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CKinect.h
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1 /* +---------------------------------------------------------------------------+
2  | Mobile Robot Programming Toolkit (MRPT) |
3  | http://www.mrpt.org/ |
4  | |
5  | Copyright (c) 2005-2017, Individual contributors, see AUTHORS file |
6  | See: http://www.mrpt.org/Authors - All rights reserved. |
7  | Released under BSD License. See details in http://www.mrpt.org/License |
8  +---------------------------------------------------------------------------+ */
9 #ifndef mrpt_CKinect_H
10 #define mrpt_CKinect_H
11 
15 #include <mrpt/utils/TEnumType.h>
17 
19 
20 // MRPT implements a common interface to Kinect disregarding the
21 // actual underlying library. These macros defined in "mrpt/config.h"
22 // let us know which library is actually used:
23 // - [DEPRECATED AS OF MRPT 1.3.0] MRPT_HAS_KINECT_CL_NUI = 0 or 1
24 // - MRPT_HAS_KINECT_FREENECT = 0 or 1
25 
26 // Depth of Kinect ranges:
27 #if MRPT_HAS_KINECT_FREENECT
28 # define MRPT_KINECT_DEPTH_10BIT
29 # define KINECT_RANGES_TABLE_LEN 1024
30 # define KINECT_RANGES_TABLE_MASK 0x03FF
31 #else // MRPT_HAS_KINECT_CL_NUI or none:
32 # define MRPT_KINECT_DEPTH_11BIT
33 # define KINECT_RANGES_TABLE_LEN 2048
34 # define KINECT_RANGES_TABLE_MASK 0x07FF
35 #endif
36 
37 
38 namespace mrpt
39 {
40  namespace hwdrivers
41  {
42  /** A class for grabing "range images", intensity images (either RGB or IR) and other information from an Xbox Kinect sensor.
43  * To use Kinect for Windows or ASUS/Primesense RGBD cameras, use the class COpenNI2.
44  *
45  * <h2>Configuration and usage:</h2> <hr>
46  * Data is returned as observations of type mrpt::obs::CObservation3DRangeScan (and mrpt::obs::CObservationIMU for accelerometers data).
47  * See those classes for documentation on their fields.
48  *
49  * As with any other CGenericSensor class, the normal sequence of methods to be called is:
50  * - CGenericSensor::loadConfig() - Or calls to the individual setXXX() to configure the sensor parameters.
51  * - CKinect::initialize() - to start the communication with the sensor.
52  * - call CKinect::getNextObservation() for getting the data.
53  *
54  * <h2>Calibration parameters</h2><hr>
55  * For an accurate transformation of depth images to 3D points, you'll have to calibrate your Kinect, and supply
56  * the following <b>threee pieces of information</b> (default calibration data will be used otherwise, but they'll be not optimal for all sensors!):
57  * - Camera parameters for the RGB camera. See CKinect::setCameraParamsIntensity()
58  * - Camera parameters for the depth camera. See CKinect::setCameraParamsDepth()
59  * - The 3D relative pose of the two cameras. See CKinect::setRelativePoseIntensityWrtDepth()
60  *
61  * See http://www.mrpt.org/Kinect_calibration for a procedure to calibrate Kinect sensors with an interactive GUI program.
62  *
63  * <h2>Coordinates convention</h2><hr>
64  * The origin of coordinates is the focal point of the depth camera, with the axes oriented as in the
65  * diagram shown in mrpt::obs::CObservation3DRangeScan. Notice in that picture that the RGB camera is
66  * assumed to have axes as usual in computer vision, which differ from those for the depth camera.
67  *
68  * The X,Y,Z axes used to report the data from accelerometers coincide with those of the depth camera
69  * (e.g. the camera standing on a table would have an ACC_Z=-9.8m/s2).
