Visual Servoing Platform  version 3.5.0 under development (2022-02-15)
vpDisplay Class Referenceabstract

#include <visp3/core/vpDisplay.h>

+ Inheritance diagram for vpDisplay:

Public Types

enum  vpScaleType {
  SCALE_AUTO, SCALE_1, SCALE_2, SCALE_3,
  SCALE_4, SCALE_5, SCALE_6, SCALE_7,
  SCALE_8, SCALE_9, SCALE_10, SCALE_DEFAULT
}
 

Public Member Functions

 vpDisplay ()
 
 vpDisplay (const vpDisplay &d)
 
virtual ~vpDisplay ()
 
Inherited functionalities from vpDisplay
unsigned int computeAutoScale (unsigned int width, unsigned int height)
 
unsigned int getDownScalingFactor ()
 
unsigned int getHeight () const
 
unsigned int getWidth () const
 
int getWindowXPosition () const
 
int getWindowYPosition () const
 
bool isInitialised ()
 
virtual void setDownScalingFactor (unsigned int scale)
 
virtual void setDownScalingFactor (vpScaleType scaleType)
 

Static Public Member Functions

Static public vpDisplay functionalities on gray level images.
static void close (vpImage< unsigned char > &I)
 
static void display (const vpImage< unsigned char > &I)
 
static void displayArrow (const vpImage< unsigned char > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color=vpColor::white, unsigned int w=4, unsigned int h=2, unsigned int thickness=1)
 
static void displayArrow (const vpImage< unsigned char > &I, int i1, int j1, int i2, int j2, const vpColor &color=vpColor::white, unsigned int w=4, unsigned int h=2, unsigned int thickness=1)
 
static void displayCamera (const vpImage< unsigned char > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, double size, const vpColor &color, unsigned int thickness)
 
static void displayCharString (const vpImage< unsigned char > &I, const vpImagePoint &ip, const char *string, const vpColor &color)
 
static void displayCharString (const vpImage< unsigned char > &I, int i, int j, const char *string, const vpColor &color)
 
static void displayCircle (const vpImage< unsigned char > &I, const vpImagePoint &center, unsigned int radius, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayCircle (const vpImage< unsigned char > &I, int i, int j, unsigned int radius, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayCross (const vpImage< unsigned char > &I, const vpImagePoint &ip, unsigned int size, const vpColor &color, unsigned int thickness=1)
 
static void displayCross (const vpImage< unsigned char > &I, int i, int j, unsigned int size, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< unsigned char > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< unsigned char > &I, int i1, int j1, int i2, int j2, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< unsigned char > &I, const std::vector< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< unsigned char > &I, const std::list< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayEllipse (const vpImage< unsigned char > &I, const vpImagePoint &center, const double &coef1, const double &coef2, const double &coef3, bool use_normalized_centered_moments, const vpColor &color, unsigned int thickness=1, bool display_center=false, bool display_arc=false)
 
static void displayEllipse (const vpImage< unsigned char > &I, const vpImagePoint &center, const double &coef1, const double &coef2, const double &coef3, const double &smallalpha, const double &highalpha, bool use_normalized_centered_moments, const vpColor &color, unsigned int thickness=1, bool display_center=false, bool display_arc=false)
 
static void displayFrame (const vpImage< unsigned char > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, double size, const vpColor &color=vpColor::none, unsigned int thickness=1, const vpImagePoint &offset=vpImagePoint(0, 0))
 
static void displayLine (const vpImage< unsigned char > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color, unsigned int thickness=1, bool segment=true)
 
static void displayLine (const vpImage< unsigned char > &I, int i1, int j1, int i2, int j2, const vpColor &color, unsigned int thickness=1, bool segment=true)
 
static void displayLine (const vpImage< unsigned char > &I, const std::vector< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayLine (const vpImage< unsigned char > &I, const std::list< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayPoint (const vpImage< unsigned char > &I, const vpImagePoint &ip, const vpColor &color, unsigned int thickness=1)
 
static void displayPoint (const vpImage< unsigned char > &I, int i, int j, const vpColor &color, unsigned int thickness=1)
 
static void displayPolygon (const vpImage< unsigned char > &I, const std::vector< vpImagePoint > &vip, const vpColor &color, unsigned int thickness=1, bool closed=true)
 
static void displayRectangle (const vpImage< unsigned char > &I, const vpImagePoint &topLeft, unsigned int width, unsigned int height, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< unsigned char > &I, const vpImagePoint &topLeft, const vpImagePoint &bottomRight, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< unsigned char > &I, const vpRect &rectangle, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< unsigned char > &I, const vpImagePoint &center, float angle, unsigned int width, unsigned int height, const vpColor &color, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< unsigned char > &I, int i, int j, unsigned int width, unsigned int height, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< unsigned char > &I, unsigned int i, unsigned int j, float angle, unsigned int width, unsigned int height, const vpColor &color, unsigned int thickness=1)
 
static void displayROI (const vpImage< unsigned char > &I, const vpRect &roi)
 
static void displayText (const vpImage< unsigned char > &I, const vpImagePoint &ip, const std::string &s, const vpColor &color)
 
static void displayText (const vpImage< unsigned char > &I, int i, int j, const std::string &s, const vpColor &color)
 
static void flush (const vpImage< unsigned char > &I)
 
static void flushROI (const vpImage< unsigned char > &I, const vpRect &roi)
 
static bool getClick (const vpImage< unsigned char > &I, bool blocking=true)
 
static bool getClick (const vpImage< unsigned char > &I, vpImagePoint &ip, bool blocking=true)
 
static bool getClick (const vpImage< unsigned char > &I, vpImagePoint &ip, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClick (const vpImage< unsigned char > &I, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClickUp (const vpImage< unsigned char > &I, vpImagePoint &ip, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClickUp (const vpImage< unsigned char > &I, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static unsigned int getDownScalingFactor (const vpImage< unsigned char > &I)
 
static void getImage (const vpImage< unsigned char > &Is, vpImage< vpRGBa > &Id)
 
static bool getKeyboardEvent (const vpImage< unsigned char > &I, bool blocking=true)
 
static bool getKeyboardEvent (const vpImage< unsigned char > &I, std::string &key, bool blocking=true)
 
static bool getKeyboardEvent (const vpImage< unsigned char > &I, char *key, bool blocking=true)
 
static bool getPointerMotionEvent (const vpImage< unsigned char > &I, vpImagePoint &ip)
 
static bool getPointerPosition (const vpImage< unsigned char > &I, vpImagePoint &ip)
 
static void setBackground (const vpImage< unsigned char > &I, const vpColor &color)
 
static void setFont (const vpImage< unsigned char > &I, const std::string &font)
 
static void setTitle (const vpImage< unsigned char > &I, const std::string &windowtitle)
 
static void setWindowPosition (const vpImage< unsigned char > &I, int winx, int winy)
 
Static public vpDisplay functionalities on 32 bits color images.
static void close (vpImage< vpRGBa > &I)
 
static void display (const vpImage< vpRGBa > &I)
 
static void displayArrow (const vpImage< vpRGBa > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color=vpColor::white, unsigned int w=4, unsigned int h=2, unsigned int thickness=1)
 
static void displayArrow (const vpImage< vpRGBa > &I, int i1, int j1, int i2, int j2, const vpColor &color=vpColor::white, unsigned int w=4, unsigned int h=2, unsigned int thickness=1)
 
static void displayCamera (const vpImage< vpRGBa > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, double size, const vpColor &color, unsigned int thickness)
 
static void displayCharString (const vpImage< vpRGBa > &I, const vpImagePoint &ip, const char *string, const vpColor &color)
 
static void displayCharString (const vpImage< vpRGBa > &I, int i, int j, const char *string, const vpColor &color)
 
static void displayCircle (const vpImage< vpRGBa > &I, const vpImagePoint &center, unsigned int radius, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayCircle (const vpImage< vpRGBa > &I, int i, int j, unsigned int radius, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayCross (const vpImage< vpRGBa > &I, const vpImagePoint &ip, unsigned int size, const vpColor &color, unsigned int thickness=1)
 
static void displayCross (const vpImage< vpRGBa > &I, int i, int j, unsigned int size, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< vpRGBa > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< vpRGBa > &I, int i1, int j1, int i2, int j2, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< vpRGBa > &I, const std::vector< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayDotLine (const vpImage< vpRGBa > &I, const std::list< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayEllipse (const vpImage< vpRGBa > &I, const vpImagePoint &center, const double &coef1, const double &coef2, const double &coef3, bool use_centered_moments, const vpColor &color, unsigned int thickness=1, bool display_center=false, bool display_arc=false)
 
static void displayEllipse (const vpImage< vpRGBa > &I, const vpImagePoint &center, const double &coef1, const double &coef2, const double &coef3, const double &theta1, const double &theta2, bool use_centered_moments, const vpColor &color, unsigned int thickness=1, bool display_center=false, bool display_arc=false)
 
static void displayFrame (const vpImage< vpRGBa > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, double size, const vpColor &color=vpColor::none, unsigned int thickness=1, const vpImagePoint &offset=vpImagePoint(0, 0))
 
static void displayLine (const vpImage< vpRGBa > &I, const vpImagePoint &ip1, const vpImagePoint &ip2, const vpColor &color, unsigned int thickness=1, bool segment=true)
 
static void displayLine (const vpImage< vpRGBa > &I, int i1, int j1, int i2, int j2, const vpColor &color, unsigned int thickness=1, bool segment=true)
 
static void displayLine (const vpImage< vpRGBa > &I, const std::vector< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayLine (const vpImage< vpRGBa > &I, const std::list< vpImagePoint > &ips, bool closeTheShape, const vpColor &color, unsigned int thickness=1)
 
static void displayPoint (const vpImage< vpRGBa > &I, const vpImagePoint &ip, const vpColor &color, unsigned int thickness=1)
 
static void displayPoint (const vpImage< vpRGBa > &I, int i, int j, const vpColor &color, unsigned int thickness=1)
 
static void displayPolygon (const vpImage< vpRGBa > &I, const std::vector< vpImagePoint > &vip, const vpColor &color, unsigned int thickness=1, bool closed=true)
 
static void displayRectangle (const vpImage< vpRGBa > &I, const vpImagePoint &topLeft, unsigned int width, unsigned int height, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< vpRGBa > &I, const vpImagePoint &topLeft, const vpImagePoint &bottomRight, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< vpRGBa > &I, const vpRect &rectangle, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< vpRGBa > &I, const vpImagePoint &center, float angle, unsigned int width, unsigned int height, const vpColor &color, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< vpRGBa > &I, int i, int j, unsigned int width, unsigned int height, const vpColor &color, bool fill=false, unsigned int thickness=1)
 
static void displayRectangle (const vpImage< vpRGBa > &I, unsigned int i, unsigned int j, float angle, unsigned int width, unsigned int height, const vpColor &color, unsigned int thickness=1)
 
static void displayROI (const vpImage< vpRGBa > &I, const vpRect &roi)
 
static void displayText (const vpImage< vpRGBa > &I, const vpImagePoint &ip, const std::string &s, const vpColor &color)
 
static void displayText (const vpImage< vpRGBa > &I, int i, int j, const std::string &s, const vpColor &color)
 
static void flush (const vpImage< vpRGBa > &I)
 
static void flushROI (const vpImage< vpRGBa > &I, const vpRect &roi)
 
static bool getClick (const vpImage< vpRGBa > &I, bool blocking=true)
 
static bool getClick (const vpImage< vpRGBa > &I, vpImagePoint &ip, bool blocking=true)
 
static bool getClick (const vpImage< vpRGBa > &I, vpImagePoint &ip, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClick (const vpImage< vpRGBa > &I, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClickUp (const vpImage< vpRGBa > &I, vpImagePoint &ip, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static bool getClickUp (const vpImage< vpRGBa > &I, vpMouseButton::vpMouseButtonType &button, bool blocking=true)
 
static unsigned int getDownScalingFactor (const vpImage< vpRGBa > &I)
 
static void getImage (const vpImage< vpRGBa > &Is, vpImage< vpRGBa > &Id)
 
static bool getKeyboardEvent (const vpImage< vpRGBa > &I, bool blocking=true)
 
static bool getKeyboardEvent (const vpImage< vpRGBa > &I, std::string &key, bool blocking=true)
 
static bool getKeyboardEvent (const vpImage< vpRGBa > &I, char *key, bool blocking=true)
 
static bool getPointerMotionEvent (const vpImage< vpRGBa > &I, vpImagePoint &ip)
 
static bool getPointerPosition (const vpImage< vpRGBa > &I, vpImagePoint &ip)
 
static void setBackground (const vpImage< vpRGBa > &I, const vpColor &color)
 
static void setFont (const vpImage< vpRGBa > &I, const std::string &font)
 
static void setTitle (const vpImage< vpRGBa > &I, const std::string &windowtitle)
 
static void setWindowPosition (const vpImage< vpRGBa > &I, int winx, int winy)
 

Protected Member Functions

void setScale (vpScaleType scaleType, unsigned int width, unsigned int height)
 

Protected Attributes

bool m_displayHasBeenInitialized
 
int m_windowXPosition
 
int m_windowYPosition
 
unsigned int m_width
 
unsigned int m_height
 
std::string m_title
 
unsigned int m_scale
 
vpScaleType m_scaleType
 

Detailed Description

Class that defines generic functionnalities for display.

The Tutorial: How to create and build a project that uses ViSP and CMake on Unix or Windows is a good starting point to know how to use this class to display an image in a window.

Warning
Since ViSP 3.3.1 or higher we introduce the alpha channel support for color transparency. This new feature is only supported yet using vpDisplayOpenCV. See vpColor header documentation and displayOpenCV.cpp example for usage when displaying filled transparent circles and rectangles.

The example below shows how to use this class.

#include <visp3/core/vpConfig.h>
#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/io/vpImageIo.h>
int main()
{
vpImage<unsigned char> I; // Grey level image
// Read an image in PGM P5 format
#ifdef _WIN32
vpImageIo::read(I, "C:/temp/ViSP-images/Klimt/Klimt.pgm");
#else
vpImageIo::read(I, "/local/soft/ViSP/ViSP-images/Klimt/Klimt.pgm");
#endif
// Depending on the detected third party libraries, we instantiate here the
// first video device which is available
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Specify the window location
// Set the display window title
vpDisplay::setTitle(I, "My image");
// To initialize the video device, it is also possible to replace
// the 3 previous lines by:
// d->init(I, 400, 100, "My image");
// Set the display background with image I content
// Draw a red rectangle in the display overlay (foreground)
vpDisplay::displayRectangle(I, 10, 10, 100, 20, vpColor::red, true);
// Draw a red rectangle in the display overlay (foreground)
vpImagePoint topLeftCorner;
topLeftCorner.set_i(50);
topLeftCorner.set_j(10);
vpDisplay::displayRectangle(I, topLeftCorner, 100, 20, vpColor::green,
true);
// Flush the foreground and background display
// Get non blocking keyboard events
std::cout << "Check keyboard events..." << std::endl;
char key[10]; sprintf(key, "\0");
bool ret;
for (int i=0; i< 200; i++) {
bool ret = vpDisplay::getKeyboardEvent(I, key, false);
if (ret)
std::cout << "keyboard event: key: " << "\"" << key
<< "\"" << std::endl;
}
// Get a blocking keyboard event
std::cout << "Wait for a keyboard event..." << std::endl;
ret = vpDisplay::getKeyboardEvent(I, key, true);
std::cout << "keyboard event: " << ret << std::endl;
if (ret)
std::cout << "key: " << "\"" << key << "\"" << std::endl;
// Wait for a click in the display window
std::cout << "Wait for a button click..." << std::endl;
delete d;
}

Other examples are available in tutorial-image-viewer.cpp and tutorial-viewer.cpp.

