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|
#ifndef IMSSAPI_H
#define IMSSAPI_H
// Internal API file
#if defined(IS_PS3) || defined(IS_PSP)
#include <string.h>
#endif
#if defined(IS_WII)
#include <string.h>
#include <math.h>
#endif
#ifdef __cplusplus
extern "C"
{
#endif
#if defined(IS_WIN32API) || defined(IS_WII)
#pragma pack(push, 1)
#endif
#ifdef IS_32
#if !defined(IS_WIN32API)
#define ASMLINK
#define ASMPARM
#else
#if defined(IS_XENON)
#define ASMLINK __cdecl
#define ASMPARM register
#else
#define ASMLINK __cdecl
#define ASMPARM
#endif
#endif
#else
#define ASMLINK WINAPI
#define ASMPARM
#endif
#ifndef YES
#define YES 1
#endif
#ifndef NULL
#define NULL 0
#endif
#define MSSHIWORD(ptr) (((U32)ptr)>>16)
#define MSSLOWORD(ptr) ((U16)((U32)ptr))
#ifndef NO
#define NO 0
#endif
#ifndef TRUE
#define TRUE 1
#endif
#ifndef FALSE
#define FALSE 0
#endif
#ifdef IS_MAC
#if !defined(max)
#define max(a,b) (((a) > (b)) ? (a) : (b))
#endif
#if !defined(min)
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif
#endif
#ifdef IS_WATCOM
#if !defined(max) // Watcom stdlib.h doesn't define these for C++
#define max(a,b) (((a) > (b)) ? (a) : (b))
#endif
#if !defined(min)
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif
#endif
#ifdef IS_WIN64
#define PTRFMT "0x%I64X"
#define SINTFMT "%I64d"
#define HPFMT "%ld"
#else
#if defined(IS_PS3) || defined(IS_PSP) || defined(IS_3DS)
#define PTRFMT "0x%lX"
#define SINTFMT "%d" // (GCC warns when ints printed with %ld)
#define HPFMT "%ld"
#else
#define PTRFMT "0x%lX"
#define SINTFMT "%ld"
#define HPFMT "%ld"
#endif
#endif
U32 AILCALL XMI_read_VLN(U8 const* *ptr);
S32 AILCALL XMI_message_size(S32 status);
void const * AILCALL XMI_find_sequence(U8 const *image, S32 sequence);
S32 AIL_process_WAV_image( AILSOUNDINFO const * info, HSAMPLE sample );
#ifdef IS_SPU
#define NTELEMETRY
#endif
#include "tmapi.h"
#ifdef NTELEMETRY
#define miles_context 0
#else
extern HTELEMETRY g_Miles_Tm;
extern S32 g_tm_log;
#define miles_context g_Miles_Tm
#endif
//############################################################################
//## ##
//## API function prototypes ##
//## ##
//############################################################################
#define check_hardware_buffer( S, flags )
#define hardware_stop( S )
#define set_hardware_position( S )
#define hardware_spin_until_stopped( S )
#define set_hardware_volume( S )
#define set_master_hardware_volume( dig )
#define set_hardware_loop_region( S )
#define set_hardware_low_pass( S )
extern void AILCALL InMilesMutex(void);
extern void AILCALL OutMilesMutex(void);
#ifdef IS_WIN32API
#ifdef NTAPI
extern HWND AILCALL AIL_API_HWND (void);
void AILEXPORT API_timer (UINT IDEvent,
UINT uReserved,
DWORD dwUser,
DWORD dwReserved1,
DWORD dwReserved2);
#endif
extern S32 MilesCount;
extern U32 lastapitimerms;
void AILCALL Set_thread_name( U32 thread_id, char const * thread_name );
#endif
#ifdef IS_MAC
#if defined(__CARBON__)
ProcessSerialNumber AILCALL AIL_API_Process(void);
#endif
#endif
#ifdef _DEBUG
DXDEC void AILEXPORT AIL_debug_printf( char const *fmt, ...);
#else
#define AIL_debug_printf(...)
#endif
#ifndef MSS_SPU_PROCESS
//
// Global preference array
//
extern SINTa AIL_preference [N_PREFS];
#endif
extern char AIL_redist_directory[260];
extern S32 AILCALL match_suffix(char const* suffix,char const* file_suffix);
#if !defined(IS_X86) || !defined(IS_MAC) // use mix rib on x86 mac
DXDEC S32 AILCALL MIX_RIB_MAIN( HPROVIDER provider_handle, U32 up_down, RIB_ALLOC_PROVIDER_HANDLE_TYPE * rib_alloc, RIB_REGISTER_INTERFACE_TYPE * rib_reg, RIB_UNREGISTER_INTERFACE_TYPE * rib_unreg );
#endif
//
// High-level support services
//
extern void AILCALL AIL_API_startup (void);
extern void AILCALL AIL_API_shutdown (void);
extern SINTa AILCALL AIL_API_set_preference (U32 number,
SINTa value);
//
// Low-level support services
//
extern void AILCALL AIL_API_sleep (U32 ms);
extern S32 AILCALL AIL_API_background (void);
extern void AILCALL AIL_API_mem_free_lock (void *ptr);
extern void* AILCALL AIL_API_mem_alloc_lock (UINTa size);
//
// Process services
//
extern HTIMER AILCALL AIL_API_register_timer (AILTIMERCB fn);
extern UINTa AILCALL AIL_API_set_timer_user (HTIMER timer,
UINTa user);
extern void AILCALL AIL_API_set_timer_period (HTIMER timer,
U32 microseconds);
extern void AILCALL AIL_API_set_timer_frequency (HTIMER timer,
U32 hertz) ;
extern void AILCALL AIL_API_set_timer_divisor (HTIMER timer,
U32 PIT_divisor);
extern void AILCALL AIL_API_start_timer (HTIMER timer) ;
extern void AILCALL AIL_API_start_all_timers (void);
extern void AILCALL AIL_API_stop_timer (HTIMER timer);
extern void AILCALL AIL_API_stop_all_timers (void);
extern void AILCALL AIL_API_release_timer_handle(HTIMER timer);
extern void AILCALL AIL_API_release_all_timers (void);
extern void Container_FreeAll();
extern void* Container_GetPreset(char const* i_PresetName);
extern void* Container_GetEnvironment(char const* i_EnvironmentName);
extern S32 Container_GetSound(char const* i_SoundName, char* o_SoundFileName, MILESBANKSOUNDINFO* o_SoundInfo);
extern void* Container_GetEvent(char const* i_EventName);
extern void* Container_GetMarkerList(char const* i_SoundName);
extern S32 Container_GetLoadedCount();
extern S32 Container_GetMemUsage();
extern char const* Container_GetLoadedName(S32 i_Index);
extern const U8* AILCALL MilesFindEventInternal(HMSOUNDBANK i_Bank, const char* i_EventName);
extern void AILCALL MilesClearEventQueueInternal();
extern void AILCALL MilesRegisterRandInternal(MSS_USER_RAND * rand);
extern U64 AILCALL MilesEnqueueEventInternal(const U8* i_Event, void* i_UserBuffer, S32 i_UserBufferLen, S32 i_EnqueueFlags, U64 i_EventFilter);
extern U64 AILCALL MilesEnqueueEventByNameInternal(char const* i_Name);
extern U64 AILCALL MilesEnqueueEventContextInternal(HEVENTSYSTEM i_Context, const U8* i_Event, void* i_UserBuffer, S32 i_UserBufferLen, S32 i_EnqueueFlags, U64 i_EventFilter);
extern S32 AILCALL MilesBeginEventQueueProcessingInternal();
extern S32 AILCALL MilesCompleteEventQueueProcessingInternal();
extern S32 AILCALL MilesEnumerateSoundInstancesInternal(HEVENTSYSTEM i_System, HMSSENUM* io_Next, S32 i_Status, const char* i_Labels, U64 search_for_ID, MILESEVENTSOUNDINFO* o_Info);
extern S32 AILCALL MilesEnumeratePresetPersistsInternal(HEVENTSYSTEM i_System, HMSSENUM* io_Next, const char** o_Name);
extern HEVENTSYSTEM AILCALL MilesStartupEventSystemInternal(HDIGDRIVER i_Driver, S32 i_CommandBufferSize, char* i_Memory, S32 i_MemoryLen);
extern HEVENTSYSTEM AILCALL MilesAddEventSystemInternal(HDIGDRIVER i_Driver);
extern S32 AILCALL MilesSetSoundLabelLimitsInternal(HEVENTSYSTEM i_System, U64 i_Id, const char* i_SoundLimits, char const* i_Name);
extern void AILCALL MilesShutdownEventSystemInternal();
extern HMSOUNDBANK AILCALL MilesAddSoundBankInternal(const char* i_FileName, char const* i_Name);
extern S32 AILCALL MilesReleaseSoundBankInternal(HMSOUNDBANK i_Bank);
extern char* AILCALL MilesTextDumpEventSystemInternal();
extern void AILCALL MilesSetEventErrorCallbackInternal(AILEVENTERRORCB i_Callback);
extern void AILCALL MilesSetVarIInternal(UINTa i_System, char const* i_Name, S32 i_Value);
extern void AILCALL MilesSetVarFInternal(UINTa i_System, char const* i_Name, F32 i_Value);
extern S32 AILCALL MilesGetVarFInternal(UINTa i_Context, char const* i_Name, F32* o_Value);
extern S32 AILCALL MilesGetVarIInternal(UINTa i_Context, char const* i_Name, S32* o_Value);
extern void AILCALL MilesSetSoundStartOffsetInternal(HMSSENUM i_Instance, S32 i_Offset, S32 i_IsMs);
extern void AILCALL MilesRequeueAsyncsInternal();
extern AIL_file_open_callback MSS_open;
extern AIL_file_close_callback MSS_close;
extern AIL_file_seek_callback MSS_seek;
extern AIL_file_read_callback MSS_read;
extern S32 disk_err;
extern char MSS_Directory[260];
extern void stream_background(void); // background service for streaming
#define call_fetch_CB( ASI,usr,dest,bytes,offset ) ((AILASIFETCHCB)((ASI)->fetch_CB))(usr,dest,bytes,offset)
extern HPROVIDER find_ASI_provider(const C8 *attrib, const C8 *filename);
//
// M3D services
//
extern HDIGDRIVER AILCALL AIL_API_primary_digital_driver (HDIGDRIVER new_primary);
extern void AILCALL AIL_API_set_sample_3D_distances (HSAMPLE samp,
F32 max_dist,
F32 min_dist,
S32 auto_3D_wet_atten);
extern void AILCALL AIL_API_sample_3D_distances (HSAMPLE samp,
F32 * max_dist,
F32 * min_dist,
S32 * auto_3D_wet_atten);
extern void AILCALL AIL_API_set_sample_obstruction (HSAMPLE S,
F32 obstruction);
extern void AILCALL AIL_API_set_sample_exclusion (HSAMPLE S,
F32 exclusion);
extern void AILCALL AIL_API_set_sample_occlusion (HSAMPLE S,
F32 occlusion);
extern void AILCALL AIL_API_set_sample_3D_cone (HSAMPLE S,
F32 inner_angle,
F32 outer_angle,
F32 outer_volume);
extern F32 AILCALL AIL_API_sample_obstruction (HSAMPLE S);
extern F32 AILCALL AIL_API_sample_occlusion (HSAMPLE S);
extern F32 AILCALL AIL_API_sample_exclusion (HSAMPLE S);
extern void AILCALL AIL_API_sample_3D_cone (HSAMPLE S,
F32 *inner_angle,
F32 *outer_angle,
F32 *outer_volume);
extern S32 AILCALL AIL_API_room_type (HDIGDRIVER dig,
S32 bus_index);
extern void AILCALL AIL_API_set_room_type (HDIGDRIVER dig,
S32 bus_index,
S32 EAX_room_type);
extern F32 AILCALL AIL_API_3D_rolloff_factor (HDIGDRIVER dig);
extern void AILCALL AIL_API_set_3D_rolloff_factor (HDIGDRIVER dig,
F32 factor );
extern F32 AILCALL AIL_API_3D_doppler_factor (HDIGDRIVER dig);
extern void AILCALL AIL_API_set_3D_doppler_factor (HDIGDRIVER dig,
F32 factor );
extern F32 AILCALL AIL_API_3D_distance_factor (HDIGDRIVER dig);
extern void AILCALL AIL_API_set_3D_distance_factor (HDIGDRIVER dig,
F32 factor );
extern void AILCALL AIL_API_set_sample_3D_position (HSAMPLE S,
