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CCameraSensor.h
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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 |
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9 
10 #ifndef CCameraSensor_H
11 #define CCameraSensor_H
12 
13 #include <mrpt/poses/CPose3D.h>
14 #include <mrpt/obs/CObservation.h>
18 
25 #include <mrpt/hwdrivers/CKinect.h>
28 
31 
33 
34 namespace mrpt
35 {
36  namespace hwdrivers
37  {
38  /** The central class for camera grabbers in MRPT, implementing the "generic sensor" interface.
39  * This class provides the user with a uniform interface to a variety of other classes which manage only one specific camera "driver" (opencv, ffmpeg, PGR FlyCapture,...)
40  *
41  * Following the "generic sensor" interface, all the parameters must be passed int the form of a configuration file,
42  * which may be also formed on the fly (without being a real config file) as in this example:
43  *
44  * \code
45  * CCameraSensor myCam;
46  * const string str =
47  * "[CONFIG]\n"
48  * "grabber_type=opencv\n";
49  *
50  * CConfigFileMemory cfg(str);
51  * myCam.loadConfig(cfg,"CONFIG");
52  * myCam.initialize();
53  * CObservationPtr obs = myCam.getNextFrame();
54  * \endcode
55  *
56  * Images can be retrieved through the normal "doProcess()" interface, or the specific method "getNextFrame()".
57  *
58  * Some notes:
59  * - "grabber_type" determines the class to use internally for image capturing (see below).
60  * - For the meaning of cv_camera_type and other parameters, refer to mrpt::hwdrivers::CImageGrabber_OpenCV
61  * - For the parameters of dc1394 parameters, refer to generic IEEE1394 documentation, and to mrpt::hwdrivers::TCaptureOptions_dc1394.
62  * - If the high number of existing parameters annoy you, try the function prepareVideoSourceFromUserSelection(),
63  * which displays a GUI dialog to the user so he/she can choose the desired camera & its parameters.
64  *
65  * Images can be saved in the "external storage" mode. Detached threads are created for this task. See \a setPathForExternalImages() and \a setExternalImageFormat().
66  * These methods are called automatically from the app rawlog-grabber.
67  *
68  * These is the list of all accepted parameters:
69  *
70  * \code
71  * PARAMETERS IN THE ".INI"-LIKE CONFIGURATION STRINGS:
72  * -------------------------------------------------------
73  * [supplied_section_name]
74  * # Select one of the grabber implementations -----------------------
75  * grabber_type = opencv | dc1394 | bumblebee_dc1394 | ffmpeg | rawlog | swissranger | svs | kinect | flycap | flycap_stereo | image_dir | duo3d
76  *
77  * # Options for any grabber_type ------------------------------------
78  * preview_decimation = 0 // N<=0 (or not present): No preview; N>0, display 1 out of N captured frames.
79  * preview_reduction = 0 // 0 or 1 (or not present): The preview shows the actual image. For 2,3,..., reduces the size of the image by that factor, only for the preview window.
80  * capture_grayscale = 0 // 1:capture in grayscale, whenever the driver allows it. Default=0
81  * # For externaly stored images, the format of image files (default=jpg)
82  * #external_images_format = jpg
83  *
84  * # For externaly stored images: whether to spawn independent threads to save the image files.
85  * #external_images_own_thread = 1 // 0 or 1
86  *
87  * # If external_images_own_thread=1, this changes the number of threads to launch
88  * # to save image files. The default is determined from mrpt::system::getNumberOfProcessors()
89  * # and should be OK unless you want to save processor time for other things.
90  * #external_images_own_thread_count = 2 // >=1
91  *
92  * # (Only when external_images_format=jpg): Optional parameter to set the JPEG compression quality:
93  * #external_images_jpeg_quality = 95 // [1-100]. Default: 95
94  *
95  * # Pose of the sensor on the robot:
96  * pose_x=0 ; (meters)
97  * pose_y=0
98  * pose_z=0
99  * pose_yaw=0 ; (Angles in degrees)
100  * pose_pitch=0
101  * pose_roll=0
102  *
103  * # Options for grabber_type= opencv ------------------------------------
104  * cv_camera_index = 0 // [opencv] Number of camera to open
105  * cv_camera_type = CAMERA_CV_AUTODETECT
106  * cv_frame_width = 640 // [opencv] Capture width (not present or set to 0 for default)
107  * cv_frame_height = 480 // [opencv] Capture height (not present or set to 0 for default)
108  * cv_fps = 15 // [opencv] IEEE1394 cams only: Capture FPS (not present or 0 for default)
109  * cv_gain = 0 // [opencv] Camera gain, if available (nor present or set to 0 for default).