Examples:
grabFlyCapture.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, servoMomentImage.cpp, servoMomentPoints.cpp, servoMomentPolygon.cpp, SickLDMRS-Process.cpp, templateTracker.cpp, testClick.cpp, testFeatureSegment.cpp, testMouseEvent.cpp, testVideoDevice.cpp, testVideoDeviceDual.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-event-keyboard.cpp, tutorial-export-image.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-tracker-full.cpp, and tutorial-mb-tracker.cpp.

Definition at line 177 of file vpDisplay.h.

Member Enumeration Documentation

◆ vpScaleType

Values that could be applied to a display to down scale the size of the display.

Enumerator
SCALE_AUTO 

Auto down scaling factor computed fom the screen resolution.

SCALE_1 

Display and image have the same size.

SCALE_2 

Display width and height is down scaled by 2 wrt the image size.

SCALE_3 

Display width and height is down scaled by 3 wrt the image size.

SCALE_4 

Display width and height is down scaled by 4 wrt the image size.

SCALE_5 

Display width and height is down scaled by 5 wrt the image size.

SCALE_6 

Display width and height is down scaled by 6 wrt the image size.

SCALE_7 

Display width and height is down scaled by 7 wrt the image size.

SCALE_8 

Display width and height is down scaled by 8 wrt the image size.

SCALE_9 

Display width and height is down scaled by 9 wrt the image size.

SCALE_10 

Display width and height is down scaled by 10 wrt the image size.

SCALE_DEFAULT 

Display and image have the same size. Similar to vpDisplay::SCALE_1.

Definition at line 182 of file vpDisplay.h.

Constructor & Destructor Documentation

◆ vpDisplay() [1/2]

vpDisplay::vpDisplay ( )

Default constructor.

Definition at line 58 of file vpDisplay.cpp.

◆ vpDisplay() [2/2]

vpDisplay::vpDisplay ( const vpDisplay d)

Copy constructor.

Definition at line 67 of file vpDisplay.cpp.

◆ ~vpDisplay()

vpDisplay::~vpDisplay ( )
virtual

Destructor that desallocates memory.

Definition at line 77 of file vpDisplay.cpp.

References m_displayHasBeenInitialized.

Member Function Documentation

◆ close() [1/2]

void vpDisplay::close ( vpImage< unsigned char > &  I)
static

◆ close() [2/2]

void vpDisplay::close ( vpImage< vpRGBa > &  I)
static

Close the display attached to I.

Definition at line 51 of file vpDisplay_rgba.cpp.

◆ computeAutoScale()

unsigned int vpDisplay::computeAutoScale ( unsigned int  width,
unsigned int  height 
)

Computes the down scaling factor that should be applied to the window size to display the image given the resolution of the screen.

Parameters
width,height: Image size.
Returns

Definition at line 246 of file vpDisplay.cpp.

Referenced by setScale().

◆ display() [1/2]

void vpDisplay::display ( const vpImage< unsigned char > &  I)
static

Display image I.

Warning
Display has to be initialized.
Suppress the overlay drawing.
Parameters
I: Image to display.
See also
init(), close()
Examples:
AROgre.cpp, AROgreBasic.cpp, BSpline.cpp, displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displaySequence.cpp, displayX.cpp, displayXMulti.cpp, fernClassifier.cpp, grab1394CMU.cpp, grab1394Two.cpp, grabDirectShow.cpp, grabDirectShowMulti.cpp, grabDisk.cpp, grabFlyCapture.cpp, grabOpenCV.cpp, grabRealSense.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, grabV4l2.cpp, grabV4l2MultiCpp11Thread.cpp, imageSequenceReader.cpp, keyboardControlBebop2.cpp, keyPointSurf.cpp, kinectAcquisition.cpp, manDisplay.cpp, manGeometricFeatures.cpp, manServo4PointsDisplay.cpp, manSimu4Dots.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, mbtEdgeKltTracking.cpp, mbtEdgeTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, mbtKltTracking.cpp, photometricVisualServoing.cpp, photometricVisualServoingWithoutVpServo.cpp, planarObjectDetector.cpp, poseVirtualVS.cpp, servoAfma4Point2DArtVelocity.cpp, servoAfma4Point2DCamVelocity.cpp, servoAfma4Point2DCamVelocityKalman.cpp, servoAfma62DhalfCamVelocity.cpp, servoAfma6Cylinder2DCamVelocity.cpp, servoAfma6Cylinder2DCamVelocitySecondaryTask.cpp, servoAfma6Ellipse2DCamVelocity.cpp, servoAfma6FourPoints2DArtVelocity.cpp, servoAfma6FourPoints2DCamVelocityLs_cur.cpp, servoAfma6FourPoints2DCamVelocityLs_des.cpp, servoAfma6Line2DCamVelocity.cpp, servoAfma6Point2DArtVelocity.cpp, servoAfma6Point2DCamVelocity.cpp, servoAfma6Points2DCamVelocityEyeToHand.cpp, servoAfma6Segment2DCamVelocity.cpp, servoAfma6SquareLines2DCamVelocity.cpp, servoAfma6TwoLines2DCamVelocity.cpp, servoBebop2.cpp, servoBiclopsPoint2DArtVelocity.cpp, servoFlirPtuIBVS.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, servoMomentImage.cpp, servoMomentPoints.cpp, servoMomentPolygon.cpp, servoPioneerPanSegment3D.cpp, servoPioneerPoint2DDepth.cpp, servoPioneerPoint2DDepthWithoutVpServo.cpp, servoPtu46Point2DArtVelocity.cpp, servoSimu4Points.cpp, servoSimuAfma6FourPoints2DCamVelocity.cpp, servoSimuCircle2DCamVelocityDisplay.cpp, servoSimuCylinder.cpp, servoSimuCylinder2DCamVelocityDisplay.cpp, servoSimuCylinder2DCamVelocityDisplaySecondaryTask.cpp, servoSimuFourPoints2DCamVelocityDisplay.cpp, servoSimuFourPoints2DPolarCamVelocityDisplay.cpp, servoSimuLine2DCamVelocityDisplay.cpp, servoSimuSphere.cpp, servoSimuSphere2DCamVelocityDisplay.cpp, servoSimuSphere2DCamVelocityDisplaySecondaryTask.cpp, servoSimuSquareLine2DCamVelocityDisplay.cpp, servoSimuViper850FourPoints2DCamVelocity.cpp, servoViper650FourPoints2DArtVelocityLs_cur.cpp, servoViper650FourPoints2DCamVelocityLs_cur-SR300.cpp, servoViper650FourPoints2DCamVelocityLs_cur.cpp, servoViper650Point2DCamVelocity.cpp, servoViper850FourPoints2DArtVelocityLs_cur.cpp, servoViper850FourPoints2DArtVelocityLs_des.cpp, servoViper850FourPoints2DCamVelocityLs_cur.cpp, servoViper850FourPointsKinect.cpp, servoViper850Point2DArtVelocity-jointAvoidance-basic.cpp, servoViper850Point2DArtVelocity-jointAvoidance-gpa.cpp, servoViper850Point2DArtVelocity-jointAvoidance-large.cpp, servoViper850Point2DArtVelocity.cpp, servoViper850Point2DCamVelocity.cpp, servoViper850Point2DCamVelocityKalman.cpp, SickLDMRS-Process.cpp, sonarPioneerReader.cpp, templateTracker.cpp, testClick.cpp, testDisplayPolygonLines.cpp, testDisplayRoi.cpp, testDisplays.cpp, testFeatureSegment.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testImageTemplateMatching.cpp, testKeyPoint-2.cpp, testKeyPoint-3.cpp, testKeyPoint-4.cpp, testKeyPoint-5.cpp, testKeyPoint-6.cpp, testKeyPoint.cpp, testMouseEvent.cpp, testNurbs.cpp, testOccipitalStructure_Core_images.cpp, testOccipitalStructure_Core_pcl.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, testRealSense_R200.cpp, testRealSense_SR300.cpp, testRobotAfma6Pose.cpp, testRobotBebop2.cpp, testRobotViper850Pose.cpp, testTrackDot.cpp, testVideoDevice.cpp, testVideoDeviceDual.cpp, testVirtuoseWithGlove.cpp, trackDot.cpp, trackDot2.cpp, trackDot2WithAutoDetection.cpp, trackKltOpencv.cpp, trackMeCircle.cpp, trackMeEllipse.cpp, trackMeLine.cpp, trackMeNurbs.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-apriltag-detector.cpp, tutorial-autothreshold.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-blob-auto-tracker.cpp, tutorial-blob-tracker-live-firewire.cpp, tutorial-blob-tracker-live-v4l2.cpp, tutorial-brightness-adjustment.cpp, tutorial-chessboard-pose.cpp, tutorial-connected-components.cpp, tutorial-contour.cpp, tutorial-contrast-sharpening.cpp, tutorial-count-coins.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-dnn-object-detection-live.cpp, tutorial-draw-cross.cpp, tutorial-draw-line.cpp, tutorial-draw-point.cpp, tutorial-draw-rectangle.cpp, tutorial-draw-text.cpp, tutorial-event-keyboard.cpp, tutorial-export-image.cpp, tutorial-face-detector-live-threaded.cpp, tutorial-face-detector-live.cpp, tutorial-face-detector.cpp, tutorial-flir-ptu-ibvs.cpp, tutorial-flood-fill.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-1394-writer.cpp, tutorial-grabber-1394.cpp, tutorial-grabber-basler-pylon.cpp, tutorial-grabber-bebop2.cpp, tutorial-grabber-CMU1394.cpp, tutorial-grabber-flycapture.cpp, tutorial-grabber-ids-ueye.cpp, tutorial-grabber-multiple-realsense.cpp, tutorial-grabber-opencv-threaded.cpp, tutorial-grabber-opencv.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-grabber-realsense.cpp, tutorial-grabber-rgbd-D435-structurecore.cpp, tutorial-grabber-structure-core.cpp, tutorial-grabber-v4l2-threaded.cpp, tutorial-grabber-v4l2.cpp, tutorial-ibvs-4pts-display.cpp, tutorial-ibvs-4pts-image-tracking.cpp, tutorial-ibvs-4pts-ogre-tracking.cpp, tutorial-ibvs-4pts-wireframe-camera.cpp, tutorial-ibvs-4pts-wireframe-robot-afma6.cpp, tutorial-ibvs-4pts-wireframe-robot-viper.cpp, tutorial-image-display-scaled-auto.cpp, tutorial-image-display-scaled-manu.cpp, tutorial-image-display.cpp, tutorial-image-filter.cpp, tutorial-image-simulator.cpp, tutorial-image-viewer.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, tutorial-klt-tracker.cpp, tutorial-matching-keypoint-homography.cpp, tutorial-matching-keypoint-SIFT.cpp, tutorial-matching-keypoint.cpp, tutorial-matching-surf-deprecated.cpp, tutorial-matching-surf-homography-deprecated.cpp, tutorial-mb-edge-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-blender.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, tutorial-mb-generic-tracker-rgbd.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker-stereo.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, tutorial-mb-tracker.cpp, tutorial-me-ellipse-tracker.cpp, tutorial-me-line-tracker.cpp, tutorial-munkres-assignment.cpp, tutorial-pose-from-points-image.cpp, tutorial-pose-from-points-live.cpp, tutorial-pose-from-points-realsense-T265.cpp, tutorial-pose-from-qrcode-image.cpp, tutorial-template-tracker.cpp, tutorial-video-reader.cpp, tutorial-video-recorder.cpp, tutorial-viewer.cpp, videoReader.cpp, and wireframeSimulator.cpp.

Definition at line 782 of file vpDisplay_uchar.cpp.

Referenced by vpVirtualGrabber::acquire(), vpDot2::defineDots(), vpWireFrameSimulator::getExternalImage(), vpWireFrameSimulator::getInternalImage(), vpPlot::init(), vpMbTracker::initClick(), vpDisplayOpenCV::on_mouse(), vpMbDepthDenseTracker::segmentPointCloud(), vpMbDepthNormalTracker::segmentPointCloud(), vpSimulatorAfma6::setPosition(), vpMeEllipse::track(), vpSimulatorAfma6::updateArticularPosition(), and vpSimulatorViper850::updateArticularPosition().

◆ display() [2/2]

void vpDisplay::display ( const vpImage< vpRGBa > &  I)
static

Display image I.

Warning
Display has to be initialized.
Suppress the overlay drawing.
Parameters
I: Image to display.
See also
init(), close()

Definition at line 780 of file vpDisplay_rgba.cpp.

◆ displayArrow() [1/4]

void vpDisplay::displayArrow ( const vpImage< unsigned char > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color = vpColor::white,
unsigned int  w = 4,
unsigned int  h = 2,
unsigned int  thickness = 1 
)
static

Display an arrow from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Arrow color.
w,h: Width and height of the arrow.
thickness: Thickness of the lines used to display the arrow.
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, manDisplay.cpp, and testDisplays.cpp.

Definition at line 61 of file vpDisplay_uchar.cpp.

Referenced by vpMeLine::computeRhoTheta(), vpMbDepthNormalTracker::display(), vpProjectionDisplay::displayCamera(), vpMbtFaceDepthNormal::displayFeature(), vpMeTracker::initTracking(), vpMeTracker::track(), and vpMbGenericTracker::track().

◆ displayArrow() [2/4]

void vpDisplay::displayArrow ( const vpImage< unsigned char > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color = vpColor::white,
unsigned int  w = 4,
unsigned int  h = 2,
unsigned int  thickness = 1 
)
static

Display an arrow from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1: Initial image point.
i2,j2: Final image point.
color: Arrow color.
w,h: Width and height of the arrow.
thickness: Thickness of the lines used to display the arrow.

Definition at line 77 of file vpDisplay_uchar.cpp.

◆ displayArrow() [3/4]

void vpDisplay::displayArrow ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color = vpColor::white,
unsigned int  w = 4,
unsigned int  h = 2,
unsigned int  thickness = 1 
)
static

Display an arrow from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Arrow color.
w,h: Width and height of the arrow.
thickness: Thickness of the lines used to display the arrow.

Definition at line 61 of file vpDisplay_rgba.cpp.

◆ displayArrow() [4/4]

void vpDisplay::displayArrow ( const vpImage< vpRGBa > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color = vpColor::white,
unsigned int  w = 4,
unsigned int  h = 2,
unsigned int  thickness = 1 
)
static

Display an arrow from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1: Initial image point.
i2,j2: Final image point.
color: Arrow color.
w,h: Width and height of the arrow.
thickness: Thickness of the lines used to display the arrow.

