#if !defined ( STUDIOMODELRENDERER_H ) #define STUDIOMODELRENDERER_H #if defined( _WIN32 ) #pragma once #endif /* ==================== CStudioModelRenderer ==================== */ class CStudioModelRenderer { public: // Construction/Destruction CStudioModelRenderer( void ); virtual ~CStudioModelRenderer( void ); // Initialization virtual void Init( void ); public: // Public Interfaces virtual int StudioDrawModel ( int flags ); virtual int StudioDrawPlayer ( int flags, struct entity_state_s *pplayer ); public: // Local interfaces // // Look up animation data for sequence virtual mstudioanim_t *StudioGetAnim ( model_t *m_pSubModel, mstudioseqdesc_t *pseqdesc ); // Interpolate model position and angles and set up matrices virtual void StudioSetUpTransform (int trivial_accept); // Set up model bone positions virtual void StudioSetupBones ( void ); // Find final attachment points virtual void StudioCalcAttachments ( void ); // Save bone matrices and names virtual void StudioSaveBones( void ); // Merge cached bones with current bones for model virtual void StudioMergeBones ( model_t *m_pSubModel ); // Determine interpolation fraction virtual float StudioEstimateInterpolant( void ); // Determine current frame for rendering virtual float StudioEstimateFrame ( mstudioseqdesc_t *pseqdesc ); // Apply special effects to transform matrix virtual void StudioFxTransform( cl_entity_t *ent, float transform[3][4] ); // Spherical interpolation of bones virtual void StudioSlerpBones ( vec4_t q1[], float pos1[][3], vec4_t q2[], float pos2[][3], float s ); // Compute bone adjustments ( bone controllers ) virtual void StudioCalcBoneAdj ( float dadt, float *adj, const byte *pcontroller1, const byte *pcontroller2, byte mouthopen ); // Get bone quaternions virtual void StudioCalcBoneQuaterion ( int frame, float s, mstudiobone_t *pbone, mstudioanim_t *panim, float *adj, float *q ); // Get bone positions virtual void StudioCalcBonePosition ( int frame, float s, mstudiobone_t *pbone, mstudioanim_t *panim, float *adj, float *pos ); // Compute rotations virtual void StudioCalcRotations ( float pos[][3], vec4_t *q, mstudioseqdesc_t *pseqdesc, mstudioanim_t *panim, float f ); // Send bones and verts to renderer virtual void StudioRenderModel ( void ); // Finalize rendering virtual void StudioRenderFinal (void); // GL&D3D vs. Software renderer finishing functions virtual void StudioRenderFinal_Software ( void ); virtual void StudioRenderFinal_Hardware ( void ); // Player specific data // Determine pitch and blending amounts for players virtual void StudioPlayerBlend ( mstudioseqdesc_t *pseqdesc, int *pBlend, float *pPitch ); // Estimate gait frame for player virtual void StudioEstimateGait ( entity_state_t *pplayer ); // Process movement of player virtual void StudioProcessGait ( entity_state_t *pplayer ); public: // Client clock double m_clTime; // Old Client clock double m_clOldTime; // Do interpolation? int m_fDoInterp; // Do gait estimation? int m_fGaitEstimation; // Current render frame # int m_nFrameCount; // Cvars that studio model code needs to reference // // Use high quality models? cvar_t *m_pCvarHiModels; // Developer debug output desired? cvar_t *m_pCvarDeveloper; // Draw entities bone hit boxes, etc? cvar_t *m_pCvarDrawEntities; // The entity which we are currently rendering. cl_entity_t *m_pCurrentEntity; // The model for the entity being rendered model_t *m_pRenderModel; // Player info for current player, if drawing a player player_info_t *m_pPlayerInfo; // The index of the player being drawn int m_nPlayerIndex; // The player's gait movement float m_flGaitMovement; // Pointer to header block for studio model data studiohdr_t *m_pStudioHeader; // Pointers to current body part and submodel mstudiobodyparts_t *m_pBodyPart; mstudiomodel_t *m_pSubModel; // Palette substition for top and bottom of model int m_nTopColor; int m_nBottomColor; // // Sprite model used for drawing studio model chrome model_t *m_pChromeSprite; // Caching // Number of bones in bone cache int m_nCachedBones; // Names of cached bones char m_nCachedBoneNames[ MAXSTUDIOBONES ][ 32 ]; // Cached bone & light transformation matrices float m_rgCachedBoneTransform [ MAXSTUDIOBONES ][ 3 ][ 4 ]; float m_rgCachedLightTransform[ MAXSTUDIOBONES ][ 3 ][ 4 ]; // Software renderer scale factors float m_fSoftwareXScale, m_fSoftwareYScale; // Current view vectors and render origin float m_vUp[ 3 ]; float m_vRight[ 3 ]; float m_vNormal[ 3 ]; float m_vRenderOrigin[ 3 ]; // Model render counters ( from engine ) int *m_pStudioModelCount; int *m_pModelsDrawn; // Matrices // Model to world transformation float (*m_protationmatrix)[ 3 ][ 4 ]; // Model to view transformation float (*m_paliastransform)[ 3 ][ 4 ]; // Concatenated bone and light transforms float (*m_pbonetransform) [ MAXSTUDIOBONES ][ 3 ][ 4 ]; float (*m_plighttransform)[ MAXSTUDIOBONES ][ 3 ][ 4 ]; }; #endif // STUDIOMODELRENDERER_H