70  *
71  * Notice however that, for consistency with stereo cameras, when loading the calibration parameters from
72  * a configuration file, the left-to-right pose increment is expected as if both RGB & IR cameras had
73  * their +Z axes pointing forward, +X to the right, +Y downwards (just like it's the standard in stereo cameras
74  * and in computer vision literature). In other words: the pose stored in this class uses a different
75  * axes convention for the depth camera than in a stereo camera, so when a pose L2R is loaded from a calibration file
76  * it's actually converted like:
77  *
78  * L2R(this class convention) = CPose3D(0,0,0,-90deg,0deg,-90deg) (+) L2R(in the config file)
79  *
80  *
81  * <h2>Some general comments</h2><hr>
82  * - Depth is grabbed in 10bit depth, and a range N it's converted to meters as: range(m) = 0.1236 * tan(N/2842.5 + 1.1863)
83  * - This sensor can be also used from within rawlog-grabber to grab datasets within a robot with more sensors.
84  * - There is no built-in threading support, so if you use this class manually (not with-in rawlog-grabber),
85  * the ideal would be to create a thread and continuously request data from that thread (see mrpt::system::createThread ).
86  * - The intensity channel default to the RGB images, but it can be changed with setVideoChannel() to read the IR camera images (useful for calibrating).
87  * - There is a built-in support for an optional preview of the data on a window, so you don't need to even worry on creating a window to show them.
88  * - This class relies on an embedded version of libfreenect (you do NOT need to install it in your system). Thanks guys for the great job!
89  *
90  * <h2>Converting to 3D point cloud </h2><hr>
91  * You can convert the 3D observation into a 3D point cloud with this piece of code:
92  *
93  * \code
94  * mrpt::obs::CObservation3DRangeScan obs3D;
95  * mrpt::maps::CColouredPointsMap pntsMap;
96  * pntsMap.colorScheme.scheme = CColouredPointsMap::cmFromIntensityImage;
97  * pntsMap.loadFromRangeScan(obs3D);
98  * \endcode
99  *
100  * Then the point cloud mrpt::maps::CColouredPointsMap can be converted into an OpenGL object for
101  * rendering with mrpt::maps::CMetricMap::getAs3DObject() or alternatively with:
102  *
103  * \code
104  * mrpt::opengl::CPointCloudColouredPtr gl_points = mrpt::opengl::CPointCloudColoured::Create();
105  * gl_points->loadFromPointsMap(&pntsMap);
106  * \endcode
107  *
108  *
109  * <h2>Raw depth to range conversion</h2><hr>
110  * At construction, this class builds an internal array for converting raw 10 or 11bit depths into ranges in meters.
111  * Users can read that array or modify it (if you have a better calibration, for example) by calling CKinect::getRawDepth2RangeConversion().
112  * If you replace it, remember to set the first and last entries (index 0 and KINECT_RANGES_TABLE_LEN-1) to zero, to indicate that those are invalid ranges.
113  *
114  * <table width="100%" >
115  * <tr>
116  * <td align="center" >
117  * <img src="kinect_depth2range_10bit.png" > <br>
118  * R(d) = k3 * tan(d/k2 + k1); <br>
119  * k1 = 1.1863, k2 = 2842.5, k3 = 0.1236 <br>
120  * </td>
121  * <td align="center" >
122  * </td>
123  * </tr>
124  * </table>
125  *
126  *
127  * <h2>Platform-specific comments</h2><hr>
128  * For more details, refer to <a href="http://openkinect.org/wiki/Main_Page" >libfreenect</a> documentation:
129  * - Linux: You'll need root privileges to access Kinect. Or, install <code> MRPT/scripts/51-kinect.rules </code> in <code>/etc/udev/rules.d/</code> to allow access to all users.
130  * - Windows:
131  * - Since MRPT 0.9.4 you'll only need to install <a href="http://sourceforge.net/projects/libusb-win32/files/libusb-win32-releases/" >libusb-win32</a>: download and extract the latest libusb-win32-bin-x.x.x.x.zip
132  * - To install the drivers, read this: http://openkinect.org/wiki/Getting_Started#Windows
133  * - MacOS: (write me!)