Definition at line 77 of file vpDisplay_rgba.cpp.

◆ displayCamera() [1/2]

void vpDisplay::displayCamera ( const vpImage< unsigned char > &  I,
const vpHomogeneousMatrix cMo,
const vpCameraParameters cam,
double  size,
const vpColor color,
unsigned int  thickness 
)
static

Display the projection of an object camera represented by a cone in the image.

Parameters
I: The image associated to the display.
cMo: Homogeneous matrix that gives the transformation between the camera frame and the object frame to project in the image.
cam: Camera intrinsic parameters.
size: Size of the object camera.
color: Color used to display the camera in the image.
thickness: Thickness of the graphics drawing.

Definition at line 96 of file vpDisplay_uchar.cpp.

Referenced by vpSimulatorAfma6::updateArticularPosition(), and vpSimulatorViper850::updateArticularPosition().

◆ displayCamera() [2/2]

void vpDisplay::displayCamera ( const vpImage< vpRGBa > &  I,
const vpHomogeneousMatrix cMo,
const vpCameraParameters cam,
double  size,
const vpColor color,
unsigned int  thickness 
)
static

Display the projection of an object camera represented by a cone in the image.

Parameters
I: The image associated to the display.
cMo: Homogeneous matrix that gives the transformation between the camera frame and the object frame to project in the image.
cam: Camera intrinsic parameters.
size: Size of the object camera.
color: Color used to display the camera in the image.
thickness: Thickness of the graphics drawing.

Definition at line 96 of file vpDisplay_rgba.cpp.

◆ displayCharString() [1/4]

void vpDisplay::displayCharString ( const vpImage< unsigned char > &  I,
const vpImagePoint ip,
const char *  string,
const vpColor color 
)
static

Display a string at the image point ip location. Use rather displayText() that does the same.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
ip: Upper left image point location of the string in the display.
string: String to display in overlay.
color: String color.
See also
setFont(), displayText()

Definition at line 115 of file vpDisplay_uchar.cpp.

◆ displayCharString() [2/4]

void vpDisplay::displayCharString ( const vpImage< unsigned char > &  I,
int  i,
int  j,
const char *  string,
const vpColor color 
)
static

Display a string at the image point (i,j) location. Use rather displayText() that does the same.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
i,j: Upper left image point location of the string in the display.
string: String to display in overlay.
color: String color.
See also
setFont(), displayText()

Definition at line 134 of file vpDisplay_uchar.cpp.

◆ displayCharString() [3/4]

void vpDisplay::displayCharString ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip,
const char *  string,
const vpColor color 
)
static

Display a string at the image point ip location. Use rather displayText() that does the same.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
ip: Upper left image point location of the string in the display.
string: String to display in overlay.
color: String color.
See also
setFont(), displayText()

Definition at line 115 of file vpDisplay_rgba.cpp.

◆ displayCharString() [4/4]

void vpDisplay::displayCharString ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
const char *  string,
const vpColor color 
)
static

Display a string at the image point (i,j) location. Use rather displayText() that does the same.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
i,j: Upper left image point location of the string in the display.
string: String to display in overlay.
color: String color.
See also
setFont(), displayText()

Definition at line 134 of file vpDisplay_rgba.cpp.

◆ displayCircle() [1/4]

void vpDisplay::displayCircle ( const vpImage< unsigned char > &  I,
const vpImagePoint center,
unsigned int  radius,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a circle.

Parameters
I: The image associated to the display.
center: Circle center position.
radius: Circle radius.
color: Circle color.
fill: When set to true fill the circle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the circle. This parameter is only useful when fill is set to false.
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, manDisplay.cpp, testDisplays.cpp, testKeyPoint-2.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-image-display-scaled-auto.cpp, tutorial-image-display-scaled-manu.cpp, tutorial-image-display.cpp, and tutorial-munkres-assignment.cpp.

Definition at line 152 of file vpDisplay_uchar.cpp.

Referenced by vpFeatureSegment::display(), vpProjectionDisplay::display(), vpKeyPoint::displayMatching(), and vpDot2::trackAndDisplay().

◆ displayCircle() [2/4]

void vpDisplay::displayCircle ( const vpImage< unsigned char > &  I,
int  i,
int  j,
unsigned int  radius,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a circle.

Parameters
I: The image associated to the display.
i,j: Circle center position.
radius: Circle radius.
color: Circle color.
fill: When set to true fill the circle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the circle. This parameter is only useful when fill is set to false.

Definition at line 170 of file vpDisplay_uchar.cpp.

◆ displayCircle() [3/4]

void vpDisplay::displayCircle ( const vpImage< vpRGBa > &  I,
const vpImagePoint center,
unsigned int  radius,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a circle.

Parameters
I: The image associated to the display.
center: Circle center position.
radius: Circle radius.
color: Circle color.
fill: When set to true fill the circle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the circle. This parameter is only useful when fill is set to false.

Definition at line 151 of file vpDisplay_rgba.cpp.

◆ displayCircle() [4/4]

void vpDisplay::displayCircle ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
unsigned int  radius,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a circle.

Parameters
I: The image associated to the display.
i,j: Circle center position.
radius: Circle radius.
color: Circle color.
fill: When set to true fill the circle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the circle. This parameter is only useful when fill is set to false.

Definition at line 169 of file vpDisplay_rgba.cpp.

◆ displayCross() [1/4]

void vpDisplay::displayCross ( const vpImage< unsigned char > &  I,
const vpImagePoint ip,
unsigned int  size,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a cross at the image point ip location.

Parameters
I: The image associated to the display.
ip: Cross location.
size: Size (width and height) of the cross.
color: Cross color.
thickness: Thickness of the lines used to display the cross.
Examples:
AROgre.cpp, AROgreBasic.cpp, BSpline.cpp, displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, manDisplay.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, poseVirtualVS.cpp, servoAfma4Point2DArtVelocity.cpp, servoAfma4Point2DCamVelocity.cpp, servoAfma4Point2DCamVelocityKalman.cpp, servoAfma6Ellipse2DCamVelocity.cpp, servoAfma6FourPoints2DArtVelocity.cpp, servoAfma6FourPoints2DCamVelocityLs_cur.cpp, servoAfma6FourPoints2DCamVelocityLs_des.cpp, servoAfma6Point2DArtVelocity.cpp, servoAfma6Point2DCamVelocity.cpp, servoAfma6Segment2DCamVelocity.cpp, servoBebop2.cpp, servoViper650FourPoints2DArtVelocityLs_cur.cpp, servoViper650FourPoints2DCamVelocityLs_cur-SR300.cpp, servoViper650FourPoints2DCamVelocityLs_cur.cpp, servoViper650Point2DCamVelocity.cpp, servoViper850FourPoints2DArtVelocityLs_cur.cpp, servoViper850FourPoints2DArtVelocityLs_des.cpp, servoViper850FourPoints2DCamVelocityLs_cur.cpp, servoViper850FourPointsKinect.cpp, servoViper850Point2DArtVelocity-jointAvoidance-basic.cpp, servoViper850Point2DArtVelocity-jointAvoidance-gpa.cpp, servoViper850Point2DArtVelocity-jointAvoidance-large.cpp, servoViper850Point2DArtVelocity.cpp, servoViper850Point2DCamVelocity.cpp, servoViper850Point2DCamVelocityKalman.cpp, sonarPioneerReader.cpp, testDisplays.cpp, testKeyPoint-5.cpp, testKeyPoint-6.cpp, testNurbs.cpp, trackDot.cpp, trackDot2.cpp, trackDot2WithAutoDetection.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-draw-cross.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker.cpp, tutorial-matching-keypoint-homography.cpp, tutorial-matching-surf-homography-deprecated.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, and tutorial-pose-from-qrcode-image.cpp.

Definition at line 184 of file vpDisplay_uchar.cpp.

Referenced by vpMbtDistanceCylinder::computeInteractionMatrixError(), vpDot2::defineDots(), vpKltOpencv::display(), vpDot2::display(), vpDot::display(), vpMeNurbs::display(), vpMbEdgeKltTracker::display(), vpMeSite::display(), vpMeLine::display(), vpMbKltTracker::display(), vpKeyPoint::display(), vpCalibration::displayData(), vpMbEdgeTracker::displayFeaturesOnImage(), vpCalibration::displayGrid(), vpKeyPoint::displayMatching(), vpPose::displayModel(), vpFeatureDisplay::displayPoint(), vpMbtDistanceKltCylinder::displayPrimitive(), vpMbtDistanceKltPoints::displayPrimitive(), vpMeSite::getQueryList(), vpTemplateTrackerZone::initClick(), vpPolygon::initClick(), vpMbTracker::initClick(), vpMeNurbs::initTracking(), vpMeLine::initTracking(), vpMeEllipse::initTracking(), vpMeEllipse::leastSquareRobust(), vpMeEllipse::plugHoles(), vpMeLine::sample(), vpMeEllipse::sample(), vpDot2::searchDotsInArea(), vpMeLine::seekExtremities(), vpMeNurbs::seekExtremities(), vpKltOpencv::suppressFeature(), vpDot2::track(), vpDot::track(), and vpMbGenericTracker::track().

◆ displayCross() [2/4]

void vpDisplay::displayCross ( const vpImage< unsigned char > &  I,
int  i,
int  j,
unsigned int  size,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a cross at the image point (i,j) location.

Parameters
I: The image associated to the display.
i,j: Cross location.
size: Size (width and height) of the cross.
color: Cross color.
thickness: Thickness of the lines used to display the cross.

Definition at line 198 of file vpDisplay_uchar.cpp.

◆ displayCross() [3/4]

void vpDisplay::displayCross ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip,
unsigned int  size,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a cross at the image point ip location.

Parameters
I: The image associated to the display.
ip: Cross location.
size: Size (width and height) of the cross.
color: Cross color.
thickness: Thickness of the lines used to display the cross.

Definition at line 183 of file vpDisplay_rgba.cpp.

◆ displayCross() [4/4]

void vpDisplay::displayCross ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
unsigned int  size,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a cross at the image point (i,j) location.

Parameters
I: The image associated to the display.
i,j: Cross location.
size: Size (width and height) of the cross.
color: Cross color.
thickness: Thickness of the lines used to display the cross.

Definition at line 197 of file vpDisplay_rgba.cpp.

◆ displayDotLine() [1/8]

void vpDisplay::displayDotLine ( const vpImage< unsigned char > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a dashed line from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Line color.
thickness: Dashed line thickness.
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, manDisplay.cpp, testDisplayPolygonLines.cpp, and testDisplays.cpp.

Definition at line 211 of file vpDisplay_uchar.cpp.

Referenced by vpDot2::trackAndDisplay().

◆ displayDotLine() [2/8]

void vpDisplay::displayDotLine ( const vpImage< unsigned char > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a dashed line from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1Initial image point.
i2,j2Final image point.
color: Line color.
thickness: Dashed line thickness.

Definition at line 225 of file vpDisplay_uchar.cpp.

◆ displayDotLine() [3/8]

void vpDisplay::displayDotLine ( const vpImage< unsigned char > &  I,
const std::vector< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display dashed lines for the list of image points.

Parameters
I: The image associated to the display.
ips: Vector of image points.
closeTheShape: If true, display a dashed line from the first and last image points.
color: Line color.
thickness: Dashed line thickness.

Definition at line 240 of file vpDisplay_uchar.cpp.

◆ displayDotLine() [4/8]

void vpDisplay::displayDotLine ( const vpImage< unsigned char > &  I,
const std::list< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display dashed lines for the list of image points.

Parameters
I: The image associated to the display.
ips: List of image points.
closeTheShape: If true, display a dashed line from the first and last image points.
color: Line color.
thickness: Dashed line thickness.

Definition at line 262 of file vpDisplay_uchar.cpp.

References vpImagePoint::distance().

◆ displayDotLine() [5/8]

void vpDisplay::displayDotLine ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a dashed line from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Line color.
thickness: Dashed line thickness.

Definition at line 210 of file vpDisplay_rgba.cpp.

◆ displayDotLine() [6/8]

void vpDisplay::displayDotLine ( const vpImage< vpRGBa > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a dashed line from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1Initial image point.
i2,j2Final image point.
color: Line color.
thickness: Dashed line thickness.

Definition at line 224 of file vpDisplay_rgba.cpp.

◆ displayDotLine() [7/8]

void vpDisplay::displayDotLine ( const vpImage< vpRGBa > &  I,
const std::vector< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the dashed lines formed by the list of image points

Parameters
I: The image associated to the display.
ips: Vector of image points.
closeTheShape: If true, display a dashed line from the first and last image points.
color: Line color.
thickness: Dashed line thickness.

Definition at line 239 of file vpDisplay_rgba.cpp.

◆ displayDotLine() [8/8]

void vpDisplay::displayDotLine ( const vpImage< vpRGBa > &  I,
const std::list< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the dashed lines formed by the list of image points

Parameters
I: The image associated to the display.
ips: List of image points.
closeTheShape: If true, display a dashed line from the first and last image points.
color: Line color.
thickness: Dashed line thickness.

Definition at line 261 of file vpDisplay_rgba.cpp.

References vpImagePoint::distance().

◆ displayEllipse() [1/4]

void vpDisplay::displayEllipse ( const vpImage< unsigned char > &  I,
const vpImagePoint center,
const double &  coef1,
const double &  coef2,
const double &  coef3,
bool  use_normalized_centered_moments,
const vpColor color,
unsigned int  thickness = 1,
bool  display_center = false,
bool  display_arc = false 
)
static

Display an ellipse from its parameters expressed in pixels.

Parameters
I: Image to consider.
center: Center $(u_c, v_c)$ of the ellipse.
coef1,coef2,coef3: Depending on the parameter use_normalized_centered_moments these parameters are:
  • second order centered moments of the ellipse normalized by its area (i.e., such that $n_{ij} = \mu_{ij}/a$ where $\mu_{ij}$ are the centered moments and a the area) expressed in pixels.
  • the major and minor axis lenght in pixels and the excentricity of the ellipse in radians: $a, b, e$.
use_normalized_centered_moments: When false, the parameters coef1, coef2, coef3 are the parameters $a, b, e$. When true, the parameters coef1, coef2, coef3 are rather the normalized centered moments $n_{20}, n_{11}, n_{02}$ expressed in pixels. In that case, we compute the parameters a, b and e from the centered moments.
color: Ellipse color.
thickness: Ellipse thickness.
display_center: Display a cross at the center of the ellipse.
display_arc: Display a line between the center and the first arc extremity and a line between the center and the second arc extremity.

The following example shows how to use for example this function to display the result of a tracking.

vpMeEllipse ellipse;
...
vpDisplay::display(I);
ellipse.track(I);
ellipse.get_nij()[0], ellipse.get_nij()[1], ellipse.get_nij()[2],
true, vpColor::orange, 1);

Definition at line 319 of file vpDisplay_uchar.cpp.

Referenced by vpMbtDistanceCircle::display(), vpMbEdgeKltTracker::display(), vpMbKltTracker::display(), vpMbEdgeTracker::display(), vpMeEllipse::display(), vpFeatureDisplay::displayEllipse(), displayEllipse(), and vpMbGenericTracker::track().