F32 X,
F32 Y,
F32 Z);
extern void AILCALL AIL_API_set_sample_3D_velocity (HSAMPLE S,
F32 dX_per_ms,
F32 dY_per_ms,
F32 dZ_per_ms,
F32 magnitude);
extern void AILCALL AIL_API_set_sample_3D_velocity_vector (HSAMPLE S,
F32 dX_per_ms,
F32 dY_per_ms,
F32 dZ_per_ms);
extern void AILCALL AIL_API_set_sample_3D_orientation (HSAMPLE S,
F32 X_face,
F32 Y_face,
F32 Z_face,
F32 X_up,
F32 Y_up,
F32 Z_up);
extern S32 AILCALL AIL_API_sample_3D_position (HSAMPLE S,
F32 *X,
F32 *Y,
F32 *Z);
extern void AILCALL AIL_API_sample_3D_velocity (HSAMPLE S,
F32 *dX_per_ms,
F32 *dY_per_ms,
F32 *dZ_per_ms);
extern void AILCALL AIL_API_sample_3D_orientation (HSAMPLE S,
F32 *X_face,
F32 *Y_face,
F32 *Z_face,
F32 *X_up,
F32 *Y_up,
F32 *Z_up);
extern void AILCALL AIL_API_update_sample_3D_position (HSAMPLE S,
F32 dt_milliseconds);
extern void AILCALL AIL_API_set_listener_3D_position(HDIGDRIVER dig,
F32 X,
F32 Y,
F32 Z);
extern void AILCALL AIL_API_set_listener_3D_velocity(HDIGDRIVER dig,
F32 dX_per_ms,
F32 dY_per_ms,
F32 dZ_per_ms,
F32 magnitude);
extern void AILCALL AIL_API_set_listener_3D_velocity_vector (HDIGDRIVER dig,
F32 dX_per_ms,
F32 dY_per_ms,
F32 dZ_per_ms);
extern void AILCALL AIL_API_set_listener_3D_orientation (HDIGDRIVER dig,
F32 X_face,
F32 Y_face,
F32 Z_face,
F32 X_up,
F32 Y_up,
F32 Z_up);
extern void AILCALL AIL_API_set_sample_3D_volume_falloff (HSAMPLE S, MSSGRAPHPOINT* graph, S32 pointcount);
extern void AILCALL AIL_API_set_sample_3D_lowpass_falloff (HSAMPLE S, MSSGRAPHPOINT* graph, S32 pointcount);
extern void AILCALL AIL_API_set_sample_3D_exclusion_falloff (HSAMPLE S, MSSGRAPHPOINT* graph, S32 pointcount);
extern void AILCALL AIL_API_set_sample_3D_spread_falloff (HSAMPLE S, MSSGRAPHPOINT* graph, S32 pointcount);
extern void AILCALL AIL_API_set_sample_3D_position_segments (HSAMPLE S, MSSVECTOR3D* points, S32 pointcount);
extern void AILCALL AIL_API_set_sample_3D_spread (HSAMPLE S, F32 spread);
extern void AILCALL AIL_API_listener_3D_position (HDIGDRIVER dig,
F32 *X,
F32 *Y,
F32 *Z);
extern void AILCALL AIL_API_listener_3D_velocity (HDIGDRIVER dig,
F32 *dX_per_ms,
F32 *dY_per_ms,
F32 *dZ_per_ms);
extern void AILCALL AIL_API_listener_3D_orientation (HDIGDRIVER dig,
F32 *X_face,
F32 *Y_face,
F32 *Z_face,
F32 *X_up,
F32 *Y_up,
F32 *Z_up);
extern void AILCALL AIL_API_update_listener_3D_position (HDIGDRIVER dig,
F32 dt_milliseconds);
extern S32 AILCALL AIL_API_calculate_3D_channel_levels (HDIGDRIVER driver, //)
F32 *channel_levels,
MSS_SPEAKER const * *speaker_array,
MSSVECTOR3D *src_pos,
MSSVECTOR3D *src_face,
MSSVECTOR3D *src_up,
F32 src_inner_angle,
F32 src_outer_angle,
F32 src_outer_volume,
F32 src_max_dist,
F32 src_min_dist,
MSSVECTOR3D *listen_pos,
MSSVECTOR3D *listen_face,
MSSVECTOR3D *listen_up,
F32 rolloff_factor,
MSSVECTOR3D *doppler_velocity,
F32 *doppler_shift);
#ifdef IS_GENERICDIG
extern HDIGDRIVER AILCALL AIL_API_open_generic_digital_driver( U32 frequency,
S32 bits,
S32 channel,
U32 flags,
RADSS_OPEN_FUNC dig_open);
#else
extern HDIGDRIVER AILCALL AIL_API_open_digital_driver( U32 frequency,
S32 bits,
S32 channel,
U32 flags );
#endif
extern void AILCALL AIL_API_close_digital_driver( HDIGDRIVER dig );
#if defined(IS_WINDOWS)
extern S32 AILCALL AIL_API_digital_handle_release(HDIGDRIVER drvr);
extern S32 AILCALL AIL_API_digital_handle_reacquire
(HDIGDRIVER drvr);
#endif
#if defined(IS_WINDOWS) || (defined(IS_MAC) && !defined(IS_IPHONE))
extern HDIGINPUT AILCALL AIL_API_open_input (AIL_INPUT_INFO *info);
extern void AILCALL AIL_API_close_input (HDIGINPUT dig);
extern AIL_INPUT_INFO *
AILCALL AIL_API_get_input_info (HDIGINPUT dig);
extern S32 AILCALL AIL_API_set_input_state (HDIGINPUT dig,
S32 enable);
#endif
#ifdef MSS_FLT_SUPPORTED
void * SS_execute_filter_chain(HSAMPLE S, //)
void * src,
void * temp_dest,
S32 src_bytes,
S32 is_stereo,
S16 *dest_mono_sample_buffer);
//
// Internal FLT services
//
void FLT_init_list(void);
FLTPROVIDER *FLT_find_provider_instance(HPROVIDER provider,
HDIGDRIVER dig);
void FLT_disconnect_driver(HDIGDRIVER dig);
void FLT_call_premix_processors(HDIGDRIVER dig);
S32 FLT_call_postmix_processors(HDIGDRIVER dig, void *output_buffer);
//
// FLT services
//
extern S32 AILCALL AIL_API_enumerate_filters (HMSSENUM *next,
HPROVIDER *dest,
C8 * *name);
extern HDRIVERSTATE
AILCALL AIL_API_open_filter (HPROVIDER lib,
HDIGDRIVER dig);
extern void AILCALL AIL_API_close_filter (HDRIVERSTATE filter);
extern S32 AILCALL AIL_API_enumerate_filter_attributes
(HPROVIDER lib,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_filter_attribute (HPROVIDER lib,
C8 const * name,
void * val);
extern void AILCALL AIL_API_set_filter_preference
(HPROVIDER lib,
C8 const * name,
void const * val);
extern S32 AILCALL AIL_API_enumerate_filter_sample_attributes
(HPROVIDER lib,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_filter_sample_attribute
(HSAMPLE S,
C8 const * name,
void * val);
extern void AILCALL AIL_API_set_filter_sample_preference
(HSAMPLE S,
C8 const * name,
void const * val);
#endif
extern S32 AILCALL AIL_API_enumerate_digital_driver_attributes
(HDIGDRIVER dig,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_digital_driver_attribute (HDIGDRIVER dig,
C8 const * name,
void * val);
extern S32 AILCALL AIL_API_enumerate_digital_driver_preferences
(HDIGDRIVER dig,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_set_digital_driver_preference(HDIGDRIVER dig,
C8 const * name,
void const * val);
extern S32 AILCALL AIL_API_enumerate_sample_attributes
(HSAMPLE S,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_sample_attribute (HSAMPLE S,
C8 const * name,
void * val);
extern S32 AILCALL AIL_API_enumerate_sample_preferences
(HSAMPLE S,
HMSSENUM * next,
RIB_INTERFACE_ENTRY * dest);
extern void AILCALL AIL_API_set_sample_preference (HSAMPLE S,
C8 const * name,
void const * val);
extern S32 AILCALL AIL_API_digital_CPU_percent(HDIGDRIVER dig);
extern S32 AILCALL AIL_API_digital_SPU_percent(HDIGDRIVER dig);
extern S32 AILCALL AIL_API_background_CPU_percent(void);
extern S32 AILCALL AIL_API_digital_latency(HDIGDRIVER dig);
extern HSAMPLE AILCALL AIL_API_allocate_sample_handle
(HDIGDRIVER dig);
extern HSAMPLE AILCALL AIL_API_allocate_bus(HDIGDRIVER dig);
extern HSAMPLE AILCALL AIL_API_bus_sample_handle(HDIGDRIVER dig, S32 bus_index);
extern S32 AILCALL AIL_API_install_bus_compressor(HDIGDRIVER dig, S32 bus_index, SAMPLESTAGE filter_stage, S32 input_bus_index);
DXDEC void AILCALL AIL_free_all_busses(HDIGDRIVER dig); // For miles studio.
extern HSAMPLE AILCALL AIL_API_allocate_file_sample
(HDIGDRIVER dig,
void const *file_image,
S32 block);
extern void AILCALL AIL_API_set_speaker_configuration
(HDIGDRIVER dig,
MSSVECTOR3D *array,
S32 n_channels,
F32 falloff_power);
extern MSSVECTOR3D *
AILCALL AIL_API_speaker_configuration
(HDIGDRIVER dig,
S32 *n_physical_channels,
S32 *n_logical_channels,
F32 *falloff_power,
MSS_MC_SPEC *channel_spec);
extern void AILCALL AIL_API_set_listener_relative_receiver_array
(HDIGDRIVER dig,
MSS_RECEIVER_LIST *array,
S32 n_receivers);
extern MSS_RECEIVER_LIST *
AILCALL AIL_API_listener_relative_receiver_array
(HDIGDRIVER dig,
S32 *n_receivers);
extern void AILCALL AIL_API_set_speaker_reverb_levels
(HDIGDRIVER dig,
F32 *wet_array,
F32 *dry_array,
MSS_SPEAKER const *speaker_index_array,
S32 n_levels);
extern S32 AILCALL AIL_API_speaker_reverb_levels (HDIGDRIVER dig,
F32 * *wet_array,
F32 * *dry_array,
MSS_SPEAKER const * *speaker_index_array);
extern void AILCALL AIL_API_release_sample_handle (HSAMPLE S);
extern S32 AILCALL AIL_API_set_sample_file (HSAMPLE S,
void const *file_image,
S32 block);
extern S32 AILCALL AIL_API_set_sample_info (HSAMPLE S,
AILSOUNDINFO const * info);
extern S32 AILCALL AIL_API_set_named_sample_file (HSAMPLE S,
C8 const *file_type_suffix,
void const *file_image,
U32 file_size,
S32 block);
extern HPROVIDER AILCALL AIL_API_set_sample_processor (HSAMPLE S,
SAMPLESTAGE pipeline_stage,
HPROVIDER provider);
extern HPROVIDER AILCALL AIL_API_set_digital_driver_processor
(HDIGDRIVER dig,
DIGDRVSTAGE pipeline_stage,
HPROVIDER provider);
extern HPROVIDER AILCALL AIL_API_sample_processor (HSAMPLE S,
SAMPLESTAGE pipeline_stage);
extern HPROVIDER AILCALL AIL_API_digital_driver_processor
(HDIGDRIVER dig,
DIGDRVSTAGE pipeline_stage);
extern void AILCALL AIL_API_set_sample_address (HSAMPLE S,
void const *start,
U32 len);
extern S32 AILCALL AIL_API_init_sample (HSAMPLE S,
S32 format);
extern void AILCALL AIL_API_set_sample_adpcm_block_size
(HSAMPLE S,
U32 blocksize);
extern void AILCALL AIL_API_start_sample (HSAMPLE S);
extern void AILCALL AIL_API_stop_sample (HSAMPLE S);
extern void AILCALL AIL_API_end_fade_sample (HSAMPLE S);
extern void AILCALL AIL_API_resume_sample (HSAMPLE S);
extern void AILCALL AIL_API_end_sample (HSAMPLE S);
extern void AILCALL AIL_API_sample_group_operation (HDIGDRIVER dig, S32 op, S32 start_id, S32 set_to_id);
extern void AILCALL AIL_API_schedule_start_sample (HSAMPLE S, U64 mix_time_to_start);
extern void AILCALL AIL_API_push_system_state (HDIGDRIVER dig, U32 flags, S16 crossfade_ms);
extern void AILCALL AIL_API_pop_system_state (HDIGDRIVER dig, S16 crossfade_ms);
extern void AILCALL AIL_API_set_sample_playback_rate
(HSAMPLE S,
S32 playback_rate);
extern void AILCALL AIL_API_set_sample_playback_rate_factor
(HSAMPLE S,
F32 playback_rate_factor);
extern void AILCALL AIL_API_set_sample_playback_delay
(HSAMPLE S,
S32 playback_delay);
extern void AILCALL AIL_API_set_sample_volume_pan (HSAMPLE S,
F32 volume,
F32 pan);
extern S32 AILCALL AIL_API_sample_channel_count (HSAMPLE S, U32 *mask);
extern S32 AILCALL AIL_API_set_sample_is_3D (HSAMPLE S, //)
S32 onoff);
extern void AILCALL AIL_API_set_sample_speaker_scale_factors (HSAMPLE S, //)
