cs16-client-legacy/common/r_studioint.h
2016-03-05 22:29:55 +03:00

154 lines
5.6 KiB
C

//========= Copyright © 1996-2002, Valve LLC, All rights reserved. ============
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================
#if !defined( R_STUDIOINT_H )
#define R_STUDIOINT_H
#if defined( _WIN32 )
#ifndef __MINGW32__
#pragma once
#endif /* not __MINGW32__ */
#endif
#define STUDIO_INTERFACE_VERSION 1
typedef struct engine_studio_api_s
{
// Allocate number*size bytes and zero it
void *( *Mem_Calloc ) ( int number, size_t size );
// Check to see if pointer is in the cache
void *( *Cache_Check ) ( struct cache_user_s *c );
// Load file into cache ( can be swapped out on demand )
void ( *LoadCacheFile ) ( char *path, struct cache_user_s *cu );
// Retrieve model pointer for the named model
struct model_s *( *Mod_ForName ) ( const char *name, int crash_if_missing );
// Retrieve pointer to studio model data block from a model
void *( *Mod_Extradata ) ( struct model_s *mod );
// Retrieve indexed model from client side model precache list
struct model_s *( *GetModelByIndex ) ( int index );
// Get entity that is set for rendering
struct cl_entity_s * ( *GetCurrentEntity ) ( void );
// Get referenced player_info_t
struct player_info_s *( *PlayerInfo ) ( int index );
// Get most recently received player state data from network system
struct entity_state_s *( *GetPlayerState ) ( int index );
// Get viewentity
struct cl_entity_s * ( *GetViewEntity ) ( void );
// Get current frame count, and last two timestampes on client
void ( *GetTimes ) ( int *framecount, double *current, double *old );
// Get a pointer to a cvar by name
struct cvar_s *( *GetCvar ) ( const char *name );
// Get current render origin and view vectors ( up, right and vpn )
void ( *GetViewInfo ) ( float *origin, float *upv, float *rightv, float *vpnv );
// Get sprite model used for applying chrome effect
struct model_s *( *GetChromeSprite ) ( void );
// Get model counters so we can incement instrumentation
void ( *GetModelCounters ) ( int **s, int **a );
// Get software scaling coefficients
void ( *GetAliasScale ) ( float *x, float *y );
// Get bone, light, alias, and rotation matrices
float ****( *StudioGetBoneTransform ) ( void );
float ****( *StudioGetLightTransform )( void );
float ***( *StudioGetAliasTransform ) ( void );
float ***( *StudioGetRotationMatrix ) ( void );
// Set up body part, and get submodel pointers
void ( *StudioSetupModel ) ( int bodypart, void **ppbodypart, void **ppsubmodel );
// Check if entity's bbox is in the view frustum
int ( *StudioCheckBBox ) ( void );
// Apply lighting effects to model
void ( *StudioDynamicLight ) ( struct cl_entity_s *ent, struct alight_s *plight );
void ( *StudioEntityLight ) ( struct alight_s *plight );
void ( *StudioSetupLighting ) ( struct alight_s *plighting );
// Draw mesh vertices
void ( *StudioDrawPoints ) ( void );
// Draw hulls around bones
void ( *StudioDrawHulls ) ( void );
// Draw bbox around studio models
void ( *StudioDrawAbsBBox ) ( void );
// Draws bones
void ( *StudioDrawBones ) ( void );
// Loads in appropriate texture for model
void ( *StudioSetupSkin ) ( void *ptexturehdr, int index );
// Sets up for remapped colors
void ( *StudioSetRemapColors ) ( int top, int bottom );
// Set's player model and returns model pointer
struct model_s *( *SetupPlayerModel ) ( int index );
// Fires any events embedded in animation
void ( *StudioClientEvents ) ( void );
// Retrieve/set forced render effects flags
int ( *GetForceFaceFlags ) ( void );
void ( *SetForceFaceFlags ) ( int flags );
// Tell engine the value of the studio model header
void ( *StudioSetHeader ) ( void *header );
// Tell engine which model_t * is being renderered
void ( *SetRenderModel ) ( struct model_s *model );
// Final state setup and restore for rendering
void ( *SetupRenderer ) ( int rendermode );
void ( *RestoreRenderer ) ( void );
// Set render origin for applying chrome effect
void ( *SetChromeOrigin ) ( void );
// True if using D3D/OpenGL
int ( *IsHardware ) ( void );
// Only called by hardware interface
void ( *GL_StudioDrawShadow ) ( void );
void ( *GL_SetRenderMode ) ( int mode );
void ( *StudioSetRenderamt )( int iRenderamt );
void ( *StudioSetCullState )( int iCull );
void ( *StudioRenderShadow )( int iSprite, float *p1, float *p2, float *p3, float *p4 );
} engine_studio_api_t;
typedef struct server_studio_api_s
{
// Allocate number*size bytes and zero it
void *( *Mem_Calloc ) ( int number, size_t size );
// Check to see if pointer is in the cache
void *( *Cache_Check ) ( struct cache_user_s *c );
// Load file into cache ( can be swapped out on demand )
void ( *LoadCacheFile ) ( char *path, struct cache_user_s *cu );
// Retrieve pointer to studio model data block from a model
void *( *Mod_Extradata ) ( struct model_s *mod );
} server_studio_api_t;
// client blending
typedef struct r_studio_interface_s
{
int version;
int ( *StudioDrawModel ) ( int flags );
int ( *StudioDrawPlayer ) ( int flags, struct entity_state_s *pplayer );
} r_studio_interface_t;
extern r_studio_interface_t *pStudioAPI;
// server blending
#define SV_BLENDING_INTERFACE_VERSION 1
typedef struct sv_blending_interface_s
{
int version;
void ( *SV_StudioSetupBones )( struct model_s *pModel,
float frame,
int sequence,
const vec3_t angles,
const vec3_t origin,
const byte *pcontroller,
const byte *pblending,
int iBone,
const edict_t *pEdict );
} sv_blending_interface_t;
#endif // R_STUDIOINT_H