110  *
111  * # Options for grabber_type= dc1394 -------------------------------------
112  * dc1394_camera_guid = 0 | 0x11223344 // 0 (or not present): the first camera; A hexadecimal number: The GUID of the camera to open
113  * dc1394_camera_unit = 0 // 0 (or not present): the first camera; 0,1,2,...: The unit number (within the given GUID) of the camera to open (Stereo cameras: 0 or 1)
114  * dc1394_frame_width = 640
115  * dc1394_frame_height = 480
116  * dc1394_framerate = 15 // eg: 7.5, 15, 30, 60, etc... For posibilities see mrpt::hwdrivers::TCaptureOptions_dc1394
117  * dc1394_mode7 = -1 // -1: Ignore, i>=0, set to MODE7_i
118  * dc1394_color_coding = COLOR_CODING_YUV422 // For posibilities see mrpt::hwdrivers::TCaptureOptions_dc1394
119  * # Options for setting feature values: dc1394_<feature> = <n>
120  * # with <feature> = brightness | exposure | sharpness | white_balance | gamma | shutter | gain
121  * # <n> a value, or -1 (or not present) for not to change this feature value in the camera, possible values are shown in execution
122  * dc1394_shutter = -1
123  * # Options for setting feature modes: dc1394_<feature>_mode = <n>
124  * # with <feature> = brightness | exposure | sharpness | white_balance | gamma | shutter | gain
125  * # <n> = -1 (or not present) [not to change] | 0 [manual] | 1 [auto] | 2 [one_push_auto]
126  * dc1394_shutter_mode = -1
127  * # Options for setting trigger options:
128  * dc1394_trigger_power = -1 // -1 (or not present) for not to change | 0 [OFF] | 1 [ON]
129  * dc1394_trigger_mode = -1 // -1 (or not present) for not to change | 0..7 corresponding to possible modes 0,1,2,3,4,5,14,15
130  * dc1394_trigger_source= -1 // -1 (or not present) for not to change | 0..4 corresponding to possible sources 0,1,2,3,SOFTWARE
131  * dc1394_trigger_polarity = -1 // -1 (or not present) for not to change | 0 [ACTIVE_LOW] | 1 [ACTIVE_HIGH]
132  * dc1394_ring_buffer_size = 15 // Length of frames ring buffer (internal to libdc1394)
133  *
134  * # Options for grabber_type= bumblebee_dc1394 ----------------------------------
135  * bumblebee_dc1394_camera_guid = 0 | 0x11223344 // 0 (or not present): the first camera; A hexadecimal number: The GUID of the camera to open
136  * bumblebee_dc1394_camera_unit = 0 // 0 (or not present): the first camera; 0,1,2,...: The unit number (within the given GUID) of the camera to open (Stereo cameras: 0 or 1)
137  * bumblebee_dc1394_framerate = 15 // eg: 7.5, 15, 30, 60, etc... For posibilities see mrpt::hwdrivers::TCaptureOptions_dc1394
138  *
139  * # Options for grabber_type= ffmpeg -------------------------------------
140  * ffmpeg_url = rtsp://127.0.0.1 // [ffmpeg] The video file or IP camera to open
141  *
142  * # Options for grabber_type= rawlog -------------------------------------
143  * rawlog_file = mylog.rawlog // [rawlog] This can be used to simulate the capture of images already grabbed in the past in the form of a MRPT rawlog.
144  * rawlog_camera_sensor_label = CAMERA1 // [rawlog] If this field is not present, all images found in the rawlog will be retrieved. Otherwise, only those observations with a matching sensor label.
145  *
146  * # Options for grabber_type= svs -------------------------------------
147  * svs_camera_index = 0
148  * svs_frame_width = 800
149  * svs_frame_height = 600
150  * svs_framerate = 25.0
151  * svs_NDisp = ...
152  * svs_Corrsize = ...
153  * svs_LR = ...
154  * svs_Thresh = ...
155  * svs_Unique = ...
156  * svs_Horopter = ...
157  * svs_SpeckleSize = ...