◆ displayEllipse() [2/4]

void vpDisplay::displayEllipse ( const vpImage< unsigned char > &  I,
const vpImagePoint center,
const double &  coef1,
const double &  coef2,
const double &  coef3,
const double &  smallalpha,
const double &  highalpha,
bool  use_normalized_centered_moments,
const vpColor color,
unsigned int  thickness = 1,
bool  display_center = false,
bool  display_arc = false 
)
static

Display an ellipse from its parameters expressed in pixels.

Parameters
I: Image to consider.
center: Center $(u_c, v_c)$ of the ellipse.
coef1,coef2,coef3: Depending on the parameter use_normalized_centered_moments these parameters are:
  • second order centered moments of the ellipse normalized by its area (i.e., such that $n_{ij} = \mu_{ij}/a$ where $\mu_{ij}$ are the centered moments and a the area) expressed in pixels.
  • the major and minor axis lenght in pixels and the excentricity of the ellipse in radians: $a, b, e$.
smallalpha: Smallest $ alpha $ angle in rad (0 for a complete ellipse).
highalpha: Highest $ alpha $ angle in rad (2 $ \Pi $ for a complete ellipse).
use_normalized_centered_moments: When false, the parameters coef1, coef2, coef3 are the parameters $a, b, e$. When true, the parameters coef1, coef2, coef3 are rather the normalized centered moments $n_{20}, n_{11}, n_{02}$ expressed in pixels. In that case, we compute the parameters a, b and e from the centered moments.
color: Ellipse color.
thickness: Ellipse thickness.
display_center: Display a cross at the center of the ellipse.
display_arc: Display a line between the center and the first arc extremity and a line between the center and the second arc extremity.

The following example shows how to use for example this function to display the result of a tracking.

vpMeEllipse ellipse;
...
vpDisplay::display(I);
ellipse.track(I);
ellipse.get_nij()[0], ellipse.get_nij()[1], ellipse.get_nij()[2],
ellipse.getSmallestAngle(), ellipse.getHighestAngle(),
true, vpColor::orange, 1);

Definition at line 366 of file vpDisplay_uchar.cpp.

◆ displayEllipse() [3/4]

void vpDisplay::displayEllipse ( const vpImage< vpRGBa > &  I,
const vpImagePoint center,
const double &  coef1,
const double &  coef2,
const double &  coef3,
bool  use_normalized_centered_moments,
const vpColor color,
unsigned int  thickness = 1,
bool  display_center = false,
bool  display_arc = false 
)
static

Display an ellipse from its parameters expressed in pixels.

Parameters
I: Image to consider.
center: Center $(u_c, v_c)$ of the ellipse.
coef1,coef2,coef3: Depending on the parameter use_normalized_centered_moments these parameters are:
  • second order centered moments of the ellipse normalized by its area (i.e., such that $n_{ij} = \mu_{ij}/a$ where $\mu_{ij}$ are the centered moments and a the area) expressed in pixels.
  • the major and minor axis lenght in pixels and the excentricity of the ellipse in radians: $a, b, e$.
use_normalized_centered_moments: When false, the parameters coef1, coef2, coef3 are the parameters $a, b, e$. When true, the parameters coef1, coef2, coef3 are rather the normalized centered moments $n_{20}, n_{11}, n_{02}$ expressed in pixels. In that case, we compute the parameters a, b and e from the centered moments.
color: Ellipse color.
thickness: Ellipse thickness.
display_center: Display a cross at the center of the ellipse.
display_arc: Display a line between the center and the first arc extremity and a line between the center and the second arc extremity.

The following example shows how to use for example this function to display the result of a tracking.

vpMeEllipse ellipse;
...
vpDisplay::display(I);
ellipse.track(I);
ellipse.get_nij()[0], ellipse.get_nij()[1], ellipse.get_nij()[2],
true, vpColor::orange, 1);

Definition at line 318 of file vpDisplay_rgba.cpp.

References displayEllipse().

◆ displayEllipse() [4/4]

void vpDisplay::displayEllipse ( const vpImage< vpRGBa > &  I,
const vpImagePoint center,
const double &  coef1,
const double &  coef2,
const double &  coef3,
const double &  smallalpha,
const double &  highalpha,
bool  use_normalized_centered_moments,
const vpColor color,
unsigned int  thickness = 1,
bool  display_center = false,
bool  display_arc = false 
)
static

Display an ellipse from its parameters expressed in pixels.

Parameters
I: Image to consider.
center: Center $(u_c, v_c)$ of the ellipse.
coef1,coef2,coef3: Depending on the parameter use_normalized_centered_moments these parameters are:
  • second order centered moments of the ellipse normalized by its area (i.e., such that $n_{ij} = \mu_{ij}/a$ where $\mu_{ij}$ are the centered moments and a the area) expressed in pixels.
  • the major and minor axis lenght in pixels and the excentricity of the ellipse in radians: $a, b, e$.
smallalpha: Smallest $ alpha $ angle in rad (0 for a complete ellipse).
highalpha: Highest $ alpha $ angle in rad (2 $ \Pi $ for a complete ellipse).
use_normalized_centered_moments: When false, the parameters coef1, coef2, coef3 are the parameters $a, b, e$. When true, the parameters coef1, coef2, coef3 are rather the normalized centered moments $n_{20}, n_{11}, n_{02}$ expressed in pixels. In that case, we compute the parameters a, b and e from the centered moments.
color: Ellipse color.
thickness: Ellipse thickness.
display_center: Display a cross at the center of the ellipse.
display_arc: Display a line between the center and the first arc extremity and a line between the center and the second arc extremity.

The following example shows how to use for example this function to display the result of a tracking.

vpMeEllipse ellipse;
...
vpDisplay::display(I);
ellipse.track(I);
ellipse.get_nij()[0], ellipse.get_nij()[1], ellipse.get_nij()[2],
ellipse.getSmallestAngle(), ellipse.getHighestAngle(),
true, vpColor::orange, 1);

Definition at line 365 of file vpDisplay_rgba.cpp.

◆ displayFrame() [1/2]

void vpDisplay::displayFrame ( const vpImage< unsigned char > &  I,
const vpHomogeneousMatrix cMo,
const vpCameraParameters cam,
double  size,
const vpColor color = vpColor::none,
unsigned int  thickness = 1,
const vpImagePoint offset = vpImagePoint(0, 0) 
)
static

Display the projection of an object frame represented by 3 arrows in the image. Red, green and blue arrows correspond to frame X, Y and Z axis respectively.

Parameters
I: The image associated to the display.
cMo: Homogeneous matrix that gives the transformation between the camera frame and the object frame to project in the image.
cam: Camera intrinsic parameters.
size: Size of the object frame.
color: Color used to display the frame in the image.
thickness: the thickness of the line.
offset: Offset in pixels applied to the frame origin location in the image.
Examples:
grabRealSense2_T265.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-pbvs.cpp, mbtEdgeKltTracking.cpp, mbtEdgeTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, mbtKltTracking.cpp, servoFrankaPBVS.cpp, servoSimu4Points.cpp, servoSimuCylinder.cpp, servoSimuSphere.cpp, testDisplays.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testKeyPoint-2.cpp, testKeyPoint-4.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, testVirtuoseWithGlove.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-apriltag-detector.cpp, tutorial-chessboard-pose.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-mb-edge-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-blender.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, tutorial-mb-generic-tracker-rgbd.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker-stereo.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, tutorial-mb-tracker.cpp, tutorial-pose-from-points-image.cpp, tutorial-pose-from-points-live.cpp, tutorial-pose-from-points-realsense-T265.cpp, and tutorial-pose-from-qrcode-image.cpp.

Definition at line 390 of file vpDisplay_uchar.cpp.

Referenced by vpPose::display(), vpMbTracker::initClick(), vpSimulatorAfma6::updateArticularPosition(), and vpSimulatorViper850::updateArticularPosition().

◆ displayFrame() [2/2]

void vpDisplay::displayFrame ( const vpImage< vpRGBa > &  I,
const vpHomogeneousMatrix cMo,
const vpCameraParameters cam,
double  size,
const vpColor color = vpColor::none,
unsigned int  thickness = 1,
const vpImagePoint offset = vpImagePoint(0, 0) 
)
static

Display the projection of an object frame represented by 3 arrows in the image. Red, green and blue arrows correspond to frame X, Y and Z axis respectively.

Parameters
I: The image associated to the display.
cMo: Homogeneous matrix that gives the transformation between the camera frame and the object frame to project in the image.
cam: Camera intrinsic parameters.
size: Size of the object frame.
color: Color used to display the frame in the image.
thickness: the thickness of the line.
offset: Offset in pixels applied to the frame origin location in the image.

Definition at line 389 of file vpDisplay_rgba.cpp.

◆ displayLine() [1/8]

void vpDisplay::displayLine ( const vpImage< unsigned char > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color,
unsigned int  thickness = 1,
bool  segment = true 
)
static

Display a line from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Line color.
thickness: Line thickness.
segmentIf true (default) display the segment between the two image points. If false, display the line passing through the two image points.
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, grabRealSense2_T265.cpp, manDisplay.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, servoBebop2.cpp, servoFlirPtuIBVS.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, servoPioneerPanSegment3D.cpp, servoPioneerPoint2DDepth.cpp, servoPioneerPoint2DDepthWithoutVpServo.cpp, SickLDMRS-Process.cpp, sonarPioneerReader.cpp, testDisplayPolygonLines.cpp, testDisplays.cpp, testKeyPoint-3.cpp, testKeyPoint-4.cpp, testRealSense2_D435_align.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, tutorial-draw-line.cpp, tutorial-flood-fill.cpp, tutorial-ibvs-4pts-display.cpp, tutorial-ibvs-4pts-image-tracking.cpp, tutorial-ibvs-4pts-ogre-tracking.cpp, tutorial-ibvs-4pts-wireframe-camera.cpp, tutorial-ibvs-4pts-wireframe-robot-afma6.cpp, tutorial-ibvs-4pts-wireframe-robot-viper.cpp, tutorial-matching-keypoint-homography.cpp, tutorial-matching-keypoint-SIFT.cpp, tutorial-matching-keypoint.cpp, tutorial-matching-surf-deprecated.cpp, tutorial-matching-surf-homography-deprecated.cpp, and tutorial-munkres-assignment.cpp.

Definition at line 406 of file vpDisplay_uchar.cpp.

References vpImagePoint::get_i(), and vpImagePoint::get_j().

Referenced by vpVirtualGrabber::acquire(), vpMbDepthDenseTracker::display(), vpMbDepthNormalTracker::display(), vpTemplateTrackerZone::display(), vpFeatureSegment::display(), vpMbtFaceDepthDense::display(), vpMbtFaceDepthNormal::display(), vpMbtDistanceKltCylinder::display(), vpMbtDistanceLine::display(), vpMbtDistanceKltPoints::display(), vpPolygon::display(), vpMbtDistanceCylinder::display(), vpMbEdgeKltTracker::display(), vpHistogram::display(), vpMeLine::display(), vpMbKltTracker::display(), vpMbEdgeTracker::display(), vpWireFrameSimulator::display_scene(), vpFeatureDisplay::displayLine(), displayLine(), vpKeyPoint::displayMatching(), vpWireFrameSimulator::displayTrajectory(), vpWireFrameSimulator::getExternalImage(), vpTemplateTrackerZone::initClick(), vpMbDepthDenseTracker::segmentPointCloud(), vpMbDepthNormalTracker::segmentPointCloud(), vpMbGenericTracker::track(), vpSimulatorAfma6::updateArticularPosition(), and vpSimulatorViper850::updateArticularPosition().

◆ displayLine() [2/8]

void vpDisplay::displayLine ( const vpImage< unsigned char > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color,
unsigned int  thickness = 1,
bool  segment = true 
)
static

Display a line from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1Initial image point.
i2,j2Final image point.
color: Line color.
thickness: Line thickness.
segmentIf true (default) display the segment between the two image points. If false, display the line passing through the two image points.

Definition at line 422 of file vpDisplay_uchar.cpp.

References vpImagePoint::get_i(), vpImagePoint::get_j(), vpImage< Type >::getHeight(), and vpImage< Type >::getWidth().

◆ displayLine() [3/8]

void vpDisplay::displayLine ( const vpImage< unsigned char > &  I,
const std::vector< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the lines formed by the list of image points.

Parameters
I: The image associated to the display.
ips: Vector of image points.
closeTheShape: If true, display a line from the first and last image points.
color: Line color.
thickness: Line thickness.

Definition at line 488 of file vpDisplay_uchar.cpp.

◆ displayLine() [4/8]

void vpDisplay::displayLine ( const vpImage< unsigned char > &  I,
const std::list< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the lines formed by the list of image points.

Parameters
I: The image associated to the display.
ips: List of image points.
closeTheShape: If true, display a line from the first and last image points.
color: Line color.
thickness: Line thickness.

Definition at line 509 of file vpDisplay_uchar.cpp.

References vpImagePoint::distance().

◆ displayLine() [5/8]

void vpDisplay::displayLine ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2,
const vpColor color,
unsigned int  thickness = 1,
bool  segment = true 
)
static

Display a line from image point ip1 to image point ip2.

Parameters
I: The image associated to the display.
ip1,ip2: Initial and final image points.
color: Line color.
thickness: Line thickness.
segmentIf true (default) display the segment between the two image points. If false, display the line passing through the two image points.

Definition at line 404 of file vpDisplay_rgba.cpp.

References displayLine(), vpImagePoint::get_i(), and vpImagePoint::get_j().

◆ displayLine() [6/8]

void vpDisplay::displayLine ( const vpImage< vpRGBa > &  I,
int  i1,
int  j1,
int  i2,
int  j2,
const vpColor color,
unsigned int  thickness = 1,
bool  segment = true 
)
static

Display a line from image point (i1,j1) to image point (i2,j2).

Parameters
I: The image associated to the display.
i1,j1Initial image point.
i2,j2Final image point.
color: Line color.
thickness: Line thickness.
segmentIf true (default) display the segment between the two image points. If false, display the line passing through the two image points.

Definition at line 420 of file vpDisplay_rgba.cpp.

References vpImagePoint::get_i(), vpImagePoint::get_j(), vpImage< Type >::getHeight(), and vpImage< Type >::getWidth().

◆ displayLine() [7/8]

void vpDisplay::displayLine ( const vpImage< vpRGBa > &  I,
const std::vector< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the lines formed by the list of image points.

Parameters
I: The image associated to the display.
ips: Vector of image points.
closeTheShape: If true, draw a line from the first and last image points.
color: Line color.
thickness: Line thickness.

Definition at line 487 of file vpDisplay_rgba.cpp.

◆ displayLine() [8/8]

void vpDisplay::displayLine ( const vpImage< vpRGBa > &  I,
const std::list< vpImagePoint > &  ips,
bool  closeTheShape,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display the lines formed by the list of image points.

Parameters
I: The image associated to the display.
ips: List of image points.
closeTheShape: If true, draw a line from the first and last image points.
color: Line color.
thickness: Line thickness.

Definition at line 509 of file vpDisplay_rgba.cpp.

References vpImagePoint::distance().

◆ displayPoint() [1/4]

void vpDisplay::displayPoint ( const vpImage< unsigned char > &  I,
const vpImagePoint ip,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a point at the image point ip location.

