some of the tutorials

2013-09-07 15:44:26 +02:00 · 2013-09-07 15:44:26 +02:00 · 7116e22b52
commit 7116e22b52
parent fcf437cf69
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--- a/doc/tutorials/viz/creating_widgets.rst
+++ b/doc/tutorials/viz/creating_widgets.rst
@ -0,0 +1,155 @@
 .. _creating_widgets:
 Creating Widgets
 ****************
 Goal
 ====
 In this tutorial you will learn how to
 .. container:: enumeratevisibleitemswithsquare
  * Create your own widgets using WidgetAccessor and VTK.
  * Show your widget in the visualization window.
 Code
 ====
 You can download the code from `here <../../../../samples/cpp/tutorial_code/viz/creating_widgets.cpp>`_.
 .. code-block:: cpp
    #include <opencv2/viz.hpp>
    #include <opencv2/viz/widget_accessor.hpp> 
    #include <iostream>
    #include <vtkPoints.h>
    #include <vtkTriangle.h>
    #include <vtkCellArray.h>
    #include <vtkPolyData.h>
    #include <vtkPolyDataMapper.h>
    #include <vtkIdList.h>
    #include <vtkActor.h>
    #include <vtkProp.h>
    using namespace cv;
    using namespace std;
    /**
     * @class TriangleWidget
     * @brief Defining our own 3D Triangle widget
     */
    class TriangleWidget : public viz::Widget3D
    {
        public:
            TriangleWidget(const Point3f &pt1, const Point3f &pt2, const Point3f &pt3, const viz::Color & color = viz::Color::white()); 
    };
    /**
     * @function TriangleWidget::TriangleWidget
     */
    TriangleWidget::TriangleWidget(const Point3f &pt1, const Point3f &pt2, const Point3f &pt3, const viz::Color & color)
    {
        // Create a triangle
        vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
        points->InsertNextPoint(pt1.x, pt1.y, pt1.z);
        points->InsertNextPoint(pt2.x, pt2.y, pt2.z);
        points->InsertNextPoint(pt3.x, pt3.y, pt3.z);
        vtkSmartPointer<vtkTriangle> triangle = vtkSmartPointer<vtkTriangle>::New();
        triangle->GetPointIds()->SetId(0,0);
        triangle->GetPointIds()->SetId(1,1);
        triangle->GetPointIds()->SetId(2,2);
        vtkSmartPointer<vtkCellArray> cells = vtkSmartPointer<vtkCellArray>::New();
        cells->InsertNextCell(triangle);
        // Create a polydata object
        vtkSmartPointer<vtkPolyData> polyData = vtkSmartPointer<vtkPolyData>::New();
        // Add the geometry and topology to the polydata
        polyData->SetPoints(points);
        polyData->SetPolys(cells);
        // Create mapper and actor
        vtkSmartPointer<vtkPolyDataMapper> mapper = vtkSmartPointer<vtkPolyDataMapper>::New();
        mapper->SetInput(polyData);
        vtkSmartPointer<vtkActor> actor = vtkSmartPointer<vtkActor>::New();
        actor->SetMapper(mapper);
        // Store this actor in the widget in order that visualizer can access it
        viz::WidgetAccessor::setProp(*this, actor);
        // Set the color of the widget. This has to be called after WidgetAccessor.
        setColor(color);
    }
    /**
     * @function main
     */
    int main()
    {        
        /// Create a window
        viz::Viz3d myWindow("Creating Widgets");
        /// Create a triangle widget
        TriangleWidget tw(Point3f(0.0,0.0,0.0), Point3f(1.0,1.0,1.0), Point3f(0.0,1.0,0.0), viz::Color::red());
        /// Show widget in the visualizer window
        myWindow.showWidget("TRIANGLE", tw);
        /// Start event loop
        myWindow.spin();
        return 0;
    }
 Explanation
 ===========
 Here is the general structure of the program:
 * Extend Widget3D class to create a new 3D widget.
 .. code-block:: cpp
    class TriangleWidget : public viz::Widget3D
    {
        public:
            TriangleWidget(const Point3f &pt1, const Point3f &pt2, const Point3f &pt3, const viz::Color & color = viz::Color::white()); 
    };
 * Assign a VTK actor to the widget.