MSS_SPEAKER const * dest_speaker_indexes,
F32 const * levels,
S32 n_levels );
extern void AILCALL AIL_API_sample_speaker_scale_factors (HSAMPLE S, //)
MSS_SPEAKER const * dest_speaker_indexes,
F32 * levels,
S32 n_levels );
extern void AILCALL AIL_API_set_sample_channel_levels (HSAMPLE S,
MSS_SPEAKER const *source_speaker_indexes,
MSS_SPEAKER const *dest_speaker_indexes,
F32 const *levels,
S32 n_levels);
extern void AILCALL AIL_API_sample_channel_levels (HSAMPLE S,
MSS_SPEAKER const *source_speaker_indexes,
MSS_SPEAKER const *dest_speaker_indexes,
F32 *levels,
S32 n_levels);
extern F32 AILCALL AIL_API_sample_output_levels (HSAMPLE S,
MSS_SPEAKER const *source_speaker_indexes,
MSS_SPEAKER const *dest_speaker_indexes,
F32 *levels,
S32 n_levels);
extern void AILCALL AIL_API_set_sample_51_volume_pan( HSAMPLE S,
F32 volume,
F32 pan,
F32 fb_pan,
F32 center_level,
F32 sub_level );
extern void AILCALL AIL_API_sample_51_volume_pan ( HSAMPLE S,
F32* volume,
F32* pan,
F32* fb_pan,
F32* center_level,
F32* sub_level );
extern void AILCALL AIL_API_set_sample_51_volume_levels( HSAMPLE S,
F32 f_left_level,
F32 f_right_level,
F32 b_left_level,
F32 b_right_level,
F32 center_level,
F32 sub_level );
extern void AILCALL AIL_API_sample_51_volume_levels ( HSAMPLE S,
F32* f_left_level,
F32* f_right_level,
F32* b_left_level,
F32* b_right_level,
F32* center_level,
F32* sub_level );
extern void AILCALL AIL_API_set_sample_volume_levels(HSAMPLE S,
F32 left_level,
F32 right_level);
extern void AILCALL AIL_API_set_sample_reverb_levels(HSAMPLE S,
F32 dry_level,
F32 wet_level);
extern void AILCALL AIL_API_set_sample_low_pass_cut_off( HSAMPLE S,
S32 /*-1 or MSS_SPEAKER*/ input_channel,
F32 cutoff );
extern void AILCALL AIL_API_set_sample_loop_count (HSAMPLE S,
S32 loop_count);
extern void AILCALL AIL_API_set_sample_loop_block (HSAMPLE S,
S32 loop_start_offset,
S32 loop_end_offset);
extern S32 AILCALL AIL_API_sample_loop_block (HSAMPLE S,
S32 *loop_start_offset,
S32 *loop_end_offset);
extern U32 AILCALL AIL_API_sample_status (HSAMPLE S);
extern S32 AILCALL AIL_API_sample_playback_rate (HSAMPLE S);
extern F32 AILCALL AIL_API_sample_playback_rate_factor (HSAMPLE S);
extern S32 AILCALL AIL_API_sample_playback_delay (HSAMPLE S);
extern void AILCALL AIL_API_sample_volume_pan (HSAMPLE S,
F32* volume,
F32* pan);
extern void AILCALL AIL_API_sample_volume_levels(HSAMPLE S,
F32 * left_level,
F32 * right_level);
extern void AILCALL AIL_API_sample_reverb_levels(HSAMPLE S,
F32 * dry_level,
F32 * wet_level);
extern F32 AILCALL AIL_API_sample_low_pass_cut_off(HSAMPLE S, S32 /*-1 or MSS_SPEAKER*/ channel);
extern S32 AILCALL AIL_API_sample_loop_count (HSAMPLE S);
extern void AILCALL AIL_API_set_digital_master_volume_level
(HDIGDRIVER dig,
F32 master_volume);
extern F32 AILCALL AIL_API_digital_master_volume_level (HDIGDRIVER dig);
extern void AILCALL AIL_API_set_digital_master_volume_levels(HDIGDRIVER dig,
F32 left_level,
F32 right_level);
extern void AILCALL AIL_API_set_digital_master_reverb_levels(HDIGDRIVER dig,
S32 bus_index,
F32 dry_level,
F32 wet_level);
extern void AILCALL AIL_API_set_digital_master_room_type(HDIGDRIVER dig,
S32 bus_index,
S32 room_type);
extern void AILCALL AIL_API_digital_master_reverb_levels(HDIGDRIVER dig,
S32 bus_index,
F32 * dry_level,
F32 * wet_level);
extern void AILCALL AIL_API_set_digital_master_reverb(HDIGDRIVER dig,
S32 bus_index,
F32 reverb_time,
F32 reverb_predelay,
F32 reverb_damping);
extern void AILCALL AIL_API_digital_master_reverb(HDIGDRIVER dig,
S32 bus_index,
F32 * reverb_time,
F32 * reverb_predelay,
F32 * reverb_damping);
extern S32 AILCALL AIL_API_minimum_sample_buffer_size
(HDIGDRIVER dig,
S32 playback_rate,
S32 format);
extern S32 AILCALL AIL_API_set_sample_buffer_count
(HSAMPLE S,
S32 n_buffers);
extern S32 AILCALL AIL_API_sample_buffer_count (HSAMPLE S);
extern S32 AILCALL AIL_API_sample_buffer_available (HSAMPLE S);
extern S32 AILCALL AIL_API_sample_loaded_len( HSAMPLE S );
extern S32 AILCALL AIL_API_load_sample_buffer (HSAMPLE S,
S32 buff_num,
void const *buffer,
U32 len);
extern S32 AILCALL AIL_API_sample_buffer_info (HSAMPLE S,
S32 buff_num,
U32 *pos,
U32 *len,
S32 *head,
S32 *tail);
extern U32 AILCALL AIL_API_sample_granularity (HSAMPLE S);
extern void AILCALL AIL_API_set_sample_position (HSAMPLE S,
U32 pos);
extern U32 AILCALL AIL_API_sample_position (HSAMPLE S);
extern AILSAMPLECB AILCALL AIL_API_register_SOB_callback
(HSAMPLE S,
AILSAMPLECB SOB);
extern AILSAMPLECB AILCALL AIL_API_register_EOB_callback
(HSAMPLE S,
AILSAMPLECB EOB);
extern AILSAMPLECB AILCALL AIL_API_register_EOS_callback
(HSAMPLE S,
AILSAMPLECB EOS);
extern AILFALLOFFCB AILCALL AIL_API_register_falloff_function_callback
(HSAMPLE S,
AILFALLOFFCB falloff_cb);
extern void AILCALL AIL_API_set_sample_user_data (HSAMPLE S,
U32 index,
SINTa value);
extern SINTa AILCALL AIL_API_sample_user_data (HSAMPLE S,
U32 index);
extern S32 AILCALL AIL_API_active_sample_count (HDIGDRIVER dig);
extern void AILCALL AIL_API_digital_configuration (HDIGDRIVER dig,
S32 *rate,
S32 *format,
char *config);
//
// High-level XMIDI services
//
#if defined(IS_WINDOWS)
extern S32 AILCALL AIL_API_midiOutOpen (HMDIDRIVER *drvr,
LPHMIDIOUT *lphMidiOut,
U32 dwDeviceID);
extern void AILCALL AIL_API_midiOutClose (HMDIDRIVER mdi);
extern S32 AILCALL AIL_API_MIDI_handle_release (HMDIDRIVER mdi);
extern S32 AILCALL AIL_API_MIDI_handle_reacquire (HMDIDRIVER mdi);
#else
extern HMDIDRIVER AILCALL AIL_API_open_XMIDI_driver( U32 flags );
extern void AILCALL AIL_API_close_XMIDI_driver( HMDIDRIVER mdi );
#endif
extern HSEQUENCE AILCALL AIL_API_allocate_sequence_handle
(HMDIDRIVER mdi);
extern void AILCALL AIL_API_release_sequence_handle
(HSEQUENCE S);
extern S32 AILCALL AIL_API_init_sequence (HSEQUENCE S,
void const *start,
S32 sequence_num);
extern void AILCALL AIL_API_start_sequence (HSEQUENCE S);
extern void AILCALL AIL_API_stop_sequence (HSEQUENCE S);
extern void AILCALL AIL_API_resume_sequence (HSEQUENCE S);
extern void AILCALL AIL_API_end_sequence (HSEQUENCE S);
extern void AILCALL AIL_API_set_sequence_tempo (HSEQUENCE S,
S32 tempo,
S32 milliseconds);
extern void AILCALL AIL_API_set_sequence_volume (HSEQUENCE S,
S32 volume,
S32 milliseconds);
extern void AILCALL AIL_API_set_sequence_loop_count
(HSEQUENCE S,
S32 loop_count);
extern U32 AILCALL AIL_API_sequence_status (HSEQUENCE S);
extern S32 AILCALL AIL_API_sequence_tempo (HSEQUENCE S);
extern S32 AILCALL AIL_API_sequence_volume (HSEQUENCE S);
extern S32 AILCALL AIL_API_sequence_loop_count (HSEQUENCE S);
extern void AILCALL AIL_API_set_XMIDI_master_volume
(HMDIDRIVER mdi,
S32 master_volume);
extern S32 AILCALL AIL_API_XMIDI_master_volume (HMDIDRIVER mdi);
//
// Low-level XMIDI services
//
extern S32 AILCALL AIL_API_active_sequence_count (HMDIDRIVER mdi);
extern S32 AILCALL AIL_API_controller_value (HSEQUENCE S,
S32 channel,
S32 controller_num);
extern S32 AILCALL AIL_API_channel_notes (HSEQUENCE S,
S32 channel);
extern void AILCALL AIL_API_sequence_position (HSEQUENCE S,
S32 *beat,
S32 *measure);
extern void AILCALL AIL_API_branch_index (HSEQUENCE S,
U32 marker);
extern AILPREFIXCB AILCALL AIL_API_register_prefix_callback
(HSEQUENCE S,
AILPREFIXCB callback);
extern AILTRIGGERCB AILCALL AIL_API_register_trigger_callback
(HSEQUENCE S,
AILTRIGGERCB callback);
extern AILSEQUENCECB AILCALL AIL_API_register_sequence_callback
(HSEQUENCE S,
AILSEQUENCECB callback);
extern AILEVENTCB AILCALL AIL_API_register_event_callback
(HMDIDRIVER mdi,
AILEVENTCB callback);
extern AILBEATCB AILCALL AIL_API_register_beat_callback
(HSEQUENCE S,
AILBEATCB callback);
extern AILTIMBRECB AILCALL AIL_API_register_timbre_callback
(HMDIDRIVER mdi,
AILTIMBRECB callback);
extern void AILCALL AIL_API_set_sequence_user_data(HSEQUENCE S,
U32 index,
SINTa value);
extern SINTa AILCALL AIL_API_sequence_user_data (HSEQUENCE S,
U32 index);
extern void AILCALL AIL_API_register_ICA_array (HSEQUENCE S,
U8 *array);
extern S32 AILCALL AIL_API_lock_channel (HMDIDRIVER mdi);
extern void AILCALL AIL_API_release_channel (HMDIDRIVER mdi,
S32 channel);
extern void AILCALL AIL_API_map_sequence_channel (HSEQUENCE S,
S32 seq_channel,
S32 new_channel);
extern S32 AILCALL AIL_API_true_sequence_channel (HSEQUENCE S,
S32 seq_channel);
extern void AILCALL AIL_API_send_channel_voice_message
(HMDIDRIVER mdi,
HSEQUENCE S,
S32 status,
S32 data_1,
S32 data_2);
extern void AILCALL AIL_API_send_sysex_message (HMDIDRIVER mdi,
void const *buffer);
extern HWAVESYNTH
AILCALL AIL_API_create_wave_synthesizer (HDIGDRIVER dig,
HMDIDRIVER mdi,
void const *wave_lib,
S32 polyphony);
extern void AILCALL AIL_API_destroy_wave_synthesizer(HWAVESYNTH W);
extern S32 AILCALL AIL_API_MIDI_to_XMI (void const* MIDI,
U32 MIDI_size,
void**XMIDI,
U32 * XMIDI_size,
S32 flags);
#if defined(IS_WIN32)
extern S32 AILCALL AIL_API_list_MIDI (void const* MIDI,
U32 MIDI_size,
char* *list,
U32 * list_size,
S32 flags);
extern S32 AILCALL AIL_API_list_DLS (void const* DLS,
char**list,
U32 * list_size,
S32 flags,
C8 * title);
#endif
extern char* AILCALL AIL_API_last_error ( void );
extern void AILCALL AIL_API_set_error ( char const* error_msg );
extern S32 AILCALL AIL_API_file_error (void);
extern S32 AILCALL AIL_API_file_size (char const *filename,
char const * caller,
U32 caller_line);
extern void * AILCALL AIL_API_file_read (char const *filename,
void *dest,
char const * caller,
U32 caller_line);
extern S32 AILCALL AIL_API_file_write (char const *filename,
void const *buf,
U32 len);
extern S32 AILCALL AIL_API_WAV_file_write (char const *filename,
void const *buf,
U32 len,
S32 rate,
S32 format);
extern void AILCALL AIL_API_serve (void);
#ifdef IS_WINDOWS
extern HREDBOOK AILCALL AIL_API_redbook_open (U32 which);