134  *
135  *
136  * <h2>Format of parameters for loading from a .ini file</h2><hr>
137  *
138  * \code
139  * PARAMETERS IN THE ".INI"-LIKE CONFIGURATION STRINGS:
140  * -------------------------------------------------------
141  * [supplied_section_name]
142  * sensorLabel = KINECT // A text description
143  * preview_window = false // Show a window with a preview of the grabbed data in real-time
144  *
145  * device_number = 0 // Device index to open (0:first Kinect, 1:second Kinect,...)
146  *
147  * grab_image = true // Grab the RGB image channel? (Default=true)
148  * grab_depth = true // Grab the depth channel? (Default=true)
149  * grab_3D_points = true // Grab the 3D point cloud? (Default=true) If disabled, points can be generated later on.
150  * grab_IMU = true // Grab the accelerometers? (Default=true)
151  *
152  * video_channel = VIDEO_CHANNEL_RGB // Optional. Can be: VIDEO_CHANNEL_RGB (default) or VIDEO_CHANNEL_IR
153  *
154  * pose_x=0 // Camera position in the robot (meters)
155  * pose_y=0
156  * pose_z=0
157  * pose_yaw=0 // Angles in degrees
158  * pose_pitch=0
159  * pose_roll=0
160  *
161  * // Optional: Set the initial tilt angle of Kinect: upon initialization, the motor is sent a command to
162  * // rotate to this angle (in degrees). Note: You must be aware of the tilt when interpreting the sensor readings.
163  * // If not present or set to "360", no motor command will be sent at start up.
164  * initial_tilt_angle = 0
165  *
166  * // Kinect sensor calibration:
167  * // See http://www.mrpt.org/Kinect_and_MRPT
168  *
169  * // Left/Depth camera
170  * [supplied_section_name_LEFT]
171  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
172  *
173  * resolution = [640 488]
174  * cx = 314.649173
175  * cy = 240.160459
176  * fx = 572.882768
177  * fy = 542.739980
178  * dist = [-4.747169e-03 -4.357976e-03 0.000000e+00 0.000000e+00 0.000000e+00] // The order is: [K1 K2 T1 T2 K3]
179  *
180  * // Right/RGB camera
181  * [supplied_section_name_RIGHT]
182  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
183  *
184  * resolution = [640 480]
185  * cx = 322.515987
186  * cy = 259.055966
187  * fx = 521.179233
188  * fy = 493.033034
189  * dist = [5.858325e-02 3.856792e-02 0.000000e+00 0.000000e+00 0.000000e+00] // The order is: [K1 K2 T1 T2 K3]
190  *
191  * // Relative pose of the right camera wrt to the left camera:
192  * // This assumes that both camera frames are such that +Z points
193  * // forwards, and +X and +Y to the right and downwards.
194  * // For the actual coordinates employed in 3D observations, see figure in mrpt::obs::CObservation3DRangeScan
195  * [supplied_section_name_LEFT2RIGHT_POSE]
196  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
197  *
198  * pose_quaternion = [0.025575 -0.000609 -0.001462 0.999987 0.002038 0.004335 -0.001693]
199  *
200  * \endcode
201  *
202  * More references to read:
203  * - http://openkinect.org/wiki/Imaging_Information
204  * - http://nicolas.burrus.name/index.php/Research/KinectCalibration
205  * \ingroup mrpt_hwdrivers_grp
206  */
208  {
210 
211  public:
212  typedef float TDepth2RangeArray[KINECT_RANGES_TABLE_LEN]; //!< A typedef for an array that converts raw depth to ranges in meters.
213 
214  /** RGB or IR video channel identifiers \sa setVideoChannel */
216  VIDEO_CHANNEL_RGB=0,
217  VIDEO_CHANNEL_IR
218  };
219 
220  CKinect(); //!< Default ctor
221  ~CKinect(); //!< Default ctor
222 
223  /** Initializes the 3D camera - should be invoked after calling loadConfig() or setting the different parameters with the set*() methods.
224  * \exception This method must throw an exception with a descriptive message if some critical error is found.
225  */
226  virtual void initialize();
227 
228  /** To be called at a high rate (>XX Hz), this method populates the internal buffer of received observations.
229  * This method is mainly intended for usage within rawlog-grabber or similar programs.
230  * For an alternative, see getNextObservation()
231  * \exception This method must throw an exception with a descriptive message if some critical error is found.
