeout (FMOD_SYSTEM *system, int timeout);
FMOD_RESULT F_API FMOD_System_GetNetworkTimeout (FMOD_SYSTEM *system, int *timeout);
/* Userdata set/get. */
FMOD_RESULT F_API FMOD_System_SetUserData (FMOD_SYSTEM *system, void *userdata);
FMOD_RESULT F_API FMOD_System_GetUserData (FMOD_SYSTEM *system, void **userdata);
/* Sound API
*/
FMOD_RESULT F_API FMOD_Sound_Release (FMOD_SOUND *sound);
FMOD_RESULT F_API FMOD_Sound_GetSystemObject (FMOD_SOUND *sound, FMOD_SYSTEM **system);
/*
Standard sound manipulation functions.
*/
FMOD_RESULT F_API FMOD_Sound_Lock (FMOD_SOUND *sound, unsigned int offset, unsigned int length, void **ptr1, void **ptr2, unsigned int *len1, unsigned int *len2);
FMOD_RESULT F_API FMOD_Sound_Unlock (FMOD_SOUND *sound, void *ptr1, void *ptr2, unsigned int len1, unsigned int len2);
FMOD_RESULT F_API FMOD_Sound_SetDefaults (FMOD_SOUND *sound, float frequency, int priority);
FMOD_RESULT F_API FMOD_Sound_GetDefaults (FMOD_SOUND *sound, float *frequency, int *priority);
FMOD_RESULT F_API FMOD_Sound_Set3DMinMaxDistance (FMOD_SOUND *sound, float min, float max);
FMOD_RESULT F_API FMOD_Sound_Get3DMinMaxDistance (FMOD_SOUND *sound, float *min, float *max);
FMOD_RESULT F_API FMOD_Sound_Set3DConeSettings (FMOD_SOUND *sound, float insideconeangle, float outsideconeangle, float outsidevolume);
FMOD_RESULT F_API FMOD_Sound_Get3DConeSettings (FMOD_SOUND *sound, float *insideconeangle, float *outsideconeangle, float *outsidevolume);
FMOD_RESULT F_API FMOD_Sound_Set3DCustomRolloff (FMOD_SOUND *sound, FMOD_VECTOR *points, int numpoints);
FMOD_RESULT F_API FMOD_Sound_Get3DCustomRolloff (FMOD_SOUND *sound, FMOD_VECTOR **points, int *numpoints);
FMOD_RESULT F_API FMOD_Sound_GetSubSound (FMOD_SOUND *sound, int index, FMOD_SOUND **subsound);
FMOD_RESULT F_API FMOD_Sound_GetSubSoundParent (FMOD_SOUND *sound, FMOD_SOUND **parentsound);
FMOD_RESULT F_API FMOD_Sound_GetName (FMOD_SOUND *sound, char *name, int namelen);
FMOD_RESULT F_API FMOD_Sound_GetLength (FMOD_SOUND *sound, unsigned int *length, FMOD_TIMEUNIT lengthtype);
FMOD_RESULT F_API FMOD_Sound_GetFormat (FMOD_SOUND *sound, FMOD_SOUND_TYPE *type, FMOD_SOUND_FORMAT *format, int *channels, int *bits);
FMOD_RESULT F_API FMOD_Sound_GetNumSubSounds (FMOD_SOUND *sound, int *numsubsounds);
FMOD_RESULT F_API FMOD_Sound_GetNumTags (FMOD_SOUND *sound, int *numtags, int *numtagsupdated);
FMOD_RESULT F_API FMOD_Sound_GetTag (FMOD_SOUND *sound, const char *name, int index, FMOD_TAG *tag);
FMOD_RESULT F_API FMOD_Sound_GetOpenState (FMOD_SOUND *sound, FMOD_OPENSTATE *openstate, unsigned int *percentbuffered, FMOD_BOOL *starving, FMOD_BOOL *diskbusy);
FMOD_RESULT F_API FMOD_Sound_ReadData (FMOD_SOUND *sound, void *buffer, unsigned int length, unsigned int *read);
FMOD_RESULT F_API FMOD_Sound_SeekData (FMOD_SOUND *sound, unsigned int pcm);
FMOD_RESULT F_API FMOD_Sound_SetSoundGroup (FMOD_SOUND *sound, FMOD_SOUNDGROUP *soundgroup);
FMOD_RESULT F_API FMOD_Sound_GetSoundGroup (FMOD_SOUND *sound, FMOD_SOUNDGROUP **soundgroup);
/*
Synchronization point API. These points can come from markers embedded in wav files, and can also generate channel callbacks.
*/
FMOD_RESULT F_API FMOD_Sound_GetNumSyncPoints (FMOD_SOUND *sound, int *numsyncpoints);
FMOD_RESULT F_API FMOD_Sound_GetSyncPoint (FMOD_SOUND *sound, int index, FMOD_SYNCPOINT **point);
FMOD_RESULT F_API FMOD_Sound_GetSyncPointInfo (FMOD_SOUND *sound, FMOD_SYNCPOINT *point, char *name, int namelen, unsigned int *offset, FMOD_TIMEUNIT offsettype);
FMOD_RESULT F_API FMOD_Sound_AddSyncPoint (FMOD_SOUND *sound, unsigned int offset, FMOD_TIMEUNIT offsettype, const char *name, FMOD_SYNCPOINT **point);
FMOD_RESULT F_API FMOD_Sound_DeleteSyncPoint (FMOD_SOUND *sound, FMOD_SYNCPOINT *point);
/*
Functions also in Channel class but here they are the 'default' to save having to change it in Channel all the time.
*/
FMOD_RESULT F_API FMOD_Sound_SetMode (FMOD_SOUND *sound, FMOD_MODE mode);
FMOD_RESULT F_API FMOD_Sound_GetMode (FMOD_SOUND *sound, FMOD_MODE *mode);
FMOD_RESULT F_API FMOD_Sound_SetLoopCount (FMOD_SOUND *sound, int loopcount);
FMOD_RESULT F_API FMOD_Sound_GetLoopCount (FMOD_SOUND *sound, int *loopcount);
FMOD_RESULT F_API FMOD_Sound_SetLoopPoints (FMOD_SOUND *sound, unsigned int loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int loopend, FMOD_TIMEUNIT loopendtype);
FMOD_RESULT F_API FMOD_Sound_GetLoopPoints (FMOD_SOUND *sound, unsigned int *loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int *loopend, FMOD_TIMEUNIT loopendtype);
/*
For MOD/S3M/XM/IT/MID sequenced formats only.
*/
FMOD_RESULT F_API FMOD_Sound_GetMusicNumChannels (FMOD_SOUND *sound, int *numchannels);
FMOD_RESULT F_API FMOD_Sound_SetMusicChannelVolume (FMOD_SOUND *sound, int channel, float volume);
FMOD_RESULT F_API FMOD_Sound_GetMusicChannelVolume (FMOD_SOUND *sound, int channel, float *volume);
FMOD_RESULT F_API FMOD_Sound_SetMusicSpeed (FMOD_SOUND *sound, float speed);
FMOD_RESULT F_API FMOD_Sound_GetMusicSpeed (FMOD_SOUND *sound, float *speed);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_Sound_SetUserData (FMOD_SOUND *sound, void *userdata);
FMOD_RESULT F_API FMOD_Sound_GetUserData (FMOD_SOUND *sound, void **userdata);
/*
'Channel' API
*/
FMOD_RESULT F_API FMOD_Channel_GetSystemObject (FMOD_CHANNEL *channel, FMOD_SYSTEM **system);
/*
General control functionality for Channels and ChannelGroups.
*/
FMOD_RESULT F_API FMOD_Channel_Stop (FMOD_CHANNEL *channel);
FMOD_RESULT F_API FMOD_Channel_SetPaused (FMOD_CHANNEL *channel, FMOD_BOOL paused);
FMOD_RESULT F_API FMOD_Channel_GetPaused (FMOD_CHANNEL *channel, FMOD_BOOL *paused);
FMOD_RESULT F_API FMOD_Channel_SetVolume (FMOD_CHANNEL *channel, float volume);
FMOD_RESULT F_API FMOD_Channel_GetVolume (FMOD_CHANNEL *channel, float *volume);
FMOD_RESULT F_API FMOD_Channel_SetVolumeRamp (FMOD_CHANNEL *channel, FMOD_BOOL ramp);
FMOD_RESULT F_API FMOD_Channel_GetVolumeRamp (FMOD_CHANNEL *channel, FMOD_BOOL *ramp);
FMOD_RESULT F_API FMOD_Channel_GetAudibility (FMOD_CHANNEL *channel, float *audibility);
FMOD_RESULT F_API FMOD_Channel_SetPitch (FMOD_CHANNEL *channel, float pitch);
FMOD_RESULT F_API FMOD_Channel_GetPitch (FMOD_CHANNEL *channel, float *pitch);
FMOD_RESULT F_API FMOD_Channel_SetMute (FMOD_CHANNEL *channel, FMOD_BOOL mute);
FMOD_RESULT F_API FMOD_Channel_GetMute (FMOD_CHANNEL *channel, FMOD_BOOL *mute);
FMOD_RESULT F_API FMOD_Channel_SetReverbProperties (FMOD_CHANNEL *channel, int instance, float wet);
FMOD_RESULT F_API FMOD_Channel_GetReverbProperties (FMOD_CHANNEL *channel, int instance, float *wet);
FMOD_RESULT F_API FMOD_Channel_SetLowPassGain (FMOD_CHANNEL *channel, float gain);
FMOD_RESULT F_API FMOD_Channel_GetLowPassGain (FMOD_CHANNEL *channel, float *gain);
FMOD_RESULT F_API FMOD_Channel_SetMode (FMOD_CHANNEL *channel, FMOD_MODE mode);
FMOD_RESULT F_API FMOD_Channel_GetMode (FMOD_CHANNEL *channel, FMOD_MODE *mode);
FMOD_RESULT F_API FMOD_Channel_SetCallback (FMOD_CHANNEL *channel, FMOD_CHANNELCONTROL_CALLBACK callback);
FMOD_RESULT F_API FMOD_Channel_IsPlaying (FMOD_CHANNEL *channel, FMOD_BOOL *isplaying);
/*
Note all 'set' functions alter a final matrix, this is why the only get function is getMixMatrix, to avoid other get functions returning incorrect/obsolete values.
*/
FMOD_RESULT F_API FMOD_Channel_SetPan (FMOD_CHANNEL *channel, float pan);
FMOD_RESULT F_API FMOD_Channel_SetMixLevelsOutput (FMOD_CHANNEL *channel, float frontleft, float frontright, float center, float lfe, float surroundleft, float surroundright, float backleft, float backright);
FMOD_RESULT F_API FMOD_Channel_SetMixLevelsInput (FMOD_CHANNEL *channel, float *levels, int numlevels);
FMOD_RESULT F_API FMOD_Channel_SetMixMatrix (FMOD_CHANNEL *channel, float *matrix, int outchannels, int inchannels, int inchannel_hop);
FMOD_RESULT F_API FMOD_Channel_GetMixMatrix (FMOD_CHANNEL *channel, float *matrix, int *outchannels, int *inchannels, int inchannel_hop);
/*
Clock based functionality.
*/
FMOD_RESULT F_API FMOD_Channel_GetDSPClock (FMOD_CHANNEL *channel, unsigned long long *dspclock, unsigned long long *parentclock);
FMOD_RESULT F_API FMOD_Channel_SetDelay (FMOD_CHANNEL *channel, unsigned long long dspclock_start, unsigned long long dspclock_end, FMOD_BOOL stopchannels);
FMOD_RESULT F_API FMOD_Channel_GetDelay (FMOD_CHANNEL *channel, unsigned long long *dspclock_start, unsigned long long *dspclock_end, FMOD_BOOL *stopchannels);
FMOD_RESULT F_API FMOD_Channel_AddFadePoint (FMOD_CHANNEL *channel, unsigned long long dspclock, float volume);
FMOD_RESULT F_API FMOD_Channel_SetFadePointRamp (FMOD_CHANNEL *channel, unsigned long long dspclock, float volume);
FMOD_RESULT F_API FMOD_Channel_RemoveFadePoints (FMOD_CHANNEL *channel, unsigned long long dspclock_start, unsigned long long dspclock_end);
FMOD_RESULT F_API FMOD_Channel_GetFadePoints (FMOD_CHANNEL *channel, unsigned int *numpoints, unsigned long long *point_dspclock, float *point_volume);
/*
DSP effects.
*/
FMOD_RESULT F_API FMOD_Channel_GetDSP (FMOD_CHANNEL *channel, int index, FMOD_DSP **dsp);
FMOD_RESULT F_API FMOD_Channel_AddDSP (FMOD_CHANNEL *channel, int index, FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_Channel_RemoveDSP (FMOD_CHANNEL *channel, FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_Channel_GetNumDSPs (FMOD_CHANNEL *channel, int *numdsps);
FMOD_RESULT F_API FMOD_Channel_SetDSPIndex (FMOD_CHANNEL *channel, FMOD_DSP *dsp, int index);
FMOD_RESULT F_API FMOD_Channel_GetDSPIndex (FMOD_CHANNEL *channel, FMOD_DSP *dsp, int *index);
/*
3D functionality.
*/
FMOD_RESULT F_API FMOD_Channel_Set3DAttributes (FMOD_CHANNEL *channel, const FMOD_VECTOR *pos, const FMOD_VECTOR *vel);
FMOD_RESULT F_API FMOD_Channel_Get3DAttributes (FMOD_CHANNEL *channel, FMOD_VECTOR *pos, FMOD_VECTOR *vel);
FMOD_RESULT F_API FMOD_Channel_Set3DMinMaxDistance (FMOD_CHANNEL *channel, float mindistance, float maxdistance);
FMOD_RESULT F_API FMOD_Channel_Get3DMinMaxDistance (FMOD_CHANNEL *channel, float *mindistance, float *maxdistance);
FMOD_RESULT F_API FMOD_Channel_Set3DConeSettings (FMOD_CHANNEL *channel, float insideconeangle, float outsideconeangle, float outsidevolume);
FMOD_RESULT F_API FMOD_Channel_Get3DConeSettings (FMOD_CHANNEL *channel, float *insideconeangle, float *outsideconeangle, float *outsidevolume);
FMOD_RESULT F_API FMOD_Channel_Set3DConeOrientation (FMOD_CHANNEL *channel, FMOD_VECTOR *orientation);
FMOD_RESULT F_API FMOD_Channel_Get3DConeOrientation (FMOD_CHANNEL *channel, FMOD_VECTOR *orientation);
FMOD_RESULT F_API FMOD_Channel_Set3DCustomRolloff (FMOD_CHANNEL *channel, FMOD_VECTOR *points, int numpoints);
FMOD_RESULT F_API FMOD_Channel_Get3DCustomRolloff (FMOD_CHANNEL *channel, FMOD_VECTOR **points, int *numpoints);
FMOD_RESULT F_API FMOD_Channel_Set3DOcclusion (FMOD_CHANNEL *channel, float directocclusion, float reverbocclusion);
FMOD_RESULT F_API FMOD_Channel_Get3DOcclusion (FMOD_CHANNEL *channel, float *directocclusion, float *reverbocclusion);
FMOD_RESULT F_API FMOD_Channel_Set3DSpread (FMOD_CHANNEL *channel, float angle);
FMOD_RESULT F_API FMOD_Channel_Get3DSpread (FMOD_CHANNEL *channel, float *angle);
FMOD_RESULT F_API FMOD_Channel_Set3DLevel (FMOD_CHANNEL *channel, float level);
FMOD_RESULT F_API FMOD_Channel_Get3DLevel (FMOD_CHANNEL *channel, float *level);
FMOD_RESULT F_API FMOD_Channel_Set3DDopplerLevel (FMOD_CHANNEL *channel, float level);
FMOD_RESULT F_API FMOD_Channel_Get3DDopplerLevel (FMOD_CHANNEL *channel, float *level);
FMOD_RESULT F_API FMOD_Channel_Set3DDistanceFilter (FMOD_CHANNEL *channel, FMOD_BOOL custom, float customLevel, float centerFreq);
FMOD_RESULT F_API FMOD_Channel_Get3DDistanceFilter (FMOD_CHANNEL *channel, FMOD_BOOL *custom, float *customLevel, float *centerFreq);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_Channel_SetUserData (FMOD_CHANNEL *channel, void *userdata);
FMOD_RESULT F_API FMOD_Channel_GetUserData (FMOD_CHANNEL *channel, void **userdata);
/*
Channel specific control functionality.
*/
FMOD_RESULT F_API FMOD_Channel_SetFrequency (FMOD_CHANNEL *channel, float frequency);
FMOD_RESULT F_API FMOD_Channel_GetFrequency (FMOD_CHANNEL *channel, float *frequency);
FMOD_RESULT F_API FMOD_Channel_SetPriority (FMOD_CHANNEL *channel, int priority);
FMOD_RESULT F_API FMOD_Channel_GetPriority (FMOD_CHANNEL *channel, int *priority);
FMOD_RESULT F_API FMOD_Channel_SetPosition (FMOD_CHANNEL *channel, unsigned int position, FMOD_TIMEUNIT postype);
FMOD_RESULT F_API FMOD_Channel_GetPosition (FMOD_CHANNEL *channel, unsigned int *position, FMOD_TIMEUNIT postype);
FMOD_RESULT F_API FMOD_Channel_SetChannelGroup (FMOD_CHANNEL *channel, FMOD_CHANNELGROUP *channelgroup);
FMOD_RESULT F_API FMOD_Channel_GetChannelGroup (FMOD_CHANNEL *channel, FMOD_CHANNELGROUP **channelgroup);
FMOD_RESULT F_API FMOD_Channel_SetLoopCount (FMOD_CHANNEL *channel, int loopcount);
FMOD_RESULT F_API FMOD_Channel_GetLoopCount (FMOD_CHANNEL *channel, int *loopcount);
FMOD_RESULT F_API FMOD_Channel_SetLoopPoints (FMOD_CHANNEL *channel, unsigned int loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int loopend, FMOD_TIMEUNIT loopendtype);
FMOD_RESULT F_API FMOD_Channel_GetLoopPoints (FMOD_CHANNEL *channel, unsigned int *loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int *loopend, FMOD_TIMEUNIT loopendtype);
/*
Information only functions.
*/
FMOD_RESULT F_API FMOD_Channel_IsVirtual (FMOD_CHANNEL *channel, FMOD_BOOL *isvirtual);
FMOD_RESULT F_API FMOD_Channel_GetCurrentSound (FMOD_CHANNEL *channel, FMOD_SOUND **sound);
FMOD_RESULT F_API FMOD_Channel_GetIndex (FMOD_CHANNEL *channel, int *index);
/*
'ChannelGroup' API
*/
FMOD_RESULT F_API FMOD_ChannelGroup_GetSystemObject (FMOD_CHANNELGROUP *channelgroup, FMOD_SYSTEM **system);
/*
General control functionality for Channels and ChannelGroups.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_Stop (FMOD_CHANNELGROUP *channelgroup);
FMOD_RESULT F_API FMOD_ChannelGroup_SetPaused (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL paused);
FMOD_RESULT F_API FMOD_ChannelGroup_GetPaused (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL *paused);
FMOD_RESULT F_API FMOD_ChannelGroup_SetVolume (FMOD_CHANNELGROUP *channelgroup, float volume);
FMOD_RESULT F_API FMOD_ChannelGroup_GetVolume (FMOD_CHANNELGROUP *channelgroup, float *volume);
FMOD_RESULT F_API FMOD_ChannelGroup_SetVolumeRamp (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL ramp);
FMOD_RESULT F_API FMOD_ChannelGroup_GetVolumeRamp (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL *ramp);
FMOD_RESULT F_API FMOD_ChannelGroup_GetAudibility (FMOD_CHANNELGROUP *channelgroup, float *audibility);
FMOD_RESULT F_API FMOD_ChannelGroup_SetPitch (FMOD_CHANNELGROUP *channelgroup, float pitch);
FMOD_RESULT F_API FMOD_ChannelGroup_GetPitch (FMOD_CHANNELGROUP *channelgroup, float *pitch);
FMOD_RESULT F_API FMOD_ChannelGroup_SetMute (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL mute);
FMOD_RESULT F_API FMOD_ChannelGroup_GetMute (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL *mute);
FMOD_RESULT F_API FMOD_ChannelGroup_SetReverbProperties (FMOD_CHANNELGROUP *channelgroup, int instance, float wet);
FMOD_RESULT F_API FMOD_ChannelGroup_GetReverbProperties (FMOD_CHANNELGROUP *channelgroup, int instance, float *wet);
FMOD_RESULT F_API FMOD_ChannelGroup_SetLowPassGain (FMOD_CHANNELGROUP *channelgroup, float gain);
FMOD_RESULT F_API FMOD_ChannelGroup_GetLowPassGain (FMOD_CHANNELGROUP *channelgroup, float *gain);
FMOD_RESULT F_API FMOD_ChannelGroup_SetMode (FMOD_CHANNELGROUP *channelgroup, FMOD_MODE mode);
FMOD_RESULT F_API FMOD_ChannelGroup_GetMode (FMOD_CHANNELGROUP *channelgroup, FMOD_MODE *mode);
FMOD_RESULT F_API FMOD_ChannelGroup_SetCallback (FMOD_CHANNELGROUP *channelgroup, FMOD_CHANNELCONTROL_CALLBACK callback);
FMOD_RESULT F_API FMOD_ChannelGroup_IsPlaying (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL *isplaying);
/*
Note all 'set' functions alter a final matrix, this is why the only get function is getMixMatrix, to avoid other get functions returning incorrect/obsolete values.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_SetPan (FMOD_CHANNELGROUP *channelgroup, float pan);
FMOD_RESULT F_API FMOD_ChannelGroup_SetMixLevelsOutput (FMOD_CHANNELGROUP *channelgroup, float frontleft, float frontright, float center, float lfe, float surroundleft, float surroundright, float backleft, float backright);
FMOD_RESULT F_API FMOD_ChannelGroup_SetMixLevelsInput (FMOD_CHANNELGROUP *channelgroup, float *levels, int numlevels);
FMOD_RESULT F_API FMOD_ChannelGroup_SetMixMatrix (FMOD_CHANNELGROUP *channelgroup, float *matrix, int outchannels, int inchannels, int inchannel_hop);
FMOD_RESULT F_API FMOD_ChannelGroup_GetMixMatrix (FMOD_CHANNELGROUP *channelgroup, float *matrix, int *outchannels, int *inchannels, int inchannel_hop);
/*
Clock based functionality.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_GetDSPClock (FMOD_CHANNELGROUP *channelgroup, unsigned long long *dspclock, unsigned long long *parentclock);
FMOD_RESULT F_API FMOD_ChannelGroup_SetDelay (FMOD_CHANNELGROUP *channelgroup, unsigned long long dspclock_start, unsigned long long dspclock_end, FMOD_BOOL stopchannels);
FMOD_RESULT F_API FMOD_ChannelGroup_GetDelay (FMOD_CHANNELGROUP *channelgroup, unsigned long long *dspclock_start, unsigned long long *dspclock_end, FMOD_BOOL *stopchannels);
FMOD_RESULT F_API FMOD_ChannelGroup_AddFadePoint (FMOD_CHANNELGROUP *channelgroup, unsigned long long dspclock, float volume);
FMOD_RESULT F_API FMOD_ChannelGroup_SetFadePointRamp (FMOD_CHANNELGROUP *channelgroup, unsigned long long dspclock, float volume);
FMOD_RESULT F_API FMOD_ChannelGroup_RemoveFadePoints (FMOD_CHANNELGROUP *channelgroup, unsigned long long dspclock_start, unsigned long long dspclock_end);
FMOD_RESULT F_API FMOD_ChannelGroup_GetFadePoints (FMOD_CHANNELGROUP *channelgroup, unsigned int *numpoints, unsigned long long *point_dspclock, float *point_volume);
/*
DSP effects.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_GetDSP (FMOD_CHANNELGROUP *channelgroup, int index, FMOD_DSP **dsp);
FMOD_RESULT F_API FMOD_ChannelGroup_AddDSP (FMOD_CHANNELGROUP *channelgroup, int index, FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_ChannelGroup_RemoveDSP (FMOD_CHANNELGROUP *channelgroup, FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_ChannelGroup_GetNumDSPs (FMOD_CHANNELGROUP *channelgroup, int *numdsps);
FMOD_RESULT F_API FMOD_ChannelGroup_SetDSPIndex (FMOD_CHANNELGROUP *channelgroup, FMOD_DSP *dsp, int index);
FMOD_RESULT F_API FMOD_ChannelGroup_GetDSPIndex (FMOD_CHANNELGROUP *channelgroup, FMOD_DSP *dsp, int *index);
/*
3D functionality.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DAttributes (FMOD_CHANNELGROUP *channelgroup, const FMOD_VECTOR *pos, const FMOD_VECTOR *vel);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DAttributes (FMOD_CHANNELGROUP *channelgroup, FMOD_VECTOR *pos, FMOD_VECTOR *vel);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DMinMaxDistance (FMOD_CHANNELGROUP *channelgroup, float mindistance, float maxdistance);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DMinMaxDistance (FMOD_CHANNELGROUP *channelgroup, float *mindistance, float *maxdistance);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DConeSettings (FMOD_CHANNELGROUP *channelgroup, float insideconeangle, float outsideconeangle, float outsidevolume);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DConeSettings (FMOD_CHANNELGROUP *channelgroup, float *insideconeangle, float *outsideconeangle, float *outsidevolume);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DConeOrientation(FMOD_CHANNELGROUP *channelgroup, FMOD_VECTOR *orientation);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DConeOrientation(FMOD_CHANNELGROUP *channelgroup, FMOD_VECTOR *orientation);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DCustomRolloff (FMOD_CHANNELGROUP *channelgroup, FMOD_VECTOR *points, int numpoints);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DCustomRolloff (FMOD_CHANNELGROUP *channelgroup, FMOD_VECTOR **points, int *numpoints);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DOcclusion (FMOD_CHANNELGROUP *channelgroup, float directocclusion, float reverbocclusion);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DOcclusion (FMOD_CHANNELGROUP *channelgroup, float *directocclusion, float *reverbocclusion);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DSpread (FMOD_CHANNELGROUP *channelgroup, float angle);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DSpread (FMOD_CHANNELGROUP *channelgroup, float *angle);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DLevel (FMOD_CHANNELGROUP *channelgroup, float level);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DLevel (FMOD_CHANNELGROUP *channelgroup, float *level);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DDopplerLevel (FMOD_CHANNELGROUP *channelgroup, float level);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DDopplerLevel (FMOD_CHANNELGROUP *channelgroup, float *level);
FMOD_RESULT F_API FMOD_ChannelGroup_Set3DDistanceFilter (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL custom, float customLevel, float centerFreq);
FMOD_RESULT F_API FMOD_ChannelGroup_Get3DDistanceFilter (FMOD_CHANNELGROUP *channelgroup, FMOD_BOOL *custom, float *customLevel, float *centerFreq);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_SetUserData (FMOD_CHANNELGROUP *channelgroup, void *userdata);
FMOD_RESULT F_API FMOD_ChannelGroup_GetUserData (FMOD_CHANNELGROUP *channelgroup, void **userdata);
FMOD_RESULT F_API FMOD_ChannelGroup_Release (FMOD_CHANNELGROUP *channelgroup);
/*
Nested channel groups.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_AddGroup (FMOD_CHANNELGROUP *channelgroup, FMOD_CHANNELGROUP *group, FMOD_BOOL propagatedspclock, FMOD_DSPCONNECTION **connection);
FMOD_RESULT F_API FMOD_ChannelGroup_GetNumGroups (FMOD_CHANNELGROUP *channelgroup, int *numgroups);
FMOD_RESULT F_API FMOD_ChannelGroup_GetGroup (FMOD_CHANNELGROUP *channelgroup, int index, FMOD_CHANNELGROUP **group);
FMOD_RESULT F_API FMOD_ChannelGroup_GetParentGroup (FMOD_CHANNELGROUP *channelgroup, FMOD_CHANNELGROUP **group);
/*
Information only functions.