extern HREDBOOK AILCALL AIL_API_redbook_open_drive(S32 drive);
extern void AILCALL AIL_API_redbook_close (HREDBOOK hand);
extern void AILCALL AIL_API_redbook_eject (HREDBOOK hand);
extern void AILCALL AIL_API_redbook_retract (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_status (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_tracks (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_track (HREDBOOK hand);
extern void AILCALL AIL_API_redbook_track_info (HREDBOOK hand,
U32 tracknum,
U32* startmsec,
U32* endmsec);
extern U32 AILCALL AIL_API_redbook_id (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_position (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_play (HREDBOOK hand,
U32 startmsec,
U32 endmsec);
extern U32 AILCALL AIL_API_redbook_stop (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_pause (HREDBOOK hand);
extern U32 AILCALL AIL_API_redbook_resume (HREDBOOK hand);
extern F32 AILCALL AIL_API_redbook_volume_level (HREDBOOK hand);
extern F32 AILCALL AIL_API_redbook_set_volume_level(HREDBOOK hand,
F32 volume);
#endif
extern S32 AILCALL AIL_API_quick_startup (S32 use_digital,
S32 use_MIDI,
U32 output_rate,
S32 output_bits,
S32 output_channels);
extern void AILCALL AIL_API_quick_shutdown (void);
extern void AILCALL AIL_API_quick_handles (HDIGDRIVER* pdig,
HMDIDRIVER* pmdi,
HDLSDEVICE* pdls);
extern HAUDIO AILCALL AIL_API_quick_load (char const *filename);
extern HAUDIO AILCALL AIL_API_quick_load_mem (void const *mem,
U32 size);
extern HAUDIO AILCALL AIL_API_quick_load_named_mem(void const *mem,
char const *filename,
U32 size);
extern void AILCALL AIL_API_quick_unload (HAUDIO audio);
extern S32 AILCALL AIL_API_quick_play (HAUDIO audio,
U32 loop_count);
extern void AILCALL AIL_API_quick_halt (HAUDIO audio);
extern S32 AILCALL AIL_API_quick_status (HAUDIO audio);
extern HAUDIO AILCALL AIL_API_quick_load_and_play (char const *filename,
U32 loop_count,
S32 wait_request);
extern void AILCALL AIL_API_quick_set_speed (HAUDIO audio,
S32 speed);
extern void AILCALL AIL_API_quick_set_volume (HAUDIO audio,
F32 volume,
F32 extravol);
extern void AILCALL AIL_API_quick_set_reverb_levels(HAUDIO audio,
F32 dry_level,
F32 wet_level);
extern void AILCALL AIL_API_quick_set_low_pass_cut_off(HAUDIO audio,
S32 channel,
F32 cut_off);
extern HAUDIO AILCALL AIL_API_quick_copy (HAUDIO hand);
extern void AILCALL AIL_API_quick_set_ms_position (HAUDIO audio,
S32 milliseconds);
extern S32 AILCALL AIL_API_quick_ms_position (HAUDIO audio);
extern S32 AILCALL AIL_API_quick_ms_length (HAUDIO audio);
extern S32 AILCALL AIL_API_quick_type (HAUDIO audio);
//
// High-level streaming services
//
void AILSTRM_shutdown(HDIGDRIVER driver);
extern HSTREAM AILCALL AIL_API_open_stream (HDIGDRIVER dig,
char const* filename,
S32 stream_mem);
extern void AILCALL AIL_API_close_stream (HSTREAM stream);
extern S32 AILCALL AIL_API_service_stream (HSTREAM stream,
S32 fillup);
extern void AILCALL AIL_API_start_stream (HSTREAM stream);
extern void AILCALL AIL_API_pause_stream (HSTREAM stream,
S32 onoff);
extern void AILCALL AIL_API_set_stream_loop_block (HSTREAM S,
S32 loop_start_offset,
S32 loop_end_offset);
extern S32 AILCALL AIL_API_stream_loop_count (HSTREAM stream);
extern void AILCALL AIL_API_set_stream_loop_count (HSTREAM stream,
S32 count);
extern S32 AILCALL AIL_API_stream_status (HSTREAM stream);
extern F32 AILCALL AIL_API_stream_filled_percent (HSTREAM stream);
extern void AILCALL AIL_API_set_stream_position (HSTREAM stream,
S32 offset);
extern S32 AILCALL AIL_API_stream_position (HSTREAM stream);
extern void AILCALL AIL_API_stream_info (HSTREAM stream,
S32* datarate,
S32* sndtype,
S32* length,
S32* memory);
extern void AILCALL AIL_API_auto_service_stream (HSTREAM stream,
S32 onoff);
extern AILSTREAMCB AILCALL AIL_API_register_stream_callback
(HSTREAM stream,
AILSTREAMCB callback);
extern void AILCALL AIL_API_set_stream_user_data (HSTREAM S,
U32 index,
SINTa value);
extern SINTa AILCALL AIL_API_stream_user_data (HSTREAM S,
U32 index);
extern S32 AILCALL AIL_API_size_processed_digital_audio(
U32 dest_rate,
U32 dest_format,
S32 num_srcs,
AILMIXINFO const* src);
extern S32 AILCALL AIL_API_process_digital_audio(
void *dest_buffer,
S32 dest_buffer_size,
U32 dest_rate,
U32 dest_format,
S32 num_srcs,
AILMIXINFO* src);
extern HDLSDEVICE AILCALL AIL_API_DLS_open (HMDIDRIVER mdi,
HDIGDRIVER dig,
#ifdef IS_STATIC
AILSTATICDLS const* dls,
#else
char const* libname,
#endif
U32 flags,
U32 rate,
S32 bits,
S32 channels);
extern void AILCALL AIL_API_DLS_close (HDLSDEVICE dls,
U32 flags);
extern HDLSFILEID AILCALL AIL_API_DLS_load_file (HDLSDEVICE dls,
char const* filename,
U32 flags);
extern HDLSFILEID AILCALL AIL_API_DLS_load_memory (HDLSDEVICE dls,
void const* memfile,
U32 flags);
extern void AILCALL AIL_API_DLS_unload (HDLSDEVICE dls,
HDLSFILEID dlsid);
extern void AILCALL AIL_API_DLS_compact (HDLSDEVICE dls);
extern void AILEXPORT AIL_API_DLS_set_reverb_levels(HDLSDEVICE dls,
F32 dry_level,
F32 wet_level);
extern void AILEXPORT AIL_API_DLS_get_reverb_levels(HDLSDEVICE dls,
F32* dry_level,
F32* wet_level);
extern void AILCALL AIL_API_DLS_get_info (HDLSDEVICE dls,
AILDLSINFO* info,
S32* PercentCPU);
extern S32 AILCALL AIL_API_extract_DLS (void const*source_image, //)
U32 source_size,
void * *XMI_output_data,
U32 *XMI_output_size,
void * *DLS_output_data,
U32 *DLS_output_size,
AILLENGTHYCB callback);
extern void AILCALL AIL_API_set_sequence_ms_position
(HSEQUENCE S, //)
S32 milliseconds);
extern void AILCALL AIL_API_sequence_ms_position (HSEQUENCE S, //)
S32 *total_milliseconds,
S32 *current_milliseconds);
extern void AILCALL AIL_API_set_sample_ms_position(HSAMPLE S, //)
S32 milliseconds);
extern void AILCALL AIL_API_sample_ms_position (HSAMPLE S, //)
S32 *total_milliseconds,
S32 *current_milliseconds);
extern U32 AILCALL AIL_API_sample_ms_lookup (HSAMPLE S, //)
S32 milliseconds,
S32* actualms);
extern void AILCALL AIL_API_set_stream_ms_position(HSTREAM S, //)
S32 milliseconds);
extern void AILCALL AIL_API_stream_ms_position (HSTREAM S, //)
S32 *total_milliseconds,
S32 *current_milliseconds);
extern S32 AILCALL AIL_API_WAV_info (void const* data,
AILSOUNDINFO* info);
extern S32 AILCALL AIL_API_compress_ADPCM (AILSOUNDINFO const* info, //)
void** outdata, U32* outsize);
extern S32 AILCALL AIL_API_decompress_ADPCM (AILSOUNDINFO const* info,
void** outdata,
U32* outsize);
extern S32 AILCALL AIL_API_file_type (void const* data,
U32 size);
extern S32 AILCALL AIL_API_file_type_named (void const* data,
char const* filename,
U32 size);
extern S32 AILCALL AIL_API_find_DLS (void const* data,
U32 size,
void**xmi,
U32* xmisize,
void**dls,
U32* dlssize);
//
// Internal MSS mixer RIB calls
//
extern U32 AILCALL MSS_MMX_available (void);
extern void AILCALL MSS_mixer_startup (void);
extern void AILCALL MSS_mixer_shutdown (void);
extern void AILCALL MSS_mixer_flush(S32 *dest,
S32 len
#ifdef IS_X86
,U32 MMX_available
#endif
);
extern void AILCALL MSS_mixer_merge(void const * *src,
U32 *src_fract,
void const *src_end,
S32 * *dest,
void *dest_end,
S32 *left_val,
S32 *right_val,
S32 playback_ratio,
S32 scale_left,
S32 scale_right,
U32 operation
#ifdef IS_X86
,U32 MMX_available
#endif
);
extern void AILCALL MSS_mixer_copy(void const *src,
S32 src_len,
void *dest,
U32 operation
#ifdef IS_BE
,S32 big_endian_output
#else
#ifdef IS_X86
,U32 MMX_available
#endif
#endif
);
extern void AILCALL SS_set_speaker_configuration (D3DSTATE *D3D,
MSSVECTOR3D *speaker_positions,
S32 n_channels,
S32 logical_channels_per_sample);
extern void SS_calculate_3D_channel_levels(D3DSTATE const *D3D,
S32 logical_channels_per_sample,
S3DSTATE *S3D,
F32 *channel_levels);
extern void AILCALL SS_update_driver_reverb_state(HDIGDRIVER dig);
extern void AILCALL SS_update_sample_reverb_state(HSAMPLE S);
extern void AILCALL SS_flush (HDIGDRIVER dig, S32 reverb_index);
extern void AILCALL SS_copy (HDIGDRIVER dig, S32 reverb_index, void *lpWaveAddr);
extern F32 AILCALLBACK SS_default_falloff_function_callback(HSAMPLE S, //)
F32 distance,
F32 rolloff_factor,
F32 min_dist,
F32 max_dist);
extern S32 AILCALLBACK SS_stream_to_buffer(HSAMPLE S,
S16 *dest_mono_sample_buffer,
S32 dest_buffer_size);
#ifdef MILES10
extern void SS_fill(HDIGDRIVER dig);
#else
extern void SS_fill(HDIGDRIVER dig, void *lpData);
#endif
extern void AILCALL SS_start_DIG_driver_playback(HSAMPLE S);
extern S32 AILCALL SS_set_sample_type( HSAMPLE S, S32 format, U32 channel_mask );
extern void AILCALL AIL_apply_reverb( HDIGDRIVER dig );
extern S32 AILCALL AIL_allocate_reverb_buffers( HDIGDRIVER dig, S32 index );
extern void AILCALL AIL_apply_lowpass( void* dest, void const* src, void const* src_end, LOWPASS_INFO* lp_in, S32 op );
#if defined(IS_WIN32) || defined(IS_GENERICDIG)
extern S32 AILCALL get_system_speaker_configuration(MSS_MC_SPEC *channel_spec);
#endif
#ifdef IS_BE
#ifdef IS_PPC
#ifdef IS_XENON
#define LE_SWAP32( ptr ) __loadwordbytereverse(0,ptr)
#define LE_SWAP32_OFS( ptr,ofs ) __loadwordbytereverse(ofs,ptr)
#define STORE_LE_SWAP32( ptr, val ) __storewordbytereverse ( (U32)(val), 0, ptr )
#elif (defined(IS_PS3) && !defined(IS_SPU)) || defined(IS_MAC)
#define LE_SWAP32( ptr ) ld_le32(ptr)
#define LE_SWAP32_OFS( ptr, ofs ) ld_le32_ofs(ptr,ofs)
// the char* is not required, but works around a GCC bug
#define STORE_LE_SWAP32( ptr, val ) st_le32( (char*)(ptr), (U32)(val) )
#elif defined(IS_WIIU)
#define LE_SWAP32(ptr) (*(__bytereversed unsigned int *)(ptr))
#define LE_SWAP32_OFS(ptr, ofs) (*(__bytereversed unsigned int *)AIL_ptr_add(ptr, ofs))
#define STORE_LE_SWAP32( ptr, val ) (*(__bytereversed unsigned int *)(ptr) = (val))