232  * \sa getNextObservation
233  */
234  virtual void doProcess();
235 
236  /** The main data retrieving function, to be called after calling loadConfig() and initialize().
237  * \param out_obs The output retrieved observation (only if there_is_obs=true).
238  * \param there_is_obs If set to false, there was no new observation.
239  * \param hardware_error True on hardware/comms error.
240  *
241  * \sa doProcess
242  */
243  void getNextObservation(
245  bool &there_is_obs,
246  bool &hardware_error );
247 
248  /** \overload
249  * \note This method also grabs data from the accelerometers, returning them in out_obs_imu
250  */
251  void getNextObservation(
253  mrpt::obs::CObservationIMU &out_obs_imu,
254  bool &there_is_obs,
255  bool &hardware_error );
256 
257  /** Set the path where to save off-rawlog image files (this class DOES take into account this path).
258  * An empty string (the default value at construction) means to save images embedded in the rawlog, instead of on separate files.
259  * \exception std::exception If the directory doesn't exists and cannot be created.
260  */
261  virtual void setPathForExternalImages( const std::string &directory );
262 
263 
264  /** @name Sensor parameters (alternative to \a loadConfig ) and manual control
265  @{ */
266 
267  /** Try to open the camera (set all the parameters before calling this) - users may also call initialize(), which in turn calls this method.
268  * Raises an exception upon error.
269  * \exception std::exception A textual description of the error.
270  */
271  void open();
272 
273  bool isOpen() const; //!< Whether there is a working connection to the sensor
274 
275  /** Close the Connection to the sensor (not need to call it manually unless desired for some reason,
276  * since it's called at destructor) */
277  void close();
278 
279  /** Changes the video channel to open (RGB or IR) - you can call this method before start grabbing or in the middle of streaming and the video source will change on the fly.
280  Default is RGB channel. */
281  void setVideoChannel(const TVideoChannel vch);
282  /** Return the current video channel (RGB or IR) \sa setVideoChannel */
283  inline TVideoChannel getVideoChannel() const { return m_video_channel; }
284 
285  /** Set the sensor index to open (if there're several sensors attached to the computer); default=0 -> the first one. */
286  inline void setDeviceIndexToOpen(int index) { m_user_device_number=index; }
287  inline int getDeviceIndexToOpen() const { return m_user_device_number; }
288 
289  /** Change tilt angle \note Sensor must be open first. */
290  void setTiltAngleDegrees(double angle);
291  double getTiltAngleDegrees();
292 
293  /** Default: disabled */
294  inline void enablePreviewRGB(bool enable=true) { m_preview_window = enable; }
295  inline void disablePreviewRGB() { m_preview_window = false; }
296  inline bool isPreviewRGBEnabled() const { return m_preview_window; }
297 
298  /** If preview is enabled, show only one image out of N (default: 1=show all) */
299  inline void setPreviewDecimation(size_t decimation_factor ) { m_preview_window_decimation = decimation_factor; }
300  inline size_t getPreviewDecimation() const { return m_preview_window_decimation; }
301 
302  /** Get the maximum range (meters) that can be read in the observation field "rangeImage" */
303  inline double getMaxRange() const { return m_maxRange; }
304 
305  /** Get the row count in the camera images, loaded automatically upon camera open(). */
306  inline size_t getRowCount() const { return m_cameraParamsRGB.nrows; }
307  /** Get the col count in the camera images, loaded automatically upon camera open(). */
308  inline size_t getColCount() const { return m_cameraParamsRGB.ncols; }
309 
310  /** Get a const reference to the depth camera calibration parameters */
311  inline const mrpt::utils::TCamera & getCameraParamsIntensity() const { return m_cameraParamsRGB; }
312  inline void setCameraParamsIntensity(const mrpt::utils::TCamera &p) { m_cameraParamsRGB=p; }
313 
314  /** Get a const reference to the depth camera calibration parameters */
315  inline const mrpt::utils::TCamera & getCameraParamsDepth() const { return m_cameraParamsDepth; }
316  inline void setCameraParamsDepth(const mrpt::utils::TCamera &p) { m_cameraParamsDepth=p; }
317 
318  /** Set the pose of the intensity camera wrt the depth camera \sa See mrpt::obs::CObservation3DRangeScan for a 3D diagram of this pose */
319  inline void setRelativePoseIntensityWrtDepth(const mrpt::poses::CPose3D &p) { m_relativePoseIntensityWRTDepth=p; }
320  inline const mrpt::poses::CPose3D &getRelativePoseIntensityWrtDepth() const { return m_relativePoseIntensityWRTDepth; }
321 
322  /** Get a reference to the array that convert raw depth values (10 or 11 bit) into ranges in meters, so it can be read or replaced by the user.