*/
FMOD_RESULT F_API FMOD_ChannelGroup_GetName (FMOD_CHANNELGROUP *channelgroup, char *name, int namelen);
FMOD_RESULT F_API FMOD_ChannelGroup_GetNumChannels (FMOD_CHANNELGROUP *channelgroup, int *numchannels);
FMOD_RESULT F_API FMOD_ChannelGroup_GetChannel (FMOD_CHANNELGROUP *channelgroup, int index, FMOD_CHANNEL **channel);
/*
'SoundGroup' API
*/
FMOD_RESULT F_API FMOD_SoundGroup_Release (FMOD_SOUNDGROUP *soundgroup);
FMOD_RESULT F_API FMOD_SoundGroup_GetSystemObject (FMOD_SOUNDGROUP *soundgroup, FMOD_SYSTEM **system);
/*
SoundGroup control functions.
*/
FMOD_RESULT F_API FMOD_SoundGroup_SetMaxAudible (FMOD_SOUNDGROUP *soundgroup, int maxaudible);
FMOD_RESULT F_API FMOD_SoundGroup_GetMaxAudible (FMOD_SOUNDGROUP *soundgroup, int *maxaudible);
FMOD_RESULT F_API FMOD_SoundGroup_SetMaxAudibleBehavior (FMOD_SOUNDGROUP *soundgroup, FMOD_SOUNDGROUP_BEHAVIOR behavior);
FMOD_RESULT F_API FMOD_SoundGroup_GetMaxAudibleBehavior (FMOD_SOUNDGROUP *soundgroup, FMOD_SOUNDGROUP_BEHAVIOR *behavior);
FMOD_RESULT F_API FMOD_SoundGroup_SetMuteFadeSpeed (FMOD_SOUNDGROUP *soundgroup, float speed);
FMOD_RESULT F_API FMOD_SoundGroup_GetMuteFadeSpeed (FMOD_SOUNDGROUP *soundgroup, float *speed);
FMOD_RESULT F_API FMOD_SoundGroup_SetVolume (FMOD_SOUNDGROUP *soundgroup, float volume);
FMOD_RESULT F_API FMOD_SoundGroup_GetVolume (FMOD_SOUNDGROUP *soundgroup, float *volume);
FMOD_RESULT F_API FMOD_SoundGroup_Stop (FMOD_SOUNDGROUP *soundgroup);
/*
Information only functions.
*/
FMOD_RESULT F_API FMOD_SoundGroup_GetName (FMOD_SOUNDGROUP *soundgroup, char *name, int namelen);
FMOD_RESULT F_API FMOD_SoundGroup_GetNumSounds (FMOD_SOUNDGROUP *soundgroup, int *numsounds);
FMOD_RESULT F_API FMOD_SoundGroup_GetSound (FMOD_SOUNDGROUP *soundgroup, int index, FMOD_SOUND **sound);
FMOD_RESULT F_API FMOD_SoundGroup_GetNumPlaying (FMOD_SOUNDGROUP *soundgroup, int *numplaying);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_SoundGroup_SetUserData (FMOD_SOUNDGROUP *soundgroup, void *userdata);
FMOD_RESULT F_API FMOD_SoundGroup_GetUserData (FMOD_SOUNDGROUP *soundgroup, void **userdata);
/*
'DSP' API
*/
FMOD_RESULT F_API FMOD_DSP_Release (FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_DSP_GetSystemObject (FMOD_DSP *dsp, FMOD_SYSTEM **system);
/*
Connection / disconnection / input and output enumeration.
*/
FMOD_RESULT F_API FMOD_DSP_AddInput (FMOD_DSP *dsp, FMOD_DSP *input, FMOD_DSPCONNECTION **connection, FMOD_DSPCONNECTION_TYPE type);
FMOD_RESULT F_API FMOD_DSP_DisconnectFrom (FMOD_DSP *dsp, FMOD_DSP *target, FMOD_DSPCONNECTION *connection);
FMOD_RESULT F_API FMOD_DSP_DisconnectAll (FMOD_DSP *dsp, FMOD_BOOL inputs, FMOD_BOOL outputs);
FMOD_RESULT F_API FMOD_DSP_GetNumInputs (FMOD_DSP *dsp, int *numinputs);
FMOD_RESULT F_API FMOD_DSP_GetNumOutputs (FMOD_DSP *dsp, int *numoutputs);
FMOD_RESULT F_API FMOD_DSP_GetInput (FMOD_DSP *dsp, int index, FMOD_DSP **input, FMOD_DSPCONNECTION **inputconnection);
FMOD_RESULT F_API FMOD_DSP_GetOutput (FMOD_DSP *dsp, int index, FMOD_DSP **output, FMOD_DSPCONNECTION **outputconnection);
/*
DSP unit control.
*/
FMOD_RESULT F_API FMOD_DSP_SetActive (FMOD_DSP *dsp, FMOD_BOOL active);
FMOD_RESULT F_API FMOD_DSP_GetActive (FMOD_DSP *dsp, FMOD_BOOL *active);
FMOD_RESULT F_API FMOD_DSP_SetBypass (FMOD_DSP *dsp, FMOD_BOOL bypass);
FMOD_RESULT F_API FMOD_DSP_GetBypass (FMOD_DSP *dsp, FMOD_BOOL *bypass);
FMOD_RESULT F_API FMOD_DSP_SetWetDryMix (FMOD_DSP *dsp, float prewet, float postwet, float dry);
FMOD_RESULT F_API FMOD_DSP_GetWetDryMix (FMOD_DSP *dsp, float *prewet, float *postwet, float *dry);
FMOD_RESULT F_API FMOD_DSP_SetChannelFormat (FMOD_DSP *dsp, FMOD_CHANNELMASK channelmask, int numchannels, FMOD_SPEAKERMODE source_speakermode);
FMOD_RESULT F_API FMOD_DSP_GetChannelFormat (FMOD_DSP *dsp, FMOD_CHANNELMASK *channelmask, int *numchannels, FMOD_SPEAKERMODE *source_speakermode);
FMOD_RESULT F_API FMOD_DSP_GetOutputChannelFormat (FMOD_DSP *dsp, FMOD_CHANNELMASK inmask, int inchannels, FMOD_SPEAKERMODE inspeakermode, FMOD_CHANNELMASK *outmask, int *outchannels, FMOD_SPEAKERMODE *outspeakermode);
FMOD_RESULT F_API FMOD_DSP_Reset (FMOD_DSP *dsp);
FMOD_RESULT F_API FMOD_DSP_SetCallback (FMOD_DSP *dsp, FMOD_DSP_CALLBACK callback);
/*
DSP parameter control.
*/
FMOD_RESULT F_API FMOD_DSP_SetParameterFloat (FMOD_DSP *dsp, int index, float value);
FMOD_RESULT F_API FMOD_DSP_SetParameterInt (FMOD_DSP *dsp, int index, int value);
FMOD_RESULT F_API FMOD_DSP_SetParameterBool (FMOD_DSP *dsp, int index, FMOD_BOOL value);
FMOD_RESULT F_API FMOD_DSP_SetParameterData (FMOD_DSP *dsp, int index, void *data, unsigned int length);
FMOD_RESULT F_API FMOD_DSP_GetParameterFloat (FMOD_DSP *dsp, int index, float *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API FMOD_DSP_GetParameterInt (FMOD_DSP *dsp, int index, int *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API FMOD_DSP_GetParameterBool (FMOD_DSP *dsp, int index, FMOD_BOOL *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API FMOD_DSP_GetParameterData (FMOD_DSP *dsp, int index, void **data, unsigned int *length, char *valuestr, int valuestrlen);
FMOD_RESULT F_API FMOD_DSP_GetNumParameters (FMOD_DSP *dsp, int *numparams);
FMOD_RESULT F_API FMOD_DSP_GetParameterInfo (FMOD_DSP *dsp, int index, FMOD_DSP_PARAMETER_DESC **desc);
FMOD_RESULT F_API FMOD_DSP_GetDataParameterIndex (FMOD_DSP *dsp, int datatype, int *index);
FMOD_RESULT F_API FMOD_DSP_ShowConfigDialog (FMOD_DSP *dsp, void *hwnd, FMOD_BOOL show);
/*
DSP attributes.
*/
FMOD_RESULT F_API FMOD_DSP_GetInfo (FMOD_DSP *dsp, char *name, unsigned int *version, int *channels, int *configwidth, int *configheight);
FMOD_RESULT F_API FMOD_DSP_GetType (FMOD_DSP *dsp, FMOD_DSP_TYPE *type);
FMOD_RESULT F_API FMOD_DSP_GetIdle (FMOD_DSP *dsp, FMOD_BOOL *idle);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_DSP_SetUserData (FMOD_DSP *dsp, void *userdata);
FMOD_RESULT F_API FMOD_DSP_GetUserData (FMOD_DSP *dsp, void **userdata);
/*
Metering.
*/
FMOD_RESULT F_API FMOD_DSP_SetMeteringEnabled (FMOD_DSP *dsp, FMOD_BOOL inputEnabled, FMOD_BOOL outputEnabled);
FMOD_RESULT F_API FMOD_DSP_GetMeteringEnabled (FMOD_DSP *dsp, FMOD_BOOL *inputEnabled, FMOD_BOOL *outputEnabled);
FMOD_RESULT F_API FMOD_DSP_GetMeteringInfo (FMOD_DSP *dsp, FMOD_DSP_METERING_INFO *inputInfo, FMOD_DSP_METERING_INFO *outputInfo);
FMOD_RESULT F_API FMOD_DSP_GetCPUUsage (FMOD_DSP *dsp, unsigned int *exclusive, unsigned int *inclusive);
/*
'DSPConnection' API
*/
FMOD_RESULT F_API FMOD_DSPConnection_GetInput (FMOD_DSPCONNECTION *dspconnection, FMOD_DSP **input);
FMOD_RESULT F_API FMOD_DSPConnection_GetOutput (FMOD_DSPCONNECTION *dspconnection, FMOD_DSP **output);
FMOD_RESULT F_API FMOD_DSPConnection_SetMix (FMOD_DSPCONNECTION *dspconnection, float volume);
FMOD_RESULT F_API FMOD_DSPConnection_GetMix (FMOD_DSPCONNECTION *dspconnection, float *volume);
FMOD_RESULT F_API FMOD_DSPConnection_SetMixMatrix (FMOD_DSPCONNECTION *dspconnection, float *matrix, int outchannels, int inchannels, int inchannel_hop);
FMOD_RESULT F_API FMOD_DSPConnection_GetMixMatrix (FMOD_DSPCONNECTION *dspconnection, float *matrix, int *outchannels, int *inchannels, int inchannel_hop);
FMOD_RESULT F_API FMOD_DSPConnection_GetType (FMOD_DSPCONNECTION *dspconnection, FMOD_DSPCONNECTION_TYPE *type);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_DSPConnection_SetUserData (FMOD_DSPCONNECTION *dspconnection, void *userdata);
FMOD_RESULT F_API FMOD_DSPConnection_GetUserData (FMOD_DSPCONNECTION *dspconnection, void **userdata);
/*
'Geometry' API
*/
FMOD_RESULT F_API FMOD_Geometry_Release (FMOD_GEOMETRY *geometry);
/*
Polygon manipulation.
*/
FMOD_RESULT F_API FMOD_Geometry_AddPolygon (FMOD_GEOMETRY *geometry, float directocclusion, float reverbocclusion, FMOD_BOOL doublesided, int numvertices, const FMOD_VECTOR *vertices, int *polygonindex);
FMOD_RESULT F_API FMOD_Geometry_GetNumPolygons (FMOD_GEOMETRY *geometry, int *numpolygons);
FMOD_RESULT F_API FMOD_Geometry_GetMaxPolygons (FMOD_GEOMETRY *geometry, int *maxpolygons, int *maxvertices);
FMOD_RESULT F_API FMOD_Geometry_GetPolygonNumVertices (FMOD_GEOMETRY *geometry, int index, int *numvertices);
FMOD_RESULT F_API FMOD_Geometry_SetPolygonVertex (FMOD_GEOMETRY *geometry, int index, int vertexindex, const FMOD_VECTOR *vertex);
FMOD_RESULT F_API FMOD_Geometry_GetPolygonVertex (FMOD_GEOMETRY *geometry, int index, int vertexindex, FMOD_VECTOR *vertex);
FMOD_RESULT F_API FMOD_Geometry_SetPolygonAttributes (FMOD_GEOMETRY *geometry, int index, float directocclusion, float reverbocclusion, FMOD_BOOL doublesided);
FMOD_RESULT F_API FMOD_Geometry_GetPolygonAttributes (FMOD_GEOMETRY *geometry, int index, float *directocclusion, float *reverbocclusion, FMOD_BOOL *doublesided);
/*
Object manipulation.
*/
FMOD_RESULT F_API FMOD_Geometry_SetActive (FMOD_GEOMETRY *geometry, FMOD_BOOL active);
FMOD_RESULT F_API FMOD_Geometry_GetActive (FMOD_GEOMETRY *geometry, FMOD_BOOL *active);
FMOD_RESULT F_API FMOD_Geometry_SetRotation (FMOD_GEOMETRY *geometry, const FMOD_VECTOR *forward, const FMOD_VECTOR *up);
FMOD_RESULT F_API FMOD_Geometry_GetRotation (FMOD_GEOMETRY *geometry, FMOD_VECTOR *forward, FMOD_VECTOR *up);
FMOD_RESULT F_API FMOD_Geometry_SetPosition (FMOD_GEOMETRY *geometry, const FMOD_VECTOR *position);
FMOD_RESULT F_API FMOD_Geometry_GetPosition (FMOD_GEOMETRY *geometry, FMOD_VECTOR *position);
FMOD_RESULT F_API FMOD_Geometry_SetScale (FMOD_GEOMETRY *geometry, const FMOD_VECTOR *scale);
FMOD_RESULT F_API FMOD_Geometry_GetScale (FMOD_GEOMETRY *geometry, FMOD_VECTOR *scale);
FMOD_RESULT F_API FMOD_Geometry_Save (FMOD_GEOMETRY *geometry, void *data, int *datasize);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_Geometry_SetUserData (FMOD_GEOMETRY *geometry, void *userdata);
FMOD_RESULT F_API FMOD_Geometry_GetUserData (FMOD_GEOMETRY *geometry, void **userdata);
/*
'Reverb3D' API
*/
FMOD_RESULT F_API FMOD_Reverb3D_Release (FMOD_REVERB3D *reverb3d);
/*
Reverb manipulation.
*/
FMOD_RESULT F_API FMOD_Reverb3D_Set3DAttributes (FMOD_REVERB3D *reverb3d, const FMOD_VECTOR *position, float mindistance, float maxdistance);
FMOD_RESULT F_API FMOD_Reverb3D_Get3DAttributes (FMOD_REVERB3D *reverb3d, FMOD_VECTOR *position, float *mindistance, float *maxdistance);
FMOD_RESULT F_API FMOD_Reverb3D_SetProperties (FMOD_REVERB3D *reverb3d, const FMOD_REVERB_PROPERTIES *properties);
FMOD_RESULT F_API FMOD_Reverb3D_GetProperties (FMOD_REVERB3D *reverb3d, FMOD_REVERB_PROPERTIES *properties);
FMOD_RESULT F_API FMOD_Reverb3D_SetActive (FMOD_REVERB3D *reverb3d, FMOD_BOOL active);
FMOD_RESULT F_API FMOD_Reverb3D_GetActive (FMOD_REVERB3D *reverb3d, FMOD_BOOL *active);
/*
Userdata set/get.
*/
FMOD_RESULT F_API FMOD_Reverb3D_SetUserData (FMOD_REVERB3D *reverb3d, void *userdata);
FMOD_RESULT F_API FMOD_Reverb3D_GetUserData (FMOD_REVERB3D *reverb3d, void **userdata);
#ifdef __cplusplus
}
#endif
#endif /* _FMOD_H */

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/* ======================================================================================== */
/* FMOD Core API - C++ header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header in conjunction with fmod_common.h (which contains all the constants / */
/* callbacks) to develop using the C++ language. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api.html */
/* ======================================================================================== */
#ifndef _FMOD_HPP
#define _FMOD_HPP
#include "fmod_common.h"
#include "fmod.h"
/*
FMOD Namespace
*/
namespace FMOD
{
class System;
class Sound;
class ChannelControl;
class Channel;
class ChannelGroup;
class SoundGroup;
class DSP;
class DSPConnection;
class Geometry;
class Reverb3D;
/*
FMOD global system functions (optional).
*/
inline FMOD_RESULT Memory_Initialize (void *poolmem, int poollen, FMOD_MEMORY_ALLOC_CALLBACK useralloc, FMOD_MEMORY_REALLOC_CALLBACK userrealloc, FMOD_MEMORY_FREE_CALLBACK userfree, FMOD_MEMORY_TYPE memtypeflags = FMOD_MEMORY_ALL) { return FMOD_Memory_Initialize(poolmem, poollen, useralloc, userrealloc, userfree, memtypeflags); }
inline FMOD_RESULT Memory_GetStats (int *currentalloced, int *maxalloced, bool blocking = true) { return FMOD_Memory_GetStats(currentalloced, maxalloced, blocking); }
inline FMOD_RESULT Debug_Initialize (FMOD_DEBUG_FLAGS flags, FMOD_DEBUG_MODE mode = FMOD_DEBUG_MODE_TTY, FMOD_DEBUG_CALLBACK callback = 0, const char *filename = 0) { return FMOD_Debug_Initialize(flags, mode, callback, filename); }
inline FMOD_RESULT File_SetDiskBusy (int busy) { return FMOD_File_SetDiskBusy(busy); }
inline FMOD_RESULT File_GetDiskBusy (int *busy) { return FMOD_File_GetDiskBusy(busy); }
inline FMOD_RESULT Thread_SetAttributes (FMOD_THREAD_TYPE type, FMOD_THREAD_AFFINITY affinity = FMOD_THREAD_AFFINITY_GROUP_DEFAULT, FMOD_THREAD_PRIORITY priority = FMOD_THREAD_PRIORITY_DEFAULT, FMOD_THREAD_STACK_SIZE stacksize = FMOD_THREAD_STACK_SIZE_DEFAULT) { return FMOD_Thread_SetAttributes(type, affinity, priority, stacksize); }
/*
FMOD System factory functions.
*/
inline FMOD_RESULT System_Create (System **system, unsigned int headerversion = FMOD_VERSION) { return FMOD_System_Create((FMOD_SYSTEM **)system, headerversion); }
/*
'System' API
*/
class System
{
private:
// Constructor made private so user cannot statically instance a System class. System_Create must be used.
System();
System(const System &);
public:
FMOD_RESULT F_API release ();
// Setup functions.
FMOD_RESULT F_API setOutput (FMOD_OUTPUTTYPE output);
FMOD_RESULT F_API getOutput (FMOD_OUTPUTTYPE *output);
FMOD_RESULT F_API getNumDrivers (int *numdrivers);
FMOD_RESULT F_API getDriverInfo (int id, char *name, int namelen, FMOD_GUID *guid, int *systemrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels);
FMOD_RESULT F_API setDriver (int driver);
FMOD_RESULT F_API getDriver (int *driver);
FMOD_RESULT F_API setSoftwareChannels (int numsoftwarechannels);
FMOD_RESULT F_API getSoftwareChannels (int *numsoftwarechannels);
FMOD_RESULT F_API setSoftwareFormat (int samplerate, FMOD_SPEAKERMODE speakermode, int numrawspeakers);
FMOD_RESULT F_API getSoftwareFormat (int *samplerate, FMOD_SPEAKERMODE *speakermode, int *numrawspeakers);
FMOD_RESULT F_API setDSPBufferSize (unsigned int bufferlength, int numbuffers);
FMOD_RESULT F_API getDSPBufferSize (unsigned int *bufferlength, int *numbuffers);
FMOD_RESULT F_API setFileSystem (FMOD_FILE_OPEN_CALLBACK useropen, FMOD_FILE_CLOSE_CALLBACK userclose, FMOD_FILE_READ_CALLBACK userread, FMOD_FILE_SEEK_CALLBACK userseek, FMOD_FILE_ASYNCREAD_CALLBACK userasyncread, FMOD_FILE_ASYNCCANCEL_CALLBACK userasynccancel, int blockalign);
FMOD_RESULT F_API attachFileSystem (FMOD_FILE_OPEN_CALLBACK useropen, FMOD_FILE_CLOSE_CALLBACK userclose, FMOD_FILE_READ_CALLBACK userread, FMOD_FILE_SEEK_CALLBACK userseek);
FMOD_RESULT F_API setAdvancedSettings (FMOD_ADVANCEDSETTINGS *settings);
FMOD_RESULT F_API getAdvancedSettings (FMOD_ADVANCEDSETTINGS *settings);
FMOD_RESULT F_API setCallback (FMOD_SYSTEM_CALLBACK callback, FMOD_SYSTEM_CALLBACK_TYPE callbackmask = FMOD_SYSTEM_CALLBACK_ALL);
// Plug-in support.
FMOD_RESULT F_API setPluginPath (const char *path);
FMOD_RESULT F_API loadPlugin (const char *filename, unsigned int *handle, unsigned int priority = 0);
FMOD_RESULT F_API unloadPlugin (unsigned int handle);
FMOD_RESULT F_API getNumNestedPlugins (unsigned int handle, int *count);
FMOD_RESULT F_API getNestedPlugin (unsigned int handle, int index, unsigned int *nestedhandle);
FMOD_RESULT F_API getNumPlugins (FMOD_PLUGINTYPE plugintype, int *numplugins);
FMOD_RESULT F_API getPluginHandle (FMOD_PLUGINTYPE plugintype, int index, unsigned int *handle);
FMOD_RESULT F_API getPluginInfo (unsigned int handle, FMOD_PLUGINTYPE *plugintype, char *name, int namelen, unsigned int *version);
FMOD_RESULT F_API setOutputByPlugin (unsigned int handle);
FMOD_RESULT F_API getOutputByPlugin (unsigned int *handle);
FMOD_RESULT F_API createDSPByPlugin (unsigned int handle, DSP **dsp);
FMOD_RESULT F_API getDSPInfoByPlugin (unsigned int handle, const FMOD_DSP_DESCRIPTION **description);
FMOD_RESULT F_API registerCodec (FMOD_CODEC_DESCRIPTION *description, unsigned int *handle, unsigned int priority = 0);
FMOD_RESULT F_API registerDSP (const FMOD_DSP_DESCRIPTION *description, unsigned int *handle);
FMOD_RESULT F_API registerOutput (const FMOD_OUTPUT_DESCRIPTION *description, unsigned int *handle);
// Init/Close.
FMOD_RESULT F_API init (int maxchannels, FMOD_INITFLAGS flags, void *extradriverdata);
FMOD_RESULT F_API close ();
// General post-init system functions.
FMOD_RESULT F_API update (); /* IMPORTANT! CALL THIS ONCE PER FRAME! */
FMOD_RESULT F_API setSpeakerPosition (FMOD_SPEAKER speaker, float x, float y, bool active);
FMOD_RESULT F_API getSpeakerPosition (FMOD_SPEAKER speaker, float *x, float *y, bool *active);
FMOD_RESULT F_API setStreamBufferSize (unsigned int filebuffersize, FMOD_TIMEUNIT filebuffersizetype);
FMOD_RESULT F_API getStreamBufferSize (unsigned int *filebuffersize, FMOD_TIMEUNIT *filebuffersizetype);
FMOD_RESULT F_API set3DSettings (float dopplerscale, float distancefactor, float rolloffscale);
FMOD_RESULT F_API get3DSettings (float *dopplerscale, float *distancefactor, float *rolloffscale);
FMOD_RESULT F_API set3DNumListeners (int numlisteners);
FMOD_RESULT F_API get3DNumListeners (int *numlisteners);
FMOD_RESULT F_API set3DListenerAttributes (int listener, const FMOD_VECTOR *pos, const FMOD_VECTOR *vel, const FMOD_VECTOR *forward, const FMOD_VECTOR *up);
FMOD_RESULT F_API get3DListenerAttributes (int listener, FMOD_VECTOR *pos, FMOD_VECTOR *vel, FMOD_VECTOR *forward, FMOD_VECTOR *up);
FMOD_RESULT F_API set3DRolloffCallback (FMOD_3D_ROLLOFF_CALLBACK callback);
FMOD_RESULT F_API mixerSuspend ();
FMOD_RESULT F_API mixerResume ();
FMOD_RESULT F_API getDefaultMixMatrix (FMOD_SPEAKERMODE sourcespeakermode, FMOD_SPEAKERMODE targetspeakermode, float *matrix, int matrixhop);
FMOD_RESULT F_API getSpeakerModeChannels (FMOD_SPEAKERMODE mode, int *channels);
// System information functions.
FMOD_RESULT F_API getVersion (unsigned int *version, unsigned int *buildnumber = 0);
FMOD_RESULT F_API getOutputHandle (void **handle);
FMOD_RESULT F_API getChannelsPlaying (int *channels, int *realchannels = 0);
FMOD_RESULT F_API getCPUUsage (FMOD_CPU_USAGE *usage);
FMOD_RESULT F_API getFileUsage (long long *sampleBytesRead, long long *streamBytesRead, long long *otherBytesRead);
// Sound/DSP/Channel/FX creation and retrieval.