Parameters
I: The image associated to the display.
ip: Point location.
color: Point color.
thickness: Thickness of the point
Examples:
servoAfma6Points2DCamVelocityEyeToHand.cpp, testDisplays.cpp, trackDot.cpp, trackDot2.cpp, and tutorial-draw-point.cpp.

Definition at line 537 of file vpDisplay_uchar.cpp.

Referenced by vpDot2::display(), vpDot::display(), vpWireFrameSimulator::displayTrajectory(), vpWireFrameSimulator::getExternalImage(), vpDot2::getFreemanChain(), vpMbTracker::initClick(), vpDot::operator==(), vpDot2::searchDotsInArea(), vpMeNurbs::seekExtremitiesCanny(), and vpMeSite::track().

◆ displayPoint() [2/4]

void vpDisplay::displayPoint ( const vpImage< unsigned char > &  I,
int  i,
int  j,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a point at the image point (i,j) location.

Parameters
I: The image associated to the display.
i,j: Point location.
color: Point color.
thickness: Thickness of the point

Definition at line 550 of file vpDisplay_uchar.cpp.

◆ displayPoint() [3/4]

void vpDisplay::displayPoint ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a point at the image point ip location.

Parameters
I: The image associated to the display.
ip: Point location.
color: Point color.
thickness: Thickness of the point

Definition at line 537 of file vpDisplay_rgba.cpp.

◆ displayPoint() [4/4]

void vpDisplay::displayPoint ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a point at the image point (i,j) location.

Parameters
I: The image associated to the display.
i,j: Point location.
color: Point color.
thickness: Thickness of the point

Definition at line 550 of file vpDisplay_rgba.cpp.

◆ displayPolygon() [1/2]

void vpDisplay::displayPolygon ( const vpImage< unsigned char > &  I,
const std::vector< vpImagePoint > &  vip,
const vpColor color,
unsigned int  thickness = 1,
bool  closed = true 
)
static

Display a polygon defined by a vector of image points.

Parameters
I: The image associated to the display.
vip: Vector of image point that define the vertexes of the polygon.
color: Line color.
thickness: Line thickness.
closed: When true display a closed polygon with a segment between first and last image point.
Examples:
mbot-apriltag-ibvs.cpp, servoBebop2.cpp, and testDisplays.cpp.

Definition at line 564 of file vpDisplay_uchar.cpp.

◆ displayPolygon() [2/2]

void vpDisplay::displayPolygon ( const vpImage< vpRGBa > &  I,
const std::vector< vpImagePoint > &  vip,
const vpColor color,
unsigned int  thickness = 1,
bool  closed = true 
)
static

Display a polygon defined by a vector of image points.

Parameters
I: The image associated to the display.
vip: Vector of image point that define the vertexes of the polygon.
color: Line color.
thickness: Line thickness.
closed: When true display a closed polygon with a segment between first and last image point.

Definition at line 563 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [1/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
const vpImagePoint topLeft,
unsigned int  width,
unsigned int  height,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
topLeft: Top-left corner of the rectangle.
width,height: Rectangle size.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, fernClassifier.cpp, keyPointSurf.cpp, manDisplay.cpp, planarObjectDetector.cpp, testDisplays.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testImageTemplateMatching.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-dnn-object-detection-live.cpp, tutorial-draw-rectangle.cpp, tutorial-draw-text.cpp, tutorial-export-image.cpp, tutorial-face-detector-live-threaded.cpp, tutorial-face-detector-live.cpp, tutorial-face-detector.cpp, and tutorial-image-viewer.cpp.

Definition at line 586 of file vpDisplay_uchar.cpp.

Referenced by vpDot2::searchDotsInArea(), and vpMeNurbs::seekExtremitiesCanny().

◆ displayRectangle() [2/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
const vpImagePoint topLeft,
const vpImagePoint bottomRight,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
topLeft: Top-left corner of the rectangle.
bottomRight: Bottom-right corner of the rectangle.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 668 of file vpDisplay_uchar.cpp.

◆ displayRectangle() [3/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
const vpRect rectangle,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
rectangle: Rectangle characteristics.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 627 of file vpDisplay_uchar.cpp.

◆ displayRectangle() [4/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
const vpImagePoint center,
float  angle,
unsigned int  width,
unsigned int  height,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a rectangle defined by its center, its orientation (angle) and its size.

Parameters
I: Image associated to the display.
center: Rectangle center point.
angle: Angle in radians width an horizontal axis oriented from left to right.
width,height: Rectangle size.
color: Rectangle color.
thickness: Thickness of the four lines used to display the rectangle.

Definition at line 646 of file vpDisplay_uchar.cpp.

◆ displayRectangle() [5/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
int  i,
int  j,
unsigned int  width,
unsigned int  height,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with (i,j) as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
i,j: Top-left corner of the rectangle.
width,height: Rectangle size.
color: Rectangle color.
fill: When set to true fill the rectangle.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 606 of file vpDisplay_uchar.cpp.

◆ displayRectangle() [6/12]

void vpDisplay::displayRectangle ( const vpImage< unsigned char > &  I,
unsigned int  i,
unsigned int  j,
float  angle,
unsigned int  width,
unsigned int  height,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a rectangle defined by its center, its orientation (angle) and its size.

Parameters
I: Image associated to the display.
i,j: Rectangle center point.
angle: Angle in radians width an horizontal axis oriented from left to right.
width,height: Rectangle size.
color: Rectangle color.
thickness: Thickness of the four lines used to display the rectangle.

Definition at line 688 of file vpDisplay_uchar.cpp.

◆ displayRectangle() [7/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
const vpImagePoint topLeft,
unsigned int  width,
unsigned int  height,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
topLeft: Top-left corner of the rectangle.
width,height: Rectangle size.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 585 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [8/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
const vpImagePoint topLeft,
const vpImagePoint bottomRight,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
topLeft: Top-left corner of the rectangle.
bottomRight: Bottom-right corner of the rectangle.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 667 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [9/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
const vpRect rectangle,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with topLeft as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
rectangle: Rectangle characteristics.
color: Rectangle color.
fill: When set to true fill the rectangle. When vpDisplayOpenCV is used, and color alpha channel is set, filling feature can handle transparency. See vpColor header class documentation.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 626 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [10/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
const vpImagePoint center,
float  angle,
unsigned int  width,
unsigned int  height,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a rectangle defined by its center, its orientation (angle) and its size.

Parameters
I: Image associated to the display.
center: Rectangle center point.
angle: Angle in radians width an horizontal axis oriented from left to right.
width,height: Rectangle size.
color: Rectangle color.
thickness: Thickness of the four lines used to display the rectangle.

Definition at line 645 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [11/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
unsigned int  width,
unsigned int  height,
const vpColor color,
bool  fill = false,
unsigned int  thickness = 1 
)
static

Display a rectangle with (i,j) as the top-left corner and width and height the rectangle size.

Parameters
I: The image associated to the display.
i,j: Top-left corner of the rectangle.
width,height: Rectangle size.
color: Rectangle color.
fill: When set to true fill the rectangle.
thickness: Thickness of the four lines used to display the rectangle. This parameter is only useful when fill is set to false.

Definition at line 605 of file vpDisplay_rgba.cpp.

◆ displayRectangle() [12/12]

void vpDisplay::displayRectangle ( const vpImage< vpRGBa > &  I,
unsigned int  i,
unsigned int  j,
float  angle,
unsigned int  width,
unsigned int  height,
const vpColor color,
unsigned int  thickness = 1 
)
static

Display a rectangle defined by its center, its orientation (angle) and its size.

Parameters
I: Image associated to the display.
i,j: Rectangle center point.
angle: Angle in radians width an horizontal axis oriented from left to right.
width,height: Rectangle size.
color: Rectangle color.
thickness: Thickness of the four lines used to display the rectangle.

Definition at line 686 of file vpDisplay_rgba.cpp.

◆ displayROI() [1/2]

void vpDisplay::displayROI ( const vpImage< unsigned char > &  I,
const vpRect roi 
)
static

Update the display with the content of the image that is in the region of interest.

Parameters
I: Image.
roi: Region of interest.
Examples:
testDisplayRoi.cpp.

Definition at line 788 of file vpDisplay_uchar.cpp.

◆ displayROI() [2/2]

void vpDisplay::displayROI ( const vpImage< vpRGBa > &  I,
const vpRect roi 
)
static

Update the display with the content of the image that is in the region of interest.

Parameters
I: Image.
roi: Region of interest.

Definition at line 786 of file vpDisplay_rgba.cpp.

◆ displayText() [1/4]

void vpDisplay::displayText ( const vpImage< unsigned char > &  I,
const vpImagePoint ip,
const std::string &  s,
const vpColor color 
)
static

Display a string at the image point ip location.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
ip: Upper left image point location of the string in the display.
s: String to display in overlay.
color: String color.
See also
setFont()
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, fernClassifier.cpp, grabFlyCapture.cpp, grabRealSense.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, grabV4l2MultiCpp11Thread.cpp, keyboardControlBebop2.cpp, manDisplay.cpp, manGeometricFeatures.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, mbtEdgeKltTracking.cpp, mbtEdgeTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, mbtKltTracking.cpp, planarObjectDetector.cpp, servoAfma6Points2DCamVelocityEyeToHand.cpp, servoBebop2.cpp, servoFlirPtuIBVS.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, servoMomentImage.cpp, servoMomentPoints.cpp, servoMomentPolygon.cpp, servoSimu4Points.cpp, servoSimuCircle2DCamVelocityDisplay.cpp, servoSimuCylinder.cpp, servoSimuCylinder2DCamVelocityDisplay.cpp, servoSimuCylinder2DCamVelocityDisplaySecondaryTask.cpp, servoSimuFourPoints2DCamVelocityDisplay.cpp, servoSimuFourPoints2DPolarCamVelocityDisplay.cpp, servoSimuLine2DCamVelocityDisplay.cpp, servoSimuSphere.cpp, servoSimuSphere2DCamVelocityDisplay.cpp, servoSimuSphere2DCamVelocityDisplaySecondaryTask.cpp, servoSimuSquareLine2DCamVelocityDisplay.cpp, servoViper650FourPoints2DArtVelocityLs_cur.cpp, servoViper650FourPoints2DCamVelocityLs_cur-SR300.cpp, servoViper650FourPoints2DCamVelocityLs_cur.cpp, servoViper650Point2DCamVelocity.cpp, sonarPioneerReader.cpp, templateTracker.cpp, testDisplayPolygonLines.cpp, testDisplays.cpp, testForceTorqueAti.cpp, testForceTorqueAtiNetFTSensor.cpp, testForceTorqueIitSensor.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testImageTemplateMatching.cpp, testOccipitalStructure_Core_images.cpp, testOccipitalStructure_Core_pcl.cpp, testRealSense2_D435.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, testVirtuoseWithGlove.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-apriltag-detector.cpp, tutorial-autothreshold.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-blob-tracker-live-firewire.cpp, tutorial-blob-tracker-live-v4l2.cpp, tutorial-brightness-adjustment.cpp, tutorial-chessboard-pose.cpp, tutorial-connected-components.cpp, tutorial-contour.cpp, tutorial-contrast-sharpening.cpp, tutorial-count-coins.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-dnn-object-detection-live.cpp, tutorial-draw-text.cpp, tutorial-face-detector-live-threaded.cpp, tutorial-face-detector-live.cpp, tutorial-face-detector.cpp, tutorial-flir-ptu-ibvs.cpp, tutorial-flood-fill.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-1394.cpp, tutorial-grabber-basler-pylon.cpp, tutorial-grabber-bebop2.cpp, tutorial-grabber-flycapture.cpp, tutorial-grabber-ids-ueye.cpp, tutorial-grabber-opencv-threaded.cpp, tutorial-grabber-opencv.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-grabber-realsense.cpp, tutorial-grabber-structure-core.cpp, tutorial-grabber-v4l2-threaded.cpp, tutorial-grabber-v4l2.cpp, tutorial-ibvs-4pts-image-tracking.cpp, tutorial-ibvs-4pts-ogre-tracking.cpp, tutorial-ibvs-4pts-wireframe-robot-afma6.cpp, tutorial-ibvs-4pts-wireframe-robot-viper.cpp, tutorial-image-filter.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker.cpp, tutorial-matching-keypoint-SIFT.cpp, tutorial-mb-edge-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-blender.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, tutorial-mb-generic-tracker-rgbd.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker-stereo.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, tutorial-mb-tracker.cpp, tutorial-munkres-assignment.cpp, tutorial-pose-from-points-live.cpp, tutorial-pose-from-points-realsense-T265.cpp, tutorial-pose-from-qrcode-image.cpp, tutorial-simu-pioneer-continuous-gain-adaptive.cpp, tutorial-simu-pioneer-continuous-gain-constant.cpp, tutorial-simu-pioneer-pan.cpp, tutorial-simu-pioneer.cpp, tutorial-template-tracker.cpp, tutorial-video-reader.cpp, tutorial-video-recorder.cpp, and videoReader.cpp.

Definition at line 706 of file vpDisplay_uchar.cpp.

Referenced by vpVirtualGrabber::acquire(), vpKltOpencv::display(), vpMbEdgeKltTracker::display(), vpMbKltTracker::display(), vpMbtDistanceKltCylinder::displayPrimitive(), vpMbtDistanceKltPoints::displayPrimitive(), vpMbTracker::initClick(), vpImageQueue< Type >::record(), vpKltOpencv::suppressFeature(), and vpMbGenericTracker::track().

◆ displayText() [2/4]

void vpDisplay::displayText ( const vpImage< unsigned char > &  I,
int  i,
int  j,
const std::string &  s,
const vpColor color 
)
static

Display a string at the image point (i,j) location.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
i,j: Upper left image point location of the string in the display.
s: String to display in overlay.
color: String color.
See also
setFont()

Definition at line 724 of file vpDisplay_uchar.cpp.

◆ displayText() [3/4]

void vpDisplay::displayText ( const vpImage< vpRGBa > &  I,
const vpImagePoint ip,
const std::string &  s,
const vpColor color 
)
static

Display a string at the image point ip location.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
ip: Upper left image point location of the string in the display.
s: String to display in overlay.
color: String color.
See also
setFont()

Definition at line 704 of file vpDisplay_rgba.cpp.

◆ displayText() [4/4]

void vpDisplay::displayText ( const vpImage< vpRGBa > &  I,
int  i,
int  j,
const std::string &  s,
const vpColor color 
)
static

Display a string at the image point (i,j) location.

To select the font used to display the string, use setFont().

Parameters
I: Image associated to the display.
i,j: Upper left image point location of the string in the display.
s: String to display in overlay.
color: String color.
See also
setFont()

Definition at line 722 of file vpDisplay_rgba.cpp.

◆ flush() [1/2]

void vpDisplay::flush ( const vpImage< unsigned char > &  I)
static

Flushes the output buffer associated to image I display. It's necessary to use this function to see the results of any drawing.

