class mrpt::hwdrivers::CCameraSensor¶
The central class for camera grabbers in MRPT, implementing the “generic sensor” interface.
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,…)
Following the “generic sensor” interface, all the parameters must be passed int the form of a configuration file, which may be also formed on the fly (without being a real config file) as in this example:
CCameraSensor myCam; const string str = "[CONFIG]\n" "grabber_type=opencv\n"; CConfigFileMemory cfg(str); myCam.loadConfig(cfg,"CONFIG"); myCam.initialize(); CObservation::Ptr obs = myCam.getNextFrame();
Images can be retrieved through the normal “doProcess()” interface, or the specific method “getNextFrame()”.
Some notes:
“grabber_type” determines the class to use internally for image capturing (see below).
For the meaning of cv_camera_type and other parameters, refer to mrpt::hwdrivers::CImageGrabber_OpenCV
For the parameters of dc1394 parameters, refer to generic IEEE1394 documentation, and to mrpt::hwdrivers::TCaptureOptions_dc1394.
If the high number of existing parameters annoy you, try the function prepareVideoSourceFromUserSelection(), which displays a GUI dialog to the user so he/she can choose the desired camera & its parameters.
Images can be saved in the “external storage” mode. Detached threads are created for this task. See setPathForExternalImages() and setExternalImageFormat(). These methods are called automatically from the app rawlog-grabber.
These is the list of all accepted parameters:
PARAMETERS IN THE ".INI"-LIKE CONFIGURATION STRINGS: ------------------------------------------------------- [supplied_section_name] # Select one of the grabber implementations ----------------------- grabber_type = opencv | dc1394 | bumblebee_dc1394 | ffmpeg | rawlog | swissranger | svs | kinect | flycap | flycap_stereo | image_dir | duo3d | myntd # Options for any grabber_type ------------------------------------ preview_decimation = 0 // N<=0 (or not present): No preview; N>0, display 1 out of N captured frames. 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. capture_grayscale = 0 // 1:capture in grayscale, whenever the driver allows it. Default=0 # For externaly stored images, the format of image files (default=jpg) #external_images_format = jpg # For externaly stored images: whether to spawn independent threads to save the image files. #external_images_own_thread = 1 // 0 or 1 # If external_images_own_thread=1, this changes the number of threads to launch # to save image files. The default is determined from mrpt::system::getNumberOfProcessors() # and should be OK unless you want to save processor time for other things. #external_images_own_thread_count = 2 // >=1 # (Only when external_images_format=jpg): Optional parameter to set the JPEG compression quality: #external_images_jpeg_quality = 95 // [1-100]. Default: 95 # Pose of the sensor on the robot: pose_x=0 ; (meters) pose_y=0 pose_z=0 pose_yaw=0 ; (Angles in degrees) pose_pitch=0 pose_roll=0 # Options for grabber_type= opencv ------------------------------------ cv_camera_index = 0 // [opencv] Number of camera to open cv_camera_type = CAMERA_CV_AUTODETECT cv_frame_width = 640 // [opencv] Capture width (not present or set to 0 for default) cv_frame_height = 480 // [opencv] Capture height (not present or set to 0 for default) cv_fps = 15 // [opencv] IEEE1394 cams only: Capture FPS (not present or 0 for default) cv_gain = 0 // [opencv] Camera gain, if available (nor present or set to 0 for default). # Options for grabber_type= dc1394 ------------------------------------- dc1394_camera_guid = 0 | 0x11223344 // 0 (or not present): the first camera; A hexadecimal number: The GUID of the camera to open 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) dc1394_frame_width = 640 dc1394_frame_height = 480 dc1394_framerate = 15 // eg: 7.5, 15, 30, 60, etc... For possibilities see mrpt::hwdrivers::TCaptureOptions_dc1394 dc1394_mode7 = -1 // -1: Ignore, i>=0, set to MODE7_i dc1394_color_coding = COLOR_CODING_YUV422 // For possibilities see mrpt::hwdrivers::TCaptureOptions_dc1394 # Options for setting feature values: dc1394_<feature> = <n> # with <feature> = brightness | exposure | sharpness | white_balance | gamma | shutter | gain # <n> a value, or -1 (or not present) for not to change this feature value in the camera, possible values are shown in execution dc1394_shutter = -1 # Options for setting feature modes: dc1394_<feature>_mode = <n> # with <feature> = brightness | exposure | sharpness | white_balance | gamma | shutter | gain # <n> = -1 (or not present) [not to change] | 0 [manual] | 1 [auto] | 2 [one_push_auto] dc1394_shutter_mode = -1 # Options for setting trigger options: dc1394_trigger_power = -1 // -1 (or not present) for not to change | 0 [OFF] | 1 [ON] 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 dc1394_trigger_source= -1 // -1 (or not present) for not