FMOD_RESULT F_API createSound (const char *name_or_data, FMOD_MODE mode, FMOD_CREATESOUNDEXINFO *exinfo, Sound **sound);
FMOD_RESULT F_API createStream (const char *name_or_data, FMOD_MODE mode, FMOD_CREATESOUNDEXINFO *exinfo, Sound **sound);
FMOD_RESULT F_API createDSP (const FMOD_DSP_DESCRIPTION *description, DSP **dsp);
FMOD_RESULT F_API createDSPByType (FMOD_DSP_TYPE type, DSP **dsp);
FMOD_RESULT F_API createChannelGroup (const char *name, ChannelGroup **channelgroup);
FMOD_RESULT F_API createSoundGroup (const char *name, SoundGroup **soundgroup);
FMOD_RESULT F_API createReverb3D (Reverb3D **reverb);
FMOD_RESULT F_API playSound (Sound *sound, ChannelGroup *channelgroup, bool paused, Channel **channel);
FMOD_RESULT F_API playDSP (DSP *dsp, ChannelGroup *channelgroup, bool paused, Channel **channel);
FMOD_RESULT F_API getChannel (int channelid, Channel **channel);
FMOD_RESULT F_API getDSPInfoByType (FMOD_DSP_TYPE type, const FMOD_DSP_DESCRIPTION **description);
FMOD_RESULT F_API getMasterChannelGroup (ChannelGroup **channelgroup);
FMOD_RESULT F_API getMasterSoundGroup (SoundGroup **soundgroup);
// Routing to ports.
FMOD_RESULT F_API attachChannelGroupToPort (FMOD_PORT_TYPE portType, FMOD_PORT_INDEX portIndex, ChannelGroup *channelgroup, bool passThru = false);
FMOD_RESULT F_API detachChannelGroupFromPort (ChannelGroup *channelgroup);
// Reverb API.
FMOD_RESULT F_API setReverbProperties (int instance, const FMOD_REVERB_PROPERTIES *prop);
FMOD_RESULT F_API getReverbProperties (int instance, FMOD_REVERB_PROPERTIES *prop);
// System level DSP functionality.
FMOD_RESULT F_API lockDSP ();
FMOD_RESULT F_API unlockDSP ();
// Recording API.
FMOD_RESULT F_API getRecordNumDrivers (int *numdrivers, int *numconnected);
FMOD_RESULT F_API getRecordDriverInfo (int id, char *name, int namelen, FMOD_GUID *guid, int *systemrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels, FMOD_DRIVER_STATE *state);
FMOD_RESULT F_API getRecordPosition (int id, unsigned int *position);
FMOD_RESULT F_API recordStart (int id, Sound *sound, bool loop);
FMOD_RESULT F_API recordStop (int id);
FMOD_RESULT F_API isRecording (int id, bool *recording);
// Geometry API.
FMOD_RESULT F_API createGeometry (int maxpolygons, int maxvertices, Geometry **geometry);
FMOD_RESULT F_API setGeometrySettings (float maxworldsize);
FMOD_RESULT F_API getGeometrySettings (float *maxworldsize);
FMOD_RESULT F_API loadGeometry (const void *data, int datasize, Geometry **geometry);
FMOD_RESULT F_API getGeometryOcclusion (const FMOD_VECTOR *listener, const FMOD_VECTOR *source, float *direct, float *reverb);
// Network functions.
FMOD_RESULT F_API setNetworkProxy (const char *proxy);
FMOD_RESULT F_API getNetworkProxy (char *proxy, int proxylen);
FMOD_RESULT F_API setNetworkTimeout (int timeout);
FMOD_RESULT F_API getNetworkTimeout (int *timeout);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'Sound' API
*/
class Sound
{
private:
// Constructor made private so user cannot statically instance a Sound class. Appropriate Sound creation or retrieval function must be used.
Sound();
Sound(const Sound &);
public:
FMOD_RESULT F_API release ();
FMOD_RESULT F_API getSystemObject (System **system);
// Standard sound manipulation functions.
FMOD_RESULT F_API lock (unsigned int offset, unsigned int length, void **ptr1, void **ptr2, unsigned int *len1, unsigned int *len2);
FMOD_RESULT F_API unlock (void *ptr1, void *ptr2, unsigned int len1, unsigned int len2);
FMOD_RESULT F_API setDefaults (float frequency, int priority);
FMOD_RESULT F_API getDefaults (float *frequency, int *priority);
FMOD_RESULT F_API set3DMinMaxDistance (float min, float max);
FMOD_RESULT F_API get3DMinMaxDistance (float *min, float *max);
FMOD_RESULT F_API set3DConeSettings (float insideconeangle, float outsideconeangle, float outsidevolume);
FMOD_RESULT F_API get3DConeSettings (float *insideconeangle, float *outsideconeangle, float *outsidevolume);
FMOD_RESULT F_API set3DCustomRolloff (FMOD_VECTOR *points, int numpoints);
FMOD_RESULT F_API get3DCustomRolloff (FMOD_VECTOR **points, int *numpoints);
FMOD_RESULT F_API getSubSound (int index, Sound **subsound);
FMOD_RESULT F_API getSubSoundParent (Sound **parentsound);
FMOD_RESULT F_API getName (char *name, int namelen);
FMOD_RESULT F_API getLength (unsigned int *length, FMOD_TIMEUNIT lengthtype);
FMOD_RESULT F_API getFormat (FMOD_SOUND_TYPE *type, FMOD_SOUND_FORMAT *format, int *channels, int *bits);
FMOD_RESULT F_API getNumSubSounds (int *numsubsounds);
FMOD_RESULT F_API getNumTags (int *numtags, int *numtagsupdated);
FMOD_RESULT F_API getTag (const char *name, int index, FMOD_TAG *tag);
FMOD_RESULT F_API getOpenState (FMOD_OPENSTATE *openstate, unsigned int *percentbuffered, bool *starving, bool *diskbusy);
FMOD_RESULT F_API readData (void *buffer, unsigned int length, unsigned int *read);
FMOD_RESULT F_API seekData (unsigned int pcm);
FMOD_RESULT F_API setSoundGroup (SoundGroup *soundgroup);
FMOD_RESULT F_API getSoundGroup (SoundGroup **soundgroup);
// Synchronization point API. These points can come from markers embedded in wav files, and can also generate channel callbacks.
FMOD_RESULT F_API getNumSyncPoints (int *numsyncpoints);
FMOD_RESULT F_API getSyncPoint (int index, FMOD_SYNCPOINT **point);
FMOD_RESULT F_API getSyncPointInfo (FMOD_SYNCPOINT *point, char *name, int namelen, unsigned int *offset, FMOD_TIMEUNIT offsettype);
FMOD_RESULT F_API addSyncPoint (unsigned int offset, FMOD_TIMEUNIT offsettype, const char *name, FMOD_SYNCPOINT **point);
FMOD_RESULT F_API deleteSyncPoint (FMOD_SYNCPOINT *point);
// Functions also in Channel class but here they are the 'default' to save having to change it in Channel all the time.
FMOD_RESULT F_API setMode (FMOD_MODE mode);
FMOD_RESULT F_API getMode (FMOD_MODE *mode);
FMOD_RESULT F_API setLoopCount (int loopcount);
FMOD_RESULT F_API getLoopCount (int *loopcount);
FMOD_RESULT F_API setLoopPoints (unsigned int loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int loopend, FMOD_TIMEUNIT loopendtype);
FMOD_RESULT F_API getLoopPoints (unsigned int *loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int *loopend, FMOD_TIMEUNIT loopendtype);
// For MOD/S3M/XM/IT/MID sequenced formats only.
FMOD_RESULT F_API getMusicNumChannels (int *numchannels);
FMOD_RESULT F_API setMusicChannelVolume (int channel, float volume);
FMOD_RESULT F_API getMusicChannelVolume (int channel, float *volume);
FMOD_RESULT F_API setMusicSpeed (float speed);
FMOD_RESULT F_API getMusicSpeed (float *speed);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'ChannelControl API'. This is a base class for Channel and ChannelGroup so they can share the same functionality. This cannot be used or instansiated explicitly.
*/
class ChannelControl
{
private:
// Constructor made private so user cannot statically instance a Control class.
ChannelControl();
ChannelControl(const ChannelControl &);
public:
FMOD_RESULT F_API getSystemObject (System **system);
// General control functionality for Channels and ChannelGroups.
FMOD_RESULT F_API stop ();
FMOD_RESULT F_API setPaused (bool paused);
FMOD_RESULT F_API getPaused (bool *paused);
FMOD_RESULT F_API setVolume (float volume);
FMOD_RESULT F_API getVolume (float *volume);
FMOD_RESULT F_API setVolumeRamp (bool ramp);
FMOD_RESULT F_API getVolumeRamp (bool *ramp);
FMOD_RESULT F_API getAudibility (float *audibility);
FMOD_RESULT F_API setPitch (float pitch);
FMOD_RESULT F_API getPitch (float *pitch);
FMOD_RESULT F_API setMute (bool mute);
FMOD_RESULT F_API getMute (bool *mute);
FMOD_RESULT F_API setReverbProperties (int instance, float wet);
FMOD_RESULT F_API getReverbProperties (int instance, float *wet);
FMOD_RESULT F_API setLowPassGain (float gain);
FMOD_RESULT F_API getLowPassGain (float *gain);
FMOD_RESULT F_API setMode (FMOD_MODE mode);
FMOD_RESULT F_API getMode (FMOD_MODE *mode);
FMOD_RESULT F_API setCallback (FMOD_CHANNELCONTROL_CALLBACK callback);
FMOD_RESULT F_API isPlaying (bool *isplaying);
// Panning and level adjustment.
// Note all 'set' functions alter a final matrix, this is why the only get function is getMixMatrix, to avoid other get functions returning incorrect/obsolete values.
FMOD_RESULT F_API setPan (float pan);
FMOD_RESULT F_API setMixLevelsOutput (float frontleft, float frontright, float center, float lfe, float surroundleft, float surroundright, float backleft, float backright);
FMOD_RESULT F_API setMixLevelsInput (float *levels, int numlevels);
FMOD_RESULT F_API setMixMatrix (float *matrix, int outchannels, int inchannels, int inchannel_hop = 0);
FMOD_RESULT F_API getMixMatrix (float *matrix, int *outchannels, int *inchannels, int inchannel_hop = 0);
// Clock based functionality.
FMOD_RESULT F_API getDSPClock (unsigned long long *dspclock, unsigned long long *parentclock);
FMOD_RESULT F_API setDelay (unsigned long long dspclock_start, unsigned long long dspclock_end, bool stopchannels = true);
FMOD_RESULT F_API getDelay (unsigned long long *dspclock_start, unsigned long long *dspclock_end, bool *stopchannels = 0);
FMOD_RESULT F_API addFadePoint (unsigned long long dspclock, float volume);
FMOD_RESULT F_API setFadePointRamp (unsigned long long dspclock, float volume);
FMOD_RESULT F_API removeFadePoints (unsigned long long dspclock_start, unsigned long long dspclock_end);
FMOD_RESULT F_API getFadePoints (unsigned int *numpoints, unsigned long long *point_dspclock, float *point_volume);
// DSP effects.
FMOD_RESULT F_API getDSP (int index, DSP **dsp);
FMOD_RESULT F_API addDSP (int index, DSP *dsp);
FMOD_RESULT F_API removeDSP (DSP *dsp);
FMOD_RESULT F_API getNumDSPs (int *numdsps);
FMOD_RESULT F_API setDSPIndex (DSP *dsp, int index);
FMOD_RESULT F_API getDSPIndex (DSP *dsp, int *index);
// 3D functionality.
FMOD_RESULT F_API set3DAttributes (const FMOD_VECTOR *pos, const FMOD_VECTOR *vel);
FMOD_RESULT F_API get3DAttributes (FMOD_VECTOR *pos, FMOD_VECTOR *vel);
FMOD_RESULT F_API set3DMinMaxDistance (float mindistance, float maxdistance);
FMOD_RESULT F_API get3DMinMaxDistance (float *mindistance, float *maxdistance);
FMOD_RESULT F_API set3DConeSettings (float insideconeangle, float outsideconeangle, float outsidevolume);
FMOD_RESULT F_API get3DConeSettings (float *insideconeangle, float *outsideconeangle, float *outsidevolume);
FMOD_RESULT F_API set3DConeOrientation (FMOD_VECTOR *orientation);
FMOD_RESULT F_API get3DConeOrientation (FMOD_VECTOR *orientation);
FMOD_RESULT F_API set3DCustomRolloff (FMOD_VECTOR *points, int numpoints);
FMOD_RESULT F_API get3DCustomRolloff (FMOD_VECTOR **points, int *numpoints);
FMOD_RESULT F_API set3DOcclusion (float directocclusion, float reverbocclusion);
FMOD_RESULT F_API get3DOcclusion (float *directocclusion, float *reverbocclusion);
FMOD_RESULT F_API set3DSpread (float angle);
FMOD_RESULT F_API get3DSpread (float *angle);
FMOD_RESULT F_API set3DLevel (float level);
FMOD_RESULT F_API get3DLevel (float *level);
FMOD_RESULT F_API set3DDopplerLevel (float level);
FMOD_RESULT F_API get3DDopplerLevel (float *level);
FMOD_RESULT F_API set3DDistanceFilter (bool custom, float customLevel, float centerFreq);
FMOD_RESULT F_API get3DDistanceFilter (bool *custom, float *customLevel, float *centerFreq);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'Channel' API.
*/
class Channel : public ChannelControl
{
private:
// Constructor made private so user cannot statically instance a Channel class. Appropriate Channel creation or retrieval function must be used.
Channel();
Channel(const Channel &);
public:
// Channel specific control functionality.
FMOD_RESULT F_API setFrequency (float frequency);
FMOD_RESULT F_API getFrequency (float *frequency);
FMOD_RESULT F_API setPriority (int priority);
FMOD_RESULT F_API getPriority (int *priority);
FMOD_RESULT F_API setPosition (unsigned int position, FMOD_TIMEUNIT postype);
FMOD_RESULT F_API getPosition (unsigned int *position, FMOD_TIMEUNIT postype);
FMOD_RESULT F_API setChannelGroup (ChannelGroup *channelgroup);
FMOD_RESULT F_API getChannelGroup (ChannelGroup **channelgroup);
FMOD_RESULT F_API setLoopCount (int loopcount);
FMOD_RESULT F_API getLoopCount (int *loopcount);
FMOD_RESULT F_API setLoopPoints (unsigned int loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int loopend, FMOD_TIMEUNIT loopendtype);
FMOD_RESULT F_API getLoopPoints (unsigned int *loopstart, FMOD_TIMEUNIT loopstarttype, unsigned int *loopend, FMOD_TIMEUNIT loopendtype);
// Information only functions.
FMOD_RESULT F_API isVirtual (bool *isvirtual);
FMOD_RESULT F_API getCurrentSound (Sound **sound);
FMOD_RESULT F_API getIndex (int *index);
};
/*
'ChannelGroup' API
*/
class ChannelGroup : public ChannelControl
{
private:
// Constructor made private so user cannot statically instance a ChannelGroup class. Appropriate ChannelGroup creation or retrieval function must be used.
ChannelGroup();
ChannelGroup(const ChannelGroup &);
public:
FMOD_RESULT F_API release ();
// Nested channel groups.
FMOD_RESULT F_API addGroup (ChannelGroup *group, bool propagatedspclock = true, DSPConnection **connection = 0);
FMOD_RESULT F_API getNumGroups (int *numgroups);
FMOD_RESULT F_API getGroup (int index, ChannelGroup **group);
FMOD_RESULT F_API getParentGroup (ChannelGroup **group);
// Information only functions.
FMOD_RESULT F_API getName (char *name, int namelen);
FMOD_RESULT F_API getNumChannels (int *numchannels);
FMOD_RESULT F_API getChannel (int index, Channel **channel);
};
/*
'SoundGroup' API
*/
class SoundGroup
{
private:
// Constructor made private so user cannot statically instance a SoundGroup class. Appropriate SoundGroup creation or retrieval function must be used.
SoundGroup();
SoundGroup(const SoundGroup &);
public:
FMOD_RESULT F_API release ();
FMOD_RESULT F_API getSystemObject (System **system);
// SoundGroup control functions.
FMOD_RESULT F_API setMaxAudible (int maxaudible);
FMOD_RESULT F_API getMaxAudible (int *maxaudible);
FMOD_RESULT F_API setMaxAudibleBehavior (FMOD_SOUNDGROUP_BEHAVIOR behavior);
FMOD_RESULT F_API getMaxAudibleBehavior (FMOD_SOUNDGROUP_BEHAVIOR *behavior);
FMOD_RESULT F_API setMuteFadeSpeed (float speed);
FMOD_RESULT F_API getMuteFadeSpeed (float *speed);
FMOD_RESULT F_API setVolume (float volume);
FMOD_RESULT F_API getVolume (float *volume);
FMOD_RESULT F_API stop ();
// Information only functions.
FMOD_RESULT F_API getName (char *name, int namelen);
FMOD_RESULT F_API getNumSounds (int *numsounds);
FMOD_RESULT F_API getSound (int index, Sound **sound);
FMOD_RESULT F_API getNumPlaying (int *numplaying);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'DSP' API
*/
class DSP
{
private:
// Constructor made private so user cannot statically instance a DSP class. Appropriate DSP creation or retrieval function must be used.
DSP();
DSP(const DSP &);
public:
FMOD_RESULT F_API release ();
FMOD_RESULT F_API getSystemObject (System **system);
// Connection / disconnection / input and output enumeration.
FMOD_RESULT F_API addInput (DSP *input, DSPConnection **connection = 0, FMOD_DSPCONNECTION_TYPE type = FMOD_DSPCONNECTION_TYPE_STANDARD);
FMOD_RESULT F_API disconnectFrom (DSP *target, DSPConnection *connection = 0);
FMOD_RESULT F_API disconnectAll (bool inputs, bool outputs);
FMOD_RESULT F_API getNumInputs (int *numinputs);
FMOD_RESULT F_API getNumOutputs (int *numoutputs);
FMOD_RESULT F_API getInput (int index, DSP **input, DSPConnection **inputconnection);
FMOD_RESULT F_API getOutput (int index, DSP **output, DSPConnection **outputconnection);
// DSP unit control.
FMOD_RESULT F_API setActive (bool active);
FMOD_RESULT F_API getActive (bool *active);
FMOD_RESULT F_API setBypass (bool bypass);
FMOD_RESULT F_API getBypass (bool *bypass);
FMOD_RESULT F_API setWetDryMix (float prewet, float postwet, float dry);
FMOD_RESULT F_API getWetDryMix (float *prewet, float *postwet, float *dry);
FMOD_RESULT F_API setChannelFormat (FMOD_CHANNELMASK channelmask, int numchannels, FMOD_SPEAKERMODE source_speakermode);
FMOD_RESULT F_API getChannelFormat (FMOD_CHANNELMASK *channelmask, int *numchannels, FMOD_SPEAKERMODE *source_speakermode);
FMOD_RESULT F_API getOutputChannelFormat (FMOD_CHANNELMASK inmask, int inchannels, FMOD_SPEAKERMODE inspeakermode, FMOD_CHANNELMASK *outmask, int *outchannels, FMOD_SPEAKERMODE *outspeakermode);
FMOD_RESULT F_API reset ();
FMOD_RESULT F_API setCallback (FMOD_DSP_CALLBACK callback);
// DSP parameter control.
FMOD_RESULT F_API setParameterFloat (int index, float value);
FMOD_RESULT F_API setParameterInt (int index, int value);
FMOD_RESULT F_API setParameterBool (int index, bool value);
FMOD_RESULT F_API setParameterData (int index, void *data, unsigned int length);
FMOD_RESULT F_API getParameterFloat (int index, float *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API getParameterInt (int index, int *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API getParameterBool (int index, bool *value, char *valuestr, int valuestrlen);
FMOD_RESULT F_API getParameterData (int index, void **data, unsigned int *length, char *valuestr, int valuestrlen);
FMOD_RESULT F_API getNumParameters (int *numparams);
FMOD_RESULT F_API getParameterInfo (int index, FMOD_DSP_PARAMETER_DESC **desc);
FMOD_RESULT F_API getDataParameterIndex (int datatype, int *index);
FMOD_RESULT F_API showConfigDialog (void *hwnd, bool show);
// DSP attributes.
FMOD_RESULT F_API getInfo (char *name, unsigned int *version, int *channels, int *configwidth, int *configheight);
FMOD_RESULT F_API getType (FMOD_DSP_TYPE *type);
FMOD_RESULT F_API getIdle (bool *idle);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
// Metering.
FMOD_RESULT F_API setMeteringEnabled (bool inputEnabled, bool outputEnabled);
FMOD_RESULT F_API getMeteringEnabled (bool *inputEnabled, bool *outputEnabled);
FMOD_RESULT F_API getMeteringInfo (FMOD_DSP_METERING_INFO *inputInfo, FMOD_DSP_METERING_INFO *outputInfo);
FMOD_RESULT F_API getCPUUsage (unsigned int *exclusive, unsigned int *inclusive);
};
/*
'DSPConnection' API
*/
class DSPConnection
{
private:
// Constructor made private so user cannot statically instance a DSPConnection class. Appropriate DSPConnection creation or retrieval function must be used.
DSPConnection();
DSPConnection(const DSPConnection &);
public:
FMOD_RESULT F_API getInput (DSP **input);
FMOD_RESULT F_API getOutput (DSP **output);
FMOD_RESULT F_API setMix (float volume);
FMOD_RESULT F_API getMix (float *volume);
FMOD_RESULT F_API setMixMatrix (float *matrix, int outchannels, int inchannels, int inchannel_hop = 0);
FMOD_RESULT F_API getMixMatrix (float *matrix, int *outchannels, int *inchannels, int inchannel_hop = 0);
FMOD_RESULT F_API getType (FMOD_DSPCONNECTION_TYPE *type);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'Geometry' API
*/
class Geometry
{
private:
// Constructor made private so user cannot statically instance a Geometry class. Appropriate Geometry creation or retrieval function must be used.
Geometry();
Geometry(const Geometry &);
public:
FMOD_RESULT F_API release ();
// Polygon manipulation.
FMOD_RESULT F_API addPolygon (float directocclusion, float reverbocclusion, bool doublesided, int numvertices, const FMOD_VECTOR *vertices, int *polygonindex);
FMOD_RESULT F_API getNumPolygons (int *numpolygons);
FMOD_RESULT F_API getMaxPolygons (int *maxpolygons, int *maxvertices);
FMOD_RESULT F_API getPolygonNumVertices (int index, int *numvertices);
FMOD_RESULT F_API setPolygonVertex (int index, int vertexindex, const FMOD_VECTOR *vertex);
FMOD_RESULT F_API getPolygonVertex (int index, int vertexindex, FMOD_VECTOR *vertex);
FMOD_RESULT F_API setPolygonAttributes (int index, float directocclusion, float reverbocclusion, bool doublesided);
FMOD_RESULT F_API getPolygonAttributes (int index, float *directocclusion, float *reverbocclusion, bool *doublesided);
// Object manipulation.
FMOD_RESULT F_API setActive (bool active);
FMOD_RESULT F_API getActive (bool *active);
FMOD_RESULT F_API setRotation (const FMOD_VECTOR *forward, const FMOD_VECTOR *up);
FMOD_RESULT F_API getRotation (FMOD_VECTOR *forward, FMOD_VECTOR *up);
FMOD_RESULT F_API setPosition (const FMOD_VECTOR *position);
FMOD_RESULT F_API getPosition (FMOD_VECTOR *position);
FMOD_RESULT F_API setScale (const FMOD_VECTOR *scale);
FMOD_RESULT F_API getScale (FMOD_VECTOR *scale);
FMOD_RESULT F_API save (void *data, int *datasize);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
/*
'Reverb' API
*/
class Reverb3D
{
private:
// Constructor made private so user cannot statically instance a Reverb3D class. Appropriate Reverb creation or retrieval function must be used.
Reverb3D();
Reverb3D(const Reverb3D &);
public:
FMOD_RESULT F_API release ();
// Reverb manipulation.
FMOD_RESULT F_API set3DAttributes (const FMOD_VECTOR *position, float mindistance, float maxdistance);
FMOD_RESULT F_API get3DAttributes (FMOD_VECTOR *position, float *mindistance,float *maxdistance);
FMOD_RESULT F_API setProperties (const FMOD_REVERB_PROPERTIES *properties);
FMOD_RESULT F_API getProperties (FMOD_REVERB_PROPERTIES *properties);
FMOD_RESULT F_API setActive (bool active);
FMOD_RESULT F_API getActive (bool *active);
// Userdata set/get.