323  * If you replace it, remember to set the first and last entries (index 0 and KINECT_RANGES_TABLE_LEN-1) to zero, to indicate that those are invalid ranges.
324  */
325  inline TDepth2RangeArray & getRawDepth2RangeConversion() { return m_range2meters; }
326  inline const TDepth2RangeArray & getRawDepth2RangeConversion() const { return m_range2meters; }
327 
328  /** Enable/disable the grabbing of the RGB channel */
329  inline void enableGrabRGB(bool enable=true) { m_grab_image=enable; }
330  inline bool isGrabRGBEnabled() const { return m_grab_image; }
331 
332  /** Enable/disable the grabbing of the depth channel */
333  inline void enableGrabDepth(bool enable=true) { m_grab_depth=enable; }
334  inline bool isGrabDepthEnabled() const { return m_grab_depth; }
335 
336  /** Enable/disable the grabbing of the inertial data */
337  inline void enableGrabAccelerometers(bool enable=true) { m_grab_IMU=enable; }
338  inline bool isGrabAccelerometersEnabled() const { return m_grab_IMU; }
339 
340  /** Enable/disable the grabbing of the 3D point clouds */
341  inline void enableGrab3DPoints(bool enable=true) { m_grab_3D_points=enable; }
342  inline bool isGrab3DPointsEnabled() const { return m_grab_3D_points; }
343 
344  /** @} */
345 
346 
347 #if MRPT_HAS_KINECT_FREENECT
348  // Auxiliary getters/setters (we can't declare the libfreenect callback as friend since we
349  // want to avoid including the API headers here).
350  inline mrpt::obs::CObservation3DRangeScan & internal_latest_obs() { return m_latest_obs; }
351  inline volatile uint32_t & internal_tim_latest_depth() { return m_tim_latest_depth; }
352  inline volatile uint32_t & internal_tim_latest_rgb() { return m_tim_latest_rgb; }
353  inline mrpt::synch::CCriticalSection & internal_latest_obs_cs() { return m_latest_obs_cs; }
354 #endif
355 
356  protected:
357  /** See the class documentation at the top for expected parameters */
358  virtual void loadConfig_sensorSpecific(
359  const mrpt::utils::CConfigFileBase &configSource,
360  const std::string &section );
361 
363 
364  bool m_preview_window; //!< Show preview window while grabbing
365  size_t m_preview_window_decimation; //!< If preview is enabled, only show 1 out of N images.
366  size_t m_preview_decim_counter_range, m_preview_decim_counter_rgb;
367  mrpt::gui::CDisplayWindowPtr m_win_range, m_win_int;
368 
369 #if MRPT_HAS_KINECT_FREENECT
370  void *m_f_ctx; //!< The "freenect_context", or NULL if closed
371  void *m_f_dev; //!< The "freenect_device", or NULL if closed
372 
373  // Data fields for use with the callback function:
375  volatile uint32_t m_tim_latest_depth, m_tim_latest_rgb; // 0 = not updated
376  mrpt::synch::CCriticalSection m_latest_obs_cs;
377 #endif
378 
379  mrpt::utils::TCamera m_cameraParamsRGB; //!< Params for the RGB camera
380  mrpt::utils::TCamera m_cameraParamsDepth; //!< Params for the Depth camera
381  mrpt::poses::CPose3D m_relativePoseIntensityWRTDepth; //!< See mrpt::obs::CObservation3DRangeScan for a diagram of this pose
382 
383  int m_initial_tilt_angle; //!< Set Kinect tilt to an initial deegre (it should be take in account in the sensor pose by the user)
384 
385  double m_maxRange; //!< Sensor max range (meters)
386 
387  int m_user_device_number; //!< Number of device to open (0:first,...)