Warning
This function is particular and must be called to show the overlay. Because it's time spending, use it parcimoniously.
#include <visp3/core/vpColor.h>
#include <visp3/core/vpDisplay.h>
#include <visp3/core/vpImage.h>
#include <visp3/core/vpImagePoint.h>
#include <visp3/gui/vpDisplayGDI.h>
int main() {
d.init(I);
vpDisplay::display(I); // display the image
vpImagePoint center;
unsigned int radius = 100;
vpDisplay::flush(I); // Mendatory to display the requested features.
}
See also
flushROI()
Examples:
AROgre.cpp, AROgreBasic.cpp, BSpline.cpp, displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displaySequence.cpp, displayX.cpp, displayXMulti.cpp, fernClassifier.cpp, grab1394CMU.cpp, grab1394Two.cpp, grabDirectShow.cpp, grabDirectShowMulti.cpp, grabDisk.cpp, grabFlyCapture.cpp, grabOpenCV.cpp, grabRealSense.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, grabV4l2.cpp, grabV4l2MultiCpp11Thread.cpp, imageSequenceReader.cpp, keyboardControlBebop2.cpp, keyPointSurf.cpp, kinectAcquisition.cpp, manDisplay.cpp, manGeometricFeatures.cpp, manServo4PointsDisplay.cpp, manSimu4Dots.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, mbtEdgeKltTracking.cpp, mbtEdgeTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, mbtKltTracking.cpp, photometricVisualServoing.cpp, photometricVisualServoingWithoutVpServo.cpp, planarObjectDetector.cpp, poseVirtualVS.cpp, servoAfma4Point2DArtVelocity.cpp, servoAfma4Point2DCamVelocity.cpp, servoAfma4Point2DCamVelocityKalman.cpp, servoAfma62DhalfCamVelocity.cpp, servoAfma6Cylinder2DCamVelocity.cpp, servoAfma6Cylinder2DCamVelocitySecondaryTask.cpp, servoAfma6Ellipse2DCamVelocity.cpp, servoAfma6FourPoints2DArtVelocity.cpp, servoAfma6FourPoints2DCamVelocityLs_cur.cpp, servoAfma6FourPoints2DCamVelocityLs_des.cpp, servoAfma6Line2DCamVelocity.cpp, servoAfma6Point2DArtVelocity.cpp, servoAfma6Point2DCamVelocity.cpp, servoAfma6Points2DCamVelocityEyeToHand.cpp, servoAfma6Segment2DCamVelocity.cpp, servoAfma6SquareLines2DCamVelocity.cpp, servoAfma6TwoLines2DCamVelocity.cpp, servoBebop2.cpp, servoBiclopsPoint2DArtVelocity.cpp, servoFlirPtuIBVS.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, servoMomentImage.cpp, servoMomentPoints.cpp, servoMomentPolygon.cpp, servoPioneerPanSegment3D.cpp, servoPioneerPoint2DDepth.cpp, servoPioneerPoint2DDepthWithoutVpServo.cpp, servoPtu46Point2DArtVelocity.cpp, servoSimu4Points.cpp, servoSimuAfma6FourPoints2DCamVelocity.cpp, servoSimuCircle2DCamVelocityDisplay.cpp, servoSimuCylinder.cpp, servoSimuCylinder2DCamVelocityDisplay.cpp, servoSimuCylinder2DCamVelocityDisplaySecondaryTask.cpp, servoSimuFourPoints2DCamVelocityDisplay.cpp, servoSimuFourPoints2DPolarCamVelocityDisplay.cpp, servoSimuLine2DCamVelocityDisplay.cpp, servoSimuSphere.cpp, servoSimuSphere2DCamVelocityDisplay.cpp, servoSimuSphere2DCamVelocityDisplaySecondaryTask.cpp, servoSimuSquareLine2DCamVelocityDisplay.cpp, servoSimuViper850FourPoints2DCamVelocity.cpp, servoViper650FourPoints2DArtVelocityLs_cur.cpp, servoViper650FourPoints2DCamVelocityLs_cur-SR300.cpp, servoViper650FourPoints2DCamVelocityLs_cur.cpp, servoViper650Point2DCamVelocity.cpp, servoViper850FourPoints2DArtVelocityLs_cur.cpp, servoViper850FourPoints2DArtVelocityLs_des.cpp, servoViper850FourPoints2DCamVelocityLs_cur.cpp, servoViper850FourPointsKinect.cpp, servoViper850Point2DArtVelocity-jointAvoidance-basic.cpp, servoViper850Point2DArtVelocity-jointAvoidance-gpa.cpp, servoViper850Point2DArtVelocity-jointAvoidance-large.cpp, servoViper850Point2DArtVelocity.cpp, servoViper850Point2DCamVelocity.cpp, servoViper850Point2DCamVelocityKalman.cpp, SickLDMRS-Process.cpp, sonarPioneerReader.cpp, templateTracker.cpp, testClick.cpp, testDisplayPolygonLines.cpp, testDisplayRoi.cpp, testDisplays.cpp, testFeatureSegment.cpp, testForceTorqueAti.cpp, testForceTorqueAtiNetFTSensor.cpp, testForceTorqueIitSensor.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testImageTemplateMatching.cpp, testKeyPoint-2.cpp, testKeyPoint-3.cpp, testKeyPoint-4.cpp, testKeyPoint-5.cpp, testKeyPoint-6.cpp, testKeyPoint.cpp, testMouseEvent.cpp, testNurbs.cpp, testOccipitalStructure_Core_images.cpp, testOccipitalStructure_Core_pcl.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, testRealSense_R200.cpp, testRealSense_SR300.cpp, testRobotAfma6Pose.cpp, testRobotBebop2.cpp, testRobotViper850Pose.cpp, testTrackDot.cpp, testVideoDevice.cpp, testVideoDeviceDual.cpp, testVirtuoseWithGlove.cpp, trackDot.cpp, trackDot2.cpp, trackDot2WithAutoDetection.cpp, trackKltOpencv.cpp, trackMeCircle.cpp, trackMeEllipse.cpp, trackMeLine.cpp, trackMeNurbs.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-apriltag-detector.cpp, tutorial-autothreshold.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-blob-auto-tracker.cpp, tutorial-blob-tracker-live-firewire.cpp, tutorial-blob-tracker-live-v4l2.cpp, tutorial-brightness-adjustment.cpp, tutorial-chessboard-pose.cpp, tutorial-connected-components.cpp, tutorial-contour.cpp, tutorial-contrast-sharpening.cpp, tutorial-count-coins.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-dnn-object-detection-live.cpp, tutorial-draw-cross.cpp, tutorial-draw-line.cpp, tutorial-draw-point.cpp, tutorial-draw-rectangle.cpp, tutorial-draw-text.cpp, tutorial-event-keyboard.cpp, tutorial-export-image.cpp, tutorial-face-detector-live-threaded.cpp, tutorial-face-detector-live.cpp, tutorial-face-detector.cpp, tutorial-flir-ptu-ibvs.cpp, tutorial-flood-fill.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-1394-writer.cpp, tutorial-grabber-1394.cpp, tutorial-grabber-basler-pylon.cpp, tutorial-grabber-bebop2.cpp, tutorial-grabber-CMU1394.cpp, tutorial-grabber-flycapture.cpp, tutorial-grabber-ids-ueye.cpp, tutorial-grabber-multiple-realsense.cpp, tutorial-grabber-opencv-threaded.cpp, tutorial-grabber-opencv.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-grabber-realsense.cpp, tutorial-grabber-rgbd-D435-structurecore.cpp, tutorial-grabber-structure-core.cpp, tutorial-grabber-v4l2-threaded.cpp, tutorial-grabber-v4l2.cpp, tutorial-ibvs-4pts-display.cpp, tutorial-ibvs-4pts-image-tracking.cpp, tutorial-ibvs-4pts-ogre-tracking.cpp, tutorial-ibvs-4pts-wireframe-camera.cpp, tutorial-ibvs-4pts-wireframe-robot-afma6.cpp, tutorial-ibvs-4pts-wireframe-robot-viper.cpp, tutorial-image-display-scaled-auto.cpp, tutorial-image-display-scaled-manu.cpp, tutorial-image-display.cpp, tutorial-image-filter.cpp, tutorial-image-simulator.cpp, tutorial-image-viewer.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, tutorial-klt-tracker.cpp, tutorial-matching-keypoint-homography.cpp, tutorial-matching-keypoint-SIFT.cpp, tutorial-matching-keypoint.cpp, tutorial-matching-surf-deprecated.cpp, tutorial-matching-surf-homography-deprecated.cpp, tutorial-mb-edge-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-blender.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, tutorial-mb-generic-tracker-rgbd.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker-stereo.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, tutorial-mb-tracker.cpp, tutorial-me-ellipse-tracker.cpp, tutorial-me-line-tracker.cpp, tutorial-munkres-assignment.cpp, tutorial-pose-from-points-image.cpp, tutorial-pose-from-points-live.cpp, tutorial-pose-from-points-realsense-T265.cpp, tutorial-pose-from-qrcode-image.cpp, tutorial-simu-pioneer-continuous-gain-adaptive.cpp, tutorial-simu-pioneer-continuous-gain-constant.cpp, tutorial-simu-pioneer-pan.cpp, tutorial-simu-pioneer.cpp, tutorial-template-tracker.cpp, tutorial-video-reader.cpp, tutorial-video-recorder.cpp, tutorial-viewer.cpp, videoReader.cpp, and wireframeSimulator.cpp.

Definition at line 758 of file vpDisplay_uchar.cpp.

Referenced by vpVirtualGrabber::acquire(), vpMbtDistanceCylinder::computeInteractionMatrixError(), vpDot2::defineDots(), vpMbtDistanceCircle::displayMovingEdges(), vpDot2::getFreemanChain(), vpTemplateTrackerZone::initClick(), vpPolygon::initClick(), vpMbTracker::initClick(), vpMeNurbs::initTracking(), vpMeLine::initTracking(), vpMeEllipse::initTracking(), vpDot2::searchDotsInArea(), vpMbDepthDenseTracker::segmentPointCloud(), vpMbDepthNormalTracker::segmentPointCloud(), vpSimulatorAfma6::setPosition(), vpMeLine::track(), vpMeEllipse::track(), vpDot2::trackAndDisplay(), vpSimulatorAfma6::updateArticularPosition(), and vpSimulatorViper850::updateArticularPosition().

◆ flush() [2/2]

void vpDisplay::flush ( const vpImage< vpRGBa > &  I)
static

Flushes the output buffer associated to image I display. It's necessary to use this function to see the results of any drawing.

Warning
This function is particular and must be called to show the overlay. Because it's time spending, use it parcimoniously.
#include <visp3/core/vpColor.h>
#include <visp3/core/vpDisplay.h>
#include <visp3/core/vpImage.h>
#include <visp3/core/vpImagePoint.h>
#include <visp3/gui/vpDisplayGDI.h>
int main() {
vpImage<vpRGBa> I(240, 380);
d.init(I);
vpDisplay::display(I); // display the image
vpImagePoint center;
unsigned int radius = 100;
vpDisplay::flush(I); // Mendatory to display the requested features.
}
See also
flushROI()

Definition at line 756 of file vpDisplay_rgba.cpp.

◆ flushROI() [1/2]

void vpDisplay::flushROI ( const vpImage< unsigned char > &  I,
const vpRect roi 
)
static

Flushes the output buffer associated to image I display. It's necessary to use this function to see the results of any drawing.

Warning
This function is particular and must be called to show the overlay. Because it's time spending, use it parcimoniously.
See also
flush()
Examples:
testDisplayRoi.cpp.

Definition at line 769 of file vpDisplay_uchar.cpp.

◆ flushROI() [2/2]

void vpDisplay::flushROI ( const vpImage< vpRGBa > &  I,
const vpRect roi 
)
static

Flushes the output buffer associated to image I display. It's necessary to use this function to see the results of any drawing.

Warning
This function is particular and must be called to show the overlay. Because it's time spending, use it parcimoniously.
See also
flush()

Definition at line 767 of file vpDisplay_rgba.cpp.

◆ getClick() [1/8]

bool vpDisplay::getClick ( const vpImage< unsigned char > &  I,
bool  blocking = true 
)
static