FMOD_RESULT F_API setUserData (void *userdata);
FMOD_RESULT F_API getUserData (void **userdata);
};
}
#endif

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/* ======================================================================================== */
/* FMOD Core API - Codec development header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header if you are wanting to develop your own file format plugin to use with */
/* FMOD's codec system. With this header you can make your own fileformat plugin that FMOD */
/* can register and use. See the documentation and examples on how to make a working */
/* plugin. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api.html */
/* ======================================================================================== */
#ifndef _FMOD_CODEC_H
#define _FMOD_CODEC_H
/*
Codec types
*/
typedef struct FMOD_CODEC_STATE FMOD_CODEC_STATE;
typedef struct FMOD_CODEC_WAVEFORMAT FMOD_CODEC_WAVEFORMAT;
/*
Codec constants
*/
#define FMOD_CODEC_PLUGIN_VERSION 1
typedef int FMOD_CODEC_SEEK_METHOD;
#define FMOD_CODEC_SEEK_METHOD_SET 0
#define FMOD_CODEC_SEEK_METHOD_CURRENT 1
#define FMOD_CODEC_SEEK_METHOD_END 2
/*
Codec callbacks
*/
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_OPEN_CALLBACK) (FMOD_CODEC_STATE *codec_state, FMOD_MODE usermode, FMOD_CREATESOUNDEXINFO *userexinfo);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_CLOSE_CALLBACK) (FMOD_CODEC_STATE *codec_state);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_READ_CALLBACK) (FMOD_CODEC_STATE *codec_state, void *buffer, unsigned int samples_in, unsigned int *samples_out);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_GETLENGTH_CALLBACK) (FMOD_CODEC_STATE *codec_state, unsigned int *length, FMOD_TIMEUNIT lengthtype);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_SETPOSITION_CALLBACK) (FMOD_CODEC_STATE *codec_state, int subsound, unsigned int position, FMOD_TIMEUNIT postype);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_GETPOSITION_CALLBACK) (FMOD_CODEC_STATE *codec_state, unsigned int *position, FMOD_TIMEUNIT postype);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_SOUNDCREATE_CALLBACK) (FMOD_CODEC_STATE *codec_state, int subsound, FMOD_SOUND *sound);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_GETWAVEFORMAT_CALLBACK)(FMOD_CODEC_STATE *codec_state, int index, FMOD_CODEC_WAVEFORMAT *waveformat);
/*
Codec functions
*/
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_METADATA_FUNC) (FMOD_CODEC_STATE *codec_state, FMOD_TAGTYPE tagtype, char *name, void *data, unsigned int datalen, FMOD_TAGDATATYPE datatype, int unique);
typedef void * (F_CALL *FMOD_CODEC_ALLOC_FUNC) (unsigned int size, unsigned int align, const char *file, int line);
typedef void (F_CALL *FMOD_CODEC_FREE_FUNC) (void *ptr, const char *file, int line);
typedef void (F_CALL *FMOD_CODEC_LOG_FUNC) (FMOD_DEBUG_FLAGS level, const char *file, int line, const char *function, const char *string, ...);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_FILE_READ_FUNC) (FMOD_CODEC_STATE *codec_state, void *buffer, unsigned int sizebytes, unsigned int *bytesread);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_FILE_SEEK_FUNC) (FMOD_CODEC_STATE *codec_state, unsigned int pos, FMOD_CODEC_SEEK_METHOD method);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_FILE_TELL_FUNC) (FMOD_CODEC_STATE *codec_state, unsigned int *pos);
typedef FMOD_RESULT (F_CALL *FMOD_CODEC_FILE_SIZE_FUNC) (FMOD_CODEC_STATE *codec_state, unsigned int *size);
/*
Codec structures
*/
typedef struct FMOD_CODEC_DESCRIPTION
{
unsigned int apiversion;
const char *name;
unsigned int version;
int defaultasstream;
FMOD_TIMEUNIT timeunits;
FMOD_CODEC_OPEN_CALLBACK open;
FMOD_CODEC_CLOSE_CALLBACK close;
FMOD_CODEC_READ_CALLBACK read;
FMOD_CODEC_GETLENGTH_CALLBACK getlength;
FMOD_CODEC_SETPOSITION_CALLBACK setposition;
FMOD_CODEC_GETPOSITION_CALLBACK getposition;
FMOD_CODEC_SOUNDCREATE_CALLBACK soundcreate;
FMOD_CODEC_GETWAVEFORMAT_CALLBACK getwaveformat;
} FMOD_CODEC_DESCRIPTION;
struct FMOD_CODEC_WAVEFORMAT
{
const char* name;
FMOD_SOUND_FORMAT format;
int channels;
int frequency;
unsigned int lengthbytes;
unsigned int lengthpcm;
unsigned int pcmblocksize;
int loopstart;
int loopend;
FMOD_MODE mode;
FMOD_CHANNELMASK channelmask;
FMOD_CHANNELORDER channelorder;
float peakvolume;
};
typedef struct FMOD_CODEC_STATE_FUNCTIONS
{
FMOD_CODEC_METADATA_FUNC metadata;
FMOD_CODEC_ALLOC_FUNC alloc;
FMOD_CODEC_FREE_FUNC free;
FMOD_CODEC_LOG_FUNC log;
FMOD_CODEC_FILE_READ_FUNC read;
FMOD_CODEC_FILE_SEEK_FUNC seek;
FMOD_CODEC_FILE_TELL_FUNC tell;
FMOD_CODEC_FILE_SIZE_FUNC size;
} FMOD_CODEC_STATE_FUNCTIONS;
struct FMOD_CODEC_STATE
{
void *plugindata;
FMOD_CODEC_WAVEFORMAT *waveformat;
FMOD_CODEC_STATE_FUNCTIONS *functions;
int numsubsounds;
};
/*
Codec macros
*/
#define FMOD_CODEC_METADATA(_state, _tagtype, _name, _data, _datalen, _datatype, _unique) \
(_state)->functions->metadata(_state, _tagtype, _name, _data, _datalen, _datatype, _unique)
#define FMOD_CODEC_ALLOC(_state, _size, _align) \
(_state)->functions->alloc(_size, _align, __FILE__, __LINE__)
#define FMOD_CODEC_FREE(_state, _ptr) \
(_state)->functions->free(_ptr, __FILE__, __LINE__)
#define FMOD_CODEC_LOG(_state, _level, _location, _format, ...) \
(_state)->functions->log(_level, __FILE__, __LINE__, _location, _format, ##__VA_ARGS__)
#define FMOD_CODEC_FILE_READ(_state, _buffer, _sizebytes, _bytesread) \
(_state)->functions->read(_state, _buffer, _sizebytes, _bytesread)
#define FMOD_CODEC_FILE_SEEK(_state, _pos, _method) \
(_state)->functions->seek(_state, _pos, _method)
#define FMOD_CODEC_FILE_TELL(_state, _pos) \
(_state)->functions->tell(_state, _pos)
#define FMOD_CODEC_FILE_SIZE(_state, _size) \
(_state)->functions->size(_state, _size)
#endif

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/* ======================================================================================== */
/* FMOD Core API - Common C/C++ header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* This header is included by fmod.hpp (C++ interface) and fmod.h (C interface) */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api-common.html */
/* ======================================================================================== */
#ifndef _FMOD_COMMON_H
#define _FMOD_COMMON_H
/*
Library import helpers
*/
#if defined(_WIN32) || defined(__CYGWIN__)
#define F_CALL __stdcall
#else
#define F_CALL
#endif
#if defined(_WIN32) || defined(__CYGWIN__) || defined(__ORBIS__) || defined(F_USE_DECLSPEC)
#define F_EXPORT __declspec(dllexport)
#elif defined(__APPLE__) || defined(__ANDROID__) || defined(__linux__) || defined(F_USE_ATTRIBUTE)
#define F_EXPORT __attribute__((visibility("default")))
#else
#define F_EXPORT
#endif
#ifdef DLL_EXPORTS
#define F_API F_EXPORT F_CALL
#else
#define F_API F_CALL
#endif
/*
FMOD core types
*/
typedef int FMOD_BOOL;
typedef struct FMOD_SYSTEM FMOD_SYSTEM;
typedef struct FMOD_SOUND FMOD_SOUND;
typedef struct FMOD_CHANNELCONTROL FMOD_CHANNELCONTROL;
typedef struct FMOD_CHANNEL FMOD_CHANNEL;
typedef struct FMOD_CHANNELGROUP FMOD_CHANNELGROUP;
typedef struct FMOD_SOUNDGROUP FMOD_SOUNDGROUP;
typedef struct FMOD_REVERB3D FMOD_REVERB3D;
typedef struct FMOD_DSP FMOD_DSP;
typedef struct FMOD_DSPCONNECTION FMOD_DSPCONNECTION;
typedef struct FMOD_POLYGON FMOD_POLYGON;
typedef struct FMOD_GEOMETRY FMOD_GEOMETRY;
typedef struct FMOD_SYNCPOINT FMOD_SYNCPOINT;
typedef struct FMOD_ASYNCREADINFO FMOD_ASYNCREADINFO;
/*
FMOD constants
*/
#define FMOD_VERSION 0x00020307 /* 0xaaaabbcc -> aaaa = product version, bb = major version, cc = minor version.*/
#define FMOD_BUILDNUMBER 150747
typedef unsigned int FMOD_DEBUG_FLAGS;
#define FMOD_DEBUG_LEVEL_NONE 0x00000000
#define FMOD_DEBUG_LEVEL_ERROR 0x00000001
#define FMOD_DEBUG_LEVEL_WARNING 0x00000002
#define FMOD_DEBUG_LEVEL_LOG 0x00000004
#define FMOD_DEBUG_TYPE_MEMORY 0x00000100
#define FMOD_DEBUG_TYPE_FILE 0x00000200
#define FMOD_DEBUG_TYPE_CODEC 0x00000400
#define FMOD_DEBUG_TYPE_TRACE 0x00000800
#define FMOD_DEBUG_DISPLAY_TIMESTAMPS 0x00010000
#define FMOD_DEBUG_DISPLAY_LINENUMBERS 0x00020000
#define FMOD_DEBUG_DISPLAY_THREAD 0x00040000
typedef unsigned int FMOD_MEMORY_TYPE;
#define FMOD_MEMORY_NORMAL 0x00000000
#define FMOD_MEMORY_STREAM_FILE 0x00000001
#define FMOD_MEMORY_STREAM_DECODE 0x00000002
#define FMOD_MEMORY_SAMPLEDATA 0x00000004
#define FMOD_MEMORY_DSP_BUFFER 0x00000008
#define FMOD_MEMORY_PLUGIN 0x00000010
#define FMOD_MEMORY_PERSISTENT 0x00200000
#define FMOD_MEMORY_ALL 0xFFFFFFFF
typedef unsigned int FMOD_INITFLAGS;
#define FMOD_INIT_NORMAL 0x00000000
#define FMOD_INIT_STREAM_FROM_UPDATE 0x00000001
#define FMOD_INIT_MIX_FROM_UPDATE 0x00000002
#define FMOD_INIT_3D_RIGHTHANDED 0x00000004
#define FMOD_INIT_CLIP_OUTPUT 0x00000008
#define FMOD_INIT_CHANNEL_LOWPASS 0x00000100
#define FMOD_INIT_CHANNEL_DISTANCEFILTER 0x00000200
#define FMOD_INIT_PROFILE_ENABLE 0x00010000
#define FMOD_INIT_VOL0_BECOMES_VIRTUAL 0x00020000
#define FMOD_INIT_GEOMETRY_USECLOSEST 0x00040000
#define FMOD_INIT_PREFER_DOLBY_DOWNMIX 0x00080000
#define FMOD_INIT_THREAD_UNSAFE 0x00100000
#define FMOD_INIT_PROFILE_METER_ALL 0x00200000
#define FMOD_INIT_MEMORY_TRACKING 0x00400000
typedef unsigned int FMOD_DRIVER_STATE;
#define FMOD_DRIVER_STATE_CONNECTED 0x00000001
#define FMOD_DRIVER_STATE_DEFAULT 0x00000002
typedef unsigned int FMOD_TIMEUNIT;
#define FMOD_TIMEUNIT_MS 0x00000001
#define FMOD_TIMEUNIT_PCM 0x00000002
#define FMOD_TIMEUNIT_PCMBYTES 0x00000004
#define FMOD_TIMEUNIT_RAWBYTES 0x00000008
#define FMOD_TIMEUNIT_PCMFRACTION 0x00000010
#define FMOD_TIMEUNIT_MODORDER 0x00000100
#define FMOD_TIMEUNIT_MODROW 0x00000200
#define FMOD_TIMEUNIT_MODPATTERN 0x00000400
typedef unsigned int FMOD_SYSTEM_CALLBACK_TYPE;
#define FMOD_SYSTEM_CALLBACK_DEVICELISTCHANGED 0x00000001
#define FMOD_SYSTEM_CALLBACK_DEVICELOST 0x00000002
#define FMOD_SYSTEM_CALLBACK_MEMORYALLOCATIONFAILED 0x00000004
#define FMOD_SYSTEM_CALLBACK_THREADCREATED 0x00000008
#define FMOD_SYSTEM_CALLBACK_BADDSPCONNECTION 0x00000010
#define FMOD_SYSTEM_CALLBACK_PREMIX 0x00000020
#define FMOD_SYSTEM_CALLBACK_POSTMIX 0x00000040
#define FMOD_SYSTEM_CALLBACK_ERROR 0x00000080
#define FMOD_SYSTEM_CALLBACK_THREADDESTROYED 0x00000100
#define FMOD_SYSTEM_CALLBACK_PREUPDATE 0x00000200
#define FMOD_SYSTEM_CALLBACK_POSTUPDATE 0x00000400
#define FMOD_SYSTEM_CALLBACK_RECORDLISTCHANGED 0x00000800
#define FMOD_SYSTEM_CALLBACK_BUFFEREDNOMIX 0x00001000
#define FMOD_SYSTEM_CALLBACK_DEVICEREINITIALIZE 0x00002000
#define FMOD_SYSTEM_CALLBACK_OUTPUTUNDERRUN 0x00004000
#define FMOD_SYSTEM_CALLBACK_RECORDPOSITIONCHANGED 0x00008000
#define FMOD_SYSTEM_CALLBACK_ALL 0xFFFFFFFF
typedef unsigned int FMOD_MODE;
#define FMOD_DEFAULT 0x00000000
#define FMOD_LOOP_OFF 0x00000001
#define FMOD_LOOP_NORMAL 0x00000002
#define FMOD_LOOP_BIDI 0x00000004
#define FMOD_2D 0x00000008
#define FMOD_3D 0x00000010
#define FMOD_CREATESTREAM 0x00000080
#define FMOD_CREATESAMPLE 0x00000100
#define FMOD_CREATECOMPRESSEDSAMPLE 0x00000200
#define FMOD_OPENUSER 0x00000400
#define FMOD_OPENMEMORY 0x00000800
#define FMOD_OPENMEMORY_POINT 0x10000000
#define FMOD_OPENRAW 0x00001000
#define FMOD_OPENONLY 0x00002000
#define FMOD_ACCURATETIME 0x00004000
#define FMOD_MPEGSEARCH 0x00008000
#define FMOD_NONBLOCKING 0x00010000
#define FMOD_UNIQUE 0x00020000
#define FMOD_3D_HEADRELATIVE 0x00040000
#define FMOD_3D_WORLDRELATIVE 0x00080000
#define FMOD_3D_INVERSEROLLOFF 0x00100000
#define FMOD_3D_LINEARROLLOFF 0x00200000
#define FMOD_3D_LINEARSQUAREROLLOFF 0x00400000
#define FMOD_3D_INVERSETAPEREDROLLOFF 0x00800000
#define FMOD_3D_CUSTOMROLLOFF 0x04000000
#define FMOD_3D_IGNOREGEOMETRY 0x40000000
#define FMOD_IGNORETAGS 0x02000000
#define FMOD_LOWMEM 0x08000000
#define FMOD_VIRTUAL_PLAYFROMSTART 0x80000000
typedef unsigned int FMOD_CHANNELMASK;
#define FMOD_CHANNELMASK_FRONT_LEFT 0x00000001
#define FMOD_CHANNELMASK_FRONT_RIGHT 0x00000002
#define FMOD_CHANNELMASK_FRONT_CENTER 0x00000004
#define FMOD_CHANNELMASK_LOW_FREQUENCY 0x00000008
#define FMOD_CHANNELMASK_SURROUND_LEFT 0x00000010
#define FMOD_CHANNELMASK_SURROUND_RIGHT 0x00000020
#define FMOD_CHANNELMASK_BACK_LEFT 0x00000040
#define FMOD_CHANNELMASK_BACK_RIGHT 0x00000080
#define FMOD_CHANNELMASK_BACK_CENTER 0x00000100
#define FMOD_CHANNELMASK_MONO (FMOD_CHANNELMASK_FRONT_LEFT)
#define FMOD_CHANNELMASK_STEREO (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT)
#define FMOD_CHANNELMASK_LRC (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER)
#define FMOD_CHANNELMASK_QUAD (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_SURROUND_LEFT | FMOD_CHANNELMASK_SURROUND_RIGHT)
#define FMOD_CHANNELMASK_SURROUND (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER | FMOD_CHANNELMASK_SURROUND_LEFT | FMOD_CHANNELMASK_SURROUND_RIGHT)
#define FMOD_CHANNELMASK_5POINT1 (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER | FMOD_CHANNELMASK_LOW_FREQUENCY | FMOD_CHANNELMASK_SURROUND_LEFT | FMOD_CHANNELMASK_SURROUND_RIGHT)
#define FMOD_CHANNELMASK_5POINT1_REARS (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER | FMOD_CHANNELMASK_LOW_FREQUENCY | FMOD_CHANNELMASK_BACK_LEFT | FMOD_CHANNELMASK_BACK_RIGHT)
#define FMOD_CHANNELMASK_7POINT0 (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER | FMOD_CHANNELMASK_SURROUND_LEFT | FMOD_CHANNELMASK_SURROUND_RIGHT | FMOD_CHANNELMASK_BACK_LEFT | FMOD_CHANNELMASK_BACK_RIGHT)
#define FMOD_CHANNELMASK_7POINT1 (FMOD_CHANNELMASK_FRONT_LEFT | FMOD_CHANNELMASK_FRONT_RIGHT | FMOD_CHANNELMASK_FRONT_CENTER | FMOD_CHANNELMASK_LOW_FREQUENCY | FMOD_CHANNELMASK_SURROUND_LEFT | FMOD_CHANNELMASK_SURROUND_RIGHT | FMOD_CHANNELMASK_BACK_LEFT | FMOD_CHANNELMASK_BACK_RIGHT)
typedef unsigned long long FMOD_PORT_INDEX;
#define FMOD_PORT_INDEX_NONE 0xFFFFFFFFFFFFFFFF
typedef int FMOD_THREAD_PRIORITY;
/* Platform specific priority range */
#define FMOD_THREAD_PRIORITY_PLATFORM_MIN (-32 * 1024)
#define FMOD_THREAD_PRIORITY_PLATFORM_MAX ( 32 * 1024)
/* Platform agnostic priorities, maps internally to platform specific value */
#define FMOD_THREAD_PRIORITY_DEFAULT (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 1)
#define FMOD_THREAD_PRIORITY_LOW (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 2)
#define FMOD_THREAD_PRIORITY_MEDIUM (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 3)
#define FMOD_THREAD_PRIORITY_HIGH (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 4)
#define FMOD_THREAD_PRIORITY_VERY_HIGH (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 5)
#define FMOD_THREAD_PRIORITY_EXTREME (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 6)
#define FMOD_THREAD_PRIORITY_CRITICAL (FMOD_THREAD_PRIORITY_PLATFORM_MIN - 7)
/* Thread defaults */
#define FMOD_THREAD_PRIORITY_MIXER FMOD_THREAD_PRIORITY_EXTREME
#define FMOD_THREAD_PRIORITY_FEEDER FMOD_THREAD_PRIORITY_CRITICAL
#define FMOD_THREAD_PRIORITY_STREAM FMOD_THREAD_PRIORITY_VERY_HIGH
#define FMOD_THREAD_PRIORITY_FILE FMOD_THREAD_PRIORITY_HIGH
#define FMOD_THREAD_PRIORITY_NONBLOCKING FMOD_THREAD_PRIORITY_HIGH
#define FMOD_THREAD_PRIORITY_RECORD FMOD_THREAD_PRIORITY_HIGH
#define FMOD_THREAD_PRIORITY_GEOMETRY FMOD_THREAD_PRIORITY_LOW
#define FMOD_THREAD_PRIORITY_PROFILER FMOD_THREAD_PRIORITY_MEDIUM
#define FMOD_THREAD_PRIORITY_STUDIO_UPDATE FMOD_THREAD_PRIORITY_MEDIUM
#define FMOD_THREAD_PRIORITY_STUDIO_LOAD_BANK FMOD_THREAD_PRIORITY_MEDIUM
#define FMOD_THREAD_PRIORITY_STUDIO_LOAD_SAMPLE FMOD_THREAD_PRIORITY_MEDIUM
#define FMOD_THREAD_PRIORITY_CONVOLUTION1 FMOD_THREAD_PRIORITY_VERY_HIGH
#define FMOD_THREAD_PRIORITY_CONVOLUTION2 FMOD_THREAD_PRIORITY_VERY_HIGH
typedef unsigned int FMOD_THREAD_STACK_SIZE;
#define FMOD_THREAD_STACK_SIZE_DEFAULT 0
#define FMOD_THREAD_STACK_SIZE_MIXER (80 * 1024)
#define FMOD_THREAD_STACK_SIZE_FEEDER (16 * 1024)
#define FMOD_THREAD_STACK_SIZE_STREAM (96 * 1024)
#define FMOD_THREAD_STACK_SIZE_FILE (64 * 1024)
#define FMOD_THREAD_STACK_SIZE_NONBLOCKING (112 * 1024)
#define FMOD_THREAD_STACK_SIZE_RECORD (16 * 1024)
#define FMOD_THREAD_STACK_SIZE_GEOMETRY (48 * 1024)
#define FMOD_THREAD_STACK_SIZE_PROFILER (128 * 1024)
#define FMOD_THREAD_STACK_SIZE_STUDIO_UPDATE (96 * 1024)
#define FMOD_THREAD_STACK_SIZE_STUDIO_LOAD_BANK (96 * 1024)
#define FMOD_THREAD_STACK_SIZE_STUDIO_LOAD_SAMPLE (96 * 1024)
#define FMOD_THREAD_STACK_SIZE_CONVOLUTION1 (16 * 1024)
#define FMOD_THREAD_STACK_SIZE_CONVOLUTION2 (16 * 1024)
typedef long long FMOD_THREAD_AFFINITY;
/* Platform agnostic thread groupings */
#define FMOD_THREAD_AFFINITY_GROUP_DEFAULT 0x4000000000000000
#define FMOD_THREAD_AFFINITY_GROUP_A 0x4000000000000001
#define FMOD_THREAD_AFFINITY_GROUP_B 0x4000000000000002
#define FMOD_THREAD_AFFINITY_GROUP_C 0x4000000000000003
/* Thread defaults */
#define FMOD_THREAD_AFFINITY_MIXER FMOD_THREAD_AFFINITY_GROUP_A
#define FMOD_THREAD_AFFINITY_FEEDER FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_STREAM FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_FILE FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_NONBLOCKING FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_RECORD FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_GEOMETRY FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_PROFILER FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_STUDIO_UPDATE FMOD_THREAD_AFFINITY_GROUP_B
#define FMOD_THREAD_AFFINITY_STUDIO_LOAD_BANK FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_STUDIO_LOAD_SAMPLE FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_CONVOLUTION1 FMOD_THREAD_AFFINITY_GROUP_C
#define FMOD_THREAD_AFFINITY_CONVOLUTION2 FMOD_THREAD_AFFINITY_GROUP_C
/* Core mask, valid up to 1 << 62 */
#define FMOD_THREAD_AFFINITY_CORE_ALL 0
#define FMOD_THREAD_AFFINITY_CORE_0 (1 << 0)
#define FMOD_THREAD_AFFINITY_CORE_1 (1 << 1)
#define FMOD_THREAD_AFFINITY_CORE_2 (1 << 2)
#define FMOD_THREAD_AFFINITY_CORE_3 (1 << 3)
#define FMOD_THREAD_AFFINITY_CORE_4 (1 << 4)
#define FMOD_THREAD_AFFINITY_CORE_5 (1 << 5)
#define FMOD_THREAD_AFFINITY_CORE_6 (1 << 6)
#define FMOD_THREAD_AFFINITY_CORE_7 (1 << 7)
#define FMOD_THREAD_AFFINITY_CORE_8 (1 << 8)
#define FMOD_THREAD_AFFINITY_CORE_9 (1 << 9)
#define FMOD_THREAD_AFFINITY_CORE_10 (1 << 10)
#define FMOD_THREAD_AFFINITY_CORE_11 (1 << 11)
#define FMOD_THREAD_AFFINITY_CORE_12 (1 << 12)
#define FMOD_THREAD_AFFINITY_CORE_13 (1 << 13)
#define FMOD_THREAD_AFFINITY_CORE_14 (1 << 14)
#define FMOD_THREAD_AFFINITY_CORE_15 (1 << 15)
/* Preset for FMOD_REVERB_PROPERTIES */
#define FMOD_PRESET_OFF { 1000, 7, 11, 5000, 100, 100, 100, 250, 0, 20, 96, -80.0f }
#define FMOD_PRESET_GENERIC { 1500, 7, 11, 5000, 83, 100, 100, 250, 0, 14500, 96, -8.0f }
#define FMOD_PRESET_PADDEDCELL { 170, 1, 2, 5000, 10, 100, 100, 250, 0, 160, 84, -7.8f }
#define FMOD_PRESET_ROOM { 400, 2, 3, 5000, 83, 100, 100, 250, 0, 6050, 88, -9.4f }
#define FMOD_PRESET_BATHROOM { 1500, 7, 11, 5000, 54, 100, 60, 250, 0, 2900, 83, 0.5f }
#define FMOD_PRESET_LIVINGROOM { 500, 3, 4, 5000, 10, 100, 100, 250, 0, 160, 58, -19.0f }
#define FMOD_PRESET_STONEROOM { 2300, 12, 17, 5000, 64, 100, 100, 250, 0, 7800, 71, -8.5f }