388 
389  bool m_grab_image, m_grab_depth, m_grab_3D_points, m_grab_IMU ; //!< Default: all true
390 
391  TVideoChannel m_video_channel; //!< The video channel to open: RGB or IR
392 
393  private:
394  std::vector<uint8_t> m_buf_depth, m_buf_rgb; //!< Temporary buffers for image grabbing.
395  TDepth2RangeArray m_range2meters; //!< The table raw depth -> range in meters
396 
397  void calculate_range2meters(); //!< Compute m_range2meters at construction
398 
399  }; // End of class
400  } // End of NS
401 
402  // Specializations MUST occur at the same namespace:
403  namespace utils
404  {
405  template <>
406  struct TEnumTypeFiller<hwdrivers::CKinect::TVideoChannel>
407  {
409  static void fill(bimap<enum_t,std::string> &m_map)
410  {
411  m_map.insert(hwdrivers::CKinect::VIDEO_CHANNEL_RGB, "VIDEO_CHANNEL_RGB");
412  m_map.insert(hwdrivers::CKinect::VIDEO_CHANNEL_IR, "VIDEO_CHANNEL_IR");
413  }
414  };
415  } // End of namespace
416 
417 } // End of NS
418 
419 
420 #endif
static void fill(bimap< enum_t, std::string > &m_map)
Definition: CKinect.h:409
A generic interface for a wide-variety of sensors designed to be used in the application RawLogGrabbe...
void setCameraParamsIntensity(const mrpt::utils::TCamera &p)
Definition: CKinect.h:312
size_t getPreviewDecimation() const
Definition: CKinect.h:300
This class provides simple critical sections functionality.
void setPreviewDecimation(size_t decimation_factor)
If preview is enabled, show only one image out of N (default: 1=show all)
Definition: CKinect.h:299
const mrpt::utils::TCamera & getCameraParamsDepth() const
Get a const reference to the depth camera calibration parameters.
Definition: CKinect.h:315
TVideoChannel m_video_channel
The video channel to open: RGB or IR.
Definition: CKinect.h:391
size_t m_preview_window_decimation
If preview is enabled, only show 1 out of N images.
Definition: CKinect.h:365
void setRelativePoseIntensityWrtDepth(const mrpt::poses::CPose3D &p)
Set the pose of the intensity camera wrt the depth camera.
Definition: CKinect.h:319
void setDeviceIndexToOpen(int index)
Set the sensor index to open (if there&#39;re several sensors attached to the computer); default=0 -> the...
Definition: CKinect.h:286
double m_maxRange
Sensor max range (meters)
Definition: CKinect.h:385
Declares a class derived from "CObservation" that encapsules a 3D range scan measurement, as from a time-of-flight range camera or any other RGBD sensor.
Only specializations of this class are defined for each enum type of interest.
Definition: TEnumType.h:23
bool isGrab3DPointsEnabled() const
Definition: CKinect.h:342
This class stores measurements from an Inertial Measurement Unit (IMU) (attitude estimation, raw gyroscope and accelerometer values), altimeters or magnetometers.
TVideoChannel getVideoChannel() const
Return the current video channel (RGB or IR)
Definition: CKinect.h:283
#define KINECT_RANGES_TABLE_LEN
Definition: CKinect.h:33
size_t getRowCount() const
Get the row count in the camera images, loaded automatically upon camera open().
Definition: CKinect.h:306
std::vector< uint8_t > m_buf_rgb
Temporary buffers for image grabbing.
Definition: CKinect.h:394
This class allows loading and storing values and vectors of different types from a configuration text...
A class for grabing "range images", intensity images (either RGB or IR) and other information from an...
Definition: CKinect.h:207
const TDepth2RangeArray & getRawDepth2RangeConversion() const
Definition: CKinect.h:326
void enableGrabDepth(bool enable=true)
Enable/disable the grabbing of the depth channel.