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) (*(__bytereversed unsigned short*)(AIL_ptr_add(ptr, const_ofs))) = (val)
#else
#define LE_SWAP32( ptr ) __lwbrx((void*)(ptr),0)
#define LE_SWAP32_OFS( ptr,ofs ) __lwbrx((void*)(ptr),ofs)
#define STORE_LE_SWAP32( ptr, val ) __stwbrx( (U32)(val), ptr, 0 )
#endif
#elif defined(IS_SPU)
static U32 inline LE_SWAP32(void const * src) __attribute__((always_inline));
static U32 inline LE_SWAP32(void const * src)
{
U32 i = (*((U32*)src));
vec_uint4 v = spu_promote( i, 0 );
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 3, 2, 1, 0, 4, 5, 6, 7,
8, 9, 10, 11, 12, 13, 14, 15}));
i = spu_extract( v, 0 );
return i;
}
static U32 inline LE_SWAP32_OFS(void const * src,S32 ofs) __attribute__((always_inline));
static U32 inline LE_SWAP32_OFS(void const * src,S32 ofs)
{
U32 i = (*((U32*)(((char*)src)+ofs)));
vec_uint4 v = spu_promote( i, 0 );
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 3, 2, 1, 0, 4, 5, 6, 7,
8, 9, 10, 11, 12, 13, 14, 15}));
i = spu_extract( v, 0 );
return i;
}
#define STORE_LE_SWAP32( ptr, val )\
{ \
U32 tmp = (U32) val; \
vec_uint4 v = spu_promote( tmp, 0 ); \
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 3, 2, 1, 0, 4, 5, 6, 7, \
8, 9, 10, 11, 12, 13, 14, 15})); \
tmp = spu_extract( v, 0 ); \
*((U32 *)(((char*)ptr)+0)) = tmp; \
}
#define STORE_LE_SWAP32_OFS( ptr, val, ofs )\
{ \
U32 tmp = (U32) val; \
vec_uint4 v = spu_promote( tmp, 0 ); \
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 3, 2, 1, 0, 4, 5, 6, 7, \
8, 9, 10, 11, 12, 13, 14, 15})); \
tmp = spu_extract( v, 0 ); \
*((U32 *)(((char*)ptr)+ofs)) = tmp; \
}
#else
#define LE_SWAP32(ptr) \
( ( ( ( *((U32 *)(ptr) ) ) << 24 ) ) | \
( ( ( *((U32 *)(ptr) ) ) << 8 ) & 0x00FF0000 ) | \
( ( ( *((U32 *)(ptr) ) ) >> 8 ) & 0x0000FF00 ) | \
( ( ( *((U32 *)(ptr) ) ) >> 24 ) ) )
#define LE_SWAP32_OFS(ptr,ofs) \
( ( ( ( *((U32 *)AIL_ptr_add(ptr,ofs) ) ) << 24 ) ) | \
( ( ( *((U32 *)AIL_ptr_add(ptr,ofs) ) ) << 8 ) & 0x00FF0000 ) | \
( ( ( *((U32 *)AIL_ptr_add(ptr,ofs) ) ) >> 8 ) & 0x0000FF00 ) | \
( ( ( *((U32 *)AIL_ptr_add(ptr,ofs) ) ) >> 24 ) ) )
#define STORE_LE_SWAP32( ptr, val ) { *((U32 *)ptr) = \
( ( ( ( ((U32)(val) ) ) << 24 ) ) | \
( ( ( ((U32)(val) ) ) << 8 ) & 0x00FF0000 ) | \
( ( ( ((U32)(val) ) ) >> 8 ) & 0x0000FF00 ) | \
( ( ( ((U32)(val) ) ) >> 24 ) ) ); }
#endif
#if defined( IS_PPC )
#ifdef IS_XENON
unsigned short __loadshortbytereverse (int offset, const void * base);
unsigned long __loadwordbytereverse (int offset, const void * base);
void __storeshortbytereverse (unsigned short val, int offset, void * base);
void __storewordbytereverse (unsigned int val, int offset, void * base);
#define LE_SWAP16( ptr ) __loadshortbytereverse (0,(S16 *)ptr)
#define LE_SWAP16_OFS( ptr, const_ofs ) __loadshortbytereverse (const_ofs,(S16 *)ptr)
#define STORE_LE_SWAP16( ptr, val ) __storeshortbytereverse ( (U16)(val), 0, (S16 *)ptr )
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) __storeshortbytereverse ( (U16)(val), const_ofs, (S16 *)ptr )
#else
#if (defined(IS_PS3) && !defined(IS_SPU)) || defined(IS_MAC)
#define __fsel( outf, cmp, inf1, inf2 ) \
__asm__ __volatile__ ("fsel %0,%1,%2,%3" : "=f" (outf) : "f" (cmp), "f" (inf1), "f" (inf2));
static inline float fclip1(float sample )
{
float ret;
__fsel( ret, sample + 1.0f, sample, -1.0f );
__fsel( ret, sample - 1.0f, 1.0f, ret );
return( ret );
}
static __inline__ U16 ld_le16(const S16 *addr)
{
U16 val;
__asm__ __volatile__ ("lhbrx %0,0,%1" : "=r" (val) : "r" (addr));
return val;
}
static __inline__ U16 ld_le16_ofs(const S16 *addr, U64 const_ofs )
{
U16 val;
__asm__ __volatile__ ("lhbrx %0,%1,%2" : "=r" (val) : "b" (const_ofs), "r" (addr));
return val;
}
static __inline__ void st_le16(S16 *addr, const U16 val)
{
__asm__ __volatile__ ("sthbrx %1,0,%2" : "=m" (*addr) : "r" (val), "r" (addr));
}
static __inline__ void st_le16_ofs(S16 *addr, U64 const_ofs, const U16 val)
{
__asm__ __volatile__ ("sthbrx %2,%1,%3" : "=m" (*addr) : "b" (const_ofs), "r" (val), "r" (addr));
}
static __inline__ U32 ld_le32(const void *addr)
{
U32 val;
__asm__ __volatile__ ("lwbrx %0,0,%1" : "=r" (val) : "r" ((U32*)addr) );
return val;
}
static __inline__ U32 ld_le32_ofs(const void *addr, U64 const_ofs )
{
U32 val;
__asm__ __volatile__ ("lwbrx %0,%1,%2" : "=r" (val) : "b" (const_ofs), "r" (addr));
return val;
}
/* static __inline__ void st_le32_ofs(void *addr, U64 const_ofs, const U32 val)
{
__asm__ __volatile__ ("stwbrx %2,%1,%3" : "=m" (*(U32*)addr) : "b" (const_ofs), "r" (val), "r" ((U32*)addr));
}*/
static __inline__ void st_le32(void *addr, const U32 val)
{ //todo, weird hacks to make this work with GCC
__asm__ __volatile__ ("stwbrx %1,%3,%2" : "=m" (*(U32*)addr) : "r" (val), "r" ((U32*)addr), "O"(0) );
}
#define LE_SWAP16( ptr ) ld_le16 ((S16 *)ptr)
#define LE_SWAP16_OFS( ptr, const_ofs ) ld_le16_ofs ((S16 *)ptr, const_ofs)
#define STORE_LE_SWAP16( ptr, val ) st_le16( (S16 *)ptr, (U16)(val) )
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) st_le16_ofs( (S16 *)ptr, const_ofs, (U16)(val) )
#elif defined(IS_WIIU)
#define LE_SWAP16(ptr) (*(__bytereversed unsigned short *)(ptr))
#define LE_SWAP16_OFS(ptr, ofs) (*(__bytereversed unsigned short *)AIL_ptr_add(ptr, ofs))
#define STORE_LE_SWAP16( ptr, val ) (*(__bytereversed unsigned short *)(ptr) = (val))
#else
#define LE_SWAP16( ptr ) __lhbrx((S16 *)ptr,0)
#define LE_SWAP16_OFS( ptr, const_ofs ) __lhbrx((S16 *)ptr,const_ofs)
#define STORE_LE_SWAP16( ptr, val ) __sthbrx( (U16)(val), (S16 *)ptr, 0 )
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) __sthbrx( (U16)(val), (S16 *)ptr, const_ofs )
#endif
#endif
#elif defined( IS_SPU )
static U32 inline LE_SWAP16(void const * src) __attribute__((always_inline));
static U32 inline LE_SWAP16(void const * src)
{
U32 i = (*((U16*)src));
vec_uint4 v = spu_promote( i, 0 );
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 0, 1, 3, 2, 4, 5, 6, 7,
8, 9, 10, 11, 12, 13, 14, 15}));
i = spu_extract( v, 0 );
return i;
}
static U32 inline LE_SWAP16_OFS(void const * src, S32 ofs) __attribute__((always_inline));
static U32 inline LE_SWAP16_OFS(void const * src, S32 ofs)
{
U32 i = (*((U16*)(((char*)src)+ofs)));
vec_uint4 v = spu_promote( i, 0 );
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 0, 1, 3, 2, 4, 5, 6, 7,
8, 9, 10, 11, 12, 13, 14, 15}));
i = spu_extract( v, 0 );
return i;
}
#define STORE_LE_SWAP16( ptr, val )\
{ \
U32 tmp = (U16) val; \
vec_uint4 v = spu_promote( tmp, 0 ); \
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 0, 1, 3, 2, 4, 5, 6, 7, \
8, 9, 10, 11, 12, 13, 14, 15})); \
tmp = spu_extract( v, 0 ); \
*((U16 *)(((char*)ptr)+0)) = tmp; \
}
#define STORE_LE_SWAP16_OFS( ptr, val, ofs )\
{ \
U32 tmp = (U16) val; \
vec_uint4 v = spu_promote( tmp, 0 ); \
v = (vec_uint4)spu_shuffle( v, v, ((vec_uchar16){ 0, 1, 3, 2, 4, 5, 6, 7, \
8, 9, 10, 11, 12, 13, 14, 15})); \
tmp = spu_extract( v, 0 ); \
*((U16 *)(((char*)ptr)+ofs)) = tmp;\
}
#else
#define LE_SWAP16(ptr) \
( ( U16 ) \
( ( ( ( *((U16 *)(ptr) ) ) << 8 ) ) | \
( ( ( *((U16 *)(ptr) ) ) >> 8 ) ) ) \
)
#define LE_SWAP16_OFS(ptr,const_ofs) \
( ( U16 ) \
( ( ( ( *((U16 *)(AIL_ptr_add(ptr,const_ofs)) ) ) << 8 ) ) | \
( ( ( *((U16 *)(AIL_ptr_add(ptr,const_ofs)) ) ) >> 8 ) ) ) \
)
#define STORE_LE_SWAP16( ptr, val ) { *((U16*)ptr) = ( \
( ( ( ((U16)(val) ) ) << 8 ) ) | \
( ( ( ((U16)(val) ) ) >> 8 ) ) ); }
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) { *((U16*)AIL_ptr_add(ptr,const_ofs)) = ( \
( ( ( ((U16)(val) ) ) << 8 ) ) | \
( ( ( ((U16)(val) ) ) >> 8 ) ) ); }
#endif
#define BE_SWAP32( ptr ) ( *((U32 *)(ptr) ) )
#define BE_SWAP16( ptr ) ( *((U16 *)(ptr) ) )
#define MEM_LE_SWAP32(n) *((U32*)n) = LE_SWAP32(n);
#define MEM_LE_SWAP16(n) *((U16*)n) = (U16) LE_SWAP16(n);
#define MEM_BE_SWAP32(n)
#define MEM_BE_SWAP16(n)
// unaligned versions
#define BEU_SWAP32( ptr ) ( *((U32 *)(ptr) ) )
#define BEU_SWAP16( ptr ) ( *((U16 *)(ptr) ) )
#define LEU_SWAP32(ptr) LE_SWAP32(ptr)
#define LEU_SWAP16(ptr) LE_SWAP16(ptr)
#define STORE_LEU_SWAP32( ptr, val ) STORE_LE_SWAP32( ptr, val )
#define STORE_LEU_SWAP16( ptr, val ) STORE_LE_SWAP16( ptr, val )
#define MEM_LEU_SWAP32(n) *((U32*)n) = LEU_SWAP32(n);
#define MEM_LEU_SWAP16(n) *((U32*)n) = LEU_SWAP32(n);
#else // IS_BE
#define LE_SWAP32( ptr ) ( *((U32 *)(ptr) ) )
#define LE_SWAP32_OFS( ptr,const_ofs ) ( *((U32 *)AIL_ptr_add(ptr,const_ofs) ) )
#define LE_SWAP16( ptr ) ( *((U16 *)(ptr) ) )
#define LE_SWAP16_OFS( ptr, const_ofs ) ( *((U16 *)(AIL_ptr_add(ptr,const_ofs)) ) )
#define STORE_LE_SWAP32( ptr, val ) { *((U32*)(ptr))=(U32)(val); }
#define STORE_LE_SWAP16( ptr, val ) { *((U16*)(ptr))=(U16)(val); }
#define STORE_LE_SWAP16_OFS( ptr, val, const_ofs ) { *((U16*)((((U8*)ptr)+const_ofs)))=(U16)(val); }
#define BE_SWAP32(ptr) \
( ( ( ( *((U32 *)(ptr) ) ) << 24 ) ) | \
( ( ( *((U32 *)(ptr) ) ) << 8 ) & 0x00FF0000 ) | \
( ( ( *((U32 *)(ptr) ) ) >> 8 ) & 0x0000FF00 ) | \
( ( ( *((U32 *)(ptr) ) ) >> 24 ) ) )
#define BE_SWAP16(ptr) \
( ( U16 ) \
( ( ( ( *((U16 *)(ptr) ) ) << 8 ) ) | \
( ( ( *((U16 *)(ptr) ) ) >> 8 ) ) ) \
)
#if defined(IS_PSP)
#define putunaligned4(temp, s ) \
__asm__("swl %1,3+%0" : "+m"(*(s)): "r"(temp)); \
__asm__("swr %1,%0" : "+m"(*(s)) : "r"(temp));
#define getunaligned4(temp, s ) \
__asm__("lwl %0,3+%1" : "=r"(temp) : "o"(*(U32*)(s))); \
__asm__("lwr %0,%1" : "+r"(temp) : "o"(*(U32*)(s)) );
static inline U32 LEU_SWAP32( void * ptr )
{
U32 ret;
getunaligned4( ret, ptr );
return( ret );
}
static inline U32 BEU_SWAP32( void * ptr )
{
U32 ret;
getunaligned4( ret, ptr );
ret = ( ret << 24 ) | ( ( ret << 8 ) & 0x00ff0000 ) | ( ( ret >> 8 ) & 0x0000ff00 ) | ( ret >> 24 );
return( ret );
}
#define LEU_SWAP16(ptr) \
( ( U16 ) \
( ( ( ( ((U32)(((U8 *)(ptr))[1]) ) ) << 8 ) ) | \