Wait for a click from one of the mouse button.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
  • true if a button was clicked. This is always the case if blocking is set to true.
  • false if no button was clicked. This can occur if blocking is set to false.
Examples:
BSpline.cpp, displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displaySequence.cpp, displayX.cpp, displayXMulti.cpp, fernClassifier.cpp, grab1394CMU.cpp, grabFlyCapture.cpp, grabOpenCV.cpp, grabRealSense.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, grabV4l2MultiCpp11Thread.cpp, imageSequenceReader.cpp, keyPointSurf.cpp, kinectAcquisition.cpp, manDisplay.cpp, manGeometricFeatures.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, mbtEdgeKltTracking.cpp, mbtEdgeTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, mbtKltTracking.cpp, photometricVisualServoing.cpp, photometricVisualServoingWithoutVpServo.cpp, planarObjectDetector.cpp, plot2d.cpp, servoAfma62DhalfCamVelocity.cpp, servoAfma6Cylinder2DCamVelocity.cpp, servoAfma6Cylinder2DCamVelocitySecondaryTask.cpp, servoAfma6Line2DCamVelocity.cpp, servoAfma6Points2DCamVelocityEyeToHand.cpp, servoAfma6Segment2DCamVelocity.cpp, servoAfma6SquareLines2DCamVelocity.cpp, servoAfma6TwoLines2DCamVelocity.cpp, servoBebop2.cpp, servoBiclopsPoint2DArtVelocity.cpp, servoFlirPtuIBVS.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, servoMomentImage.cpp, servoMomentPoints.cpp, servoMomentPolygon.cpp, servoPioneerPanSegment3D.cpp, servoPioneerPoint2DDepth.cpp, servoPioneerPoint2DDepthWithoutVpServo.cpp, servoPtu46Point2DArtVelocity.cpp, servoSimu4Points.cpp, servoSimuAfma6FourPoints2DCamVelocity.cpp, servoSimuCircle2DCamVelocityDisplay.cpp, servoSimuCylinder.cpp, servoSimuCylinder2DCamVelocityDisplay.cpp, servoSimuCylinder2DCamVelocityDisplaySecondaryTask.cpp, servoSimuFourPoints2DCamVelocityDisplay.cpp, servoSimuFourPoints2DPolarCamVelocityDisplay.cpp, servoSimuLine2DCamVelocityDisplay.cpp, servoSimuSphere.cpp, servoSimuSphere2DCamVelocityDisplay.cpp, servoSimuSphere2DCamVelocityDisplaySecondaryTask.cpp, servoSimuSquareLine2DCamVelocityDisplay.cpp, servoSimuViper850FourPoints2DCamVelocity.cpp, servoViper650FourPoints2DArtVelocityLs_cur.cpp, servoViper650FourPoints2DCamVelocityLs_cur-SR300.cpp, servoViper650FourPoints2DCamVelocityLs_cur.cpp, servoViper650Point2DCamVelocity.cpp, sonarPioneerReader.cpp, templateTracker.cpp, testClick.cpp, testComedi.cpp, testDisplayPolygonLines.cpp, testDisplayRoi.cpp, testDisplays.cpp, testForceTorqueAti.cpp, testForceTorqueAtiNetFTSensor.cpp, testForceTorqueIitSensor.cpp, testGenericTracker.cpp, testGenericTrackerDepth.cpp, testImageTemplateMatching.cpp, testKeyPoint-2.cpp, testKeyPoint-3.cpp, testKeyPoint-4.cpp, testKeyPoint-5.cpp, testKeyPoint-6.cpp, testKeyPoint.cpp, testMouseEvent.cpp, testNurbs.cpp, testOccipitalStructure_Core_images.cpp, testOccipitalStructure_Core_imu.cpp, testOccipitalStructure_Core_pcl.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, testRealSense_R200.cpp, testRealSense_SR300.cpp, testTrackDot.cpp, testVideoDevice.cpp, testVideoDeviceDual.cpp, testVirtuoseWithGlove.cpp, trackDot.cpp, trackDot2.cpp, trackDot2WithAutoDetection.cpp, trackKltOpencv.cpp, trackMeCircle.cpp, trackMeEllipse.cpp, trackMeLine.cpp, trackMeNurbs.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-rgbd-structure-core.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-apriltag-detector.cpp, tutorial-autothreshold.cpp, tutorial-barcode-detector-live.cpp, tutorial-barcode-detector.cpp, tutorial-blob-auto-tracker.cpp, tutorial-blob-tracker-live-firewire.cpp, tutorial-blob-tracker-live-v4l2.cpp, tutorial-brightness-adjustment.cpp, tutorial-chessboard-pose.cpp, tutorial-connected-components.cpp, tutorial-contour.cpp, tutorial-contrast-sharpening.cpp, tutorial-count-coins.cpp, tutorial-detection-object-mbt-deprecated.cpp, tutorial-detection-object-mbt.cpp, tutorial-detection-object-mbt2-deprecated.cpp, tutorial-detection-object-mbt2.cpp, tutorial-dnn-object-detection-live.cpp, tutorial-draw-cross.cpp, tutorial-draw-line.cpp, tutorial-draw-point.cpp, tutorial-draw-rectangle.cpp, tutorial-draw-text.cpp, tutorial-export-image.cpp, tutorial-face-detector-live-threaded.cpp, tutorial-face-detector-live.cpp, tutorial-face-detector.cpp, tutorial-flir-ptu-ibvs.cpp, tutorial-flood-fill.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-1394-writer.cpp, tutorial-grabber-CMU1394.cpp, tutorial-grabber-multiple-realsense.cpp, tutorial-grabber-opencv-threaded.cpp, tutorial-grabber-rgbd-D435-structurecore.cpp, tutorial-grabber-v4l2-threaded.cpp, tutorial-ibvs-4pts-display.cpp, tutorial-ibvs-4pts-image-tracking.cpp, tutorial-ibvs-4pts-ogre-tracking.cpp, tutorial-ibvs-4pts-plotter-continuous-gain-adaptive.cpp, tutorial-ibvs-4pts-plotter-gain-adaptive.cpp, tutorial-ibvs-4pts-plotter.cpp, tutorial-ibvs-4pts-wireframe-camera.cpp, tutorial-ibvs-4pts-wireframe-robot-afma6.cpp, tutorial-ibvs-4pts-wireframe-robot-viper.cpp, tutorial-image-display-scaled-auto.cpp, tutorial-image-display-scaled-manu.cpp, tutorial-image-display.cpp, tutorial-image-filter.cpp, tutorial-image-simulator.cpp, tutorial-image-viewer.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, tutorial-klt-tracker.cpp, tutorial-matching-keypoint-homography.cpp, tutorial-matching-keypoint-SIFT.cpp, tutorial-matching-keypoint.cpp, tutorial-matching-surf-deprecated.cpp, tutorial-matching-surf-homography-deprecated.cpp, tutorial-mb-edge-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-blender.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-mb-generic-tracker-rgbd-structure-core.cpp, tutorial-mb-generic-tracker-rgbd.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker-stereo.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, tutorial-mb-tracker.cpp, tutorial-munkres-assignment.cpp, tutorial-pose-from-points-image.cpp, tutorial-pose-from-points-live.cpp, tutorial-pose-from-points-realsense-T265.cpp, tutorial-pose-from-qrcode-image.cpp, tutorial-simu-pioneer-continuous-gain-adaptive.cpp, tutorial-simu-pioneer-continuous-gain-constant.cpp, tutorial-simu-pioneer-pan.cpp, tutorial-simu-pioneer.cpp, tutorial-template-tracker.cpp, tutorial-video-reader.cpp, tutorial-video-recorder.cpp, tutorial-viewer.cpp, videoReader.cpp, and wireframeSimulator.cpp.

Definition at line 807 of file vpDisplay_uchar.cpp.

Referenced by vpVirtualGrabber::acquire(), vpDot2::defineDots(), getClick(), vpPlot::getPixelValue(), vpTemplateTrackerZone::initClick(), vpPolygon::initClick(), vpMbTracker::initClick(), vpMeNurbs::initTracking(), vpMeLine::initTracking(), vpMeEllipse::initTracking(), vpDot2::initTracking(), vpDot::initTracking(), vpWireFrameSimulator::navigation(), vpImageQueue< Type >::record(), and vpMeEllipse::track().

◆ getClick() [2/8]

bool vpDisplay::getClick ( const vpImage< unsigned char > &  I,
vpImagePoint ip,
bool  blocking = true 
)
static

Wait for a click from one of the mouse button and get the position of the clicked image point.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise. If a button is pressed, the location of the mouse pointer is updated in ip.

Definition at line 827 of file vpDisplay_uchar.cpp.

◆ getClick() [3/8]

bool vpDisplay::getClick ( const vpImage< unsigned char > &  I,
vpImagePoint ip,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
button[out] : The button used to click.
blocking[in] :
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise. If a button is pressed, the location of the mouse pointer is updated in ip.

Definition at line 852 of file vpDisplay_uchar.cpp.

◆ getClick() [4/8]

bool vpDisplay::getClick ( const vpImage< unsigned char > &  I,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
button[out] : The button used to click.
blocking[in] :
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise.

Definition at line 874 of file vpDisplay_uchar.cpp.

References getClick().

◆ getClick() [5/8]

bool vpDisplay::getClick ( const vpImage< vpRGBa > &  I,
bool  blocking = true 
)
static

Wait for a click from one of the mouse button.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
  • true if a button was clicked. This is always the case if blocking is set to true.
  • false if no button was clicked. This can occur if blocking is set to false.

Definition at line 805 of file vpDisplay_rgba.cpp.

◆ getClick() [6/8]

bool vpDisplay::getClick ( const vpImage< vpRGBa > &  I,
vpImagePoint ip,
bool  blocking = true 
)
static

Wait for a click from one of the mouse button and get the position of the clicked image point.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise. If a button is pressed, the location of the mouse pointer is updated in ip.

Definition at line 825 of file vpDisplay_rgba.cpp.

◆ getClick() [7/8]

bool vpDisplay::getClick ( const vpImage< vpRGBa > &  I,
vpImagePoint ip,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
button[out] : The button used to click.
blocking[in] :
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise. If a button is pressed, the location of the mouse pointer is updated in ip.

Definition at line 850 of file vpDisplay_rgba.cpp.

◆ getClick() [8/8]

bool vpDisplay::getClick ( const vpImage< vpRGBa > &  I,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
button[out] : The button used to click.
blocking[in] :
  • When set to true, this method waits until a mouse button is pressed and then returns always true.
  • When set to false, returns true only if a mouse button is pressed, otherwise returns false.
Returns
true if a mouse button is pressed, false otherwise.

Definition at line 872 of file vpDisplay_rgba.cpp.

References getClick().

◆ getClickUp() [1/4]

bool vpDisplay::getClickUp ( const vpImage< unsigned char > &  I,
vpImagePoint ip,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click release and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
button[out] : The clicked button.
blocking[in] :
  • When set to true, this method waits until a mouse button is released and then returns always true.
  • When set to false, returns true only if a mouse button is released, otherwise returns false.
Returns
true if a mouse button is released, false otherwise. If a button is released, the location of the mouse pointer is updated in ip.
Examples:
testClick.cpp.

Definition at line 900 of file vpDisplay_uchar.cpp.

Referenced by getClickUp(), and vpWireFrameSimulator::navigation().

◆ getClickUp() [2/4]

bool vpDisplay::getClickUp ( const vpImage< unsigned char > &  I,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click release and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
button[out] : The clicked button.
blocking[in] :
  • When set to true, this method waits until a mouse button is released and then returns always true.
  • When set to false, returns true only if a mouse button is released, otherwise returns false.
Returns
true if a mouse button is released, false otherwise.

Definition at line 922 of file vpDisplay_uchar.cpp.

References getClickUp().

◆ getClickUp() [3/4]

bool vpDisplay::getClickUp ( const vpImage< vpRGBa > &  I,
vpImagePoint ip,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click release and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the clicked image point.
button[out] : The clicked button.
blocking[in] :
  • When set to true, this method waits until a mouse button is released and then returns always true.
  • When set to false, returns true only if a mouse button is released, otherwise returns false.
Returns
true if a mouse button is released, false otherwise. If a button is released, the location of the mouse pointer is updated in ip.

Definition at line 898 of file vpDisplay_rgba.cpp.

◆ getClickUp() [4/4]

bool vpDisplay::getClickUp ( const vpImage< vpRGBa > &  I,
vpMouseButton::vpMouseButtonType button,
bool  blocking = true 
)
static

Wait for a mouse button click release and get the position of the clicked image point. The button used to click is also set.

Parameters
I[in] : The displayed image.
button[out] : The clicked button.
blocking[in] :
  • When set to true, this method waits until a mouse button is released and then returns always true.
  • When set to false, returns true only if a mouse button is released, otherwise returns false.
Returns
true if a mouse button is released, false otherwise.

Definition at line 920 of file vpDisplay_rgba.cpp.

References getClickUp().

◆ getDownScalingFactor() [1/3]

unsigned int vpDisplay::getDownScalingFactor ( )
inline

Return the value of the down scale factor applied to the image in order to reduce the size of the window used to display the image.

Examples:
mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, testKeyPoint-2.cpp, testKeyPoint-4.cpp, tutorial-grabber-ids-ueye.cpp, and tutorial-template-tracker.cpp.

Definition at line 235 of file vpDisplay.h.

Referenced by vpImageQueue< Type >::record().

◆ getDownScalingFactor() [2/3]

unsigned int vpDisplay::getDownScalingFactor ( const vpImage< unsigned char > &  I)
static

Return the value of the down scale factor applied to the image in order to reduce the size of the window used to display the image.

Parameters
I: Image associated to the display window.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.

Definition at line 1294 of file vpDisplay_uchar.cpp.

◆ getDownScalingFactor() [3/3]

unsigned int vpDisplay::getDownScalingFactor ( const vpImage< vpRGBa > &  I)
static

Return the value of the down scale factor applied to the image in order to reduce the size of the window used to display the image.

Parameters
I: Image associated to the display window.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.

Definition at line 1285 of file vpDisplay_rgba.cpp.

◆ getHeight()

unsigned int vpDisplay::getHeight ( ) const
inline

Return the display height.

See also
getWidth()

Definition at line 240 of file vpDisplay.h.

◆ getImage() [1/2]

void vpDisplay::getImage ( const vpImage< unsigned char > &  Isrc,
vpImage< vpRGBa > &  Idest 
)
static

Get the window pixmap and put it in vpRGBa image.

The code below shows how to use this method.

#include <visp3/core/vpConfig.h>
#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/io/vpImageIo.h>
int main()
{
vpImage<unsigned char> I(240, 320); // Create a black grey level image
vpImage<vpRGBa> Ioverlay;
// Depending on the detected third party libraries, we instantiate here the
// first video device which is available
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Draw a red rectangle in the display overlay (foreground)
vpDisplay::displayRectangle(I, 10, 10, 100, 20, vpColor::red, true);
// Flush the foreground and background display
// Updates the color image with the original loaded image and the overlay
vpDisplay::getImage(I, Ioverlay);
// Write the color image on the disk
std::string ofilename("overlay.ppm");
vpImageIo::write(Ioverlay, ofilename);
// Wait for a click in the display window
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}
Examples:
displayD3D.cpp, displayGTK.cpp, displayOpenCV.cpp, displayX.cpp, displayXMulti.cpp, manDisplay.cpp, manGeometricFeatures.cpp, mbot-apriltag-2D-half-vs.cpp, mbot-apriltag-ibvs.cpp, mbot-apriltag-pbvs.cpp, servoAfma6Points2DCamVelocityEyeToHand.cpp, sonarPioneerReader.cpp, tutorial-export-image.cpp, tutorial-flood-fill.cpp, and tutorial-image-viewer.cpp.

Definition at line 144 of file vpDisplay.cpp.

References vpImageConvert::convert(), and vpImage< Type >::display.

Referenced by getImage().

◆ getImage() [2/2]

void vpDisplay::getImage ( const vpImage< vpRGBa > &  Isrc,
vpImage< vpRGBa > &  Idest 
)
static

Get the window pixmap and put it in vpRGBa image.

The code below shows how to use this method.

#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/io/vpImageIo.h>
int main()
{
vpImage<vpRGBa> I(240, 320); // Create a black RGB color image
vpImage<vpRGBa> Ioverlay;
// Depending on the detected third party libraries, we instantiate here the
// first video device which is available
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Draw a red rectangle in the display overlay (foreground)
vpDisplay::displayRectangle(I, 10, 10, 100, 20, vpColor::red, true);
// Flush the foreground and background display
// Updates the color image with the original loaded image and the overlay
vpDisplay::getImage(I, Ioverlay);
// Write the color image on the disk
std::string ofilename("overlay.ppm");
vpImageIo::write(Ioverlay, ofilename);
// Wait for a click in the display window
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 217 of file vpDisplay.cpp.

References vpImage< Type >::display, and getImage().

◆ getKeyboardEvent() [1/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< unsigned char > &  I,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/core/vpConfig.h>
#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<unsigned char> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, false);
if (event) {
std::cout << "A keyboard event was detected" << std::endl;
cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}
Examples:
tutorial-event-keyboard.cpp.

Definition at line 1011 of file vpDisplay_uchar.cpp.

◆ getKeyboardEvent() [2/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< unsigned char > &  I,
std::string &  key,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
key[out]: If possible, an ISO Latin-1 character corresponding to the keyboard key.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<unsigned char> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
std::string key;
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, key, false);
if (event) {
std::cout << "Key detected: " << key << std::endl;
cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 1102 of file vpDisplay_uchar.cpp.

◆ getKeyboardEvent() [3/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< unsigned char > &  I,
char *  key,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
key[out]: If possible, an ISO Latin-1 character corresponding to the keyboard key.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<unsigned char> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
char key[10];
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, &key[0], false);
if (event) {
std::cout << "Key detected: " << key << std::endl;
cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 1193 of file vpDisplay_uchar.cpp.

◆ getKeyboardEvent() [4/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< vpRGBa > &  I,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/core/vpConfig.h>
#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<vpRGBa> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, false);
if (event) {
std::cout << "A keyboard event was detected" << std::endl; cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 1008 of file vpDisplay_rgba.cpp.