#define FMOD_PRESET_AUDITORIUM { 4300, 20, 30, 5000, 59, 100, 100, 250, 0, 5850, 64, -11.7f }
#define FMOD_PRESET_CONCERTHALL { 3900, 20, 29, 5000, 70, 100, 100, 250, 0, 5650, 80, -9.8f }
#define FMOD_PRESET_CAVE { 2900, 15, 22, 5000, 100, 100, 100, 250, 0, 20000, 59, -11.3f }
#define FMOD_PRESET_ARENA { 7200, 20, 30, 5000, 33, 100, 100, 250, 0, 4500, 80, -9.6f }
#define FMOD_PRESET_HANGAR { 10000, 20, 30, 5000, 23, 100, 100, 250, 0, 3400, 72, -7.4f }
#define FMOD_PRESET_CARPETTEDHALLWAY { 300, 2, 30, 5000, 10, 100, 100, 250, 0, 500, 56, -24.0f }
#define FMOD_PRESET_HALLWAY { 1500, 7, 11, 5000, 59, 100, 100, 250, 0, 7800, 87, -5.5f }
#define FMOD_PRESET_STONECORRIDOR { 270, 13, 20, 5000, 79, 100, 100, 250, 0, 9000, 86, -6.0f }
#define FMOD_PRESET_ALLEY { 1500, 7, 11, 5000, 86, 100, 100, 250, 0, 8300, 80, -9.8f }
#define FMOD_PRESET_FOREST { 1500, 162, 88, 5000, 54, 79, 100, 250, 0, 760, 94, -12.3f }
#define FMOD_PRESET_CITY { 1500, 7, 11, 5000, 67, 50, 100, 250, 0, 4050, 66, -26.0f }
#define FMOD_PRESET_MOUNTAINS { 1500, 300, 100, 5000, 21, 27, 100, 250, 0, 1220, 82, -24.0f }
#define FMOD_PRESET_QUARRY { 1500, 61, 25, 5000, 83, 100, 100, 250, 0, 3400, 100, -5.0f }
#define FMOD_PRESET_PLAIN { 1500, 179, 100, 5000, 50, 21, 100, 250, 0, 1670, 65, -28.0f }
#define FMOD_PRESET_PARKINGLOT { 1700, 8, 12, 5000, 100, 100, 100, 250, 0, 20000, 56, -19.5f }
#define FMOD_PRESET_SEWERPIPE { 2800, 14, 21, 5000, 14, 80, 60, 250, 0, 3400, 66, 1.2f }
#define FMOD_PRESET_UNDERWATER { 1500, 7, 11, 5000, 10, 100, 100, 250, 0, 500, 92, 7.0f }
#define FMOD_MAX_CHANNEL_WIDTH 32
#define FMOD_MAX_SYSTEMS 8
#define FMOD_MAX_LISTENERS 8
#define FMOD_REVERB_MAXINSTANCES 4
typedef enum FMOD_THREAD_TYPE
{
FMOD_THREAD_TYPE_MIXER,
FMOD_THREAD_TYPE_FEEDER,
FMOD_THREAD_TYPE_STREAM,
FMOD_THREAD_TYPE_FILE,
FMOD_THREAD_TYPE_NONBLOCKING,
FMOD_THREAD_TYPE_RECORD,
FMOD_THREAD_TYPE_GEOMETRY,
FMOD_THREAD_TYPE_PROFILER,
FMOD_THREAD_TYPE_STUDIO_UPDATE,
FMOD_THREAD_TYPE_STUDIO_LOAD_BANK,
FMOD_THREAD_TYPE_STUDIO_LOAD_SAMPLE,
FMOD_THREAD_TYPE_CONVOLUTION1,
FMOD_THREAD_TYPE_CONVOLUTION2,
FMOD_THREAD_TYPE_MAX,
FMOD_THREAD_TYPE_FORCEINT = 65536
} FMOD_THREAD_TYPE;
typedef enum FMOD_RESULT
{
FMOD_OK,
FMOD_ERR_BADCOMMAND,
FMOD_ERR_CHANNEL_ALLOC,
FMOD_ERR_CHANNEL_STOLEN,
FMOD_ERR_DMA,
FMOD_ERR_DSP_CONNECTION,
FMOD_ERR_DSP_DONTPROCESS,
FMOD_ERR_DSP_FORMAT,
FMOD_ERR_DSP_INUSE,
FMOD_ERR_DSP_NOTFOUND,
FMOD_ERR_DSP_RESERVED,
FMOD_ERR_DSP_SILENCE,
FMOD_ERR_DSP_TYPE,
FMOD_ERR_FILE_BAD,
FMOD_ERR_FILE_COULDNOTSEEK,
FMOD_ERR_FILE_DISKEJECTED,
FMOD_ERR_FILE_EOF,
FMOD_ERR_FILE_ENDOFDATA,
FMOD_ERR_FILE_NOTFOUND,
FMOD_ERR_FORMAT,
FMOD_ERR_HEADER_MISMATCH,
FMOD_ERR_HTTP,
FMOD_ERR_HTTP_ACCESS,
FMOD_ERR_HTTP_PROXY_AUTH,
FMOD_ERR_HTTP_SERVER_ERROR,
FMOD_ERR_HTTP_TIMEOUT,
FMOD_ERR_INITIALIZATION,
FMOD_ERR_INITIALIZED,
FMOD_ERR_INTERNAL,
FMOD_ERR_INVALID_FLOAT,
FMOD_ERR_INVALID_HANDLE,
FMOD_ERR_INVALID_PARAM,
FMOD_ERR_INVALID_POSITION,
FMOD_ERR_INVALID_SPEAKER,
FMOD_ERR_INVALID_SYNCPOINT,
FMOD_ERR_INVALID_THREAD,
FMOD_ERR_INVALID_VECTOR,
FMOD_ERR_MAXAUDIBLE,
FMOD_ERR_MEMORY,
FMOD_ERR_MEMORY_CANTPOINT,
FMOD_ERR_NEEDS3D,
FMOD_ERR_NEEDSHARDWARE,
FMOD_ERR_NET_CONNECT,
FMOD_ERR_NET_SOCKET_ERROR,
FMOD_ERR_NET_URL,
FMOD_ERR_NET_WOULD_BLOCK,
FMOD_ERR_NOTREADY,
FMOD_ERR_OUTPUT_ALLOCATED,
FMOD_ERR_OUTPUT_CREATEBUFFER,
FMOD_ERR_OUTPUT_DRIVERCALL,
FMOD_ERR_OUTPUT_FORMAT,
FMOD_ERR_OUTPUT_INIT,
FMOD_ERR_OUTPUT_NODRIVERS,
FMOD_ERR_PLUGIN,
FMOD_ERR_PLUGIN_MISSING,
FMOD_ERR_PLUGIN_RESOURCE,
FMOD_ERR_PLUGIN_VERSION,
FMOD_ERR_RECORD,
FMOD_ERR_REVERB_CHANNELGROUP,
FMOD_ERR_REVERB_INSTANCE,
FMOD_ERR_SUBSOUNDS,
FMOD_ERR_SUBSOUND_ALLOCATED,
FMOD_ERR_SUBSOUND_CANTMOVE,
FMOD_ERR_TAGNOTFOUND,
FMOD_ERR_TOOMANYCHANNELS,
FMOD_ERR_TRUNCATED,
FMOD_ERR_UNIMPLEMENTED,
FMOD_ERR_UNINITIALIZED,
FMOD_ERR_UNSUPPORTED,
FMOD_ERR_VERSION,
FMOD_ERR_EVENT_ALREADY_LOADED,
FMOD_ERR_EVENT_LIVEUPDATE_BUSY,
FMOD_ERR_EVENT_LIVEUPDATE_MISMATCH,
FMOD_ERR_EVENT_LIVEUPDATE_TIMEOUT,
FMOD_ERR_EVENT_NOTFOUND,
FMOD_ERR_STUDIO_UNINITIALIZED,
FMOD_ERR_STUDIO_NOT_LOADED,
FMOD_ERR_INVALID_STRING,
FMOD_ERR_ALREADY_LOCKED,
FMOD_ERR_NOT_LOCKED,
FMOD_ERR_RECORD_DISCONNECTED,
FMOD_ERR_TOOMANYSAMPLES,
FMOD_RESULT_FORCEINT = 65536
} FMOD_RESULT;
typedef enum FMOD_CHANNELCONTROL_TYPE
{
FMOD_CHANNELCONTROL_CHANNEL,
FMOD_CHANNELCONTROL_CHANNELGROUP,
FMOD_CHANNELCONTROL_MAX,
FMOD_CHANNELCONTROL_FORCEINT = 65536
} FMOD_CHANNELCONTROL_TYPE;
typedef enum FMOD_OUTPUTTYPE
{
FMOD_OUTPUTTYPE_AUTODETECT,
FMOD_OUTPUTTYPE_UNKNOWN,
FMOD_OUTPUTTYPE_NOSOUND,
FMOD_OUTPUTTYPE_WAVWRITER,
FMOD_OUTPUTTYPE_NOSOUND_NRT,
FMOD_OUTPUTTYPE_WAVWRITER_NRT,
FMOD_OUTPUTTYPE_WASAPI,
FMOD_OUTPUTTYPE_ASIO,
FMOD_OUTPUTTYPE_PULSEAUDIO,
FMOD_OUTPUTTYPE_ALSA,
FMOD_OUTPUTTYPE_COREAUDIO,
FMOD_OUTPUTTYPE_AUDIOTRACK,
FMOD_OUTPUTTYPE_OPENSL,
FMOD_OUTPUTTYPE_AUDIOOUT,
FMOD_OUTPUTTYPE_AUDIO3D,
FMOD_OUTPUTTYPE_WEBAUDIO,
FMOD_OUTPUTTYPE_NNAUDIO,
FMOD_OUTPUTTYPE_WINSONIC,
FMOD_OUTPUTTYPE_AAUDIO,
FMOD_OUTPUTTYPE_AUDIOWORKLET,
FMOD_OUTPUTTYPE_PHASE,
FMOD_OUTPUTTYPE_OHAUDIO,
FMOD_OUTPUTTYPE_MAX,
FMOD_OUTPUTTYPE_FORCEINT = 65536
} FMOD_OUTPUTTYPE;
typedef enum FMOD_DEBUG_MODE
{
FMOD_DEBUG_MODE_TTY,
FMOD_DEBUG_MODE_FILE,
FMOD_DEBUG_MODE_CALLBACK,
FMOD_DEBUG_MODE_FORCEINT = 65536
} FMOD_DEBUG_MODE;
typedef enum FMOD_SPEAKERMODE
{
FMOD_SPEAKERMODE_DEFAULT,
FMOD_SPEAKERMODE_RAW,
FMOD_SPEAKERMODE_MONO,
FMOD_SPEAKERMODE_STEREO,
FMOD_SPEAKERMODE_QUAD,
FMOD_SPEAKERMODE_SURROUND,
FMOD_SPEAKERMODE_5POINT1,
FMOD_SPEAKERMODE_7POINT1,
FMOD_SPEAKERMODE_7POINT1POINT4,
FMOD_SPEAKERMODE_MAX,
FMOD_SPEAKERMODE_FORCEINT = 65536
} FMOD_SPEAKERMODE;
typedef enum FMOD_SPEAKER
{
FMOD_SPEAKER_NONE = -1,
FMOD_SPEAKER_FRONT_LEFT = 0,
FMOD_SPEAKER_FRONT_RIGHT,
FMOD_SPEAKER_FRONT_CENTER,
FMOD_SPEAKER_LOW_FREQUENCY,
FMOD_SPEAKER_SURROUND_LEFT,
FMOD_SPEAKER_SURROUND_RIGHT,
FMOD_SPEAKER_BACK_LEFT,
FMOD_SPEAKER_BACK_RIGHT,
FMOD_SPEAKER_TOP_FRONT_LEFT,
FMOD_SPEAKER_TOP_FRONT_RIGHT,
FMOD_SPEAKER_TOP_BACK_LEFT,
FMOD_SPEAKER_TOP_BACK_RIGHT,
FMOD_SPEAKER_MAX,
FMOD_SPEAKER_FORCEINT = 65536
} FMOD_SPEAKER;
typedef enum FMOD_CHANNELORDER
{
FMOD_CHANNELORDER_DEFAULT,
FMOD_CHANNELORDER_WAVEFORMAT,
FMOD_CHANNELORDER_PROTOOLS,
FMOD_CHANNELORDER_ALLMONO,
FMOD_CHANNELORDER_ALLSTEREO,
FMOD_CHANNELORDER_ALSA,
FMOD_CHANNELORDER_MAX,
FMOD_CHANNELORDER_FORCEINT = 65536
} FMOD_CHANNELORDER;
typedef enum FMOD_PLUGINTYPE
{
FMOD_PLUGINTYPE_OUTPUT,
FMOD_PLUGINTYPE_CODEC,
FMOD_PLUGINTYPE_DSP,
FMOD_PLUGINTYPE_MAX,
FMOD_PLUGINTYPE_FORCEINT = 65536
} FMOD_PLUGINTYPE;
typedef enum FMOD_SOUND_TYPE
{
FMOD_SOUND_TYPE_UNKNOWN,
FMOD_SOUND_TYPE_AIFF,
FMOD_SOUND_TYPE_ASF,
FMOD_SOUND_TYPE_DLS,
FMOD_SOUND_TYPE_FLAC,
FMOD_SOUND_TYPE_FSB,
FMOD_SOUND_TYPE_IT,
FMOD_SOUND_TYPE_MIDI,
FMOD_SOUND_TYPE_MOD,
FMOD_SOUND_TYPE_MPEG,
FMOD_SOUND_TYPE_OGGVORBIS,
FMOD_SOUND_TYPE_PLAYLIST,
FMOD_SOUND_TYPE_RAW,
FMOD_SOUND_TYPE_S3M,
FMOD_SOUND_TYPE_USER,
FMOD_SOUND_TYPE_WAV,
FMOD_SOUND_TYPE_XM,
FMOD_SOUND_TYPE_XMA,
FMOD_SOUND_TYPE_AUDIOQUEUE,
FMOD_SOUND_TYPE_AT9,
FMOD_SOUND_TYPE_VORBIS,
FMOD_SOUND_TYPE_MEDIA_FOUNDATION,
FMOD_SOUND_TYPE_MEDIACODEC,
FMOD_SOUND_TYPE_FADPCM,
FMOD_SOUND_TYPE_OPUS,
FMOD_SOUND_TYPE_MAX,
FMOD_SOUND_TYPE_FORCEINT = 65536
} FMOD_SOUND_TYPE;
typedef enum FMOD_SOUND_FORMAT
{
FMOD_SOUND_FORMAT_NONE,
FMOD_SOUND_FORMAT_PCM8,
FMOD_SOUND_FORMAT_PCM16,
FMOD_SOUND_FORMAT_PCM24,
FMOD_SOUND_FORMAT_PCM32,
FMOD_SOUND_FORMAT_PCMFLOAT,
FMOD_SOUND_FORMAT_BITSTREAM,
FMOD_SOUND_FORMAT_MAX,
FMOD_SOUND_FORMAT_FORCEINT = 65536
} FMOD_SOUND_FORMAT;
typedef enum FMOD_OPENSTATE
{
FMOD_OPENSTATE_READY,
FMOD_OPENSTATE_LOADING,
FMOD_OPENSTATE_ERROR,
FMOD_OPENSTATE_CONNECTING,
FMOD_OPENSTATE_BUFFERING,
FMOD_OPENSTATE_SEEKING,
FMOD_OPENSTATE_PLAYING,
FMOD_OPENSTATE_SETPOSITION,
FMOD_OPENSTATE_MAX,
FMOD_OPENSTATE_FORCEINT = 65536
} FMOD_OPENSTATE;
typedef enum FMOD_SOUNDGROUP_BEHAVIOR
{
FMOD_SOUNDGROUP_BEHAVIOR_FAIL,
FMOD_SOUNDGROUP_BEHAVIOR_MUTE,
FMOD_SOUNDGROUP_BEHAVIOR_STEALLOWEST,
FMOD_SOUNDGROUP_BEHAVIOR_MAX,
FMOD_SOUNDGROUP_BEHAVIOR_FORCEINT = 65536
} FMOD_SOUNDGROUP_BEHAVIOR;
typedef enum FMOD_CHANNELCONTROL_CALLBACK_TYPE
{
FMOD_CHANNELCONTROL_CALLBACK_END,
FMOD_CHANNELCONTROL_CALLBACK_VIRTUALVOICE,
FMOD_CHANNELCONTROL_CALLBACK_SYNCPOINT,
FMOD_CHANNELCONTROL_CALLBACK_OCCLUSION,
FMOD_CHANNELCONTROL_CALLBACK_MAX,
FMOD_CHANNELCONTROL_CALLBACK_FORCEINT = 65536
} FMOD_CHANNELCONTROL_CALLBACK_TYPE;
typedef enum FMOD_CHANNELCONTROL_DSP_INDEX
{
FMOD_CHANNELCONTROL_DSP_HEAD = -1,
FMOD_CHANNELCONTROL_DSP_FADER = -2,
FMOD_CHANNELCONTROL_DSP_TAIL = -3,
FMOD_CHANNELCONTROL_DSP_FORCEINT = 65536
} FMOD_CHANNELCONTROL_DSP_INDEX;
typedef enum FMOD_ERRORCALLBACK_INSTANCETYPE
{
FMOD_ERRORCALLBACK_INSTANCETYPE_NONE,
FMOD_ERRORCALLBACK_INSTANCETYPE_SYSTEM,
FMOD_ERRORCALLBACK_INSTANCETYPE_CHANNEL,
FMOD_ERRORCALLBACK_INSTANCETYPE_CHANNELGROUP,
FMOD_ERRORCALLBACK_INSTANCETYPE_CHANNELCONTROL,
FMOD_ERRORCALLBACK_INSTANCETYPE_SOUND,
FMOD_ERRORCALLBACK_INSTANCETYPE_SOUNDGROUP,
FMOD_ERRORCALLBACK_INSTANCETYPE_DSP,
FMOD_ERRORCALLBACK_INSTANCETYPE_DSPCONNECTION,
FMOD_ERRORCALLBACK_INSTANCETYPE_GEOMETRY,
FMOD_ERRORCALLBACK_INSTANCETYPE_REVERB3D,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_SYSTEM,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_EVENTDESCRIPTION,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_EVENTINSTANCE,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_PARAMETERINSTANCE,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_BUS,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_VCA,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_BANK,
FMOD_ERRORCALLBACK_INSTANCETYPE_STUDIO_COMMANDREPLAY,
FMOD_ERRORCALLBACK_INSTANCETYPE_FORCEINT = 65536
} FMOD_ERRORCALLBACK_INSTANCETYPE;
typedef enum FMOD_DSP_RESAMPLER
{
FMOD_DSP_RESAMPLER_DEFAULT,
FMOD_DSP_RESAMPLER_NOINTERP,
FMOD_DSP_RESAMPLER_LINEAR,
FMOD_DSP_RESAMPLER_CUBIC,
FMOD_DSP_RESAMPLER_SPLINE,
FMOD_DSP_RESAMPLER_MAX,
FMOD_DSP_RESAMPLER_FORCEINT = 65536
} FMOD_DSP_RESAMPLER;
typedef enum FMOD_DSP_CALLBACK_TYPE
{
FMOD_DSP_CALLBACK_DATAPARAMETERRELEASE,
FMOD_DSP_CALLBACK_MAX,
FMOD_DSP_CALLBACK_FORCEINT = 65536
} FMOD_DSP_CALLBACK_TYPE;
typedef enum FMOD_DSPCONNECTION_TYPE
{
FMOD_DSPCONNECTION_TYPE_STANDARD,
FMOD_DSPCONNECTION_TYPE_SIDECHAIN,
FMOD_DSPCONNECTION_TYPE_SEND,
FMOD_DSPCONNECTION_TYPE_SEND_SIDECHAIN,
FMOD_DSPCONNECTION_TYPE_MAX,
FMOD_DSPCONNECTION_TYPE_FORCEINT = 65536
} FMOD_DSPCONNECTION_TYPE;
typedef enum FMOD_TAGTYPE
{
FMOD_TAGTYPE_UNKNOWN,
FMOD_TAGTYPE_ID3V1,
FMOD_TAGTYPE_ID3V2,
FMOD_TAGTYPE_VORBISCOMMENT,
FMOD_TAGTYPE_SHOUTCAST,
FMOD_TAGTYPE_ICECAST,
FMOD_TAGTYPE_ASF,
FMOD_TAGTYPE_MIDI,
FMOD_TAGTYPE_PLAYLIST,
FMOD_TAGTYPE_FMOD,
FMOD_TAGTYPE_USER,
FMOD_TAGTYPE_MAX,
FMOD_TAGTYPE_FORCEINT = 65536
} FMOD_TAGTYPE;
typedef enum FMOD_TAGDATATYPE
{
FMOD_TAGDATATYPE_BINARY,
FMOD_TAGDATATYPE_INT,
FMOD_TAGDATATYPE_FLOAT,
FMOD_TAGDATATYPE_STRING,
FMOD_TAGDATATYPE_STRING_UTF16,
FMOD_TAGDATATYPE_STRING_UTF16BE,
FMOD_TAGDATATYPE_STRING_UTF8,
FMOD_TAGDATATYPE_MAX,
FMOD_TAGDATATYPE_FORCEINT = 65536
} FMOD_TAGDATATYPE;
typedef enum FMOD_PORT_TYPE
{
FMOD_PORT_TYPE_MUSIC,
FMOD_PORT_TYPE_COPYRIGHT_MUSIC,
FMOD_PORT_TYPE_VOICE,
FMOD_PORT_TYPE_CONTROLLER,
FMOD_PORT_TYPE_PERSONAL,
FMOD_PORT_TYPE_VIBRATION,
FMOD_PORT_TYPE_AUX,
FMOD_PORT_TYPE_PASSTHROUGH,
FMOD_PORT_TYPE_VR_VIBRATION,
FMOD_PORT_TYPE_MAX,
FMOD_PORT_TYPE_FORCEINT = 65536
} FMOD_PORT_TYPE;
/*
FMOD callbacks
*/
typedef FMOD_RESULT (F_CALL *FMOD_DEBUG_CALLBACK) (FMOD_DEBUG_FLAGS flags, const char *file, int line, const char* func, const char* message);
typedef FMOD_RESULT (F_CALL *FMOD_SYSTEM_CALLBACK) (FMOD_SYSTEM *system, FMOD_SYSTEM_CALLBACK_TYPE type, void *commanddata1, void* commanddata2, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_CHANNELCONTROL_CALLBACK) (FMOD_CHANNELCONTROL *channelcontrol, FMOD_CHANNELCONTROL_TYPE controltype, FMOD_CHANNELCONTROL_CALLBACK_TYPE callbacktype, void *commanddata1, void *commanddata2);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_CALLBACK) (FMOD_DSP *dsp, FMOD_DSP_CALLBACK_TYPE type, void *data);
typedef FMOD_RESULT (F_CALL *FMOD_SOUND_NONBLOCK_CALLBACK) (FMOD_SOUND *sound, FMOD_RESULT result);
typedef FMOD_RESULT (F_CALL *FMOD_SOUND_PCMREAD_CALLBACK) (FMOD_SOUND *sound, void *data, unsigned int datalen);
typedef FMOD_RESULT (F_CALL *FMOD_SOUND_PCMSETPOS_CALLBACK) (FMOD_SOUND *sound, int subsound, unsigned int position, FMOD_TIMEUNIT postype);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_OPEN_CALLBACK) (const char *name, unsigned int *filesize, void **handle, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_CLOSE_CALLBACK) (void *handle, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_READ_CALLBACK) (void *handle, void *buffer, unsigned int sizebytes, unsigned int *bytesread, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_SEEK_CALLBACK) (void *handle, unsigned int pos, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_ASYNCREAD_CALLBACK) (FMOD_ASYNCREADINFO *info, void *userdata);
typedef FMOD_RESULT (F_CALL *FMOD_FILE_ASYNCCANCEL_CALLBACK)(FMOD_ASYNCREADINFO *info, void *userdata);
typedef void (F_CALL *FMOD_FILE_ASYNCDONE_FUNC) (FMOD_ASYNCREADINFO *info, FMOD_RESULT result);
typedef void* (F_CALL *FMOD_MEMORY_ALLOC_CALLBACK) (unsigned int size, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef void* (F_CALL *FMOD_MEMORY_REALLOC_CALLBACK) (void *ptr, unsigned int size, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef void (F_CALL *FMOD_MEMORY_FREE_CALLBACK) (void *ptr, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef float (F_CALL *FMOD_3D_ROLLOFF_CALLBACK) (FMOD_CHANNELCONTROL *channelcontrol, float distance);
/*
FMOD structs
*/
struct FMOD_ASYNCREADINFO
{
void *handle;
unsigned int offset;
unsigned int sizebytes;
int priority;
void *userdata;
void *buffer;
unsigned int bytesread;
FMOD_FILE_ASYNCDONE_FUNC done;
};
typedef struct FMOD_VECTOR
{
float x;
float y;
float z;
} FMOD_VECTOR;
typedef struct FMOD_3D_ATTRIBUTES
{
FMOD_VECTOR position;
FMOD_VECTOR velocity;
FMOD_VECTOR forward;
FMOD_VECTOR up;
} FMOD_3D_ATTRIBUTES;
typedef struct FMOD_GUID
{
unsigned int Data1;
unsigned short Data2;
unsigned short Data3;
unsigned char Data4[8];
} FMOD_GUID;
typedef struct FMOD_PLUGINLIST
{
FMOD_PLUGINTYPE type;
void *description;
} FMOD_PLUGINLIST;
typedef struct FMOD_ADVANCEDSETTINGS
{
int cbSize;
int maxMPEGCodecs;
int maxADPCMCodecs;
int maxXMACodecs;
int maxVorbisCodecs;
int maxAT9Codecs;
int maxFADPCMCodecs;
int maxOpusCodecs;
int ASIONumChannels;
char **ASIOChannelList;
FMOD_SPEAKER *ASIOSpeakerList;
float vol0virtualvol;
unsigned int defaultDecodeBufferSize;
unsigned short profilePort;
unsigned int geometryMaxFadeTime;
float distanceFilterCenterFreq;
int reverb3Dinstance;
int DSPBufferPoolSize;
FMOD_DSP_RESAMPLER resamplerMethod;
unsigned int randomSeed;
int maxConvolutionThreads;
int maxSpatialObjects;
} FMOD_ADVANCEDSETTINGS;
typedef struct FMOD_TAG
{
FMOD_TAGTYPE type;
FMOD_TAGDATATYPE datatype;
char *name;
void *data;
unsigned int datalen;
FMOD_BOOL updated;
} FMOD_TAG;
typedef struct FMOD_CREATESOUNDEXINFO
{
int cbsize;
unsigned int length;
unsigned int fileoffset;
int numchannels;
int defaultfrequency;
FMOD_SOUND_FORMAT format;
unsigned int decodebuffersize;
int initialsubsound;
int numsubsounds;
int *inclusionlist;
int inclusionlistnum;
FMOD_SOUND_PCMREAD_CALLBACK pcmreadcallback;
FMOD_SOUND_PCMSETPOS_CALLBACK pcmsetposcallback;
FMOD_SOUND_NONBLOCK_CALLBACK nonblockcallback;
const char *dlsname;
const char *encryptionkey;
int maxpolyphony;
void *userdata;
FMOD_SOUND_TYPE suggestedsoundtype;
FMOD_FILE_OPEN_CALLBACK fileuseropen;
FMOD_FILE_CLOSE_CALLBACK fileuserclose;
FMOD_FILE_READ_CALLBACK fileuserread;
FMOD_FILE_SEEK_CALLBACK fileuserseek;
FMOD_FILE_ASYNCREAD_CALLBACK fileuserasyncread;
FMOD_FILE_ASYNCCANCEL_CALLBACK fileuserasynccancel;
void *fileuserdata;
int filebuffersize;
FMOD_CHANNELORDER channelorder;
FMOD_SOUNDGROUP *initialsoundgroup;
unsigned int initialseekposition;
FMOD_TIMEUNIT initialseekpostype;
int ignoresetfilesystem;
unsigned int audioqueuepolicy;
unsigned int minmidigranularity;
int nonblockthreadid;
FMOD_GUID *fsbguid;
} FMOD_CREATESOUNDEXINFO;
typedef struct FMOD_REVERB_PROPERTIES
{
float DecayTime;
float EarlyDelay;
float LateDelay;
float HFReference;
float HFDecayRatio;
float Diffusion;
float Density;
float LowShelfFrequency;
float LowShelfGain;
float HighCut;
float EarlyLateMix;
float WetLevel;
} FMOD_REVERB_PROPERTIES;
typedef struct FMOD_ERRORCALLBACK_INFO
{
FMOD_RESULT result;
FMOD_ERRORCALLBACK_INSTANCETYPE instancetype;
void *instance;
const char *functionname;
const char *functionparams;
} FMOD_ERRORCALLBACK_INFO;
typedef struct FMOD_CPU_USAGE
{
float dsp;
float stream;
float geometry;
float update;
float convolution1;
float convolution2;
} FMOD_CPU_USAGE;
typedef struct FMOD_DSP_DATA_PARAMETER_INFO
{
void *data;
unsigned int length;
int index;
} FMOD_DSP_DATA_PARAMETER_INFO;
/*
FMOD optional headers for plugin development
*/
#include "fmod_codec.h"
#include "fmod_dsp.h"
#include "fmod_output.h"
#endif

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/* ======================================================================================== */
/* FMOD Core API - DSP header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header if you are wanting to develop your own DSP plugin to use with FMODs */
/* dsp system. With this header you can make your own DSP plugin that FMOD can */
/* register and use. See the documentation and examples on how to make a working plugin. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/plugin-api-dsp.html */
/* =========================================================================================*/
#ifndef _FMOD_DSP_H
#define _FMOD_DSP_H
#include "fmod_dsp_effects.h"
typedef struct FMOD_DSP_STATE FMOD_DSP_STATE;
typedef struct FMOD_DSP_BUFFER_ARRAY FMOD_DSP_BUFFER_ARRAY;
typedef struct FMOD_COMPLEX FMOD_COMPLEX;
/*
DSP Constants
*/
#define FMOD_PLUGIN_SDK_VERSION 110
#define FMOD_DSP_GETPARAM_VALUESTR_LENGTH 32
typedef enum
{
FMOD_DSP_PROCESS_PERFORM,
FMOD_DSP_PROCESS_QUERY
} FMOD_DSP_PROCESS_OPERATION;
typedef enum FMOD_DSP_PAN_SURROUND_FLAGS
{
FMOD_DSP_PAN_SURROUND_DEFAULT = 0,
FMOD_DSP_PAN_SURROUND_ROTATION_NOT_BIASED = 1,
FMOD_DSP_PAN_SURROUND_FLAGS_FORCEINT = 65536
} FMOD_DSP_PAN_SURROUND_FLAGS;
typedef enum
{
FMOD_DSP_PARAMETER_TYPE_FLOAT,
FMOD_DSP_PARAMETER_TYPE_INT,
FMOD_DSP_PARAMETER_TYPE_BOOL,
FMOD_DSP_PARAMETER_TYPE_DATA,
FMOD_DSP_PARAMETER_TYPE_MAX,
FMOD_DSP_PARAMETER_TYPE_FORCEINT = 65536
} FMOD_DSP_PARAMETER_TYPE;
typedef enum
{
FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_LINEAR,
FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_AUTO,
FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_PIECEWISE_LINEAR,
FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_FORCEINT = 65536
} FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE;
typedef enum
{
FMOD_DSP_PARAMETER_DATA_TYPE_USER = 0,
FMOD_DSP_PARAMETER_DATA_TYPE_OVERALLGAIN = -1,
FMOD_DSP_PARAMETER_DATA_TYPE_3DATTRIBUTES = -2,
FMOD_DSP_PARAMETER_DATA_TYPE_SIDECHAIN = -3,
FMOD_DSP_PARAMETER_DATA_TYPE_FFT = -4,
FMOD_DSP_PARAMETER_DATA_TYPE_3DATTRIBUTES_MULTI = -5,