158  * svs_procesOnChip = false
159  * svs_calDisparity = true
160  *
161  * # Options for grabber_type= swissranger -------------------------------------
162  * sr_use_usb = true // True: use USB, false: use ethernet
163  * sr_IP = 192.168.2.14 // If sr_use_usb=false, the camera IP
164  * sr_grab_grayscale = true // whether to save the intensity channel
165  * sr_grab_3d = true // whether to save the 3D points
166  * sr_grab_range = true // whether to save the range image
167  * sr_grab_confidence = true // whether to save the confidence image
168  *
169  * # Options for grabber_type= XBox kinect -------------------------------------
170  * kinect_grab_intensity = true // whether to save the intensity (RGB) channel
171  * kinect_grab_3d = true // whether to save the 3D points
172  * kinect_grab_range = true // whether to save the depth image
173  * #kinect_video_rgb = true // Optional. If set to "false", the IR intensity channel will be grabbed instead of the color RGB channel.
174  *
175  * # Options for grabber_type= flycap (Point Grey Research's FlyCapture 2 for Monocular and Stereo cameras, e.g. Bumblebee2) --------
176  * flycap_camera_index = 0
177  * #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "flycap_")
178  *
179  * # Options for grabber_type= flycap_stereo (Point Grey Research's FlyCapture 2, two cameras setup as a stereo pair) ------
180  * # fcs_start_synch_capture = false // *Important*: Only set to true if using Firewire cameras: the "startSyncCapture()" command is unsupported in USB3 and GigaE cameras.
181  *
182  * fcs_LEFT_camera_index = 0
183  * #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "fcs_LEFT_")
184  * fcs_RIGHT_camera_index = 0
185  * #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "fcs_RIGHT_")
186  *
187  * # Options for grabber_type= image_dir
188  * image_dir_url = // [string] URL of the directory
189  * left_filename_format = imL_%05d.jpg // [string] Format including prefix, number of trailing zeros, digits and image format (extension)
190  * right_filename_format = imR_%05d.jpg // [string] Format including prefix, number of trailing zeros, digits and image format (extension). Leave blank if only images from one camera will be used.
191  * start_index = 0 // [int] Starting index for images
192  * end_index = 100 // [int] End index for the images
193  *
194  * # Options for grabber_type= duo3d
195  * Create a section like this:
196  * [DUO3DOptions]
197  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
198  *
199  * image_width = 640 // [int] x Resolution
200  * image_height = 480 // [int] y Resolution
201  * fps = 30 // [int] Frames per second (<= 30)
202  * exposure = 50 // [int] Exposure value (1..100)
203  * led = 0 // [int] Led intensity (only for some device models) (1..100).
204  * gain = 50 // [int] Camera gain (1..100)
205  * capture_rectified = false // [bool] Rectify captured images
206  * capture_imu = true // [bool] Capture IMU data from DUO3D device (if available)
207  * calibration_from_file = true // [bool] Use YML calibration files provided by calibration application supplied with DUO3D device
208  * intrinsic_filename = "" // [string] Intrinsic parameters file. This filename should contain a substring _RWWWxHHH_ with WWW being the image width and HHH the image height, as provided by the calibration application.
209  * extrinsic_filename = "" // [string] Extrinsic parameters file. This filename should contain a substring _RWWWxHHH_ with WWW being the image width and HHH the image height, as provided by the calibration application.
210  * rectify_map_filename = "" // [string] Rectification map file. This filename should contain a substring _RWWWxHHH_ with WWW being the image width and HHH the image height, as provided by the calibration application.
211  *
212  * // if 'calibration_from_file' = false, three more sections containing the calibration must be provided:
213  * [DUO3D_LEFT]
214  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
215  * resolution = [640 480]
216  * cx = 320
217  * cy = 240
218  * fx = 700
219  * fy = 700
220  * dist = [0 0 0 0 0]
221  *
222  * [DUO3D_RIGHT]
223  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
224  * resolution = [640 480]
225  * cx = 320
226  * cy = 240
227  * fx = 700
228  * fy = 700
229  * dist = [0 0 0 0 0]
230  *
231  * [DUO3D_LEFT2RIGHT_POSE]
232  * rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!)
233  * pose_quaternion = [0.12 0 0 1 0 0 0]
234  *
235  * \endcode
236  *
237  * \note The execution rate, in rawlog-grabber or the user code calling doProcess(), should be greater than the required capture FPS.