Definition: CKinect.h:333
bool m_grab_IMU
Default: all true.
Definition: CKinect.h:389
GLuint index
Definition: glext.h:3891
int m_initial_tilt_angle
Set Kinect tilt to an initial deegre (it should be take in account in the sensor pose by the user) ...
Definition: CKinect.h:383
void enablePreviewRGB(bool enable=true)
Default: disabled.
Definition: CKinect.h:294
void setCameraParamsDepth(const mrpt::utils::TCamera &p)
Definition: CKinect.h:316
TDepth2RangeArray m_range2meters
The table raw depth -> range in meters.
Definition: CKinect.h:395
A bidirectional version of std::map, declared as bimap<KEY,VALUE> and which actually contains two std...
Definition: bimap.h:28
void enableGrabAccelerometers(bool enable=true)
Enable/disable the grabbing of the inertial data.
Definition: CKinect.h:337
const mrpt::utils::TCamera & getCameraParamsIntensity() const
Get a const reference to the depth camera calibration parameters.
Definition: CKinect.h:311
GLsizei const GLchar ** string
Definition: glext.h:3919
void enableGrab3DPoints(bool enable=true)
Enable/disable the grabbing of the 3D point clouds.
Definition: CKinect.h:341
bool isPreviewRGBEnabled() const
Definition: CKinect.h:296
int m_user_device_number
Number of device to open (0:first,...)
Definition: CKinect.h:387
mrpt::utils::TCamera m_cameraParamsRGB
Params for the RGB camera.
Definition: CKinect.h:379
#define DEFINE_GENERIC_SENSOR(class_name)
This declaration must be inserted in all CGenericSensor classes definition, within the class declarat...
mrpt::utils::TCamera m_cameraParamsDepth
Params for the Depth camera.
Definition: CKinect.h:380
This is the global namespace for all Mobile Robot Programming Toolkit (MRPT) libraries.
bool isGrabDepthEnabled() const
Definition: CKinect.h:334
mrpt::gui::CDisplayWindowPtr m_win_range
Definition: CKinect.h:367
A class used to store a 3D pose (a 3D translation + a rotation in 3D).
Definition: CPose3D.h:72
mrpt::poses::CPose3D m_relativePoseIntensityWRTDepth
See mrpt::obs::CObservation3DRangeScan for a diagram of this pose.
Definition: CKinect.h:381
TDepth2RangeArray & getRawDepth2RangeConversion()
Get a reference to the array that convert raw depth values (10 or 11 bit) into ranges in meters...
Definition: CKinect.h:325
const mrpt::poses::CPose3D & getRelativePoseIntensityWrtDepth() const
Definition: CKinect.h:320
bool m_preview_window
Show preview window while grabbing.
Definition: CKinect.h:364
int getDeviceIndexToOpen() const
Definition: CKinect.h:287
void enableGrabRGB(bool enable=true)
Enable/disable the grabbing of the RGB channel.
Definition: CKinect.h:329
void insert(const KEY &k, const VALUE &v)
Insert a new pair KEY<->VALUE in the bi-map.
Definition: bimap.h:69
bool isGrabRGBEnabled() const
Definition: CKinect.h:330
unsigned __int32 uint32_t
Definition: rptypes.h:49
GLfloat GLfloat p
Definition: glext.h:5587
double getMaxRange() const
Get the maximum range (meters) that can be read in the observation field "rangeImage".
Definition: CKinect.h:303
size_t m_preview_decim_counter_rgb
Definition: CKinect.h:366
mrpt::poses::CPose3D m_sensorPoseOnRobot
Definition: CKinect.h:362
bool isGrabAccelerometersEnabled() const
Definition: CKinect.h:338
Structure to hold the parameters of a pinhole camera model.
Definition: TCamera.h:31
TVideoChannel
RGB or IR video channel identifiers.
Definition: CKinect.h:215
size_t getColCount() const
Get the col count in the camera images, loaded automatically upon camera open().
Definition: CKinect.h:308



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