( ( ( ((U32)(((U8 *)(ptr))[0]) ) ) ) ) ) \
)
#define BEU_SWAP16(ptr) \
( ( U16 ) \
( ( ( ( ((U32)(((U8 *)(ptr))[0]) ) ) << 8 ) ) | \
( ( ( ((U32)(((U8 *)(ptr))[1]) ) ) ) ) ) \
)
#define STORE_LEU_SWAP32( ptr, val ) { register U32 __v = (U32)val; register U32 * __p = (U32*)ptr; putunaligned4( __v, __p ); }
#define STORE_LEU_SWAP16( ptr, val ) { register U16 __v = (U16)val; ((U8*)(ptr))[0]=(U8)val; ((U8*)(ptr))[1]=(U8)(val>>8);}
#else
#define LEU_SWAP32(ptr) LE_SWAP32(ptr)
#define LEU_SWAP16(ptr) LE_SWAP16(ptr)
#define BEU_SWAP32(ptr) BE_SWAP32(ptr)
#define BEU_SWAP16(ptr) BE_SWAP16(ptr)
#define STORE_LEU_SWAP32( ptr, val ) STORE_LE_SWAP32( ptr, val )
#define STORE_LEU_SWAP16( ptr, val ) STORE_LE_SWAP16( ptr, val )
#endif
#define MEM_LEU_SWAP32(n)
#define MEM_LEU_SWAP16(n)
#define MEM_LE_SWAP32(n)
#define MEM_LE_SWAP16(n)
#define MEM_BE_SWAP32(n) *((U32*)n) = BE_SWAP32(n);
#define MEM_BE_SWAP16(n) *((U16*)n) = BE_SWAP16(n);
#endif
#if defined(IS_MAC) || defined(IS_WII) || defined(IS_IPHONE)
#ifdef IS_X86
static inline U32 mult64addsubandshift( U32 mt1, U32 mt2, U32 addv, U32 subv, U32 shift )
{
U32 retv;
unsigned long long value;
value = (unsigned long long)mt1 * mt2;
value += addv;
value -= subv;
value = (signed long long )value >> (signed long long )shift;
retv = (U32)value;
return( retv );
}
static U32 __inline mult64anddiv(U32 a,U32 b, U32 c)
{
U32 retv;
unsigned long long value;
value = (unsigned long long)a * b;
value /= c;
retv = (U32)value;
return( retv );
}
static U32 __inline shift64addsubanddiv( U32 val, U32 shift,U32 addv, U32 subv, U32 divv)
{
U32 retv;
unsigned long long value;
value = (unsigned long long)val;
value <<= shift;
value += addv;
value -= subv;
value = (signed long long ) value / (signed long long ) divv;
retv = (U32)value;
return( retv );
}
#elif defined(IS_IPHONE)
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) *dest++ = 32767; \
else if (fOut < -32768.0F) *dest++ = -32768; \
else *dest++ = (S16) fOut; \
}
static U32 __inline mult64addsubandshift( U32 mt1, U32 mt2, U32 addv, U32 subv, U32 shift )
{
U32 retv;
unsigned long long value;
value = (unsigned long long)mt1 * mt2;
value += addv;
value -= subv;
value = (signed long long )value >> (signed long long )shift;
retv = (U32)value;
return( retv );
}
static U32 __inline mult64anddiv(U32 a,U32 b, U32 c)
{
U32 retv;
unsigned long long value;
value = (unsigned long long)a * b;
value /= c;
retv = (U32)value;
return( retv );
}
static U32 __inline shift64addsubanddiv( U32 val, U32 shift,U32 addv, U32 subv, U32 divv)
{
U32 retv;
unsigned long long value;
value = (unsigned long long)val;
value <<= shift;
value += addv;
value -= subv;
value = (signed long long ) value / (signed long long ) divv;
retv = (U32)value;
return( retv );
}
#else
//
// These three dudes help deal with u64s in hi,lo format
//
#define mul64hilo(_hi,_lo,_mt1,_mt2) \
__asm \
{ \
mulhwu _hi, _mt1, _mt2; \
mullw _lo, _mt1, _mt2 \
} \
#define imul64hilo(_hi,_lo,_mt1,_mt2) \
__asm \
{ \
mulhw _hi, _mt1, _mt2; \
mullw _lo, _mt1, _mt2 \
} \
#define add64hilo(_hi,_lo,_hisub,_losub) \
__asm \
{ \
addc _lo, _losub, _lo; \
adde _hi, _hisub, _hi \
} \
#define sub64hilo(_hi,_lo,_hisub,_losub) \
__asm \
{ \
subfc _lo, _losub, _lo; \
subfe _hi, _hisub, _hi \
} \
#define carry_check( q, r, c, d ) \
if ( r < c ) \
{ \
--q; \
r += d; \
if ( r >= d ) \
{ \
if ( r < c ) \
{ \
--q; \
r += d; \
} \
} \
}
// The PPC mac doesnt' have intrinsics like CW
#ifdef IS_MAC
static U32 __cntlzw(U32 in)
{
U32 ret;
asm ("cntlzw %0, %1\n": "=r" (ret): "r" (in));
return ret;
}
#endif
static inline U32 div64with16( U32 nlo, U32 nhi, U32 d )
{
U32 dlo, dhi;
U32 rlo, rhi;
U32 qhi, qlo;
U32 carry;
dhi = d >> 16;
dlo = d & 0xffff;
qhi = nhi / dhi;
rhi = nhi % dhi;
carry = qhi * dlo;
rhi = ( rhi << 16 ) | ( nlo >> 16 );
carry_check( qhi, rhi, carry, d );
rhi -= carry;
qlo = rhi / dhi;
rlo = rhi % dhi;
carry = qlo * dlo;
qhi <<= 16;
rlo = ( rlo << 16 ) | ( nlo & 0xffff );
carry_check( qlo, rlo, carry, d );
// rlo -= carry;
return( qhi | qlo );
}
static U32 inline mult64anddiv( register U32 a, register U32 b,U32 d )
{
/* register U32 hi, lo;
register U32 mt1, mt2, d;
mt1=m1;
mt2=m2;
d=dv;
mul64hilo( hi, lo, mt1, mt2 );
return( div64(hi,lo,d) );
*/
U32 lz;
register U32 nhi=0, nlo=0;
mul64hilo( nhi, nlo, a, b );
if ( ( d & ( d - 1 ) ) == 0 )
{
lz = (U32) __cntlzw( d );
// Shift for powers of 2.
return( ( nhi << ( lz + 1 ) ) | ( nlo >> ( 31 - lz ) ) );
}
if ( nhi == 0 )
{
return( nlo / d );
}
lz = (U32) __cntlzw( d );
d <<= lz;
nhi = ( nhi << lz ) + ( nlo >> ( 32 - lz ) );
nlo <<= lz;
return( div64with16( nlo, nhi, d ) );
}
static U32 inline mult64andshift( U32 m1,U32 m2,U32 shift )
{
register U32 hi, lo;
register U32 mt1, mt2;
mt1=m1;
mt2=m2;
mul64hilo( hi, lo, mt1, mt2 );
return( ( hi << (32 - shift ) ) + ( lo >> shift ) );
}
static U32 inline mult64addsubandshift( U32 m1, U32 m2, U32 av, U32 sv, U32 shift )
{
register U32 hi=0, lo=0;
register U32 mt1, mt2;
register U32 addv;
register U32 subv;
register U32 zero = 0;
mt1=m1;
mt2=m2;
addv=av;
subv=sv;
mul64hilo(hi,lo,mt1,mt2);
add64hilo( hi, lo, zero, addv );
sub64hilo( hi, lo, zero, subv );
return( ( hi << (32 - shift ) ) + ( lo >> shift ) );
}
static U32 __inline shift64addsubanddiv( U32 val, U32 shift,U32 av, U32 sv, U32 divv)
{
register U32 hi, lo;
register U32 addv;
register U32 subv;
register U32 d;
register U32 zero = 0;
U32 lz;
addv=av;
subv=sv;
d=divv;
hi = val >> ( 32 - shift );
lo = val << shift;
add64hilo( hi, lo, zero, addv );
sub64hilo( hi, lo, zero, subv );
if ( hi & 0x80000000 )
{
register U32 ihi = hi;
register U32 ilo = lo;
hi = lo = 0;
sub64hilo( hi, lo, ihi, ilo );
if ( ( d & ( d - 1 ) ) == 0 )
{
lz = (U32) __cntlzw( d );
// Shift for powers of 2.
return( (U32) -(S32) ( ( hi << ( lz + 1 ) ) | ( lo >> ( 31 - lz ) ) ) );
}
if ( hi == 0 )
{
return( (U32) -(S32) ( lo / d ) );
}
return( (U32) -(S32) div64with16( lo,hi,d ) );
}
if ( ( d & ( d - 1 ) ) == 0 )
{
lz = (U32) __cntlzw( d );
// Shift for powers of 2.
return( ( hi << ( lz + 1 ) ) | ( lo >> ( 31 - lz ) ) );
}
if ( hi == 0 )
{
return( lo / d );
}
return( div64with16( lo,hi,d ) );
}
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) STORE_LE_SWAP16( dest, 32767 ); \
else if (fOut < -32768.0F) STORE_LE_SWAP16( dest, -32768 ); \
else STORE_LE_SWAP16( dest, (S16) fOut ); \
++dest; \
}
#endif
#else
#if ( defined(IS_X86) && defined(IS_WIN32API) ) || defined(IS_LINUX) || defined(__RADSEKRIT2__)
//
// Macros to aid in writing to build buffers
//
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) *dest++ = 32767; \
else if (fOut < -32768.0F) *dest++ = -32768; \
else *dest++ = (S16) fOut; \
}
static U32 __inline mult64addsubandshift( U32 mt1, U32 mt2, U32 addv, U32 subv, U32 shift )
{
U32 retv;
#ifdef __GNUC__
unsigned long long value;
value = (unsigned long long)mt1 * mt2;
value += addv;
value -= subv;
value = (signed long long )value >> (signed long long )shift;
retv = (U32)value;
#else
#ifdef IS_WIN64
U64 value;
value = (U64) mt1 * mt2;
value += addv;
value -= subv;
value = (S64) value >> (S64) shift;
retv = (U32) value;
#else
__asm
{
mov eax,[mt1]
mov ecx,[mt2]
mul ecx
add eax,[addv]
adc edx,0
sub eax,[subv]
sbb edx,0
mov ecx,[shift]
shrd eax,edx,cl
mov [retv], eax
}
#endif
#endif
return( retv );
}
static U32 __inline mult64anddiv(U32 a,U32 b, U32 c)
{
U32 retv;
#ifdef __GNUC__
unsigned long long value;
value = (unsigned long long)a * b;
value /= c;
retv = (U32)value;
#else
#ifdef IS_WIN64
U64 value;
value = (U64) a * b;
value /= c;
retv = (U32) value;
#else
__asm
{
mov eax,[a]
mov ecx,[b]
mul ecx
mov ecx,[c]
div ecx
mov [retv], eax
}
#endif
#endif
return( retv );
}
static U32 __inline shift64addsubanddiv( U32 val, U32 shift,U32 addv, U32 subv, U32 divv)
{
U32 retv;
#ifdef __GNUC__
unsigned long long value;
value = (unsigned long long)val;
value <<= shift;
value += addv;
value -= subv;
value = (signed long long ) value / (signed long long ) divv;
retv = (U32)value;
#else
#ifdef IS_WIN64
U64 value;
value = (U64) val;
value <<= shift;
value += addv;
value -= subv;
value = (S64) value / (S64) divv;
retv = (U32) value;
#else
__asm
{
xor edx, edx
mov eax, [val]
mov ecx, [shift]
shld edx, eax, cl
shl eax, cl
add eax, [addv]
adc edx, 0
sub eax, [subv]
sbb edx, 0
mov ecx, [divv]
idiv ecx
mov [retv], eax
}
#endif
#endif
return( retv );
}
#else
#ifdef __WATCOMC__
#else
#if defined( IS_XENON )
#define toU64(v) ((U64)((U32)(v)))
#define toS64(v) ((S64)((S32)(v)))
#define mult64anddiv(mt1,mt2,d) ((U32)((toU64(mt1)*toU64(mt2))/toU64(d)))
#define mult64addsubandshift(mt1,mt2,addv,subv,d) ((U32)((((S64)((toU64(mt1)*toU64(mt2))+toU64(addv)))-toS64(subv))>>toS64(d)))
#define shift64addsubanddiv(val,shift,addv,subv,divv) ((U32)(((S64)((toU64(val)<<toU64(shift))+toU64(addv)-toU64(subv)))/toS64(divv)))
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) STORE_LE_SWAP16( dest, 32767 ); \
else if (fOut < -32768.0F) STORE_LE_SWAP16( dest, -32768 ); \
else STORE_LE_SWAP16( dest, (S16) fOut ); \
++dest; \
}
#else
#if defined( IS_PSP ) || defined(IS_3DS) || defined(IS_PSP2) || defined(__RADANDROID__)
#define toU64(v) ((U64)((U32)(v)))
#define toS64(v) ((S64)((S32)(v)))
#define mult64anddiv(mt1,mt2,d) ((U32)((toU64(mt1)*toU64(mt2))/toU64(d)))
#define mult64addsubandshift(mt1,mt2,addv,subv,d) ((U32)((((S64)((toU64(mt1)*toU64(mt2))+toU64(addv)))-toS64(subv))>>toS64(d)))
#define shift64addsubanddiv(val,shift,addv,subv,divv) ((U32)(((S64)((toU64(val)<<toU64(shift))+toU64(addv)-toU64(subv)))/toS64(divv)))
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) *dest++ = 32767; \
else if (fOut < -32768.0F) *dest++ = -32768; \
else *dest++ = (S16) fOut; \
}
#elif defined(IS_WIIU)
#define toU64(v) ((U64)((U32)(v)))