to change | 0..4 corresponding to possible sources 0,1,2,3,SOFTWARE dc1394_trigger_polarity = -1 // -1 (or not present) for not to change | 0 [ACTIVE_LOW] | 1 [ACTIVE_HIGH] dc1394_ring_buffer_size = 15 // Length of frames ring buffer (internal to libdc1394) # Options for grabber_type= bumblebee_dc1394 ---------------------------------- bumblebee_dc1394_camera_guid = 0 | 0x11223344 // 0 (or not present): the first camera; A hexadecimal number: The GUID of the camera to open 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) bumblebee_dc1394_framerate = 15 // eg: 7.5, 15, 30, 60, etc... For possibilities see mrpt::hwdrivers::TCaptureOptions_dc1394 # Options for grabber_type= ffmpeg ------------------------------------- ffmpeg_url = rtsp://127.0.0.1 // [ffmpeg] The video file or IP camera to open # Options for grabber_type= rawlog ------------------------------------- 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. 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. # Options for grabber_type= svs ------------------------------------- svs_camera_index = 0 svs_frame_width = 800 svs_frame_height = 600 svs_framerate = 25.0 svs_NDisp = ... svs_Corrsize = ... svs_LR = ... svs_Thresh = ... svs_Unique = ... svs_Horopter = ... svs_SpeckleSize = ... svs_procesOnChip = false svs_calDisparity = true # Options for grabber_type= swissranger ------------------------------------- sr_use_usb = true // True: use USB, false: use ethernet sr_IP = 192.168.2.14 // If sr_use_usb=false, the camera IP sr_grab_grayscale = true // whether to save the intensity channel sr_grab_3d = true // whether to save the 3D points sr_grab_range = true // whether to save the range image sr_grab_confidence = true // whether to save the confidence image # Options for grabber_type= XBox kinect ------------------------------------- kinect_grab_intensity = true // whether to save the intensity (RGB) channel kinect_grab_3d = true // whether to save the 3D points kinect_grab_range = true // whether to save the depth image #kinect_video_rgb = true // Optional. If set to "false", the IR intensity channel will be grabbed instead of the color RGB channel. # Options for grabber_type= flycap (Point Grey Research's FlyCapture 2 for Monocular and Stereo cameras, e.g. Bumblebee2) -------- flycap_camera_index = 0 #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "flycap_") # Options for grabber_type= flycap_stereo (Point Grey Research's FlyCapture 2, two cameras setup as a stereo pair) ------ # fcs_start_synch_capture = false // *Important*: Only set to true if using Firewire cameras: the "startSyncCapture()" command is unsupported in USB3 and GigaE cameras. fcs_LEFT_camera_index = 0 #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "fcs_LEFT_") fcs_RIGHT_camera_index = 0 #... (all the parameters enumerated in mrpt::hwdrivers::TCaptureOptions_FlyCapture2 with the prefix "fcs_RIGHT_") # Options for grabber_type= image_dir image_dir_url = // [string] URL of the directory left_filename_format = imL_%05d.jpg // [string] Format including prefix, number of trailing zeros, digits and image format (extension) 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. start_index = 0 // [int] Starting index for images end_index = 100 // [int] End index for the images # Options for grabber_type= myntd ------------------------------------ myntd_xxx = # Options for grabber_type= duo3d Create a section like this: [DUO3DOptions] rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!) image_width = 640 // [int] x Resolution image_height = 480 // [int] y Resolution fps = 30 // [int] Frames per second (<= 30) exposure = 50 // [int] Exposure value (1..100) led = 0 // [int] Led intensity (only for some device models) (1..100). gain = 50 // [int] Camera gain (1..100) capture_rectified = false // [bool] Rectify captured images capture_imu = true // [bool] Capture IMU data from DUO3D device (if available) calibration_from_file = true // [bool] Use YML calibration files provided by calibration application supplied with DUO3D device 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. 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. 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. // if 'calibration_from_file' = false, three more sections containing the calibration must be provided: [DUO3D_LEFT] rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!) resolution = [640 480] cx = 320 cy = 240 fx = 700 fy = 700 dist = [0 0 0 0 0] [DUO3D_RIGHT] rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!) resolution = [640 480] cx = 320 cy = 240 fx = 700 fy = 700 dist = [0 0 0 0 0] [DUO3D_LEFT2RIGHT_POSE] rawlog-grabber-ignore = true // Instructs rawlog-grabber to ignore this section (it is not a separate device!) pose_quaternion = [0.12 0 0 1 0 0 0]
The execution rate, in rawlog-grabber or the user code calling doProcess(), should be greater than the required capture FPS.