238  * \note In Linux you may need to execute "chmod 666 /dev/video1394/ * " and "chmod 666 /dev/raw1394" for allowing any user R/W access to firewire cameras.
239  * \note [New in MRPT 1.4.0] The `bumblebee` driver has been deleted, use the `flycap` driver in stereo mode.
240  * \sa mrpt::hwdrivers::CImageGrabber_OpenCV, mrpt::hwdrivers::CImageGrabber_dc1394, CGenericSensor, prepareVideoSourceFromUserSelection()
241  * \ingroup mrpt_hwdrivers_grp
242  */
243  class HWDRIVERS_IMPEXP CCameraSensor : public mrpt::utils::COutputLogger, public CGenericSensor
244  {
246 
247  public:
248  /** Constructor. The camera is not open until "initialize" is called. */
249  CCameraSensor();
250 
251  /** Destructor */
252  virtual ~CCameraSensor();
253 
254  // See docs in parent class
255  void doProcess();
256 
257  /** Retrieves the next frame from the video source, raising an exception on any error.
258  * Note: The returned observations can be of one of these classes (you can use IS_CLASS(obs,CObservationXXX) to determine it):
259  * - mrpt::obs::CObservationImage (For normal cameras or video sources)
260  * - mrpt::obs::CObservationStereoImages (For stereo cameras)
261  * - mrpt::obs::CObservation3DRangeScan (For 3D cameras)
262  */
263  mrpt::obs::CObservationPtr getNextFrame( );
264  void getNextFrame( std::vector<mrpt::utils::CSerializablePtr> & out_obs );
265 
266  /** Tries to open the camera, after setting all the parameters with a call to loadConfig.
267  * \exception This method must throw an exception with a descriptive message if some critical error is found.
268  */
269  virtual void initialize();
270 
271  /** Close the camera (if open).
272  * This method is called automatically on destruction.
273  */
274  void close();
275 
276  /** Set Software trigger level value (ON or OFF) for cameras with this function available.
277  */
278  void setSoftwareTriggerLevel( bool level );
279 
280  /** Set the path where to save off-rawlog image files (this class DOES take into account this path).
281  * An empty string (the default value at construction) means to save images embedded in the rawlog, instead of on separate files.
282  * \exception std::exception If the directory doesn't exists and cannot be created.
283  */
284  virtual void setPathForExternalImages( const std::string &directory );
285 
286  /** This must be called before initialize() */
287  void enableLaunchOwnThreadForSavingImages(bool enable=true) { m_external_images_own_thread = enable; };
288 
289  /** Functor type */
290  typedef void (*TPreSaveUserHook)(const mrpt::obs::CObservationPtr &obs, void* user_ptr);
291 
292  /** Provides a "hook" for user-code to be run BEFORE an image is going to be saved to disk if external storage is enabled (e.g. to rectify images, preprocess them, etc.)
293  * Notice that this code may be called from detached threads, so it must be thread safe.
294  * If used, call this before initialize() */
295  void addPreSaveHook( TPreSaveUserHook user_function, void *user_ptr ) { m_hook_pre_save=user_function; m_hook_pre_save_param=user_ptr; };
296 
297  protected:
298  // Options for any grabber_type ------------------------------------
299  poses::CPose3D m_sensorPose;
300 
301  std::string m_grabber_type; //!< Can be "opencv",...