#define toS64(v) ((S64)((S32)(v)))
#define mult64anddiv(mt1,mt2,d) ((U32)((toU64(mt1)*toU64(mt2))/toU64(d)))
#define mult64addsubandshift(mt1,mt2,addv,subv,d) ((U32)((((S64)((toU64(mt1)*toU64(mt2))+toU64(addv)))-toS64(subv))>>toS64(d)))
#define shift64addsubanddiv(val,shift,addv,subv,divv) ((U32)(((S64)((toU64(val)<<toU64(shift))+toU64(addv)-toU64(subv)))/toS64(divv)))
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) STORE_LE_SWAP16( dest, 32767 ); \
else if (fOut < -32768.0F) STORE_LE_SWAP16( dest, -32768 ); \
else STORE_LE_SWAP16( dest, (S16) fOut ); \
++dest; \
}
#elif defined( IS_PS3 ) && !defined( IS_SPU )
#define toU64(v) ((U64)((U32)(v)))
#define toS64(v) ((S64)((S32)(v)))
#define mult64anddiv(mt1,mt2,d) ((U32)((toU64(mt1)*toU64(mt2))/toU64(d)))
#define mult64addsubandshift(mt1,mt2,addv,subv,d) ((U32)((((S64)((toU64(mt1)*toU64(mt2))+toU64(addv)))-toS64(subv))>>toS64(d)))
#define shift64addsubanddiv(val,shift,addv,subv,divv) ((U32)(((S64)((toU64(val)<<toU64(shift))+toU64(addv)-toU64(subv)))/toS64(divv)))
static inline float fclip32K(float sample )
{
float ret;
__fsel( ret, sample + 32767.0f, sample, -32767.0f );
__fsel( ret, sample - 32767.0f, 32767.0f, ret );
return( ret );
}
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
STORE_LE_SWAP16( dest, (S16) fclip32K(fOut) ); \
++dest; \
}
#else
U32 mult64addsubandshift(U32 mt1,U32 mt2,U32 addv, U32 subv, U32 shift);
U32 shift64addsubanddiv(U32 val,U32 shift,U32 addv, U32 subv, U32 divv);
#if defined( IS_SPU )
#define WRITE_MONO_SAMPLE( dest, fOut ) \
{ \
if (fOut > 32767.0F) *dest = (S16)(U16)0xff7f; \
else if (fOut < -32768.0F) *dest = (S16)(U16)0x0080; \
else STORE_LE_SWAP16( dest, (S16) fOut ) \
++dest; \
}
#define toU64(v) ((U64)((U32)(v)))
#define toS64(v) ((S64)((S32)(v)))
#define mult64anddiv(mt1,mt2,d) ((U32)((toU64(mt1)*toU64(mt2))/toU64(d)))
#define mult64addsubandshift(mt1,mt2,addv,subv,d) ((U32)((((S64)((toU64(mt1)*toU64(mt2))+toU64(addv)))-toS64(subv))>>toS64(d)))
#define shift64addsubanddiv(val,shift,addv,subv,divv) ((U32)(((S64)((toU64(val)<<toU64(shift))+toU64(addv)-toU64(subv)))/toS64(divv)))
#endif
#endif
#endif
#endif
#endif
#endif
#ifdef MSS_SPU_PROCESS
#define SPU_NAME( flt, name ) extern "C" void AILCALL flt##_##name
//#define DEBUGSPUMEM
#ifdef DEBUGSPUMEM
void * spu_alloc( U32 bytes );
#ifdef __cplusplus
extern "C" U32 num_mals;
extern "C" void free_mals( int level );
class stackmark
{
public:
int level;
stackmark()
{
level = num_mals;
}
~stackmark()
{
free_mals( level );
}
};
#define addstackmark() stackmark sm;
#else
#define addstackmark()
#endif
#else
#define addstackmark()
#ifdef IS_SPU
#include <alloca.h>
static int stacksizehas( int v )
{
vector signed int val;
__asm__("or %0,$1,$1" : "=r"(val) );
if ( val[1] < ( v + 2048 ) ) { MSSBreakPoint(); }
return v;
}
#define spu_alloc(bytes) (void*)alloca( stacksizehas( ( ( bytes ) + 15 ) & ~15 ) )
#else
#include <malloc.h>
#define spu_alloc(bytes) (void*)alloca( ( ( bytes ) + 15 ) & ~15 )
#endif
#endif
#else
#define SPU_NAME( flt, name ) static void AILCALL name
#define addstackmark()
#endif
//
// low-level utility memory file routines
//
typedef struct _MEMDUMP
{
void* buffer[1024]; // up to 64 MB
U8* current;
U32 size;
U32 totalsize;
U32 curbufnum;
U32 lastbufnum;
U32 curpos;
S32 error;
S32 expandable;
U32 eachbuf;
U32 firstbuf;
} MEMDUMP;
// This typedef occurs in mss.h as well.
//typedef struct _MEMDUMP* HMEMDUMP;
DXDEC HMEMDUMP AILCALL AIL_mem_open(void* addr,U32 size);
DXDEC HMEMDUMP AILCALL AIL_mem_create(void);
DXDEC HMEMDUMP AILCALL AIL_mem_create_from_existing(void* addr, U32 size); // do not delete pointer passed in
DXDEC S32 AILCALL AIL_mem_close(HMEMDUMP m, void** buf, U32* size);
DXDEC U32
#if defined(IS_WIN32API)
__cdecl
#endif
AIL_mem_printf(HMEMDUMP m, char const* fmt, ...);
DXDEC U32 AILCALL AIL_mem_printc(HMEMDUMP m, char c);
DXDEC U32 AILCALL AIL_mem_prints(HMEMDUMP m, char const* s);
DXDEC U32 AILCALL AIL_mem_write(HMEMDUMP m, void const* s, U32 bytes);
DXDEC U32 AILCALL AIL_mem_read(HMEMDUMP m, void* s, U32 bytes);
DXDEC U32 AILCALL AIL_mem_seek(HMEMDUMP m, U32 pos);
DXDEC U32 AILCALL AIL_mem_size(HMEMDUMP m);
DXDEC U32 AILCALL AIL_mem_pos(HMEMDUMP m);
DXDEC S32 AILCALL AIL_mem_error(HMEMDUMP m);
#define DIG_PROCESS_BUFFER_SIZE 2048
extern U8 *ASI_mem_src_ptr;
extern S32 ASI_mem_src_len;
extern S32 ASI_mem_src_pos;
extern S32 AILCALLBACK ASI_mem_stream_CB(UINTa user, //)
void *dest,
S32 bytes_requested,
S32 offset);
#if 1
#if 0 //used to be a IS_LINUX
#else
DXDEC S32 AILCALL AIL_stricmp(const char *s1, const char *s2);
DXDEC S32 AILCALL AIL_strnicmp( const char *s1, const char *s2, U32 maxlen);
#if defined(IS_MAC) || defined(IS_LINUX) || defined(IS_3DS) || defined(IS_IPHONE) || defined(IS_PSP2) || defined(IS_WIIU) || defined(__RADSEKRIT2__) || defined(__RADANDROID__)
#ifdef IS_PSP2
#ifdef __cplusplus
}
#endif
#endif
#include <string.h>
#include <stdlib.h> // for abs().
#ifdef IS_PSP2
#ifdef __cplusplus
extern "C" {
#endif
#endif
#define AIL_memcpy memcpy
#define AIL_memmove memmove
#define AIL_strcpy strcpy
#define AIL_strcmp strcmp
#define AIL_strlen strlen
#define AIL_strcat strcat
#define AIL_memset memset
#define AIL_ptr_add(ptr,off) ((void*)(((U8*)(ptr))+(off)))
#define AIL_ptr_dif(p1,p2) ((SINTa)((SINTa) p1) - ((SINTa) p2))
#define AIL_ptr_alloc_clone(x) ((void*)x)
#define AIL_ptr_free_clone(x)
#ifdef __cplusplus
}
template <typename T> inline T AILptradd( T ptr, U32 off ) { return( T(AIL_ptr_add( ptr, off )) ); }
#define AIL_ptr_inc_clone(x,y) x=AILptradd(x,y)
extern "C" {
#endif
#define AIL_ptr_fixup_clone(x)
#define AIL_ptr_lt(x,y) (((UINTa)x) < ((UINTa)y))
#define AIL_ptr_ge(x,y) (((UINTa)x) >= ((UINTa)y))
#define AIL_ptr_eq(x,y) (((UINTa)x) == ((UINTa)y))
#define AIL_ptr_ne(x,y) (((UINTa)x) != ((UINTa)y))
#define AIL_ptr_lin_addr(x) ((UINTa)(x))
#define AIL_abs abs
#define AIL_memcmp memcmp
#else // not mac or linux
#ifdef IS_WIN32API
#define AIL_abs abs
#ifdef IS_XENON
typedef void *PVOID;
typedef int INT;
typedef unsigned long ULONG_PTR;
typedef ULONG_PTR SIZE_T;
PVOID
__stdcall
XMemSet(
PVOID pDest,
INT c,
SIZE_T count
);
PVOID
__stdcall
XMemCpy(
PVOID pDest,
const void* pSrc,
SIZE_T count
);
char * __cdecl strcpy( char *_Dest, const char * _Source);
#define AIL_memcpy XMemCpy
#define AIL_memset XMemSet
#else
#if defined(_WIN32) || defined(_WIN64) || defined(WIN32) || defined(__NT__) || defined(__WIN32__)
#include <string.h>
void * __cdecl memcpy(void *, const void *, size_t);
void * __cdecl memset(void *, int, size_t);
char * __cdecl strcpy(char *, const char *);
#endif
#define AIL_memcpy memcpy
#define AIL_memset memset
#endif
#if defined(IS_XENON)
#include <string.h>
#endif
#define AIL_memmove memmove
#define AIL_memcmp memcmp
#define AIL_strcpy strcpy
#define AIL_strcmp strcmp
#define AIL_strlen strlen
#define AIL_strcat strcat
#define AIL_ptr_add(ptr,off) ((void*)(((U8*)(ptr))+(off)))
#define AIL_ptr_dif(p1,p2) ((SINTa)((SINTa) p1) - ((SINTa) p2))
#define AIL_ptr_alloc_clone(x) ((void*)x)
#define AIL_ptr_free_clone(x)
#ifdef __cplusplus
}
template <typename T> inline T AILptradd( T ptr, U32 off ) { return( T(AIL_ptr_add( ptr, off )) ); }
#define AIL_ptr_inc_clone(x,y) x=AILptradd(x,y)
extern "C" {
#endif
#define AIL_ptr_fixup_clone(x)
#define AIL_ptr_lt(x,y) (((UINTa)x) < ((UINTa)y))
#define AIL_ptr_ge(x,y) (((UINTa)x) >= ((UINTa)y))
#define AIL_ptr_eq(x,y) (((UINTa)x) == ((UINTa)y))
#define AIL_ptr_ne(x,y) (((UINTa)x) != ((UINTa)y))
#define AIL_ptr_lin_addr(x) ((UINTa)(x))
#else
#if defined(IS_PSP)
#define AIL_memmove memmove
#define AIL_memcpy memcpy
#define AIL_memset memset
#define AIL_memcmp memcmp
#define AIL_strcpy strcpy
#define AIL_strcmp strcmp
#define AIL_stricmp strcasecmp
#define AIL_strnicmp strncasecmp
#define AIL_strlen strlen
#define AIL_strcat strcat
#define AIL_ptr_add(ptr,off) ((void*)(((U8*)(ptr))+(off)))
#define AIL_ptr_dif(p1,p2) ((SINTa)((SINTa) p1) - ((SINTa) p2))
#define AIL_ptr_alloc_clone(x) ((void*)x)
#define AIL_ptr_free_clone(x)
#ifdef __cplusplus
}
template <typename T> inline T AILptradd( T ptr, U32 off ) { return( T(AIL_ptr_add( ptr, off )) ); }
#define AIL_ptr_inc_clone(x,y) x=AILptradd(x,y)
extern "C" {
#endif
#define AIL_ptr_fixup_clone(x)
#define AIL_ptr_lt(x,y) (((UINTa)x) < ((UINTa)y))
#define AIL_ptr_ge(x,y) (((UINTa)x) >= ((UINTa)y))
#define AIL_ptr_eq(x,y) (((UINTa)x) == ((UINTa)y))
#define AIL_ptr_ne(x,y) (((UINTa)x) != ((UINTa)y))
#define AIL_ptr_lin_addr(x) ((UINTa)(x))
static inline S32 AIL_abs(S32 v) { return( ( v >=0 ) ? v : -v ); }
#elif defined(IS_PS3)
#define AIL_memmove memmove
#define AIL_memcpy memcpy
#define AIL_memset memset
#define AIL_memcmp memcmp
#define AIL_strcpy strcpy
#define AIL_strcmp strcmp
#define AIL_stricmp strcasecmp_ascii
#define AIL_strnicmp strncasecmp_ascii
#define AIL_strlen strlen
#define AIL_strcat strcat
#define AIL_ptr_add(ptr,off) ((void*)(((U8*)(ptr))+(off)))
#define AIL_ptr_dif(p1,p2) ((SINTa)((SINTa) p1) - ((SINTa) p2))
#define AIL_ptr_alloc_clone(x) ((void*)x)
#define AIL_ptr_free_clone(x)
#ifdef __cplusplus
}
template <typename T> inline T AILptradd( T ptr, U32 off ) { return( T(AIL_ptr_add( ptr, off )) ); }
#define AIL_ptr_inc_clone(x,y) x=AILptradd(x,y)
extern "C" {
#endif
#define AIL_ptr_fixup_clone(x)
#define AIL_ptr_lt(x,y) (((UINTa)x) < ((UINTa)y))
#define AIL_ptr_ge(x,y) (((UINTa)x) >= ((UINTa)y))
#define AIL_ptr_eq(x,y) (((UINTa)x) == ((UINTa)y))
#define AIL_ptr_ne(x,y) (((UINTa)x) != ((UINTa)y))
#define AIL_ptr_lin_addr(x) ((UINTa)(x))
static inline S32 AIL_abs(S32 v) { return( ( v >=0 ) ? v : -v ); }
#else
#ifdef IS_WII
#define AIL_memcpy memcpy
#define AIL_memmove memmove
#define AIL_strcpy strcpy
#define AIL_strcmp strcmp