FMOD_DSP_PARAMETER_DATA_TYPE_ATTENUATION_RANGE = -6,
FMOD_DSP_PARAMETER_DATA_TYPE_DYNAMIC_RESPONSE = -7,
} FMOD_DSP_PARAMETER_DATA_TYPE;
/*
DSP Callbacks
*/
typedef FMOD_RESULT (F_CALL *FMOD_DSP_CREATE_CALLBACK) (FMOD_DSP_STATE *dsp_state);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_RELEASE_CALLBACK) (FMOD_DSP_STATE *dsp_state);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_RESET_CALLBACK) (FMOD_DSP_STATE *dsp_state);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_READ_CALLBACK) (FMOD_DSP_STATE *dsp_state, float *inbuffer, float *outbuffer, unsigned int length, int inchannels, int *outchannels);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PROCESS_CALLBACK) (FMOD_DSP_STATE *dsp_state, unsigned int length, const FMOD_DSP_BUFFER_ARRAY *inbufferarray, FMOD_DSP_BUFFER_ARRAY *outbufferarray, FMOD_BOOL inputsidle, FMOD_DSP_PROCESS_OPERATION op);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SETPOSITION_CALLBACK) (FMOD_DSP_STATE *dsp_state, unsigned int pos);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SHOULDIPROCESS_CALLBACK) (FMOD_DSP_STATE *dsp_state, FMOD_BOOL inputsidle, unsigned int length, FMOD_CHANNELMASK inmask, int inchannels, FMOD_SPEAKERMODE speakermode);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SETPARAM_FLOAT_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, float value);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SETPARAM_INT_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, int value);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SETPARAM_BOOL_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, FMOD_BOOL value);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SETPARAM_DATA_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, void *data, unsigned int length);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETPARAM_FLOAT_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, float *value, char *valuestr);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETPARAM_INT_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, int *value, char *valuestr);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETPARAM_BOOL_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, FMOD_BOOL *value, char *valuestr);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETPARAM_DATA_CALLBACK) (FMOD_DSP_STATE *dsp_state, int index, void **data, unsigned int *length, char *valuestr);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SYSTEM_REGISTER_CALLBACK) (FMOD_DSP_STATE *dsp_state);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SYSTEM_DEREGISTER_CALLBACK) (FMOD_DSP_STATE *dsp_state);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_SYSTEM_MIX_CALLBACK) (FMOD_DSP_STATE *dsp_state, int stage);
/*
DSP Functions
*/
typedef void * (F_CALL *FMOD_DSP_ALLOC_FUNC) (unsigned int size, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef void * (F_CALL *FMOD_DSP_REALLOC_FUNC) (void *ptr, unsigned int size, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef void (F_CALL *FMOD_DSP_FREE_FUNC) (void *ptr, FMOD_MEMORY_TYPE type, const char *sourcestr);
typedef void (F_CALL *FMOD_DSP_LOG_FUNC) (FMOD_DEBUG_FLAGS level, const char *file, int line, const char *function, const char *str, ...);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETSAMPLERATE_FUNC) (FMOD_DSP_STATE *dsp_state, int *rate);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETBLOCKSIZE_FUNC) (FMOD_DSP_STATE *dsp_state, unsigned int *blocksize);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETSPEAKERMODE_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE *speakermode_mixer, FMOD_SPEAKERMODE *speakermode_output);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETCLOCK_FUNC) (FMOD_DSP_STATE *dsp_state, unsigned long long *clock, unsigned int *offset, unsigned int *length);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETLISTENERATTRIBUTES_FUNC) (FMOD_DSP_STATE *dsp_state, int *numlisteners, FMOD_3D_ATTRIBUTES *attributes);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_GETUSERDATA_FUNC) (FMOD_DSP_STATE *dsp_state, void **userdata);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_DFT_FFTREAL_FUNC) (FMOD_DSP_STATE *dsp_state, int size, const float *signal, FMOD_COMPLEX* dft, const float *window, int signalhop);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_DFT_IFFTREAL_FUNC) (FMOD_DSP_STATE *dsp_state, int size, const FMOD_COMPLEX *dft, float* signal, const float *window, int signalhop);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_SUMMONOMATRIX_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE sourceSpeakerMode, float lowFrequencyGain, float overallGain, float *matrix);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_SUMSTEREOMATRIX_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE sourceSpeakerMode, float pan, float lowFrequencyGain, float overallGain, int matrixHop, float *matrix);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_SUMSURROUNDMATRIX_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE sourceSpeakerMode, FMOD_SPEAKERMODE targetSpeakerMode, float direction, float extent, float rotation, float lowFrequencyGain, float overallGain, int matrixHop, float *matrix, FMOD_DSP_PAN_SURROUND_FLAGS flags);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_SUMMONOTOSURROUNDMATRIX_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE targetSpeakerMode, float direction, float extent, float lowFrequencyGain, float overallGain, int matrixHop, float *matrix);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_SUMSTEREOTOSURROUNDMATRIX_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_SPEAKERMODE targetSpeakerMode, float direction, float extent, float rotation, float lowFrequencyGain, float overallGain, int matrixHop, float *matrix);
typedef FMOD_RESULT (F_CALL *FMOD_DSP_PAN_GETROLLOFFGAIN_FUNC) (FMOD_DSP_STATE *dsp_state, FMOD_DSP_PAN_3D_ROLLOFF_TYPE rolloff, float distance, float mindistance, float maxdistance, float *gain);
/*
DSP Structures
*/
struct FMOD_DSP_BUFFER_ARRAY
{
int numbuffers;
int *buffernumchannels;
FMOD_CHANNELMASK *bufferchannelmask;
float **buffers;
FMOD_SPEAKERMODE speakermode;
};
struct FMOD_COMPLEX
{
float real;
float imag;
};
typedef struct FMOD_DSP_PARAMETER_FLOAT_MAPPING_PIECEWISE_LINEAR
{
int numpoints;
float *pointparamvalues;
float *pointpositions;
} FMOD_DSP_PARAMETER_FLOAT_MAPPING_PIECEWISE_LINEAR;
typedef struct FMOD_DSP_PARAMETER_FLOAT_MAPPING
{
FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE type;
FMOD_DSP_PARAMETER_FLOAT_MAPPING_PIECEWISE_LINEAR piecewiselinearmapping;
} FMOD_DSP_PARAMETER_FLOAT_MAPPING;
typedef struct FMOD_DSP_PARAMETER_DESC_FLOAT
{
float min;
float max;
float defaultval;
FMOD_DSP_PARAMETER_FLOAT_MAPPING mapping;
} FMOD_DSP_PARAMETER_DESC_FLOAT;
typedef struct FMOD_DSP_PARAMETER_DESC_INT
{
int min;
int max;
int defaultval;
FMOD_BOOL goestoinf;
const char* const* valuenames;
} FMOD_DSP_PARAMETER_DESC_INT;
typedef struct FMOD_DSP_PARAMETER_DESC_BOOL
{
FMOD_BOOL defaultval;
const char* const* valuenames;
} FMOD_DSP_PARAMETER_DESC_BOOL;
typedef struct FMOD_DSP_PARAMETER_DESC_DATA
{
int datatype;
} FMOD_DSP_PARAMETER_DESC_DATA;
typedef struct FMOD_DSP_PARAMETER_DESC
{
FMOD_DSP_PARAMETER_TYPE type;
char name[16];
char label[16];
const char *description;
union
{
FMOD_DSP_PARAMETER_DESC_FLOAT floatdesc;
FMOD_DSP_PARAMETER_DESC_INT intdesc;
FMOD_DSP_PARAMETER_DESC_BOOL booldesc;
FMOD_DSP_PARAMETER_DESC_DATA datadesc;
};
} FMOD_DSP_PARAMETER_DESC;
typedef struct FMOD_DSP_PARAMETER_OVERALLGAIN
{
float linear_gain;
float linear_gain_additive;
} FMOD_DSP_PARAMETER_OVERALLGAIN;
typedef struct FMOD_DSP_PARAMETER_3DATTRIBUTES
{
FMOD_3D_ATTRIBUTES relative;
FMOD_3D_ATTRIBUTES absolute;
} FMOD_DSP_PARAMETER_3DATTRIBUTES;
typedef struct FMOD_DSP_PARAMETER_3DATTRIBUTES_MULTI
{
int numlisteners;
FMOD_3D_ATTRIBUTES relative[FMOD_MAX_LISTENERS];
float weight[FMOD_MAX_LISTENERS];
FMOD_3D_ATTRIBUTES absolute;
} FMOD_DSP_PARAMETER_3DATTRIBUTES_MULTI;
typedef struct FMOD_DSP_PARAMETER_ATTENUATION_RANGE
{
float min;
float max;
} FMOD_DSP_PARAMETER_ATTENUATION_RANGE;
typedef struct FMOD_DSP_PARAMETER_SIDECHAIN
{
FMOD_BOOL sidechainenable;
} FMOD_DSP_PARAMETER_SIDECHAIN;
typedef struct FMOD_DSP_PARAMETER_FFT
{
int length;
int numchannels;
float *spectrum[32];
} FMOD_DSP_PARAMETER_FFT;
typedef struct FMOD_DSP_PARAMETER_DYNAMIC_RESPONSE
{
int numchannels;
float rms[32];
} FMOD_DSP_PARAMETER_DYNAMIC_RESPONSE;
typedef struct FMOD_DSP_DESCRIPTION
{
unsigned int pluginsdkversion;
char name[32];
unsigned int version;
int numinputbuffers;
int numoutputbuffers;
FMOD_DSP_CREATE_CALLBACK create;
FMOD_DSP_RELEASE_CALLBACK release;
FMOD_DSP_RESET_CALLBACK reset;
FMOD_DSP_READ_CALLBACK read;
FMOD_DSP_PROCESS_CALLBACK process;
FMOD_DSP_SETPOSITION_CALLBACK setposition;
int numparameters;
FMOD_DSP_PARAMETER_DESC **paramdesc;
FMOD_DSP_SETPARAM_FLOAT_CALLBACK setparameterfloat;
FMOD_DSP_SETPARAM_INT_CALLBACK setparameterint;
FMOD_DSP_SETPARAM_BOOL_CALLBACK setparameterbool;
FMOD_DSP_SETPARAM_DATA_CALLBACK setparameterdata;
FMOD_DSP_GETPARAM_FLOAT_CALLBACK getparameterfloat;
FMOD_DSP_GETPARAM_INT_CALLBACK getparameterint;
FMOD_DSP_GETPARAM_BOOL_CALLBACK getparameterbool;
FMOD_DSP_GETPARAM_DATA_CALLBACK getparameterdata;
FMOD_DSP_SHOULDIPROCESS_CALLBACK shouldiprocess;
void *userdata;
FMOD_DSP_SYSTEM_REGISTER_CALLBACK sys_register;
FMOD_DSP_SYSTEM_DEREGISTER_CALLBACK sys_deregister;
FMOD_DSP_SYSTEM_MIX_CALLBACK sys_mix;
} FMOD_DSP_DESCRIPTION;
typedef struct FMOD_DSP_STATE_DFT_FUNCTIONS
{
FMOD_DSP_DFT_FFTREAL_FUNC fftreal;
FMOD_DSP_DFT_IFFTREAL_FUNC inversefftreal;
} FMOD_DSP_STATE_DFT_FUNCTIONS;
typedef struct FMOD_DSP_STATE_PAN_FUNCTIONS
{
FMOD_DSP_PAN_SUMMONOMATRIX_FUNC summonomatrix;
FMOD_DSP_PAN_SUMSTEREOMATRIX_FUNC sumstereomatrix;
FMOD_DSP_PAN_SUMSURROUNDMATRIX_FUNC sumsurroundmatrix;
FMOD_DSP_PAN_SUMMONOTOSURROUNDMATRIX_FUNC summonotosurroundmatrix;
FMOD_DSP_PAN_SUMSTEREOTOSURROUNDMATRIX_FUNC sumstereotosurroundmatrix;
FMOD_DSP_PAN_GETROLLOFFGAIN_FUNC getrolloffgain;
} FMOD_DSP_STATE_PAN_FUNCTIONS;
typedef struct FMOD_DSP_STATE_FUNCTIONS
{
FMOD_DSP_ALLOC_FUNC alloc;
FMOD_DSP_REALLOC_FUNC realloc;
FMOD_DSP_FREE_FUNC free;
FMOD_DSP_GETSAMPLERATE_FUNC getsamplerate;
FMOD_DSP_GETBLOCKSIZE_FUNC getblocksize;
FMOD_DSP_STATE_DFT_FUNCTIONS *dft;
FMOD_DSP_STATE_PAN_FUNCTIONS *pan;
FMOD_DSP_GETSPEAKERMODE_FUNC getspeakermode;
FMOD_DSP_GETCLOCK_FUNC getclock;
FMOD_DSP_GETLISTENERATTRIBUTES_FUNC getlistenerattributes;
FMOD_DSP_LOG_FUNC log;
FMOD_DSP_GETUSERDATA_FUNC getuserdata;
} FMOD_DSP_STATE_FUNCTIONS;
struct FMOD_DSP_STATE
{
void *instance;
void *plugindata;
FMOD_CHANNELMASK channelmask;
FMOD_SPEAKERMODE source_speakermode;
float *sidechaindata;
int sidechainchannels;
FMOD_DSP_STATE_FUNCTIONS *functions;
int systemobject;
};
typedef struct FMOD_DSP_METERING_INFO
{
int numsamples;
float peaklevel[32];
float rmslevel[32];
short numchannels;
} FMOD_DSP_METERING_INFO;
/*
DSP Macros
*/
#define FMOD_DSP_INIT_PARAMDESC_FLOAT(_paramstruct, _name, _label, _description, _min, _max, _defaultval) \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_FLOAT; \
strncpy((_paramstruct).name, _name, 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).floatdesc.min = _min; \
(_paramstruct).floatdesc.max = _max; \
(_paramstruct).floatdesc.defaultval = _defaultval; \
(_paramstruct).floatdesc.mapping.type = FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_AUTO;
#define FMOD_DSP_INIT_PARAMDESC_FLOAT_WITH_MAPPING(_paramstruct, _name, _label, _description, _defaultval, _values, _positions); \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_FLOAT; \
strncpy((_paramstruct).name, _name , 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).floatdesc.min = _values[0]; \
(_paramstruct).floatdesc.max = _values[sizeof(_values) / sizeof(float) - 1]; \
(_paramstruct).floatdesc.defaultval = _defaultval; \
(_paramstruct).floatdesc.mapping.type = FMOD_DSP_PARAMETER_FLOAT_MAPPING_TYPE_PIECEWISE_LINEAR; \
(_paramstruct).floatdesc.mapping.piecewiselinearmapping.numpoints = sizeof(_values) / sizeof(float); \
(_paramstruct).floatdesc.mapping.piecewiselinearmapping.pointparamvalues = _values; \
(_paramstruct).floatdesc.mapping.piecewiselinearmapping.pointpositions = _positions;
#define FMOD_DSP_INIT_PARAMDESC_INT(_paramstruct, _name, _label, _description, _min, _max, _defaultval, _goestoinf, _valuenames) \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_INT; \
strncpy((_paramstruct).name, _name , 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).intdesc.min = _min; \
(_paramstruct).intdesc.max = _max; \
(_paramstruct).intdesc.defaultval = _defaultval; \
(_paramstruct).intdesc.goestoinf = _goestoinf; \
(_paramstruct).intdesc.valuenames = _valuenames;
#define FMOD_DSP_INIT_PARAMDESC_INT_ENUMERATED(_paramstruct, _name, _label, _description, _defaultval, _valuenames) \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_INT; \
strncpy((_paramstruct).name, _name , 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).intdesc.min = 0; \
(_paramstruct).intdesc.max = sizeof(_valuenames) / sizeof(char*) - 1; \
(_paramstruct).intdesc.defaultval = _defaultval; \
(_paramstruct).intdesc.goestoinf = false; \
(_paramstruct).intdesc.valuenames = _valuenames;
#define FMOD_DSP_INIT_PARAMDESC_BOOL(_paramstruct, _name, _label, _description, _defaultval, _valuenames) \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_BOOL; \
strncpy((_paramstruct).name, _name , 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).booldesc.defaultval = _defaultval; \
(_paramstruct).booldesc.valuenames = _valuenames;
#define FMOD_DSP_INIT_PARAMDESC_DATA(_paramstruct, _name, _label, _description, _datatype) \
memset(&(_paramstruct), 0, sizeof(_paramstruct)); \
(_paramstruct).type = FMOD_DSP_PARAMETER_TYPE_DATA; \
strncpy((_paramstruct).name, _name , 15); \
strncpy((_paramstruct).label, _label, 15); \
(_paramstruct).description = _description; \
(_paramstruct).datadesc.datatype = _datatype;
#define FMOD_DSP_ALLOC(_state, _size) \
(_state)->functions->alloc(_size, FMOD_MEMORY_NORMAL, __FILE__)
#define FMOD_DSP_REALLOC(_state, _ptr, _size) \
(_state)->functions->realloc(_ptr, _size, FMOD_MEMORY_NORMAL, __FILE__)
#define FMOD_DSP_FREE(_state, _ptr) \
(_state)->functions->free(_ptr, FMOD_MEMORY_NORMAL, __FILE__)
#define FMOD_DSP_LOG(_state, _level, _location, _format, ...) \
(_state)->functions->log(_level, __FILE__, __LINE__, _location, _format, ##__VA_ARGS__)
#define FMOD_DSP_GETSAMPLERATE(_state, _rate) \
(_state)->functions->getsamplerate(_state, _rate)
#define FMOD_DSP_GETBLOCKSIZE(_state, _blocksize) \
(_state)->functions->getblocksize(_state, _blocksize)
#define FMOD_DSP_GETSPEAKERMODE(_state, _speakermodemix, _speakermodeout) \
(_state)->functions->getspeakermode(_state, _speakermodemix, _speakermodeout)
#define FMOD_DSP_GETCLOCK(_state, _clock, _offset, _length) \
(_state)->functions->getclock(_state, _clock, _offset, _length)
#define FMOD_DSP_GETLISTENERATTRIBUTES(_state, _numlisteners, _attributes) \
(_state)->functions->getlistenerattributes(_state, _numlisteners, _attributes)
#define FMOD_DSP_GETUSERDATA(_state, _userdata) \
(_state)->functions->getuserdata(_state, _userdata)
#define FMOD_DSP_DFT_FFTREAL(_state, _size, _signal, _dft, _window, _signalhop) \
(_state)->functions->dft->fftreal(_state, _size, _signal, _dft, _window, _signalhop)
#define FMOD_DSP_DFT_IFFTREAL(_state, _size, _dft, _signal, _window, _signalhop) \
(_state)->functions->dft->inversefftreal(_state, _size, _dft, _signal, _window, _signalhop)
#define FMOD_DSP_PAN_SUMMONOMATRIX(_state, _sourcespeakermode, _lowfrequencygain, _overallgain, _matrix) \
(_state)->functions->pan->summonomatrix(_state, _sourcespeakermode, _lowfrequencygain, _overallgain, _matrix)
#define FMOD_DSP_PAN_SUMSTEREOMATRIX(_state, _sourcespeakermode, _pan, _lowfrequencygain, _overallgain, _matrixhop, _matrix) \
(_state)->functions->pan->sumstereomatrix(_state, _sourcespeakermode, _pan, _lowfrequencygain, _overallgain, _matrixhop, _matrix)
#define FMOD_DSP_PAN_SUMSURROUNDMATRIX(_state, _sourcespeakermode, _targetspeakermode, _direction, _extent, _rotation, _lowfrequencygain, _overallgain, _matrixhop, _matrix, _flags) \
(_state)->functions->pan->sumsurroundmatrix(_state, _sourcespeakermode, _targetspeakermode, _direction, _extent, _rotation, _lowfrequencygain, _overallgain, _matrixhop, _matrix, _flags)
#define FMOD_DSP_PAN_SUMMONOTOSURROUNDMATRIX(_state, _targetspeakermode, _direction, _extent, _lowfrequencygain, _overallgain, _matrixhop, _matrix) \
(_state)->functions->pan->summonotosurroundmatrix(_state, _targetspeakermode, _direction, _extent, _lowfrequencygain, _overallgain, _matrixhop, _matrix)
#define FMOD_DSP_PAN_SUMSTEREOTOSURROUNDMATRIX(_state, _targetspeakermode, _direction, _extent, _rotation, _lowfrequencygain, _overallgain, matrixhop, _matrix) \
(_state)->functions->pan->sumstereotosurroundmatrix(_state, _targetspeakermode, _direction, _extent, _rotation, _lowfrequencygain, _overallgain, matrixhop, _matrix)
#define FMOD_DSP_PAN_GETROLLOFFGAIN(_state, _rolloff, _distance, _mindistance, _maxdistance, _gain) \
(_state)->functions->pan->getrolloffgain(_state, _rolloff, _distance, _mindistance, _maxdistance, _gain)
#endif

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/* ============================================================================================================= */
/* FMOD Core API - Built-in effects header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* In this header you can find parameter structures for FMOD system registered DSP effects */
/* and generators. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api-common-dsp-effects.html#fmod_dsp_type */
/* ============================================================================================================= */
#ifndef _FMOD_DSP_EFFECTS_H
#define _FMOD_DSP_EFFECTS_H
typedef enum
{
FMOD_DSP_TYPE_UNKNOWN,
FMOD_DSP_TYPE_MIXER,
FMOD_DSP_TYPE_OSCILLATOR,
FMOD_DSP_TYPE_LOWPASS,
FMOD_DSP_TYPE_ITLOWPASS,
FMOD_DSP_TYPE_HIGHPASS,
FMOD_DSP_TYPE_ECHO,
FMOD_DSP_TYPE_FADER,
FMOD_DSP_TYPE_FLANGE,
FMOD_DSP_TYPE_DISTORTION,
FMOD_DSP_TYPE_NORMALIZE,
FMOD_DSP_TYPE_LIMITER,
FMOD_DSP_TYPE_PARAMEQ,
FMOD_DSP_TYPE_PITCHSHIFT,
FMOD_DSP_TYPE_CHORUS,
FMOD_DSP_TYPE_ITECHO,
FMOD_DSP_TYPE_COMPRESSOR,
FMOD_DSP_TYPE_SFXREVERB,
FMOD_DSP_TYPE_LOWPASS_SIMPLE,
FMOD_DSP_TYPE_DELAY,
FMOD_DSP_TYPE_TREMOLO,
FMOD_DSP_TYPE_SEND,
FMOD_DSP_TYPE_RETURN,
FMOD_DSP_TYPE_HIGHPASS_SIMPLE,
FMOD_DSP_TYPE_PAN,
FMOD_DSP_TYPE_THREE_EQ,
FMOD_DSP_TYPE_FFT,
FMOD_DSP_TYPE_LOUDNESS_METER,
FMOD_DSP_TYPE_CONVOLUTIONREVERB,
FMOD_DSP_TYPE_CHANNELMIX,
FMOD_DSP_TYPE_TRANSCEIVER,
FMOD_DSP_TYPE_OBJECTPAN,
FMOD_DSP_TYPE_MULTIBAND_EQ,
FMOD_DSP_TYPE_MULTIBAND_DYNAMICS,
FMOD_DSP_TYPE_MAX,
FMOD_DSP_TYPE_FORCEINT = 65536 /* Makes sure this enum is signed 32bit. */
} FMOD_DSP_TYPE;
/*
===================================================================================================
FMOD built in effect parameters.
Use DSP::setParameter with these enums for the 'index' parameter.
