This file is indexed.

/usr/include/visp/vpRobotCamera.h is in libvisp-dev 2.9.0-3+b2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
 37
 38
 39
 40
 41
 42
 43
 44
 45
 46
 47
 48
 49
 50
 51
 52
 53
 54
 55
 56
 57
 58
 59
 60
 61
 62
 63
 64
 65
 66
 67
 68
 69
 70
 71
 72
 73
 74
 75
 76
 77
 78
 79
 80
 81
 82
 83
 84
 85
 86
 87
 88
 89
 90
 91
 92
 93
 94
 95
 96
 97
 98
 99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
/****************************************************************************
 *
 * $Id: vpRobotCamera.h 2456 2010-01-07 10:33:12Z nmelchio $
 *
 * This file is part of the ViSP software.
 * Copyright (C) 2005 - 2014 by INRIA. All rights reserved.
 * 
 * This software is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * ("GPL") version 2 as published by the Free Software Foundation.
 * See the file LICENSE.txt at the root directory of this source
 * distribution for additional information about the GNU GPL.
 *
 * For using ViSP with software that can not be combined with the GNU
 * GPL, please contact INRIA about acquiring a ViSP Professional 
 * Edition License.
 *
 * See http://www.irisa.fr/lagadic/visp/visp.html for more information.
 * 
 * This software was developed at:
 * INRIA Rennes - Bretagne Atlantique
 * Campus Universitaire de Beaulieu
 * 35042 Rennes Cedex
 * France
 * http://www.irisa.fr/lagadic
 *
 * If you have questions regarding the use of this file, please contact
 * INRIA at visp@inria.fr
 * 
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 *
 *
 * Description:
 * Defines the simplest robot : a free flying camera.
 *
 * Authors:
 * Eric Marchand
 *
 *****************************************************************************/


#ifndef vpRobotCamera_H
#define vpRobotCamera_H

/*!
  \file vpRobotCamera.h
  \brief class that defines the simplest robot : a free flying camera
*/

#include <visp/vpColVector.h>
#include <visp/vpHomogeneousMatrix.h>
#include <visp/vpMatrix.h>
#include <visp/vpRobotSimulator.h>

/*!
  \class vpRobotCamera

  \ingroup RobotSimuWithoutVisu

  \brief Class that defines the simplest robot: a free flying camera.

  This free flying camera has 6 dof; 3 in translation and 3 in rotation.
  It evolves as a gentry robot with respect to a world frame. This class
  is similar to vpSimulatorCamera class except that here the position of the robot
  is provided as the transformation from camera frame to world frame; cMw. Since
  the position of the camera frame evolves, this representation is less intuitive
  than the one implemented in vpSimulatorCamera where the transformation from world
  to camera frame is considered; wMc.

  \note We recommend to use vpSimulatorCamera rather than vpRobotCamera.

  For this particular simulated robot, the end-effector and camera frame are confused.
  That means that the cMe transformation is equal to identity.

  The robot jacobian expressed in the end-effector frame
  \f$ {^e}{\bf J}_e \f$ is also set to identity (see get_eJe()).

  The following code shows how to control this robot in position and velocity.
  \code
#include <visp/vpRobotCamera.h>

int main()
{
  vpHomogeneousMatrix cMw;
  vpRobotCamera robot;

  robot.getPosition(cMw); // Position of the camera in the world frame
  std::cout << "Default position of the camera in the world frame cMw:\n" << cMw << std::endl;

  cMw[2][3] = 1.; // World frame is 1 meter along z axis in front of the camera frame
  robot.setPosition(cMw); // Set the new position of the camera wrt the world frame
  std::cout << "New position of the camera wrt the world frame cMw:\n" << cMw << std::endl;

  robot.setSamplingTime(0.100); // Modify the default sampling time to 0.1 second
  robot.setMaxTranslationVelocity(1.); // vx, vy and vz max set to 1 m/s
  robot.setMaxRotationVelocity(vpMath::rad(90)); // wx, wy and wz max set to 90 deg/s

  vpColVector v(6);
  v = 0;
  v[2] = 1.; // set v_z to 1 m/s
  robot.setVelocity(vpRobot::CAMERA_FRAME, v);
  // The robot has moved from 0.1 meters along the z axis
  robot.getPosition(cMw); // Position of the camera wrt the world frame
  std::cout << "New position of the camera cMw:\n" << cMw << std::endl;
}
  \endcode

*/
class VISP_EXPORT vpRobotCamera : public vpRobotSimulator
{
protected:
  vpHomogeneousMatrix cMw_; // camera to world

public:
  vpRobotCamera() ;
  virtual ~vpRobotCamera() ;

  void get_cVe(vpVelocityTwistMatrix &cVe) const;
  void get_eJe(vpMatrix &eJe);

  void getPosition(vpHomogeneousMatrix &cMw) const   ;
  void getPosition(const vpRobot::vpControlFrameType frame, vpColVector &q);

  void setPosition(const vpHomogeneousMatrix &cMw) ;
  void setVelocity(const vpRobot::vpControlFrameType frame, const vpColVector &v)  ;

private:
  void init() ;

  // Non implemented virtual pure functions
  void get_fJe(vpMatrix & /*_fJe */) {};
  void getDisplacement(const vpRobot::vpControlFrameType /* frame */, vpColVector & /* q */) {};
  void setPosition(const vpRobot::vpControlFrameType /* frame */, const vpColVector & /* q */) {};
} ;

#endif
/*
 * Local variables:
 * c-basic-offset: 2
 * End:
 */