/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */ #ifndef VIEWERS_H #define VIEWERS_H /* * Definition of viewer and target placement */ class CMasterViewer { friend class CSlaveViewer; public: CPlacement3D mv_plViewer; // placement of the viewer FLOAT mv_fTargetDistance; // distance of virtual target from viewer // default constructor CMasterViewer(void); // get placement of the viewer inline CPlacement3D GetViewerPlacement(void) const {return mv_plViewer;}; // get placement of the virtual target CPlacement3D GetTargetPlacement(void) const; // set placement of the virtual target void SetTargetPlacement(FLOAT3D f3dTarget); // convert from slave void operator = (const CSlaveViewer &svSlave); }; /* * Definition of viewing projection viewer placement */ class CSlaveViewer { friend class CMasterViewer; public: enum ProjectionType { PT_ILLEGAL = 0, PT_PERSPECTIVE, PT_ISOMETRIC_FRONT, PT_ISOMETRIC_RIGHT, PT_ISOMETRIC_TOP, PT_ISOMETRIC_BACK, PT_ISOMETRIC_LEFT, PT_ISOMETRIC_BOTTOM, }; CDrawPort *sv_pdpDrawPort; // drawport that this viewer was created for CPlacement3D sv_plViewer; // placement of the viewer CPlacement3D sv_plGrid; // grid's placement FLOAT sv_fTargetDistance; // distance of virtual target from viewer enum ProjectionType sv_ProjectionType; // tyoe of projection // get orientation angles for type of isometric viewer ANGLE3D GetAngleForIsometricType(void) const; public: // default constructor CSlaveViewer( const CMasterViewer &mvMaster, enum ProjectionType ptProjectionType, const CPlacement3D &plGrid, CDrawPort *pdpDrawPort); // create a projection for this viewer void MakeProjection(CAnyProjection3D &prProjection); // create a perspective projection for this viewer void MakePerspectiveProjection(CPerspectiveProjection3D &prPerspectiveProjection); // get placement of the viewer inline CPlacement3D GetViewerPlacement(void) const {return sv_plViewer;}; // test if this is perspective viewer inline BOOL IsPerspective(void) const { ASSERT( sv_ProjectionType != PT_ILLEGAL); return sv_ProjectionType == PT_PERSPECTIVE; }; // test if this is isometric viewer inline BOOL IsIsometric(void) const { ASSERT( sv_ProjectionType != PT_ILLEGAL); return sv_ProjectionType != PT_PERSPECTIVE; }; /* Get zoom factor for the viewer. */ FLOAT GetZoomFactor(void); /* Get distance for requested zoom factor for the viewer. */ FLOAT GetDistanceForZoom(FLOAT fZoom); // get target distance inline FLOAT GetTargetDistance( void) const { return sv_fTargetDistance; }; // get placement of the virtual target CPlacement3D GetTargetPlacement(void) const; // translate slave viewer in his own system void Translate_OwnSystem( PIX pixDI, PIX pixDJ, PIX pixDK); void TranslatePlacement_OtherSystem(CPlacement3D &plToTranslate,CPlacement3D &plOtherSystem, PIX pixDI, PIX pixDJ, PIX pixDK); // scales target distance using given factor void ScaleTargetDistance( FLOAT fFactor); // rotate slave viewer in his own system using HPB method void Rotate_HPB( PIX pixDI, PIX pixDJ, PIX pixDK); // translate a placement in viewer's system void TranslatePlacement_OwnSystem(CPlacement3D &plToTranslate, PIX pixDI, PIX pixDJ, PIX pixDK); // rotate a placement in viewer's system void RotatePlacement_HPB(CPlacement3D &plToRotate, PIX pixDI, PIX pixDJ, PIX pixDK); // rotate a placement in viewer's system void RotatePlacement_TrackBall(CPlacement3D &plToRotate, PIX pixDI, PIX pixDJ, PIX pixDK); // convert offset from pixels to meters FLOAT PixelsToMeters(PIX pix); void Translate_Local_OwnSystem(FLOAT fdX, FLOAT fdY, FLOAT fdZ); void Rotate_Local_HPB( FLOAT fdX, FLOAT fdY, FLOAT fdZ); }; #endif // VIEWERS_H