===================================================================================================
*/
typedef enum
{
FMOD_DSP_OSCILLATOR_TYPE,
FMOD_DSP_OSCILLATOR_RATE
} FMOD_DSP_OSCILLATOR;
typedef enum
{
FMOD_DSP_LOWPASS_CUTOFF,
FMOD_DSP_LOWPASS_RESONANCE
} FMOD_DSP_LOWPASS;
typedef enum
{
FMOD_DSP_ITLOWPASS_CUTOFF,
FMOD_DSP_ITLOWPASS_RESONANCE
} FMOD_DSP_ITLOWPASS;
typedef enum
{
FMOD_DSP_HIGHPASS_CUTOFF,
FMOD_DSP_HIGHPASS_RESONANCE
} FMOD_DSP_HIGHPASS;
typedef enum
{
FMOD_DSP_ECHO_DELAY,
FMOD_DSP_ECHO_FEEDBACK,
FMOD_DSP_ECHO_DRYLEVEL,
FMOD_DSP_ECHO_WETLEVEL,
FMOD_DSP_ECHO_DELAYCHANGEMODE
} FMOD_DSP_ECHO;
typedef enum
{
FMOD_DSP_ECHO_DELAYCHANGEMODE_FADE,
FMOD_DSP_ECHO_DELAYCHANGEMODE_LERP,
FMOD_DSP_ECHO_DELAYCHANGEMODE_NONE
} FMOD_DSP_ECHO_DELAYCHANGEMODE_TYPE;
typedef enum FMOD_DSP_FADER
{
FMOD_DSP_FADER_GAIN,
FMOD_DSP_FADER_OVERALL_GAIN,
} FMOD_DSP_FADER;
typedef enum
{
FMOD_DSP_FLANGE_MIX,
FMOD_DSP_FLANGE_DEPTH,
FMOD_DSP_FLANGE_RATE
} FMOD_DSP_FLANGE;
typedef enum
{
FMOD_DSP_DISTORTION_LEVEL
} FMOD_DSP_DISTORTION;
typedef enum
{
FMOD_DSP_NORMALIZE_FADETIME,
FMOD_DSP_NORMALIZE_THRESHOLD,
FMOD_DSP_NORMALIZE_MAXAMP
} FMOD_DSP_NORMALIZE;
typedef enum
{
FMOD_DSP_LIMITER_RELEASETIME,
FMOD_DSP_LIMITER_CEILING,
FMOD_DSP_LIMITER_MAXIMIZERGAIN,
FMOD_DSP_LIMITER_MODE,
} FMOD_DSP_LIMITER;
typedef enum
{
FMOD_DSP_PARAMEQ_CENTER,
FMOD_DSP_PARAMEQ_BANDWIDTH,
FMOD_DSP_PARAMEQ_GAIN
} FMOD_DSP_PARAMEQ;
typedef enum FMOD_DSP_MULTIBAND_EQ
{
FMOD_DSP_MULTIBAND_EQ_A_FILTER,
FMOD_DSP_MULTIBAND_EQ_A_FREQUENCY,
FMOD_DSP_MULTIBAND_EQ_A_Q,
FMOD_DSP_MULTIBAND_EQ_A_GAIN,
FMOD_DSP_MULTIBAND_EQ_B_FILTER,
FMOD_DSP_MULTIBAND_EQ_B_FREQUENCY,
FMOD_DSP_MULTIBAND_EQ_B_Q,
FMOD_DSP_MULTIBAND_EQ_B_GAIN,
FMOD_DSP_MULTIBAND_EQ_C_FILTER,
FMOD_DSP_MULTIBAND_EQ_C_FREQUENCY,
FMOD_DSP_MULTIBAND_EQ_C_Q,
FMOD_DSP_MULTIBAND_EQ_C_GAIN,
FMOD_DSP_MULTIBAND_EQ_D_FILTER,
FMOD_DSP_MULTIBAND_EQ_D_FREQUENCY,
FMOD_DSP_MULTIBAND_EQ_D_Q,
FMOD_DSP_MULTIBAND_EQ_D_GAIN,
FMOD_DSP_MULTIBAND_EQ_E_FILTER,
FMOD_DSP_MULTIBAND_EQ_E_FREQUENCY,
FMOD_DSP_MULTIBAND_EQ_E_Q,
FMOD_DSP_MULTIBAND_EQ_E_GAIN,
} FMOD_DSP_MULTIBAND_EQ;
typedef enum FMOD_DSP_MULTIBAND_EQ_FILTER_TYPE
{
FMOD_DSP_MULTIBAND_EQ_FILTER_DISABLED,
FMOD_DSP_MULTIBAND_EQ_FILTER_LOWPASS_12DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_LOWPASS_24DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_LOWPASS_48DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_HIGHPASS_12DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_HIGHPASS_24DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_HIGHPASS_48DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_LOWSHELF,
FMOD_DSP_MULTIBAND_EQ_FILTER_HIGHSHELF,
FMOD_DSP_MULTIBAND_EQ_FILTER_PEAKING,
FMOD_DSP_MULTIBAND_EQ_FILTER_BANDPASS,
FMOD_DSP_MULTIBAND_EQ_FILTER_NOTCH,
FMOD_DSP_MULTIBAND_EQ_FILTER_ALLPASS,
FMOD_DSP_MULTIBAND_EQ_FILTER_LOWPASS_6DB,
FMOD_DSP_MULTIBAND_EQ_FILTER_HIGHPASS_6DB,
} FMOD_DSP_MULTIBAND_EQ_FILTER_TYPE;
typedef enum FMOD_DSP_MULTIBAND_DYNAMICS
{
FMOD_DSP_MULTIBAND_DYNAMICS_LOWER_FREQUENCY,
FMOD_DSP_MULTIBAND_DYNAMICS_UPPER_FREQUENCY,
FMOD_DSP_MULTIBAND_DYNAMICS_LINKED,
FMOD_DSP_MULTIBAND_DYNAMICS_USE_SIDECHAIN,
FMOD_DSP_MULTIBAND_DYNAMICS_A_MODE,
FMOD_DSP_MULTIBAND_DYNAMICS_A_GAIN,
FMOD_DSP_MULTIBAND_DYNAMICS_A_THRESHOLD,
FMOD_DSP_MULTIBAND_DYNAMICS_A_RATIO,
FMOD_DSP_MULTIBAND_DYNAMICS_A_ATTACK,
FMOD_DSP_MULTIBAND_DYNAMICS_A_RELEASE,
FMOD_DSP_MULTIBAND_DYNAMICS_A_GAIN_MAKEUP,
FMOD_DSP_MULTIBAND_DYNAMICS_A_RESPONSE_DATA,
FMOD_DSP_MULTIBAND_DYNAMICS_B_MODE,
FMOD_DSP_MULTIBAND_DYNAMICS_B_GAIN,
FMOD_DSP_MULTIBAND_DYNAMICS_B_THRESHOLD,
FMOD_DSP_MULTIBAND_DYNAMICS_B_RATIO,
FMOD_DSP_MULTIBAND_DYNAMICS_B_ATTACK,
FMOD_DSP_MULTIBAND_DYNAMICS_B_RELEASE,
FMOD_DSP_MULTIBAND_DYNAMICS_B_GAIN_MAKEUP,
FMOD_DSP_MULTIBAND_DYNAMICS_B_RESPONSE_DATA,
FMOD_DSP_MULTIBAND_DYNAMICS_C_MODE,
FMOD_DSP_MULTIBAND_DYNAMICS_C_GAIN,
FMOD_DSP_MULTIBAND_DYNAMICS_C_THRESHOLD,
FMOD_DSP_MULTIBAND_DYNAMICS_C_RATIO,
FMOD_DSP_MULTIBAND_DYNAMICS_C_ATTACK,
FMOD_DSP_MULTIBAND_DYNAMICS_C_RELEASE,
FMOD_DSP_MULTIBAND_DYNAMICS_C_GAIN_MAKEUP,
FMOD_DSP_MULTIBAND_DYNAMICS_C_RESPONSE_DATA,
} FMOD_DSP_MULTIBAND_DYNAMICS;
typedef enum FMOD_DSP_MULTIBAND_DYNAMICS_MODE_TYPE
{
FMOD_DSP_MULTIBAND_DYNAMICS_MODE_DISABLED,
FMOD_DSP_MULTIBAND_DYNAMICS_MODE_COMPRESS_UP,
FMOD_DSP_MULTIBAND_DYNAMICS_MODE_COMPRESS_DOWN,
FMOD_DSP_MULTIBAND_DYNAMICS_MODE_EXPAND_UP,
FMOD_DSP_MULTIBAND_DYNAMICS_MODE_EXPAND_DOWN
} FMOD_DSP_MULTIBAND_DYNAMICS_MODE_TYPE;
typedef enum
{
FMOD_DSP_PITCHSHIFT_PITCH,
FMOD_DSP_PITCHSHIFT_FFTSIZE,
FMOD_DSP_PITCHSHIFT_OVERLAP,
FMOD_DSP_PITCHSHIFT_MAXCHANNELS
} FMOD_DSP_PITCHSHIFT;
typedef enum
{
FMOD_DSP_CHORUS_MIX,
FMOD_DSP_CHORUS_RATE,
FMOD_DSP_CHORUS_DEPTH,
} FMOD_DSP_CHORUS;
typedef enum
{
FMOD_DSP_ITECHO_WETDRYMIX,
FMOD_DSP_ITECHO_FEEDBACK,
FMOD_DSP_ITECHO_LEFTDELAY,
FMOD_DSP_ITECHO_RIGHTDELAY,
FMOD_DSP_ITECHO_PANDELAY
} FMOD_DSP_ITECHO;
typedef enum
{
FMOD_DSP_COMPRESSOR_THRESHOLD,
FMOD_DSP_COMPRESSOR_RATIO,
FMOD_DSP_COMPRESSOR_ATTACK,
FMOD_DSP_COMPRESSOR_RELEASE,
FMOD_DSP_COMPRESSOR_GAINMAKEUP,
FMOD_DSP_COMPRESSOR_USESIDECHAIN,
FMOD_DSP_COMPRESSOR_LINKED
} FMOD_DSP_COMPRESSOR;
typedef enum
{
FMOD_DSP_SFXREVERB_DECAYTIME,
FMOD_DSP_SFXREVERB_EARLYDELAY,
FMOD_DSP_SFXREVERB_LATEDELAY,
FMOD_DSP_SFXREVERB_HFREFERENCE,
FMOD_DSP_SFXREVERB_HFDECAYRATIO,
FMOD_DSP_SFXREVERB_DIFFUSION,
FMOD_DSP_SFXREVERB_DENSITY,
FMOD_DSP_SFXREVERB_LOWSHELFFREQUENCY,
FMOD_DSP_SFXREVERB_LOWSHELFGAIN,
FMOD_DSP_SFXREVERB_HIGHCUT,
FMOD_DSP_SFXREVERB_EARLYLATEMIX,
FMOD_DSP_SFXREVERB_WETLEVEL,
FMOD_DSP_SFXREVERB_DRYLEVEL
} FMOD_DSP_SFXREVERB;
typedef enum
{
FMOD_DSP_LOWPASS_SIMPLE_CUTOFF
} FMOD_DSP_LOWPASS_SIMPLE;
typedef enum
{
FMOD_DSP_DELAY_CH0,
FMOD_DSP_DELAY_CH1,
FMOD_DSP_DELAY_CH2,
FMOD_DSP_DELAY_CH3,
FMOD_DSP_DELAY_CH4,
FMOD_DSP_DELAY_CH5,
FMOD_DSP_DELAY_CH6,
FMOD_DSP_DELAY_CH7,
FMOD_DSP_DELAY_CH8,
FMOD_DSP_DELAY_CH9,
FMOD_DSP_DELAY_CH10,
FMOD_DSP_DELAY_CH11,
FMOD_DSP_DELAY_CH12,
FMOD_DSP_DELAY_CH13,
FMOD_DSP_DELAY_CH14,
FMOD_DSP_DELAY_CH15,
FMOD_DSP_DELAY_MAXDELAY
} FMOD_DSP_DELAY;
typedef enum
{
FMOD_DSP_TREMOLO_FREQUENCY,
FMOD_DSP_TREMOLO_DEPTH,
FMOD_DSP_TREMOLO_SHAPE,
FMOD_DSP_TREMOLO_SKEW,
FMOD_DSP_TREMOLO_DUTY,
FMOD_DSP_TREMOLO_SQUARE,
FMOD_DSP_TREMOLO_PHASE,
FMOD_DSP_TREMOLO_SPREAD
} FMOD_DSP_TREMOLO;
typedef enum
{
FMOD_DSP_SEND_RETURNID,
FMOD_DSP_SEND_LEVEL,
} FMOD_DSP_SEND;
typedef enum
{
FMOD_DSP_RETURN_ID,
FMOD_DSP_RETURN_INPUT_SPEAKER_MODE
} FMOD_DSP_RETURN;
typedef enum
{
FMOD_DSP_HIGHPASS_SIMPLE_CUTOFF
} FMOD_DSP_HIGHPASS_SIMPLE;
typedef enum
{
FMOD_DSP_PAN_2D_STEREO_MODE_DISTRIBUTED,
FMOD_DSP_PAN_2D_STEREO_MODE_DISCRETE
} FMOD_DSP_PAN_2D_STEREO_MODE_TYPE;
typedef enum
{
FMOD_DSP_PAN_MODE_MONO,
FMOD_DSP_PAN_MODE_STEREO,
FMOD_DSP_PAN_MODE_SURROUND
} FMOD_DSP_PAN_MODE_TYPE;
typedef enum
{
FMOD_DSP_PAN_3D_ROLLOFF_LINEARSQUARED,
FMOD_DSP_PAN_3D_ROLLOFF_LINEAR,
FMOD_DSP_PAN_3D_ROLLOFF_INVERSE,
FMOD_DSP_PAN_3D_ROLLOFF_INVERSETAPERED,
FMOD_DSP_PAN_3D_ROLLOFF_CUSTOM
} FMOD_DSP_PAN_3D_ROLLOFF_TYPE;
typedef enum
{
FMOD_DSP_PAN_3D_EXTENT_MODE_AUTO,
FMOD_DSP_PAN_3D_EXTENT_MODE_USER,
FMOD_DSP_PAN_3D_EXTENT_MODE_OFF
} FMOD_DSP_PAN_3D_EXTENT_MODE_TYPE;
typedef enum
{
FMOD_DSP_PAN_MODE,
FMOD_DSP_PAN_2D_STEREO_POSITION,
FMOD_DSP_PAN_2D_DIRECTION,
FMOD_DSP_PAN_2D_EXTENT,
FMOD_DSP_PAN_2D_ROTATION,
FMOD_DSP_PAN_2D_LFE_LEVEL,
FMOD_DSP_PAN_2D_STEREO_MODE,
FMOD_DSP_PAN_2D_STEREO_SEPARATION,
FMOD_DSP_PAN_2D_STEREO_AXIS,
FMOD_DSP_PAN_ENABLED_SPEAKERS,
FMOD_DSP_PAN_3D_POSITION,
FMOD_DSP_PAN_3D_ROLLOFF,
FMOD_DSP_PAN_3D_MIN_DISTANCE,
FMOD_DSP_PAN_3D_MAX_DISTANCE,
FMOD_DSP_PAN_3D_EXTENT_MODE,
FMOD_DSP_PAN_3D_SOUND_SIZE,
FMOD_DSP_PAN_3D_MIN_EXTENT,
FMOD_DSP_PAN_3D_PAN_BLEND,
FMOD_DSP_PAN_LFE_UPMIX_ENABLED,
FMOD_DSP_PAN_OVERALL_GAIN,
FMOD_DSP_PAN_SURROUND_SPEAKER_MODE,
FMOD_DSP_PAN_2D_HEIGHT_BLEND,
FMOD_DSP_PAN_ATTENUATION_RANGE,
FMOD_DSP_PAN_OVERRIDE_RANGE
} FMOD_DSP_PAN;
typedef enum
{
FMOD_DSP_THREE_EQ_CROSSOVERSLOPE_12DB,
FMOD_DSP_THREE_EQ_CROSSOVERSLOPE_24DB,
FMOD_DSP_THREE_EQ_CROSSOVERSLOPE_48DB
} FMOD_DSP_THREE_EQ_CROSSOVERSLOPE_TYPE;
typedef enum
{
FMOD_DSP_THREE_EQ_LOWGAIN,
FMOD_DSP_THREE_EQ_MIDGAIN,
FMOD_DSP_THREE_EQ_HIGHGAIN,
FMOD_DSP_THREE_EQ_LOWCROSSOVER,
FMOD_DSP_THREE_EQ_HIGHCROSSOVER,
FMOD_DSP_THREE_EQ_CROSSOVERSLOPE
} FMOD_DSP_THREE_EQ;
typedef enum
{
FMOD_DSP_FFT_WINDOW_RECT,
FMOD_DSP_FFT_WINDOW_TRIANGLE,
FMOD_DSP_FFT_WINDOW_HAMMING,
FMOD_DSP_FFT_WINDOW_HANNING,
FMOD_DSP_FFT_WINDOW_BLACKMAN,
FMOD_DSP_FFT_WINDOW_BLACKMANHARRIS
} FMOD_DSP_FFT_WINDOW_TYPE;
typedef enum
{
FMOD_DSP_FFT_DOWNMIX_NONE,
FMOD_DSP_FFT_DOWNMIX_MONO,
} FMOD_DSP_FFT_DOWNMIX_TYPE;
typedef enum
{
FMOD_DSP_FFT_WINDOWSIZE,
FMOD_DSP_FFT_WINDOW,
FMOD_DSP_FFT_BAND_START_FREQ,
FMOD_DSP_FFT_BAND_STOP_FREQ,
FMOD_DSP_FFT_SPECTRUMDATA,
FMOD_DSP_FFT_RMS,
FMOD_DSP_FFT_SPECTRAL_CENTROID,
FMOD_DSP_FFT_IMMEDIATE_MODE,
FMOD_DSP_FFT_DOWNMIX,
FMOD_DSP_FFT_CHANNEL,
} FMOD_DSP_FFT;
#define FMOD_DSP_LOUDNESS_METER_HISTOGRAM_SAMPLES 66
typedef enum
{
FMOD_DSP_LOUDNESS_METER_STATE,
FMOD_DSP_LOUDNESS_METER_WEIGHTING,
FMOD_DSP_LOUDNESS_METER_INFO
} FMOD_DSP_LOUDNESS_METER;
typedef enum
{
FMOD_DSP_LOUDNESS_METER_STATE_RESET_INTEGRATED = -3,
FMOD_DSP_LOUDNESS_METER_STATE_RESET_MAXPEAK = -2,
FMOD_DSP_LOUDNESS_METER_STATE_RESET_ALL = -1,
FMOD_DSP_LOUDNESS_METER_STATE_PAUSED = 0,
FMOD_DSP_LOUDNESS_METER_STATE_ANALYZING = 1
} FMOD_DSP_LOUDNESS_METER_STATE_TYPE;
typedef struct FMOD_DSP_LOUDNESS_METER_INFO_TYPE
{
float momentaryloudness;
float shorttermloudness;
float integratedloudness;
float loudness10thpercentile;
float loudness95thpercentile;
float loudnesshistogram[FMOD_DSP_LOUDNESS_METER_HISTOGRAM_SAMPLES];
float maxtruepeak;
float maxmomentaryloudness;
} FMOD_DSP_LOUDNESS_METER_INFO_TYPE;
typedef struct FMOD_DSP_LOUDNESS_METER_WEIGHTING_TYPE
{
float channelweight[32];
} FMOD_DSP_LOUDNESS_METER_WEIGHTING_TYPE;
typedef enum
{
FMOD_DSP_CONVOLUTION_REVERB_PARAM_IR,
FMOD_DSP_CONVOLUTION_REVERB_PARAM_WET,
FMOD_DSP_CONVOLUTION_REVERB_PARAM_DRY,
FMOD_DSP_CONVOLUTION_REVERB_PARAM_LINKED
} FMOD_DSP_CONVOLUTION_REVERB;
typedef enum
{
FMOD_DSP_CHANNELMIX_OUTPUT_DEFAULT,
FMOD_DSP_CHANNELMIX_OUTPUT_ALLMONO,
FMOD_DSP_CHANNELMIX_OUTPUT_ALLSTEREO,
FMOD_DSP_CHANNELMIX_OUTPUT_ALLQUAD,
FMOD_DSP_CHANNELMIX_OUTPUT_ALL5POINT1,
FMOD_DSP_CHANNELMIX_OUTPUT_ALL7POINT1,
FMOD_DSP_CHANNELMIX_OUTPUT_ALLLFE,
FMOD_DSP_CHANNELMIX_OUTPUT_ALL7POINT1POINT4
} FMOD_DSP_CHANNELMIX_OUTPUT;
typedef enum
{
FMOD_DSP_CHANNELMIX_OUTPUTGROUPING,
FMOD_DSP_CHANNELMIX_GAIN_CH0,
FMOD_DSP_CHANNELMIX_GAIN_CH1,
FMOD_DSP_CHANNELMIX_GAIN_CH2,
FMOD_DSP_CHANNELMIX_GAIN_CH3,
FMOD_DSP_CHANNELMIX_GAIN_CH4,
FMOD_DSP_CHANNELMIX_GAIN_CH5,
FMOD_DSP_CHANNELMIX_GAIN_CH6,
FMOD_DSP_CHANNELMIX_GAIN_CH7,
FMOD_DSP_CHANNELMIX_GAIN_CH8,
FMOD_DSP_CHANNELMIX_GAIN_CH9,
FMOD_DSP_CHANNELMIX_GAIN_CH10,
FMOD_DSP_CHANNELMIX_GAIN_CH11,
FMOD_DSP_CHANNELMIX_GAIN_CH12,
FMOD_DSP_CHANNELMIX_GAIN_CH13,
FMOD_DSP_CHANNELMIX_GAIN_CH14,
FMOD_DSP_CHANNELMIX_GAIN_CH15,
FMOD_DSP_CHANNELMIX_GAIN_CH16,
FMOD_DSP_CHANNELMIX_GAIN_CH17,
FMOD_DSP_CHANNELMIX_GAIN_CH18,
FMOD_DSP_CHANNELMIX_GAIN_CH19,
FMOD_DSP_CHANNELMIX_GAIN_CH20,
FMOD_DSP_CHANNELMIX_GAIN_CH21,
FMOD_DSP_CHANNELMIX_GAIN_CH22,
FMOD_DSP_CHANNELMIX_GAIN_CH23,
FMOD_DSP_CHANNELMIX_GAIN_CH24,
FMOD_DSP_CHANNELMIX_GAIN_CH25,
FMOD_DSP_CHANNELMIX_GAIN_CH26,
FMOD_DSP_CHANNELMIX_GAIN_CH27,
FMOD_DSP_CHANNELMIX_GAIN_CH28,
FMOD_DSP_CHANNELMIX_GAIN_CH29,
FMOD_DSP_CHANNELMIX_GAIN_CH30,
FMOD_DSP_CHANNELMIX_GAIN_CH31,
FMOD_DSP_CHANNELMIX_OUTPUT_CH0,
FMOD_DSP_CHANNELMIX_OUTPUT_CH1,
FMOD_DSP_CHANNELMIX_OUTPUT_CH2,
FMOD_DSP_CHANNELMIX_OUTPUT_CH3,
FMOD_DSP_CHANNELMIX_OUTPUT_CH4,
FMOD_DSP_CHANNELMIX_OUTPUT_CH5,
FMOD_DSP_CHANNELMIX_OUTPUT_CH6,
FMOD_DSP_CHANNELMIX_OUTPUT_CH7,
FMOD_DSP_CHANNELMIX_OUTPUT_CH8,
FMOD_DSP_CHANNELMIX_OUTPUT_CH9,
FMOD_DSP_CHANNELMIX_OUTPUT_CH10,
FMOD_DSP_CHANNELMIX_OUTPUT_CH11,
FMOD_DSP_CHANNELMIX_OUTPUT_CH12,
FMOD_DSP_CHANNELMIX_OUTPUT_CH13,
FMOD_DSP_CHANNELMIX_OUTPUT_CH14,
FMOD_DSP_CHANNELMIX_OUTPUT_CH15,
FMOD_DSP_CHANNELMIX_OUTPUT_CH16,
FMOD_DSP_CHANNELMIX_OUTPUT_CH17,
FMOD_DSP_CHANNELMIX_OUTPUT_CH18,
FMOD_DSP_CHANNELMIX_OUTPUT_CH19,
FMOD_DSP_CHANNELMIX_OUTPUT_CH20,
FMOD_DSP_CHANNELMIX_OUTPUT_CH21,
FMOD_DSP_CHANNELMIX_OUTPUT_CH22,
FMOD_DSP_CHANNELMIX_OUTPUT_CH23,
FMOD_DSP_CHANNELMIX_OUTPUT_CH24,
FMOD_DSP_CHANNELMIX_OUTPUT_CH25,
FMOD_DSP_CHANNELMIX_OUTPUT_CH26,
FMOD_DSP_CHANNELMIX_OUTPUT_CH27,
FMOD_DSP_CHANNELMIX_OUTPUT_CH28,
FMOD_DSP_CHANNELMIX_OUTPUT_CH29,
FMOD_DSP_CHANNELMIX_OUTPUT_CH30,
FMOD_DSP_CHANNELMIX_OUTPUT_CH31
} FMOD_DSP_CHANNELMIX;
typedef enum
{
FMOD_DSP_TRANSCEIVER_SPEAKERMODE_AUTO = -1,
FMOD_DSP_TRANSCEIVER_SPEAKERMODE_MONO = 0,
FMOD_DSP_TRANSCEIVER_SPEAKERMODE_STEREO,
FMOD_DSP_TRANSCEIVER_SPEAKERMODE_SURROUND,
} FMOD_DSP_TRANSCEIVER_SPEAKERMODE;
typedef enum
{
FMOD_DSP_TRANSCEIVER_TRANSMIT,
FMOD_DSP_TRANSCEIVER_GAIN,
FMOD_DSP_TRANSCEIVER_CHANNEL,
FMOD_DSP_TRANSCEIVER_TRANSMITSPEAKERMODE
} FMOD_DSP_TRANSCEIVER;
typedef enum
{
FMOD_DSP_OBJECTPAN_3D_POSITION,
FMOD_DSP_OBJECTPAN_3D_ROLLOFF,
FMOD_DSP_OBJECTPAN_3D_MIN_DISTANCE,
FMOD_DSP_OBJECTPAN_3D_MAX_DISTANCE,
FMOD_DSP_OBJECTPAN_3D_EXTENT_MODE,
FMOD_DSP_OBJECTPAN_3D_SOUND_SIZE,
FMOD_DSP_OBJECTPAN_3D_MIN_EXTENT,
FMOD_DSP_OBJECTPAN_OVERALL_GAIN,
FMOD_DSP_OBJECTPAN_OUTPUTGAIN,
FMOD_DSP_OBJECTPAN_ATTENUATION_RANGE,
FMOD_DSP_OBJECTPAN_OVERRIDE_RANGE
} FMOD_DSP_OBJECTPAN;
#endif

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/* ============================================================================================== */
/* FMOD Core / Studio API - Error string header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header if you want to store or display a string version / english explanation */
/* of the FMOD error codes. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api-common.html#fmod_result */
/* =============================================================================================== */
namespace FMOD
{
public class Error
{
public static string String(FMOD.RESULT errcode)
{
switch (errcode)
{
case FMOD.RESULT.OK: return "No errors.";
case FMOD.RESULT.ERR_BADCOMMAND: return "Tried to call a function on a data type that does not allow this type of functionality (ie calling Sound::lock on a streaming sound).";
case FMOD.RESULT.ERR_CHANNEL_ALLOC: return "Error trying to allocate a channel.";
case FMOD.RESULT.ERR_CHANNEL_STOLEN: return "The specified channel has been reused to play another sound.";
case FMOD.RESULT.ERR_DMA: return "DMA Failure. See debug output for more information.";
case FMOD.RESULT.ERR_DSP_CONNECTION: return "DSP connection error. Connection possibly caused a cyclic dependency or connected dsps with incompatible buffer counts.";
case FMOD.RESULT.ERR_DSP_DONTPROCESS: return "DSP return code from a DSP process query callback. Tells mixer not to call the process callback and therefore not consume CPU. Use this to optimize the DSP graph.";
case FMOD.RESULT.ERR_DSP_FORMAT: return "DSP Format error. A DSP unit may have attempted to connect to this network with the wrong format, or a matrix may have been set with the wrong size if the target unit has a specified channel map.";
case FMOD.RESULT.ERR_DSP_INUSE: return "DSP is already in the mixer's DSP network. It must be removed before being reinserted or released.";
case FMOD.RESULT.ERR_DSP_NOTFOUND: return "DSP connection error. Couldn't find the DSP unit specified.";
case FMOD.RESULT.ERR_DSP_RESERVED: return "DSP operation error. Cannot perform operation on this DSP as it is reserved by the system.";
case FMOD.RESULT.ERR_DSP_SILENCE: return "DSP return code from a DSP process query callback. Tells mixer silence would be produced from read, so go idle and not consume CPU. Use this to optimize the DSP graph.";
case FMOD.RESULT.ERR_DSP_TYPE: return "DSP operation cannot be performed on a DSP of this type.";
case FMOD.RESULT.ERR_FILE_BAD: return "Error loading file.";
case FMOD.RESULT.ERR_FILE_COULDNOTSEEK: return "Couldn't perform seek operation. This is a limitation of the medium (ie netstreams) or the file format.";
case FMOD.RESULT.ERR_FILE_DISKEJECTED: return "Media was ejected while reading.";
case FMOD.RESULT.ERR_FILE_EOF: return "End of file unexpectedly reached while trying to read essential data (truncated?).";
case FMOD.RESULT.ERR_FILE_ENDOFDATA: return "End of current chunk reached while trying to read data.";
case FMOD.RESULT.ERR_FILE_NOTFOUND: return "File not found.";
case FMOD.RESULT.ERR_FORMAT: return "Unsupported file or audio format.";
case FMOD.RESULT.ERR_HEADER_MISMATCH: return "There is a version mismatch between the FMOD header and either the FMOD Studio library or the FMOD Low Level library.";
case FMOD.RESULT.ERR_HTTP: return "A HTTP error occurred. This is a catch-all for HTTP errors not listed elsewhere.";
case FMOD.RESULT.ERR_HTTP_ACCESS: return "The specified resource requires authentication or is forbidden.";
case FMOD.RESULT.ERR_HTTP_PROXY_AUTH: return "Proxy authentication is required to access the specified resource.";
case FMOD.RESULT.ERR_HTTP_SERVER_ERROR: return "A HTTP server error occurred.";
case FMOD.RESULT.ERR_HTTP_TIMEOUT: return "The HTTP request timed out.";
case FMOD.RESULT.ERR_INITIALIZATION: return "FMOD was not initialized correctly to support this function.";
case FMOD.RESULT.ERR_INITIALIZED: return "Cannot call this command after System::init.";
case FMOD.RESULT.ERR_INTERNAL: return "An error occured in the FMOD system. Use the logging version of FMOD for more information.";
case FMOD.RESULT.ERR_INVALID_FLOAT: return "Value passed in was a NaN, Inf or denormalized float.";
case FMOD.RESULT.ERR_INVALID_HANDLE: return "An invalid object handle was used.";
case FMOD.RESULT.ERR_INVALID_PARAM: return "An invalid parameter was passed to this function.";
case FMOD.RESULT.ERR_INVALID_POSITION: return "An invalid seek position was passed to this function.";
case FMOD.RESULT.ERR_INVALID_SPEAKER: return "An invalid speaker was passed to this function based on the current speaker mode.";
case FMOD.RESULT.ERR_INVALID_SYNCPOINT: return "The syncpoint did not come from this sound handle.";
case FMOD.RESULT.ERR_INVALID_THREAD: return "Tried to call a function on a thread that is not supported.";
case FMOD.RESULT.ERR_INVALID_VECTOR: return "The vectors passed in are not unit length, or perpendicular.";
case FMOD.RESULT.ERR_MAXAUDIBLE: return "Reached maximum audible playback count for this sound's soundgroup.";
case FMOD.RESULT.ERR_MEMORY: return "Not enough memory or resources.";
case FMOD.RESULT.ERR_MEMORY_CANTPOINT: return "Can't use FMOD_OPENMEMORY_POINT on non PCM source data, or non mp3/xma/adpcm data if FMOD_CREATECOMPRESSEDSAMPLE was used.";
case FMOD.RESULT.ERR_NEEDS3D: return "Tried to call a command on a 2d sound when the command was meant for 3d sound.";
case FMOD.RESULT.ERR_NEEDSHARDWARE: return "Tried to use a feature that requires hardware support.";
case FMOD.RESULT.ERR_NET_CONNECT: return "Couldn't connect to the specified host.";
case FMOD.RESULT.ERR_NET_SOCKET_ERROR: return "A socket error occurred. This is a catch-all for socket-related errors not listed elsewhere.";
case FMOD.RESULT.ERR_NET_URL: return "The specified URL couldn't be resolved.";
case FMOD.RESULT.ERR_NET_WOULD_BLOCK: return "Operation on a non-blocking socket could not complete immediately.";
case FMOD.RESULT.ERR_NOTREADY: return "Operation could not be performed because specified sound/DSP connection is not ready.";
case FMOD.RESULT.ERR_OUTPUT_ALLOCATED: return "Error initializing output device, but more specifically, the output device is already in use and cannot be reused.";
case FMOD.RESULT.ERR_OUTPUT_CREATEBUFFER: return "Error creating hardware sound buffer.";
case FMOD.RESULT.ERR_OUTPUT_DRIVERCALL: return "A call to a standard soundcard driver failed, which could possibly mean a bug in the driver or resources were missing or exhausted.";
case FMOD.RESULT.ERR_OUTPUT_FORMAT: return "Soundcard does not support the specified format.";
case FMOD.RESULT.ERR_OUTPUT_INIT: return "Error initializing output device.";
case FMOD.RESULT.ERR_OUTPUT_NODRIVERS: return "The output device has no drivers installed. If pre-init, FMOD_OUTPUT_NOSOUND is selected as the output mode. If post-init, the function just fails.";