303 
304  // Options for grabber_type= opencv ------------------------------------
308 
309  // Options for grabber_type= dc1394 -------------------------------------
315 
316  // Options for grabber_type= bumblebee_dc1394 ----------------------------------
320 
321  // Options for grabber type= svs -----------------------------------------
324 
325  // Options for grabber_type= ffmpeg -------------------------------------
327 
328  // Options for grabber_type= rawlog -------------------------------------
332 
333  // Options for grabber_type= swissranger -------------------------------------
334  bool m_sr_open_from_usb; //!< true: USB, false: ETH
336  bool m_sr_save_3d; //!< Save the 3D point cloud (default: true)
337  bool m_sr_save_range_img; //!< Save the 2D range image (default: true)
338  bool m_sr_save_intensity_img; //!< Save the 2D intensity image (default: true)
339  bool m_sr_save_confidence; //!< Save the estimated confidence 2D image (default: false)
340 
341  // Options for grabber_type= XBox kinect -------------------------------------
342  bool m_kinect_save_3d; //!< Save the 3D point cloud (default: true)
343  bool m_kinect_save_range_img; //!< Save the 2D range image (default: true)
344  bool m_kinect_save_intensity_img; //!< Save the 2D intensity image (default: true)
345  bool m_kinect_video_rgb; //!< Save RGB or IR channels (default:true)
346 
347  // Options for grabber type= flycap -----------------------------------------
349 
350  // Options for grabber type= flycap_stereo -----------------------------------------
352  TCaptureOptions_FlyCapture2 m_flycap_stereo_options[2]; // [0]:left, [1]:right
353 
354  // Options for grabber type= image_dir
360 
363 
364  // Options for grabber type= duo3d
366 
367  // Other options:
368  bool m_external_images_own_thread; //!< Whether to launch independent thread
369 
370  /** See the class documentation at the top for expected parameters */
371  void loadConfig_sensorSpecific(
372  const mrpt::utils::CConfigFileBase &configSource,
373  const std::string &iniSection );
374 
375  private:
376  // Only one of these will be !=NULL at a time ===========
377  CImageGrabber_OpenCV * m_cap_cv; //!< The OpenCV capture object.
378  CImageGrabber_dc1394 * m_cap_dc1394; //!< The dc1394 capture object.
379  CImageGrabber_FlyCapture2 * m_cap_flycap; //!< The FlyCapture2 object
380  CImageGrabber_FlyCapture2 * m_cap_flycap_stereo_l, *m_cap_flycap_stereo_r; //!< The FlyCapture2 object for stereo pairs
382  CStereoGrabber_SVS * m_cap_svs; //!< The svs capture object.
383  CFFMPEG_InputStream * m_cap_ffmpeg; //!< The FFMPEG capture object
384  mrpt::utils::CFileGZInputStream * m_cap_rawlog; //!< The input file for rawlogs
385  CSwissRanger3DCamera * m_cap_swissranger; //!< SR 3D camera object.
386  CKinect * m_cap_kinect; //!< Kinect camera object.
387  COpenNI2Sensor * m_cap_openni2; //!< OpenNI2 object.
388  std::string * m_cap_image_dir; //!< Read images from directory
389  CDUO3DCamera * m_cap_duo3d; //!< The DUO3D capture object
390  // =========================
391 
394 
396  mrpt::gui::CDisplayWindowPtr m_preview_win1,m_preview_win2; //!< Normally we'll use only one window, but for stereo images we'll use two of them.
397 
398  /** @name Stuff related to working threads to save images to disk
399  @{ */
400  unsigned int m_external_image_saver_count; //!< Number of working threads. Default:1, set to 2 in quad cores.
401  std::vector<mrpt::system::TThreadHandle> m_threadImagesSaver;
402 
404  mrpt::synch::CCriticalSection m_csToSaveList; //!< The critical section for m_toSaveList
405  std::vector<TListObservations> m_toSaveList; //!< The queues of objects to be returned by getObservations, one for each working thread.
406  void thread_save_images(unsigned int my_working_thread_index); //!< Thread to save images to files.
407 
408  TPreSaveUserHook m_hook_pre_save;
410  /** @} */
411 
412  }; // end class
413 
415  {
416  std::shared_ptr<CCameraSensor> m_ptr;
417  inline CCameraSensorPtr() {}
418  explicit inline CCameraSensorPtr(CCameraSensor* data) : m_ptr(data) { }
419  virtual CCameraSensor * pointer() { return m_ptr.get(); }
420  virtual CCameraSensor * get() { return m_ptr.get(); }
421  virtual const CCameraSensor * pointer() const { return m_ptr.get(); }
422  virtual const CCameraSensor * get() const { return m_ptr.get(); }
423  virtual CCameraSensor* operator ->(void) { return m_ptr.get(); }
424  virtual const CCameraSensor* operator ->(void) const { return m_ptr.get(); }
425  virtual CCameraSensor& operator *(void) { ASSERT_(m_ptr); return *m_ptr.get(); }
426  virtual const CCameraSensor& operator *(void) const { ASSERT_(m_ptr); return *m_ptr.get(); }
427  void clear() { m_ptr.reset(); }
428  bool operator !() const { return !m_ptr.operator bool(); }
429  operator bool() const { return m_ptr.operator bool(); }
430  bool present() const { return m_ptr.get()!=NULL; }
431  void set(CCameraSensor* p) { m_ptr.reset(p); }
432  void reset(CCameraSensor* p) { m_ptr.reset(p); }
433  void clear_unique() { m_ptr.reset(); }
434  };
435 
436 
437 
438  /** Used only from MRPT apps: Use with caution since "panel" MUST be a "mrpt::gui::CPanelCameraSelection *"
439  */
440  CCameraSensorPtr HWDRIVERS_IMPEXP prepareVideoSourceFromPanel(void *panel);
441 
442  /** Parse the user options in the wxWidgets "panel" and write the configuration into the given section of the given configuration file.
