//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // // $Workfile: $ // $Date: $ // $NoKeywords: $ //=============================================================================// #ifndef CMODEL_H #define CMODEL_H #ifdef _WIN32 #pragma once #endif #include "trace.h" #include "tier0/dbg.h" #include "basehandle.h" struct edict_t; struct model_t; /* ============================================================== COLLISION DETECTION ============================================================== */ #include "bspflags.h" //#include "mathlib/vector.h" // gi.BoxEdicts() can return a list of either solid or trigger entities // FIXME: eliminate AREA_ distinction? #define AREA_SOLID 1 #define AREA_TRIGGERS 2 #include "vcollide.h" struct cmodel_t { Vector mins, maxs; Vector origin; // for sounds or lights int headnode; vcollide_t vcollisionData; }; struct csurface_t { const char *name; short surfaceProps; unsigned short flags; // BUGBUG: These are declared per surface, not per material, but this database is per-material now }; //----------------------------------------------------------------------------- // A ray... //----------------------------------------------------------------------------- struct Ray_t { VectorAligned m_Start; // starting point, centered within the extents VectorAligned m_Delta; // direction + length of the ray VectorAligned m_StartOffset; // Add this to m_Start to get the actual ray start VectorAligned m_Extents; // Describes an axis aligned box extruded along a ray bool m_IsRay; // are the extents zero? bool m_IsSwept; // is delta != 0? void Init( Vector const& start, Vector const& end ) { VectorSubtract( end, start, m_Delta ); m_IsSwept = (m_Delta.LengthSqr() != 0); VectorClear( m_Extents ); m_IsRay = true; // Offset m_Start to be in the center of the box... VectorClear( m_StartOffset ); VectorCopy( start, m_Start ); } void Init( Vector const& start, Vector const& end, Vector const& mins, Vector const& maxs ) { VectorSubtract( end, start, m_Delta ); m_IsSwept = (m_Delta.LengthSqr() != 0); VectorSubtract( maxs, mins, m_Extents ); m_Extents *= 0.5f; m_IsRay = (m_Extents.LengthSqr() < 1e-6); // Offset m_Start to be in the center of the box... VectorAdd( mins, maxs, m_StartOffset ); m_StartOffset *= 0.5f; VectorAdd( start, m_StartOffset, m_Start ); m_StartOffset *= -1.0f; } // compute inverse delta Vector InvDelta() const { Vector vecInvDelta; for ( int iAxis = 0; iAxis < 3; ++iAxis ) { if ( m_Delta[iAxis] != 0.0f ) { vecInvDelta[iAxis] = 1.0f / m_Delta[iAxis]; } else { vecInvDelta[iAxis] = FLT_MAX; } } return vecInvDelta; } private: }; #endif // CMODEL_H #include "gametrace.h"