#define AIL_strlen strlen
#define AIL_strcat strcat
#define AIL_memset memset
#define AIL_ptr_add(ptr,off) ((void*)(((U8*)(ptr))+(off)))
#define AIL_ptr_dif(p1,p2) ((SINTa)((SINTa) p1) - ((SINTa) p2))
#define AIL_ptr_alloc_clone(x) ((void*)x)
#define AIL_ptr_free_clone(x)
#ifdef __cplusplus
}
template <typename T> inline T AILptradd( T ptr, U32 off ) { return( T(AIL_ptr_add( ptr, off )) ); }
#define AIL_ptr_inc_clone(x,y) x=AILptradd(x,y)
extern "C" {
#endif
#define AIL_ptr_fixup_clone(x)
#define AIL_ptr_lt(x,y) (((UINTa)x) < ((UINTa)y))
#define AIL_ptr_ge(x,y) (((UINTa)x) >= ((UINTa)y))
#define AIL_ptr_eq(x,y) (((UINTa)x) == ((UINTa)y))
#define AIL_ptr_ne(x,y) (((UINTa)x) != ((UINTa)y))
#define AIL_ptr_lin_addr(x) ((UINTa)(x))
#ifndef __cplusplus
int abs( int );
#endif
#define AIL_abs abs
#define AIL_memcmp memcmp
#endif
#endif
#endif
#endif
#endif
#endif
#ifndef AIL_ptr_inc_clone
#define AIL_ptr_inc_clone(x,y) AIL_ptr_inc_clone_ref((void * *)(void*) &(x),y)
#endif
#define AIL_ptr_from_clone(clone,hptr) (AIL_ptr_add(hptr,AIL_ptr_dif(clone,hptr)))
#ifdef IS_32
#define MSS_do_cb1(type,addr,ds,param1) \
(addr)(param1)
#define MSS_do_cb3(type,addr,ds,param1,param2,param3) \
(addr)(param1,param2,param3)
#define MSS_do_cb4(type,addr,ds,param1,param2,param3,param4) \
(addr)(param1,param2,param3,param4)
#define MSS_do_cb1_with_ret(ret,type,addr,ds,param1) \
ret = (addr)(param1)
#define MSS_do_cb3_with_ret(ret,type,addr,ds,param1,param2,param3) \
ret = (addr)(param1,param2,param3)
#define MSS_do_cb4_with_ret(ret,type,addr,ds,param1,param2,param3,param4) \
ret = (addr)(param1,param2,param3,param4)
#define MSS_do_cb5_with_ret(ret,type,addr,ds,param1,param2,param3,param4,param5) \
ret = (addr)(param1,param2,param3,param4,param5)
#endif
#if (defined(IS_MAC) && defined( IS_X86 )) || defined(IS_LINUX)
#define MSS_CB_STACK_ALIGN( name ) \
void MSS_CALLBACK_ALIGNED_NAME(name)(void)\
{\
asm (\
"mov $16,%%eax\n" \
"sub $64,%%esp\n" \
"add %%esp, %%eax\n" \
"and $0xfffffff0,%%eax\n" \
"movups 8(%%ebp), %%xmm0\n" \
"movaps %%xmm0, (%%eax)\n" \
"movl %%esp, 32(%%eax)\n" \
"mov %%eax,%%esp\n" \
"call *%0\n" \
"movl 32(%%esp), %%esp\n" \
"add $64,%%esp\n" \
: : "r" (name) : "eax"); \
}
#define MSS_DEF_CB_STACK_ALIGN( name ) DXDEF MSS_CB_STACK_ALIGN( name )
#define MSS_CB_STACK_ALIGN_DEC( name ) void MSS_CALLBACK_ALIGNED_NAME(name)(void);
#else
#define MSS_CB_STACK_ALIGN( name )
#define MSS_DEF_CB_STACK_ALIGN( name )
#define MSS_CB_STACK_ALIGN_DEC( name )
#endif
#ifdef IS_XENON
#define XWAVE_FORMAT_XMA 0x0165
typedef MSS_STRUCT XXMASTREAMFORMAT
{
U32 PsuedoBytesPerSec; // Used by encoder
U32 SampleRate; // Sample rate for the stream.
U32 LoopStart; // Loop start offset (in bits).
U32 LoopEnd; // Loop end offset (in bits).
// Format for SubframeData: eeee ssss.
// e: Subframe number of loop end point [0,3].
// s: Number of subframes to skip before decoding and outputting at the loop start point [1,4].
U8 SubframeData; // Data for decoding subframes. See above.
U8 Channels; // Number of channels in the stream (1 or 2).
U16 ChannelMask; // Channel assignments for the channels in the stream (same as
// lower 16 bits of dwChannelMask in WAVEFORMATEXTENSIBLE).
} XXMASTREAMFORMAT;
typedef MSS_STRUCT XXMAWAVEFORMAT
{
U16 FormatTag; // Audio format type (always WAVE_FORMAT_XMA).
U16 BitsPerSample; // Bit depth (currently required to be 16).
U16 EncodeOptions; // Options for XMA encoder/decoder.
U16 LargestSkip; // Largest skip used in interleaving streams.
U16 NumStreams; // Number of interleaved audio streams.
U8 LoopCount; // Number of loop repetitions (255 == infinite).
U8 Version; // Version of the encoder that generated this.
XXMASTREAMFORMAT XmaStreams[1]; // Format info for each stream (can grow based on wNumStreams).
} XXMAWAVEFORMAT;
#endif
extern U32 SS_granularity(HSAMPLE S);
extern S32 MC_open_output_filter(C8 const *name, //)
HDIGDRIVER driver,
S32 is_matrix_filter);
extern void AILCALL MSS_mixer_mc_copy ( MSS_BB * build,
S32 n_build_buffers,
void * lpWaveAddr,
S32 hw_format,
#ifdef IS_X86
S32 use_MMX,
#endif
S32 samples_per_buffer,
S32 physical_channels_per_sample );
extern void AILCALL MSS_mixer_adpcm_decode( void * dest,
void const * in,
S32 out_len,
S32 in_len,
S32 input_format,
ADPCMDATA *adpcm_data );
//
// Prototypes for ADPCM decode routines
//
extern void ASMLINK DecodeADPCM_STEREO( ASMPARM void *out,
ASMPARM void const *in,
ASMPARM S32 out_len,
ASMPARM S32 in_len,
ASMPARM ADPCMDATA *adpcm_data);
extern void ASMLINK DecodeADPCM_MONO( ASMPARM void *out,
ASMPARM void const *in,
ASMPARM S32 out_len,
ASMPARM S32 in_len,
ASMPARM ADPCMDATA *adpcm_data);
extern void ASMLINK DecodeADPCM_MONO_8( ASMPARM void *out,
ASMPARM void const *in,
ASMPARM S32 out_len,
ASMPARM S32 in_len,
ASMPARM ADPCMDATA *adpcm_data);
//
// .VOC file header
//
typedef MSS_STRUCT
{
S8 ID_string[20];
U16 data_offset;
U16 version;
U16 ID_code;
}
VOC;
typedef MSS_STRUCT _ADPCMOUT {
U32 riffmark;
U32 rifflen;
U32 wavemark;
U32 fmtmark;
U32 fmtlen;
U16 fmttag;
U16 channels;
U32 sampersec;
U32 avepersec;
U16 blockalign;
U16 bitspersam;
S16 extra;
S16 samples_per_block;
U32 factmark;
U32 factlen;
U32 samples;
U32 datamark;
U32 datalen;
} ADPCMOUT;
typedef MSS_STRUCT _WAVEOUT {
U32 riffmark;
U32 rifflen;
U32 wavemark;
U32 fmtmark;
U32 fmtlen;
U16 fmttag;
U16 channels;
U32 sampersec;
U32 avepersec;
U16 blockalign;
U16 bitspersam;
U32 datamark;
U32 datalen;
} WAVEOUT;
typedef MSS_STRUCT _WAVEOUTEXT {
U32 riffmark;
U32 rifflen;
U32 wavemark;
U32 fmtmark;
U32 fmtlen;
U16 fmttag;
U16 channels;
U32 sampersec;
U32 avepersec;
U16 blockalign;
U16 bitspersam;
U16 size;
U16 sampbits;
U32 chanmask;
U8 subfmt[16];
U32 datamark;
U32 datalen;
} WAVEOUTEXT;
F32 evaluate_graph(MSSGRAPHPOINT const* graph, S32 cnt, F32 x);
//
// platform allocators
//
void * AILCALLBACK platform_alloc(UINTa size);
void AILCALLBACK platform_free( void * ptr );
//
// Abstracted IO structures.
//
#ifdef IS_WII
#define MAX_PLATFILE_SPECIFIC_SIZE 512
#else
#define MAX_PLATFILE_SPECIFIC_SIZE 32
#endif
typedef struct PLATFORM_FILE
{
char plat_specific[MAX_PLATFILE_SPECIFIC_SIZE]; // needs to be at the front for wii
U32 offset; // current offset in to our "file"
U32 start_pos; // offset of our "file" from the start of the physical file.
U32 file_length; // length of our "file"
S32 dont_close; // nonzero if we don't own the file handle, so when done, don't close.
U32 raw_length; // length of the entire file that we might be "inside of"
} PLATFORM_FILE;
typedef struct FNVALUES
{
char const * filename;
U32 size;
U32 start;
} FNVALUES;
typedef struct FHVALUES
{
S32 hand;
S32 length;
S32 pos;
} FHVALUES;
//
// Functions implemented per platform.
//
extern int Platform_OpenFile(struct PLATFORM_FILE* i_File, char const * fn);
extern void Platform_SeekFromBeginning(PLATFORM_FILE* i_File, S32 i_Offset);
extern U32 Platform_ReadFile(PLATFORM_FILE* i_File, void* o_Buffer, U32 i_ReadBytes);
extern void Platform_CloseFile(PLATFORM_FILE* i_File);
DXDEC void AILCALL AIL_set_event_settings(void* i_Settings);
// Auditioner Declarations
//-----------------------------------------------------------------------------
S32 Audition_Status();
S32 Audition_Pump();
void* Audition_OpenBank(char const* i_FileName);
S32 Audition_OpenComplete(void* i_Bank);
void Audition_CloseBank(void* i_Bank);
void Audition_Suppress(S32 i_IsSuppressed);
void Audition_FrameStart();
void Audition_FrameEnd();
void Audition_DefragStart();
void Audition_SetBlend(U64 i_EventId, char const* i_Name);
void Audition_SetPersist(U64 i_EventId, char const* i_Name, char const* i_Preset);
void Audition_Event(char const* i_EventName, U64 i_EventId, U64 i_Filter, S32 i_Exists, void* i_InitBlock, S32 i_InitBlockLen);
void Audition_Sound(U64 i_EventId, U64 i_SoundId, char const* i_Sound, char const* i_Label, float i_Volume, S32 i_Delay, float i_Pitch);
void Audition_SoundComplete(U64 i_SoundId);
void Audition_SoundPlaying(U64 i_SoundId);
void Audition_SoundFlags(U64 i_SoundId, S32 i_Flags);
void Audition_SoundLimited(U64 i_SoundId, char const* i_Label);
void Audition_SoundEvicted(U64 i_SoundId, U64 i_ForSound, S32 i_Reason);
void Audition_Control(U64 i_EventId, char const* i_Labels, U8 i_ControlType, U64 i_Filter);
void Audition_SoundBus(U64 i_SoundId, U8 i_BusIndex);
void Audition_Error(U64 i_Id, char const* i_Details);
void Audition_AsyncQueued(U64 i_RelevantId, S32 i_AsyncId, char const* i_Asset);
void Audition_AsyncLoad(S32 i_AsyncId, S32 i_ExpectedData);
void Audition_AsyncError(S32 i_AsyncId);
void Audition_AsyncComplete(S32 i_AsyncId, S32 i_DataLoaded);
void Audition_AsyncCancel(S32 i_AsyncId);
void Audition_ListenerPosition(float x, float y, float z);
void Audition_SoundPosition(U64 i_Sound, float x, float y, float z);
void Audition_SendCPU(HDIGDRIVER i_Driver);
void Audition_UpdateDataCount(S32 i_CurrentDataLoaded);
void Audition_SendCount(S32 i_SoundCount);
void Audition_HandleSystemLoad(S32 i_Avail, S32 i_Total);
void Audition_VarState(char const* i_Var, U64 i_SoundId, S32 i_Int, void* i_4ByteValue);
void Audition_RampState(char const* i_Ramp, U64 i_SoundId, S32 i_Type, float i_Current);
void Audition_SoundState(U64 i_SoundId, float i_FinalVol, float i_3DVol, float i_BlendVol, float i_BlendPitch, float i_RampVol, float i_RampWet, float i_RampLp, float i_RampRate);
void Audition_ClearState();
void Audition_CompletionEvent(U64 i_CompletionEventId, U64 i_ParentSoundId);
void Audition_AddRamp(U64 i_ParentSoundId, S32 i_Type, char const* i_Name, char const* i_LabelQuery, U64 i_EventId);
#if defined(IS_WIN32API) || defined(IS_WII)
#pragma pack(pop)
#endif
#ifdef __cplusplus
}
#endif
#endif
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