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.
[New in MRPT 1.4.0] The bumblebee
driver has been deleted, use the flycap
driver in stereo mode.
See also:
mrpt::hwdrivers::CImageGrabber_OpenCV, mrpt::hwdrivers::CImageGrabber_dc1394, CGenericSensor, prepareVideoSourceFromUserSelection()
#include <mrpt/hwdrivers/CCameraSensor.h> class CCameraSensor: public mrpt::system::COutputLogger, public mrpt::hwdrivers::CGenericSensor { public: // typedefs typedef std::shared_ptr<CCameraSensor> Ptr; typedef std::function<void(const mrpt::obs::CObservation::Ptr&obs, void*user_ptr)> TPreSaveUserHook; // methods virtual void doProcess(); mrpt::obs::CObservation::Ptr getNextFrame(); void getNextFrame(std::vector<mrpt::serialization::CSerializable::Ptr>& out_obs); virtual void initialize(); void close(); void setSoftwareTriggerLevel(bool level); void setPathForExternalImages(const std::string& directory); void enableLaunchOwnThreadForSavingImages(bool enable = true); void addPreSaveHook(TPreSaveUserHook user_function, void* user_ptr); };
Inherited Members¶
public: // structs struct TMsg; // methods CGenericSensor& operator = (const CGenericSensor&); virtual void doProcess() = 0;
Typedefs¶
typedef std::function<void(const mrpt::obs::CObservation::Ptr&obs, void*user_ptr)> TPreSaveUserHook
Functor type.
Methods¶
virtual void doProcess()
This method will be invoked at a minimum rate of “process_rate” (Hz)
Parameters:
This |
method must throw an exception with a descriptive message if some critical error is found. |
mrpt::obs::CObservation::Ptr getNextFrame()
Retrieves the next frame from the video source, raising an exception on any error.
Note: The returned observations can be of one of these classes (you can use IS_CLASS(obs,CObservationXXX) to determine it):
mrpt::obs::CObservationImage (For normal cameras or video sources)
mrpt::obs::CObservationStereoImages (For stereo cameras)
mrpt::obs::CObservation3DRangeScan (For 3D cameras)
virtual void initialize()
Tries to open the camera, after setting all the parameters with a call to loadConfig.
Parameters:
This |
method must throw an exception with a descriptive message if some critical error is found. |
void close()
Close the camera (if open).
This method is called automatically on destruction.
void setSoftwareTriggerLevel(bool level)
Set Software trigger level value (ON or OFF) for cameras with this function available.
void setPathForExternalImages(const std::string& directory)
Set the path where to save off-rawlog image files (this class DOES take into account this path).
An empty string (the default value at construction) means to save images embedded in the rawlog, instead of on separate files.
Parameters:
std::exception |
If the directory doesn’t exists and cannot be created. |
void enableLaunchOwnThreadForSavingImages(bool enable = true)
This must be called before initialize()
void addPreSaveHook(TPreSaveUserHook user_function, void* user_ptr)
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.) Notice that this code may be called from detached threads, so it must be thread safe. If used, call this before initialize()