◆ getKeyboardEvent() [5/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< vpRGBa > &  I,
std::string &  key,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
key[out]: If possible, an ISO Latin-1 character corresponding to the keyboard key.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<vpRGBa> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
std::string key;
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, key, false);
if (event) {
std::cout << "Key detected: " << key << std::endl;
cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 1099 of file vpDisplay_rgba.cpp.

◆ getKeyboardEvent() [6/6]

bool vpDisplay::getKeyboardEvent ( const vpImage< vpRGBa > &  I,
char *  key,
bool  blocking = true 
)
static

Get a keyboard event.

Parameters
I[in] : The displayed image.
blocking[in] : Blocking behavior.
  • When set to true, this method waits until a key is pressed and then returns always true.
  • When set to false, returns true only if a key is pressed, otherwise returns false.
key[out]: If possible, an ISO Latin-1 character corresponding to the keyboard key.
Returns
  • true if a key was pressed. This is always the case if blocking is set to true.
  • false if no key was pressed. This can occur if blocking is set to false.

Below you will find an example showing how to use this method.

#include <visp3/gui/vpDisplayD3D.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayGTK.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<vpRGBa> I(240, 320); // Create a black image
#if defined(VISP_HAVE_X11)
d = new vpDisplayX;
#elif defined(VISP_HAVE_GTK)
d = new vpDisplayGTK;
#elif defined(VISP_HAVE_GDI)
d = new vpDisplayGDI;
#elif defined(VISP_HAVE_D3D9)
d = new vpDisplayD3D;
#elif defined(VISP_HAVE_OPENCV)
d = new vpDisplayOpenCV;
#else
std::cout << "Sorry, no video device is available" << std::endl;
return -1;
#endif
// Initialize the display with the image I. Display and image are
// now link together.
#ifdef VISP_HAVE_DISPLAY
d->init(I);
#endif
// Set the display background with image I content
// Flush the foreground and background display
// Wait for keyboard event
std::cout << "Waiting a keyboard event..." << std::endl;
std::cout << "A keyboard event was detected" << std::endl;
// Non blocking keyboard event loop
int cpt_event = 0;
char key[10];
std::cout << "Enter a non blocking keyboard event detection loop..." << std::endl;
do {
bool event = vpDisplay::getKeyboardEvent(I, &key[Ø], false);
if (event) {
std::cout << "Key detected: " << key << std::endl;
cpt_event ++;
}
vpTime::wait(5); // wait 5 ms
} while(cpt_event < 5);
#ifdef VISP_HAVE_DISPLAY
delete d;
#endif
}

Definition at line 1190 of file vpDisplay_rgba.cpp.

◆ getPointerMotionEvent() [1/2]

bool vpDisplay::getPointerMotionEvent ( const vpImage< unsigned char > &  I,
vpImagePoint ip 
)
static

Get the coordinates of the mouse pointer.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the mouse pointer.
Returns
true if a pointer motion event was received, false otherwise.

Definition at line 1207 of file vpDisplay_uchar.cpp.

◆ getPointerMotionEvent() [2/2]

bool vpDisplay::getPointerMotionEvent ( const vpImage< vpRGBa > &  I,
vpImagePoint ip 
)
static

Get the coordinates of the mouse pointer.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the mouse pointer.
Returns
true if a pointer motion event was received, false otherwise.

Definition at line 1204 of file vpDisplay_rgba.cpp.

◆ getPointerPosition() [1/2]

bool vpDisplay::getPointerPosition ( const vpImage< unsigned char > &  I,
vpImagePoint ip 
)
static

Get the coordinates of the mouse pointer.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the mouse pointer.
Returns
true.
Examples:
testClick.cpp.

Definition at line 1221 of file vpDisplay_uchar.cpp.

Referenced by vpPlot::getPixelValue(), vpPlot::navigate(), and vpWireFrameSimulator::navigation().

◆ getPointerPosition() [2/2]

bool vpDisplay::getPointerPosition ( const vpImage< vpRGBa > &  I,
vpImagePoint ip 
)
static

Get the coordinates of the mouse pointer.

Parameters
I[in] : The displayed image.
ip[out] : The coordinates of the mouse pointer.
Returns
true.

Definition at line 1218 of file vpDisplay_rgba.cpp.

◆ getWidth()

unsigned int vpDisplay::getWidth ( ) const
inline

Return the display width.

See also
getHeight()
Examples:
testVideoDeviceDual.cpp.

Definition at line 245 of file vpDisplay.h.

◆ getWindowXPosition()

int vpDisplay::getWindowXPosition ( ) const
inline

Return the position (along the horizontal axis) on the screen of the display window.

See also
getWindowYPosition()

Definition at line 251 of file vpDisplay.h.

Referenced by vpMbTracker::initClick().

◆ getWindowYPosition()

int vpDisplay::getWindowYPosition ( ) const
inline

Return the position (along the vertical axis) on the screen of the display window.

See also
getWindowXPosition()

Definition at line 256 of file vpDisplay.h.

Referenced by vpMbTracker::initClick().

◆ isInitialised()

bool vpDisplay::isInitialised ( )
inline

Check if the display has been initialised

Returns
True if the display has been initialised, otherwise False

Definition at line 263 of file vpDisplay.h.

References vpColor::green, vpColor::none, and vpColor::white.

Referenced by vpPlot::setFont().

◆ setBackground() [1/2]

void vpDisplay::setBackground ( const vpImage< unsigned char > &  I,
const vpColor color 
)
static

Set the window background.

Parameters
I: Image associated to the display window.
colorBackground color.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.

Definition at line 1235 of file vpDisplay_uchar.cpp.

◆ setBackground() [2/2]

void vpDisplay::setBackground ( const vpImage< vpRGBa > &  I,
const vpColor color 
)
static

Set the window background.

Parameters
I: Image associated to the display window.
colorBackground color.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.

Definition at line 1232 of file vpDisplay_rgba.cpp.

◆ setDownScalingFactor() [1/2]

void vpDisplay::setDownScalingFactor ( unsigned int  scale)
virtual

Set the down scale factor applied to the image in order to reduce the display size.

Parameters
scale: Scale factor applied to display a rescaled image.

Reimplemented in vpDisplayWin32.

Examples:
mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtGenericTrackingDepthOnly.cpp, testKeyPoint-2.cpp, testKeyPoint-3.cpp, testKeyPoint-4.cpp, testKeyPoint.cpp, tutorial-autothreshold.cpp, tutorial-grabber-ids-ueye.cpp, tutorial-mb-generic-tracker-stereo.cpp, and tutorial-template-tracker.cpp.

Definition at line 231 of file vpDisplay.cpp.

References m_displayHasBeenInitialized, and m_scale.

Referenced by setScale().

◆ setDownScalingFactor() [2/2]

void vpDisplay::setDownScalingFactor ( vpScaleType  scaleType)
virtual

Set the down scaling factor either in auto mode or set manually.

This method has to be called before display initialization.

#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayX.h>
int main()
{
vpImage<unsigned char> I(480, 640); // Black 640 by 480 image
#ifdef VISP_HAVE_X11
#elif defined VISP_HAVE_GDI
#endif
// Display in a 160 by 120 windows size
d.init(I);
vpDisplay::getClick(I); // wait for a click to quit
}

Reimplemented in vpDisplayWin32.

Definition at line 324 of file vpDisplay.cpp.

References m_displayHasBeenInitialized, and m_scaleType.

◆ setFont() [1/2]

void vpDisplay::setFont ( const vpImage< unsigned char > &  I,
const std::string &  fontname 
)
static

Set the font of a text printed in the display overlay. To print a text you may use displayCharString().

Parameters
I: Image associated to the display window.
fontname: The expected font name.
Note
Under UNIX, the available fonts are given by the "xlsfonts" binary. To choose a font you can also use the "xfontsel" binary.
See also
displayText()

Definition at line 1253 of file vpDisplay_uchar.cpp.

Referenced by vpPlot::setFont().

◆ setFont() [2/2]

void vpDisplay::setFont ( const vpImage< vpRGBa > &  I,
const std::string &  fontname 
)
static

Set the font of a text printed in the display overlay. To print a text you may use displayCharString().

Parameters
I: Image associated to the display window.
fontname: The expected font name.
Note
Under UNIX, the available fonts are given by the "xlsfonts" binary. To choose a font you can also use the "xfontsel" binary.
See also
displayText()

Definition at line 1247 of file vpDisplay_rgba.cpp.

◆ setScale()

void vpDisplay::setScale ( vpScaleType  scaleType,
unsigned int  width,
unsigned int  height 
)
protected

◆ setTitle() [1/2]

◆ setTitle() [2/2]

void vpDisplay::setTitle ( const vpImage< vpRGBa > &  I,
const std::string &  windowtitle 
)
static

Set the windows title.

Note
This functionality is not implemented when vpDisplayOpenCV is used.
Parameters
I: Image associated to the display window.
windowtitle: Window title.

Definition at line 1256 of file vpDisplay_rgba.cpp.

◆ setWindowPosition() [1/2]

void vpDisplay::setWindowPosition ( const vpImage< unsigned char > &  I,
int  winx,
int  winy 
)
static

Set the window position in the screen.

Parameters
I: Image associated to the display window.
winx,winy: Position of the upper-left window's border in the screen.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.
Examples:
servoSimu4Points.cpp, servoSimuCylinder.cpp, servoSimuSphere.cpp, and wireframeSimulator.cpp.

Definition at line 1280 of file vpDisplay_uchar.cpp.

◆ setWindowPosition() [2/2]

void vpDisplay::setWindowPosition ( const vpImage< vpRGBa > &  I,
int  winx,
int  winy 
)
static

Set the window position in the screen.

Parameters
I: Image associated to the display window.
winx,winy: Position of the upper-left window's border in the screen.
Exceptions
vpDisplayException::notInitializedError: If the video device is not initialized.

Definition at line 1271 of file vpDisplay_rgba.cpp.

Member Data Documentation

◆ m_displayHasBeenInitialized

bool vpDisplay::m_displayHasBeenInitialized
protected

display has been initialized

Definition at line 210 of file vpDisplay.h.

Referenced by vpDisplayX::clearDisplay(), vpDisplayWin32::closeDisplay(), vpDisplayX::closeDisplay(), vpDisplayGTK::closeDisplay(), vpDisplayOpenCV::closeDisplay(), vpDisplayX::displayArrow(), vpDisplayGTK::displayArrow(), vpDisplayOpenCV::displayArrow(), vpDisplayX::displayCharString(), vpDisplayGTK::displayCharString(), vpDisplayOpenCV::displayCharString(), vpDisplayX::displayCircle(), vpDisplayGTK::displayCircle(), vpDisplayOpenCV::displayCircle(), vpDisplayX::displayCross(), vpDisplayGTK::displayCross(), vpDisplayOpenCV::displayCross(), vpDisplayX::displayDotLine(), vpDisplayGTK::displayDotLine(), vpDisplayOpenCV::displayDotLine(), vpDisplayX::displayImage(), vpDisplayGTK::displayImage(), vpDisplayOpenCV::displayImage(), vpDisplayX::displayImageROI(), vpDisplayGTK::displayImageROI(), vpDisplayOpenCV::displayImageROI(), vpDisplayX::displayLine(), vpDisplayGTK::displayLine(), vpDisplayOpenCV::displayLine(), vpDisplayX::displayPoint(), vpDisplayGTK::displayPoint(), vpDisplayOpenCV::displayPoint(), vpDisplayX::displayRectangle(), vpDisplayGTK::displayRectangle(), vpDisplayOpenCV::displayRectangle(), vpDisplayX::flushDisplay(), vpDisplayGTK::flushDisplay(), vpDisplayOpenCV::flushDisplay(), vpDisplayX::flushDisplayROI(), vpDisplayGTK::flushDisplayROI(), vpDisplayOpenCV::flushDisplayROI(), vpDisplayX::getClick(), vpDisplayGTK::getClick(), vpDisplayOpenCV::getClick(), vpDisplayX::getClickUp(), vpDisplayGTK::getClickUp(), vpDisplayOpenCV::getClickUp(), vpDisplayX::getImage(), vpDisplayGTK::getImage(), vpDisplayX::getKeyboardEvent(), vpDisplayGTK::getKeyboardEvent(), vpDisplayOpenCV::getKeyboardEvent(), vpDisplayX::getPointerMotionEvent(), vpDisplayGTK::getPointerMotionEvent(), vpDisplayOpenCV::getPointerMotionEvent(), vpDisplayX::getPointerPosition(), vpDisplayGTK::getPointerPosition(), vpDisplayOpenCV::getPointerPosition(), vpDisplayGTK::getScreenSize(), vpDisplayWin32::init(), vpDisplayX::init(), vpDisplayGTK::init(), vpDisplayOpenCV::init(), setDownScalingFactor(), vpDisplayX::setFont(), vpDisplayGTK::setTitle(), vpDisplayX::setTitle(), vpDisplayGTK::setWindowPosition(), vpDisplayX::setWindowPosition(), vpDisplayOpenCV::setWindowPosition(), and ~vpDisplay().

◆ m_height

◆ m_scale

unsigned int vpDisplay::m_scale
protected

Definition at line 218 of file vpDisplay.h.

Referenced by vpDisplayX::displayCharString(), vpDisplayGTK::displayCharString(), vpDisplayOpenCV::displayCharString(), vpDisplayX::displayCircle(), vpDisplayGTK::displayCircle(), vpDisplayOpenCV::displayCircle(), vpDisplayX::displayDotLine(), vpDisplayGTK::displayDotLine(), vpDisplayOpenCV::displayDotLine(), vpDisplayX::displayImage(), vpDisplayGTK::displayImage(), vpDisplayOpenCV::displayImage(), vpDisplayX::displayImageROI(), vpDisplayGTK::displayImageROI(), vpDisplayOpenCV::displayImageROI(), vpDisplayX::displayLine(), vpDisplayGTK::displayLine(), vpDisplayOpenCV::displayLine(), vpDisplayWin32::displayPoint(), vpDisplayX::displayPoint(), vpDisplayGTK::displayPoint(), vpDisplayOpenCV::displayPoint(), vpDisplayX::displayRectangle(), vpDisplayGTK::displayRectangle(), vpDisplayOpenCV::displayRectangle(), vpDisplayX::flushDisplayROI(), vpDisplayWin32::getClick(), vpDisplayX::getClick(), vpDisplayGTK::getClick(), vpDisplayOpenCV::getClick(), vpDisplayWin32::getClickUp(), vpDisplayX::getClickUp(), vpDisplayGTK::getClickUp(), vpDisplayOpenCV::getClickUp(), vpDisplayWin32::getPointerMotionEvent(), vpDisplayX::getPointerMotionEvent(), vpDisplayGTK::getPointerMotionEvent(), vpDisplayOpenCV::getPointerMotionEvent(), vpDisplayWin32::getPointerPosition(), vpDisplayX::getPointerPosition(), vpDisplayGTK::getPointerPosition(), vpDisplayOpenCV::getPointerPosition(), vpDisplayWin32::init(), vpDisplayX::init(), vpDisplayGTK::init(), vpDisplayOpenCV::init(), and setDownScalingFactor().

◆ m_scaleType

vpScaleType vpDisplay::m_scaleType
protected

◆ m_title

◆ m_width

◆ m_windowXPosition

◆ m_windowYPosition