/**************************************************************************** * VCGLib o o * * Visual and Computer Graphics Library o o * * _ O _ * * Copyright(C) 2004 \/)\/ * * Visual Computing Lab /\/| * * ISTI - Italian National Research Council | * * \ * * All rights reserved. * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License (http://www.gnu.org/licenses/gpl.txt) * * for more details. * * * ****************************************************************************/ /**************************************************************************** History $Log: not supported by cvs2svn $ Revision 1.24 2008/02/22 17:41:48 ponchio Changed to reflect quaternion toMatrix inversion. Revision 1.23 2007/02/06 08:54:07 corsini fix names Revision 1.22 2007/02/05 14:17:21 corsini add extrinsic parameters accessors Revision 1.21 2006/12/18 16:02:55 matteodelle minor eroor correction on variable names Revision 1.20 2006/12/18 09:46:39 callieri camera+shot revamp: changed field names to something with more sense, cleaning of various functions, correction of minor bugs/incongruences, removal of the infamous reference in shot. Revision 1.19 2006/01/22 17:01:40 cignoni Corrected intialization of flag, must be zero. Revision 1.18 2005/12/12 16:53:43 callieri corrected UnProject, it's necessary also a ZDepth value to perform inverse projection Revision 1.17 2005/12/07 10:57:52 callieri added commodity function ProjectWorldtoViewport() to obtain directly pixel indices without calling two separate function of two different objects Revision 1.16 2005/12/02 16:14:35 callieri in Shot::Axis changed Row3 to GetRow3 . row3 was the old method name of Matrix44 Revision 1.15 2005/12/01 01:03:37 cignoni Removed excess ';' from end of template functions, for gcc compiling Revision 1.14 2005/11/23 14:18:35 ganovelli added access to similarity (just for symmetry with Camera() ) Revision 1.13 2005/11/23 11:58:52 ganovelli Empty constructor added, untemplated class Shotf and Shotd added usage: Shotf myShot; corrected member access rights Revision 1.12 2005/07/11 13:12:35 cignoni small gcc-related compiling issues (typenames,ending cr, initialization order) Revision 1.11 2005/01/22 11:20:20 ponchio <...Point3.h> -> <...point3.h> Revision 1.10 2005/01/05 13:26:15 ganovelli corretto cambiamento di sistema di rif. Revision 1.9 2004/12/15 18:45:50 tommyfranken *** empty log message *** Revision 1.4 2004/10/07 14:41:31 fasano Little fix on ViewPoint() method Revision 1.3 2004/10/07 14:24:53 ganovelli added LookAt,LookToward Revision 1.2 2004/10/05 19:04:25 ganovelli version 5-10-2004 in progress Revision 1.1 2004/09/15 22:58:05 ganovelli re-creation Revision 1.2 2004/09/06 21:41:30 ganovelli *** empty log message *** Revision 1.1 2004/09/03 13:01:51 ganovelli creation ****************************************************************************/ #ifndef __VCGLIB_SHOT #define __VCGLIB_SHOT #include #include #include #include namespace vcg{ template class Shot { public: typedef Camera CameraType; typedef S ScalarType; Camera Intrinsics; // the camera that made the shot Similarity > Extrinsics; // the position and orientation of the camera Shot(Camera c) { Intrinsics = c; Extrinsics.SetIdentity(); } Shot() { Extrinsics.SetIdentity(); } /// GET the i-th axis of the coordinate system of the camera vcg::Point3 Axis(const int & i)const; /// GET the viewpoint const vcg::Point3 GetViewPoint()const; /// SET the viewpoint void SetViewPoint(const vcg::Point3 & viewpoint); /// look at (dir+up) void LookAt(const vcg::Point3 & z_dir,const vcg::Point3 & up); /// look at (opengl-like) void LookAt(const S & eye_x,const S & eye_y,const S & eye_z, const S & at_x,const S & at_y,const S & at_z, const S & up_x,const S & up_y,const S & up_z); /// look towards void LookTowards(const vcg::Point3 & z_dir,const vcg::Point3 & up); /// convert a 3d point from world to camera coordinates vcg::Point3 ConvertWorldToCameraCoordinates(const vcg::Point3 & p) const; /// convert a 3d point from camera to world coordinates vcg::Point3 ConvertCameraToWorldCoordinates(const vcg::Point3 & p) const; /// project a 3d point from world coordinates to 2d camera viewport (pixel) vcg::Point2 Project(const vcg::Point3 & p) const; /// inverse projection from 2d camera viewport (pixel) + Zdepth to 3d world coordinates vcg::Point3 UnProject(const vcg::Point2 & p, const S & d) const; /// returns distance of point p from camera plane (z depth), used for unprojection S Depth(const vcg::Point3 & p)const; // accessors public: vcg::Similarity > * GetExtrinsics(){return &Extrinsics;} void SetExtrinsics(vcg::Similarity > &m44) { Extrinsics.tra = m44.tra; Extrinsics.rot.FromMatrix(m44.rot); Extrinsics.sca = m44.sca; } }; // end class definition //--- /// GET the viewpoint template const vcg::Point3 Shot::GetViewPoint() const { return -Extrinsics.tra; } /// SET the viewpoint template void Shot::SetViewPoint(const vcg::Point3 & viewpoint) { Extrinsics.tra = -viewpoint; } //--- /// GET the i-th axis of the coordinate system of the camera template vcg::Point3 Shot::Axis(const int & i) const { vcg::Matrix44 m; Extrinsics.rot.ToMatrix(m); vcg::Point3 aa = m.GetRow3(i); return aa; } /// look at (dir+up) template void Shot::LookAt(const vcg::Point3 & z_dir,const vcg::Point3 & up) { LookTowards(z_dir-GetViewPoint(),up); } /// look at (opengl-like) template void Shot::LookAt(const S & eye_x, const S & eye_y, const S & eye_z, const S & at_x, const S & at_y, const S & at_z, const S & up_x,const S & up_y,const S & up_z) { SetViewPoint(Point3(eye_x,eye_y,eye_z)); LookAt(Point3(at_x,at_y,at_z),Point3(up_x,up_y,up_z)); } /// look towards template void Shot::LookTowards(const vcg::Point3 & z_dir,const vcg::Point3 & up) { vcg::Point3 x_dir = up ^-z_dir; vcg::Point3 y_dir = -z_dir ^x_dir; Matrix44 m; m.SetIdentity(); *(vcg::Point3 *)&m[0][0] = x_dir/x_dir.Norm(); *(vcg::Point3 *)&m[1][0] = y_dir/y_dir.Norm(); *(vcg::Point3 *)&m[2][0] = -z_dir/z_dir.Norm(); Extrinsics.rot.FromMatrix(m); } //--- Space transformation methods /// convert a 3d point from world to camera coordinates template vcg::Point3 Shot::ConvertWorldToCameraCoordinates(const vcg::Point3 & p) const { Matrix44 rotM; Extrinsics.rot.ToMatrix(rotM); vcg::Point3 cp = rotM * (p + Extrinsics.tra); cp[2]=-cp[2]; // note: camera reference system is right handed return cp; } /// convert a 3d point from camera to world coordinates template vcg::Point3 Shot::ConvertCameraToWorldCoordinates(const vcg::Point3 & p) const { Matrix44 rotM; vcg::Point3 cp = p; cp[2]=-cp[2]; // note: World reference system is left handed Extrinsics.rot.ToMatrix(rotM); Invert(rotM); cp = rotM * cp-Extrinsics.tra; return cp; } /// project a 3d point from world coordinates to 2d camera viewport (pixel) template vcg::Point2 Shot::Project(const vcg::Point3 & p) const { Point3 cp = ConvertWorldToCameraCoordinates(p); Point2 pp = Intrinsics.Project(cp); Point2 vp = Intrinsics.LocalToViewportPx(pp); return vp; } /// inverse projection from 2d camera viewport (pixel) + Zdepth to 3d world coordinates template vcg::Point3 Shot::UnProject(const vcg::Point2 & p, const S & d) const { Point2 lp = Intrinsics.ViewportPxToLocal(p); Point3 cp = Intrinsics.UnProject(lp,d); Point3 wp = ConvertCameraToWorldCoordinates(cp); return wp; } /// returns distance of point p from camera plane (z depth), used for unprojection template S Shot::Depth(const vcg::Point3 & p)const { return ConvertWorldToCameraCoordinates(p).Z(); } //-------------------------------- //--- utility definitions class Shotf: public Shot{}; class Shotd: public Shot{}; //----------------------- } // end name space #endif