case FMOD.RESULT.ERR_PLUGIN: return "An unspecified error has been returned from a plugin.";
case FMOD.RESULT.ERR_PLUGIN_MISSING: return "A requested output, dsp unit type or codec was not available.";
case FMOD.RESULT.ERR_PLUGIN_RESOURCE: return "A resource that the plugin requires cannot be allocated or found. (ie the DLS file for MIDI playback)";
case FMOD.RESULT.ERR_PLUGIN_VERSION: return "A plugin was built with an unsupported SDK version.";
case FMOD.RESULT.ERR_RECORD: return "An error occurred trying to initialize the recording device.";
case FMOD.RESULT.ERR_REVERB_CHANNELGROUP: return "Reverb properties cannot be set on this channel because a parent channelgroup owns the reverb connection.";
case FMOD.RESULT.ERR_REVERB_INSTANCE: return "Specified instance in FMOD_REVERB_PROPERTIES couldn't be set. Most likely because it is an invalid instance number or the reverb doesn't exist.";
case FMOD.RESULT.ERR_SUBSOUNDS: return "The error occurred because the sound referenced contains subsounds when it shouldn't have, or it doesn't contain subsounds when it should have. The operation may also not be able to be performed on a parent sound.";
case FMOD.RESULT.ERR_SUBSOUND_ALLOCATED: return "This subsound is already being used by another sound, you cannot have more than one parent to a sound. Null out the other parent's entry first.";
case FMOD.RESULT.ERR_SUBSOUND_CANTMOVE: return "Shared subsounds cannot be replaced or moved from their parent stream, such as when the parent stream is an FSB file.";
case FMOD.RESULT.ERR_TAGNOTFOUND: return "The specified tag could not be found or there are no tags.";
case FMOD.RESULT.ERR_TOOMANYCHANNELS: return "The sound created exceeds the allowable input channel count. This can be increased using the 'maxinputchannels' parameter in System::setSoftwareFormat.";
case FMOD.RESULT.ERR_TRUNCATED: return "The retrieved string is too long to fit in the supplied buffer and has been truncated.";
case FMOD.RESULT.ERR_UNIMPLEMENTED: return "Something in FMOD hasn't been implemented when it should be. Contact support.";
case FMOD.RESULT.ERR_UNINITIALIZED: return "This command failed because System::init or System::setDriver was not called.";
case FMOD.RESULT.ERR_UNSUPPORTED: return "A command issued was not supported by this object. Possibly a plugin without certain callbacks specified.";
case FMOD.RESULT.ERR_VERSION: return "The version number of this file format is not supported.";
case FMOD.RESULT.ERR_EVENT_ALREADY_LOADED: return "The specified bank has already been loaded.";
case FMOD.RESULT.ERR_EVENT_LIVEUPDATE_BUSY: return "The live update connection failed due to the game already being connected.";
case FMOD.RESULT.ERR_EVENT_LIVEUPDATE_MISMATCH: return "The live update connection failed due to the game data being out of sync with the tool.";
case FMOD.RESULT.ERR_EVENT_LIVEUPDATE_TIMEOUT: return "The live update connection timed out.";
case FMOD.RESULT.ERR_EVENT_NOTFOUND: return "The requested event, bus or vca could not be found.";
case FMOD.RESULT.ERR_STUDIO_UNINITIALIZED: return "The Studio::System object is not yet initialized.";
case FMOD.RESULT.ERR_STUDIO_NOT_LOADED: return "The specified resource is not loaded, so it can't be unloaded.";
case FMOD.RESULT.ERR_INVALID_STRING: return "An invalid string was passed to this function.";
case FMOD.RESULT.ERR_ALREADY_LOCKED: return "The specified resource is already locked.";
case FMOD.RESULT.ERR_NOT_LOCKED: return "The specified resource is not locked, so it can't be unlocked.";
case FMOD.RESULT.ERR_RECORD_DISCONNECTED: return "The specified recording driver has been disconnected.";
case FMOD.RESULT.ERR_TOOMANYSAMPLES: return "The length provided exceed the allowable limit.";
default: return "Unknown error.";
}
}
}
}

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/* ============================================================================================== */
/* FMOD Core / Studio API - Error string header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header if you want to store or display a string version / english explanation */
/* of the FMOD error codes. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/core-api-common.html#fmod_result */
/* =============================================================================================== */
#ifndef _FMOD_ERRORS_H
#define _FMOD_ERRORS_H
#include "fmod.h"
#ifdef __GNUC__
static const char *FMOD_ErrorString(FMOD_RESULT errcode) __attribute__((unused));
#endif
static const char *FMOD_ErrorString(FMOD_RESULT errcode)
{
switch (errcode)
{
case FMOD_OK: return "No errors.";
case FMOD_ERR_BADCOMMAND: return "Tried to call a function on a data type that does not allow this type of functionality (ie calling Sound::lock on a streaming sound).";
case FMOD_ERR_CHANNEL_ALLOC: return "Error trying to allocate a channel.";
case FMOD_ERR_CHANNEL_STOLEN: return "The specified channel has been reused to play another sound.";
case FMOD_ERR_DMA: return "DMA Failure. See debug output for more information.";
case FMOD_ERR_DSP_CONNECTION: return "DSP connection error. Connection possibly caused a cyclic dependency or connected dsps with incompatible buffer counts.";
case FMOD_ERR_DSP_DONTPROCESS: return "DSP return code from a DSP process query callback. Tells mixer not to call the process callback and therefore not consume CPU. Use this to optimize the DSP graph.";
case FMOD_ERR_DSP_FORMAT: return "DSP Format error. A DSP unit may have attempted to connect to this network with the wrong format, or a matrix may have been set with the wrong size if the target unit has a specified channel map.";
case FMOD_ERR_DSP_INUSE: return "DSP is already in the mixer's DSP network. It must be removed before being reinserted or released.";
case FMOD_ERR_DSP_NOTFOUND: return "DSP connection error. Couldn't find the DSP unit specified.";
case FMOD_ERR_DSP_RESERVED: return "DSP operation error. Cannot perform operation on this DSP as it is reserved by the system.";
case FMOD_ERR_DSP_SILENCE: return "DSP return code from a DSP process query callback. Tells mixer silence would be produced from read, so go idle and not consume CPU. Use this to optimize the DSP graph.";
case FMOD_ERR_DSP_TYPE: return "DSP operation cannot be performed on a DSP of this type.";
case FMOD_ERR_FILE_BAD: return "Error loading file.";
case FMOD_ERR_FILE_COULDNOTSEEK: return "Couldn't perform seek operation. This is a limitation of the medium (ie netstreams) or the file format.";
case FMOD_ERR_FILE_DISKEJECTED: return "Media was ejected while reading.";
case FMOD_ERR_FILE_EOF: return "End of file unexpectedly reached while trying to read essential data (truncated?).";
case FMOD_ERR_FILE_ENDOFDATA: return "End of current chunk reached while trying to read data.";
case FMOD_ERR_FILE_NOTFOUND: return "File not found.";
case FMOD_ERR_FORMAT: return "Unsupported file or audio format.";
case FMOD_ERR_HEADER_MISMATCH: return "There is a version mismatch between the FMOD header and either the FMOD Studio library or the FMOD Low Level library.";
case FMOD_ERR_HTTP: return "A HTTP error occurred. This is a catch-all for HTTP errors not listed elsewhere.";
case FMOD_ERR_HTTP_ACCESS: return "The specified resource requires authentication or is forbidden.";
case FMOD_ERR_HTTP_PROXY_AUTH: return "Proxy authentication is required to access the specified resource.";
case FMOD_ERR_HTTP_SERVER_ERROR: return "A HTTP server error occurred.";
case FMOD_ERR_HTTP_TIMEOUT: return "The HTTP request timed out.";
case FMOD_ERR_INITIALIZATION: return "FMOD was not initialized correctly to support this function.";
case FMOD_ERR_INITIALIZED: return "Cannot call this command after System::init.";
case FMOD_ERR_INTERNAL: return "An error occured in the FMOD system. Use the logging version of FMOD for more information.";
case FMOD_ERR_INVALID_FLOAT: return "Value passed in was a NaN, Inf or denormalized float.";
case FMOD_ERR_INVALID_HANDLE: return "An invalid object handle was used.";
case FMOD_ERR_INVALID_PARAM: return "An invalid parameter was passed to this function.";
case FMOD_ERR_INVALID_POSITION: return "An invalid seek position was passed to this function.";
case FMOD_ERR_INVALID_SPEAKER: return "An invalid speaker was passed to this function based on the current speaker mode.";
case FMOD_ERR_INVALID_SYNCPOINT: return "The syncpoint did not come from this sound handle.";
case FMOD_ERR_INVALID_THREAD: return "Tried to call a function on a thread that is not supported.";
case FMOD_ERR_INVALID_VECTOR: return "The vectors passed in are not unit length, or perpendicular.";
case FMOD_ERR_MAXAUDIBLE: return "Reached maximum audible playback count for this sound's soundgroup.";
case FMOD_ERR_MEMORY: return "Not enough memory or resources.";
case FMOD_ERR_MEMORY_CANTPOINT: return "Can't use FMOD_OPENMEMORY_POINT on non PCM source data, or non mp3/xma/adpcm data if FMOD_CREATECOMPRESSEDSAMPLE was used.";
case FMOD_ERR_NEEDS3D: return "Tried to call a command on a 2d sound when the command was meant for 3d sound.";
case FMOD_ERR_NEEDSHARDWARE: return "Tried to use a feature that requires hardware support.";
case FMOD_ERR_NET_CONNECT: return "Couldn't connect to the specified host.";
case FMOD_ERR_NET_SOCKET_ERROR: return "A socket error occurred. This is a catch-all for socket-related errors not listed elsewhere.";
case FMOD_ERR_NET_URL: return "The specified URL couldn't be resolved.";
case FMOD_ERR_NET_WOULD_BLOCK: return "Operation on a non-blocking socket could not complete immediately.";
case FMOD_ERR_NOTREADY: return "Operation could not be performed because specified sound/DSP connection is not ready.";
case FMOD_ERR_OUTPUT_ALLOCATED: return "Error initializing output device, but more specifically, the output device is already in use and cannot be reused.";
case FMOD_ERR_OUTPUT_CREATEBUFFER: return "Error creating hardware sound buffer.";
case FMOD_ERR_OUTPUT_DRIVERCALL: return "A call to a standard soundcard driver failed, which could possibly mean a bug in the driver or resources were missing or exhausted.";
case FMOD_ERR_OUTPUT_FORMAT: return "Soundcard does not support the specified format.";
case FMOD_ERR_OUTPUT_INIT: return "Error initializing output device.";
case FMOD_ERR_OUTPUT_NODRIVERS: return "The output device has no drivers installed. If pre-init, FMOD_OUTPUT_NOSOUND is selected as the output mode. If post-init, the function just fails.";
case FMOD_ERR_PLUGIN: return "An unspecified error has been returned from a plugin.";
case FMOD_ERR_PLUGIN_MISSING: return "A requested output, dsp unit type or codec was not available.";
case FMOD_ERR_PLUGIN_RESOURCE: return "A resource that the plugin requires cannot be allocated or found. (ie the DLS file for MIDI playback)";
case FMOD_ERR_PLUGIN_VERSION: return "A plugin was built with an unsupported SDK version.";
case FMOD_ERR_RECORD: return "An error occurred trying to initialize the recording device.";
case FMOD_ERR_REVERB_CHANNELGROUP: return "Reverb properties cannot be set on this channel because a parent channelgroup owns the reverb connection.";
case FMOD_ERR_REVERB_INSTANCE: return "Specified instance in FMOD_REVERB_PROPERTIES couldn't be set. Most likely because it is an invalid instance number or the reverb doesn't exist.";
case FMOD_ERR_SUBSOUNDS: return "The error occurred because the sound referenced contains subsounds when it shouldn't have, or it doesn't contain subsounds when it should have. The operation may also not be able to be performed on a parent sound.";
case FMOD_ERR_SUBSOUND_ALLOCATED: return "This subsound is already being used by another sound, you cannot have more than one parent to a sound. Null out the other parent's entry first.";
case FMOD_ERR_SUBSOUND_CANTMOVE: return "Shared subsounds cannot be replaced or moved from their parent stream, such as when the parent stream is an FSB file.";
case FMOD_ERR_TAGNOTFOUND: return "The specified tag could not be found or there are no tags.";
case FMOD_ERR_TOOMANYCHANNELS: return "The sound created exceeds the allowable input channel count. This can be increased using the 'maxinputchannels' parameter in System::setSoftwareFormat.";
case FMOD_ERR_TRUNCATED: return "The retrieved string is too long to fit in the supplied buffer and has been truncated.";
case FMOD_ERR_UNIMPLEMENTED: return "Something in FMOD hasn't been implemented when it should be. Contact support.";
case FMOD_ERR_UNINITIALIZED: return "This command failed because System::init or System::setDriver was not called.";
case FMOD_ERR_UNSUPPORTED: return "A command issued was not supported by this object. Possibly a plugin without certain callbacks specified.";
case FMOD_ERR_VERSION: return "The version number of this file format is not supported.";
case FMOD_ERR_EVENT_ALREADY_LOADED: return "The specified bank has already been loaded.";
case FMOD_ERR_EVENT_LIVEUPDATE_BUSY: return "The live update connection failed due to the game already being connected.";
case FMOD_ERR_EVENT_LIVEUPDATE_MISMATCH: return "The live update connection failed due to the game data being out of sync with the tool.";
case FMOD_ERR_EVENT_LIVEUPDATE_TIMEOUT: return "The live update connection timed out.";
case FMOD_ERR_EVENT_NOTFOUND: return "The requested event, parameter, bus or vca could not be found.";
case FMOD_ERR_STUDIO_UNINITIALIZED: return "The Studio::System object is not yet initialized.";
case FMOD_ERR_STUDIO_NOT_LOADED: return "The specified resource is not loaded, so it can't be unloaded.";
case FMOD_ERR_INVALID_STRING: return "An invalid string was passed to this function.";
case FMOD_ERR_ALREADY_LOCKED: return "The specified resource is already locked.";
case FMOD_ERR_NOT_LOCKED: return "The specified resource is not locked, so it can't be unlocked.";
case FMOD_ERR_RECORD_DISCONNECTED: return "The specified recording driver has been disconnected.";
case FMOD_ERR_TOOMANYSAMPLES: return "The length provided exceeds the allowable limit.";
default : return "Unknown error.";
};
}
#endif

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/* ======================================================================================== */
/* FMOD Core API - output development header file. */
/* Copyright (c), Firelight Technologies Pty, Ltd. 2004-2025. */
/* */
/* Use this header if you are wanting to develop your own output plugin to use with */
/* FMOD's output system. With this header you can make your own output plugin that FMOD */
/* can register and use. See the documentation and examples on how to make a working */
/* plugin. */
/* */
/* For more detail visit: */
/* https://fmod.com/docs/2.03/api/plugin-api-output.html */
/* ======================================================================================== */
#ifndef _FMOD_OUTPUT_H
#define _FMOD_OUTPUT_H
typedef struct FMOD_OUTPUT_STATE FMOD_OUTPUT_STATE;
typedef struct FMOD_OUTPUT_OBJECT3DINFO FMOD_OUTPUT_OBJECT3DINFO;
/*
Output constants
*/
#define FMOD_OUTPUT_PLUGIN_VERSION 5
typedef unsigned int FMOD_OUTPUT_METHOD;
#define FMOD_OUTPUT_METHOD_MIX_DIRECT 0
#define FMOD_OUTPUT_METHOD_MIX_BUFFERED 1
/*
Output callbacks
*/
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_GETNUMDRIVERS_CALLBACK) (FMOD_OUTPUT_STATE *output_state, int *numdrivers);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_GETDRIVERINFO_CALLBACK) (FMOD_OUTPUT_STATE *output_state, int id, char *name, int namelen, FMOD_GUID *guid, int *systemrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_INIT_CALLBACK) (FMOD_OUTPUT_STATE *output_state, int selecteddriver, FMOD_INITFLAGS flags, int *outputrate, FMOD_SPEAKERMODE *speakermode, int *speakermodechannels, FMOD_SOUND_FORMAT *outputformat, int dspbufferlength, int *dspnumbuffers, int *dspnumadditionalbuffers, void *extradriverdata);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_START_CALLBACK) (FMOD_OUTPUT_STATE *output_state);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_STOP_CALLBACK) (FMOD_OUTPUT_STATE *output_state);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_CLOSE_CALLBACK) (FMOD_OUTPUT_STATE *output_state);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_UPDATE_CALLBACK) (FMOD_OUTPUT_STATE *output_state);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_GETHANDLE_CALLBACK) (FMOD_OUTPUT_STATE *output_state, void **handle);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_MIXER_CALLBACK) (FMOD_OUTPUT_STATE *output_state);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_OBJECT3DGETINFO_CALLBACK) (FMOD_OUTPUT_STATE *output_state, int *maxhardwareobjects);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_OBJECT3DALLOC_CALLBACK) (FMOD_OUTPUT_STATE *output_state, void **object3d);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_OBJECT3DFREE_CALLBACK) (FMOD_OUTPUT_STATE *output_state, void *object3d);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_OBJECT3DUPDATE_CALLBACK) (FMOD_OUTPUT_STATE *output_state, void *object3d, const FMOD_OUTPUT_OBJECT3DINFO *info);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_OPENPORT_CALLBACK) (FMOD_OUTPUT_STATE *output_state, FMOD_PORT_TYPE portType, FMOD_PORT_INDEX portIndex, int *portId, int *portRate, int *portChannels, FMOD_SOUND_FORMAT *portFormat);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_CLOSEPORT_CALLBACK) (FMOD_OUTPUT_STATE *output_state, int portId);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_DEVICELISTCHANGED_CALLBACK)(FMOD_OUTPUT_STATE *output_state);
/*
Output functions
*/
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_READFROMMIXER_FUNC) (FMOD_OUTPUT_STATE *output_state, void *buffer, unsigned int length);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_COPYPORT_FUNC) (FMOD_OUTPUT_STATE *output_state, int portId, void *buffer, unsigned int length);
typedef FMOD_RESULT (F_CALL *FMOD_OUTPUT_REQUESTRESET_FUNC) (FMOD_OUTPUT_STATE *output_state);
typedef void * (F_CALL *FMOD_OUTPUT_ALLOC_FUNC) (unsigned int size, unsigned int align, const char *file, int line);
typedef void (F_CALL *FMOD_OUTPUT_FREE_FUNC) (void *ptr, const char *file, int line);
typedef void (F_CALL *FMOD_OUTPUT_LOG_FUNC) (FMOD_DEBUG_FLAGS level, const char *file, int line, const char *function, const char *string, ...);
/*
Output structures
*/
typedef struct FMOD_OUTPUT_DESCRIPTION
{
unsigned int apiversion;
const char *name;
unsigned int version;
FMOD_OUTPUT_METHOD method;
FMOD_OUTPUT_GETNUMDRIVERS_CALLBACK getnumdrivers;
FMOD_OUTPUT_GETDRIVERINFO_CALLBACK getdriverinfo;
FMOD_OUTPUT_INIT_CALLBACK init;
FMOD_OUTPUT_START_CALLBACK start;
FMOD_OUTPUT_STOP_CALLBACK stop;
FMOD_OUTPUT_CLOSE_CALLBACK close;
FMOD_OUTPUT_UPDATE_CALLBACK update;
FMOD_OUTPUT_GETHANDLE_CALLBACK gethandle;
FMOD_OUTPUT_MIXER_CALLBACK mixer;
FMOD_OUTPUT_OBJECT3DGETINFO_CALLBACK object3dgetinfo;
FMOD_OUTPUT_OBJECT3DALLOC_CALLBACK object3dalloc;
FMOD_OUTPUT_OBJECT3DFREE_CALLBACK object3dfree;
FMOD_OUTPUT_OBJECT3DUPDATE_CALLBACK object3dupdate;
FMOD_OUTPUT_OPENPORT_CALLBACK openport;
FMOD_OUTPUT_CLOSEPORT_CALLBACK closeport;
FMOD_OUTPUT_DEVICELISTCHANGED_CALLBACK devicelistchanged;
} FMOD_OUTPUT_DESCRIPTION;
struct FMOD_OUTPUT_STATE
{
void *plugindata;
FMOD_OUTPUT_READFROMMIXER_FUNC readfrommixer;
FMOD_OUTPUT_ALLOC_FUNC alloc;
FMOD_OUTPUT_FREE_FUNC free;
FMOD_OUTPUT_LOG_FUNC log;
FMOD_OUTPUT_COPYPORT_FUNC copyport;
FMOD_OUTPUT_REQUESTRESET_FUNC requestreset;
};
struct FMOD_OUTPUT_OBJECT3DINFO
{
float *buffer;
unsigned int bufferlength;
FMOD_VECTOR position;
float gain;
float spread;
float priority;
};
/*
Output macros
*/
#define FMOD_OUTPUT_READFROMMIXER(_state, _buffer, _length) \
(_state)->readfrommixer(_state, _buffer, _length)
#define FMOD_OUTPUT_ALLOC(_state, _size, _align) \
(_state)->alloc(_size, _align, __FILE__, __LINE__)
#define FMOD_OUTPUT_FREE(_state, _ptr) \
(_state)->free(_ptr, __FILE__, __LINE__)
#define FMOD_OUTPUT_LOG(_state, _level, _location, _format, ...) \
(_state)->log(_level, __FILE__, __LINE__, _location, _format, ##__VA_ARGS__)
#define FMOD_OUTPUT_COPYPORT(_state, _id, _buffer, _length) \
(_state)->copyport(_state, _id, _buffer, _length)
#define FMOD_OUTPUT_REQUESTRESET(_state) \
(_state)->requestreset(_state)
#endif /* _FMOD_OUTPUT_H */