443  * Use with caution since "panel" MUST be a "mrpt::gui::CPanelCameraSelection *"
444  * \sa prepareVideoSourceFromUserSelection, prepareVideoSourceFromPanel, readConfigIntoVideoSourcePanel
445  */
447  void *panel,
448  const std::string &in_cfgfile_section_name,
449  mrpt::utils::CConfigFileBase *out_cfgfile
450  );
451 
452  /** Parse the given section of the given configuration file and set accordingly the controls of the wxWidgets "panel".
453  * Use with caution since "panel" MUST be a "mrpt::gui::CPanelCameraSelection *"
454  * \sa prepareVideoSourceFromUserSelection, prepareVideoSourceFromPanel, writeConfigFromVideoSourcePanel
455  */
457  void *panel,
458  const std::string &in_cfgfile_section_name,
459  const mrpt::utils::CConfigFileBase *in_cfgfile
460  );
461 
462  /** Show to the user a list of possible camera drivers and creates and open the selected camera.
463  */
465 
466 
467  } // end namespace
468 } // end namespace
469 
470 #endif
A generic interface for a wide-variety of sensors designed to be used in the application RawLogGrabbe...
bool m_sr_save_range_img
Save the 2D range image (default: true)
std::vector< TListObservations > m_toSaveList
The queues of objects to be returned by getObservations, one for each working thread.
This class provides simple critical sections functionality.
Options used when creating an dc1394 capture object All but the frame size, framerate, and color_coding can be changed dynamically by CImageGrabber_dc1394::changeCaptureOptions.
A class for grabing stereo images from a STOC camera of Videre Design NOTE:
COpenNI2Sensor * m_cap_openni2
OpenNI2 object.
CStereoGrabber_Bumblebee_libdc1394 * m_cap_bumblebee_dc1394
This "software driver" implements the communication protocol for interfacing a DUO3D Stereo Camera...
Definition: CDUO3DCamera.h:125
A wrapper for Point Gray Research (PGR) FlyCapture2 API for capturing images from Firewire...
TCaptureCVOptions m_cv_options
bool m_sr_save_3d
Save the 3D point cloud (default: true)
A class for grabing "range images" from a MESA imaging SwissRanger 3D cameras (SR-2, SR-3000, SR-4k).
A generic class which process a video file or other kind of input stream (http, rtsp) and allows the ...
bool m_external_images_own_thread
Whether to launch independent thread.
std::shared_ptr< CCameraSensor > m_ptr
TCaptureOptions_FlyCapture2 m_flycap_options
A class for grabing "range images", intensity images (either RGB or IR) and other information from an...
bool m_kinect_save_3d
Save the 3D point cloud (default: true)
virtual CCameraSensor * pointer()
This class allows loading and storing values and vectors of different types from a configuration text...
CCameraSensorPtr HWDRIVERS_IMPEXP prepareVideoSourceFromPanel(void *panel)
Used only from MRPT apps: Use with caution since "panel" MUST be a "mrpt::gui::CPanelCameraSelection ...
bool m_sr_save_intensity_img
Save the 2D intensity image (default: true)
bool m_kinect_save_intensity_img
Save the 2D intensity image (default: true)
CCameraSensorPtr(CCameraSensor *data)
mrpt::utils::CFileGZInputStream * m_cap_rawlog
The input file for rawlogs.
CImageGrabber_OpenCV * m_cap_cv
The OpenCV capture object.
A class for grabing "range images", intensity images (either RGB or IR) and other information from an...
Definition: CKinect.h:207
The central class for camera grabbers in MRPT, implementing the "generic sensor" interface.
CSwissRanger3DCamera * m_cap_swissranger
SR 3D camera object.
CStereoGrabber_SVS * m_cap_svs
The svs capture object.
A class for grabing images from a IEEE1394 (Firewire) camera using the libdc1394-2 library...
Grabs from a "Bumblebee" or "Bumblebee2" stereo camera using raw access to the libdc1394 library...
Transparently opens a compressed "gz" file and reads uncompressed data from it.
std::vector< mrpt::system::TThreadHandle > m_threadImagesSaver
Options used when creating a camera capture object of type CImageGrabber_FlyCapture2.
CKinect * m_cap_kinect
Kinect camera object.
CDUO3DCamera * m_cap_duo3d
The DUO3D capture object.
Options used when creating a camera capture object of type CImageGrabber_FlyCapture2.
Definition: CDUO3DCamera.h:25
GLsizei const GLchar ** string
Definition: glext.h:3919
bool m_sr_open_from_usb
true: USB, false: ETH
CImageGrabber_FlyCapture2 * m_cap_flycap_stereo_r
The FlyCapture2 object for stereo pairs.
TPreSaveUserHook m_hook_pre_save
std::string m_grabber_type
Can be "opencv",...
void HWDRIVERS_IMPEXP readConfigIntoVideoSourcePanel(void *panel, const std::string &in_cfgfile_section_name, const mrpt::utils::CConfigFileBase *in_cfgfile)
Parse the given section of the given configuration file and set accordingly the controls of the wxWid...
#define DEFINE_GENERIC_SENSOR(class_name)
This declaration must be inserted in all CGenericSensor classes definition, within the class declarat...
unsigned __int64 uint64_t
Definition: rptypes.h:52
TCaptureOptions_dc1394 m_dc1394_options
This is the global namespace for all Mobile Robot Programming Toolkit (MRPT) libraries.
Options used when creating a STOC Videre Design camera capture object.
CCameraSensorPtr HWDRIVERS_IMPEXP prepareVideoSourceFromUserSelection()
Show to the user a list of possible camera drivers and creates and open the selected camera...
A class used to store a 3D pose (a 3D translation + a rotation in 3D).
Definition: CPose3D.h:72
void reset(CCameraSensor *p)
bool m_kinect_save_range_img
Save the 2D range image (default: true)
Eigen::MatrixBase< Derived >::PlainObject operator!(const Eigen::MatrixBase< Derived > &m)
Unary inversion operator.
Definition: ops_matrices.h:38
bool m_kinect_video_rgb
Save RGB or IR channels (default:true)
A class for grabing images from a "OpenCV"-compatible camera, or from an AVI video file...
GLint level
Definition: glext.h:3545
#define ASSERT_(f)
TCaptureOptions_DUO3D m_duo3d_options
typedef void(APIENTRYP PFNGLBLENDCOLORPROC)(GLclampf red
virtual const CCameraSensor * pointer() const
mrpt::synch::CCriticalSection m_csToSaveList
The critical section for m_toSaveList.
CImageGrabber_dc1394 * m_cap_dc1394
The dc1394 capture object.
CImageGrabber_FlyCapture2 * m_cap_flycap
The FlyCapture2 object.
void HWDRIVERS_IMPEXP writeConfigFromVideoSourcePanel(void *panel, const std::string &in_cfgfile_section_name, mrpt::utils::CConfigFileBase *out_cfgfile)
Parse the user options in the wxWidgets "panel" and write the configuration into the given section of...
Options used when creating an OpenCV capture object Some options apply to IEEE1394 cameras only...
unsigned int m_external_image_saver_count
Number of working threads. Default:1, set to 2 in quad cores.
CFFMPEG_InputStream * m_cap_ffmpeg
The FFMPEG capture object.
mrpt::gui::CDisplayWindowPtr m_preview_win2
Normally we&#39;ll use only one window, but for stereo images we&#39;ll use two of them.
GLsizei GLsizei GLenum GLenum const GLvoid * data
Definition: glext.h:3520
GLfloat GLfloat p
Definition: glext.h:5587
std::string * m_cap_image_dir
Read images from directory.
TCaptureOptions_SVS m_svs_options
bool m_sr_save_confidence
Save the estimated confidence 2D image (default: false)
std::vector< T1 > operator*(const std::vector< T1 > &a, const std::vector< T2 > &b)
a*b (element-wise multiplication)
Definition: ops_vectors.h:59
void enableLaunchOwnThreadForSavingImages(bool enable=true)
This must be called before initialize()



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