 .. code-block:: cpp
    // Store this actor in the widget in order that visualizer can access it
    viz::WidgetAccessor::setProp(*this, actor);
 * Set color of the widget.
 .. code-block:: cpp
    // Set the color of the widget. This has to be called after WidgetAccessor.
    setColor(color);
 * Construct a triangle widget and display it in the window.
 .. code-block:: cpp
    /// Create a triangle widget
    TriangleWidget tw(Point3f(0.0,0.0,0.0), Point3f(1.0,1.0,1.0), Point3f(0.0,1.0,0.0), viz::Color::red());
    /// Show widget in the visualizer window
    myWindow.showWidget("TRIANGLE", tw);
 Results
 =======
 Here is the result of the program.
 .. image:: images/red_triangle.png
    :alt: Creating Widgets
    :align: center
--- a/doc/tutorials/viz/launching_viz.rst
+++ b/doc/tutorials/viz/launching_viz.rst
@ -0,0 +1,118 @@
 .. _launching_viz:
 Launching Viz
 *************
 Goal
 ====
 In this tutorial you will learn how to
 .. container:: enumeratevisibleitemswithsquare
  * Open a visualization window.
  * Access a window by its name.
  * Start event loop.
  * Start event loop for a given amount of time.
 Code
 ====
 You can download the code from `here <../../../../samples/cpp/tutorial_code/viz/launching_viz.cpp>`_.
 .. code-block:: cpp
    #include <opencv2/viz.hpp>
    #include <iostream>
    using namespace cv;
    using namespace std;
    /**
    * @function main
    */
    int main()
    {
        /// Create a window
        viz::Viz3d myWindow("Viz Demo");
        /// Start event loop
        myWindow.spin();
        /// Event loop is over when pressed q, Q, e, E
        cout << "First event loop is over" << endl;
        /// Access window via its name
        viz::Viz3d sameWindow = viz::get("Viz Demo");
        /// Start event loop
        sameWindow.spin();
        /// Event loop is over when pressed q, Q, e, E
        cout << "Second event loop is over" << endl;
        /// Event loop is over when pressed q, Q, e, E
        /// Start event loop once for 1 millisecond
        sameWindow.spinOnce(1, true);
        while(!sameWindow.wasStopped())
        {
            /// Interact with window
            /// Event loop for 1 millisecond
            sameWindow.spinOnce(1, true);
        }
        /// Once more event loop is stopped
        cout << "Last event loop is over" << endl;
        return 0;
    }
 Explanation
 ===========
 Here is the general structure of the program:
 * Create a window.
 .. code-block:: cpp
    /// Create a window
    viz::Viz3d myWindow("Viz Demo");
 * Start event loop. This event loop will run until user terminates it by pressing **e**, **E**, **q**, **Q**.
 .. code-block:: cpp
    /// Start event loop
    myWindow.spin();
 * Access same window via its name. Since windows are implicitly shared, **sameWindow** is exactly the same with **myWindow**. If the name does not exist, a new window is created.
 .. code-block:: cpp
    /// Access window via its name
    viz::Viz3d sameWindow = viz::get("Viz Demo");
 * Start a controlled event loop. Once it starts, **wasStopped** is set to false. Inside the while loop, in each iteration, **spinOnce** is called to prevent event loop from completely stopping. Inside the while loop, user can execute other statements including those which interact with the window.
 .. code-block:: cpp
    /// Event loop is over when pressed q, Q, e, E
    /// Start event loop once for 1 millisecond
    sameWindow.spinOnce(1, true);
    while(!sameWindow.wasStopped())
    {
        /// Interact with window
        /// Event loop for 1 millisecond
        sameWindow.spinOnce(1, true);
    }
 Results
 =======
 Here is the result of the program.
 .. image:: images/window_demo.png
    :alt: Launching Viz
    :align: center
--- a/doc/tutorials/viz/widget_pose.rst
+++ b/doc/tutorials/viz/widget_pose.rst
@ -0,0 +1,162 @@
 .. _widget_pose:
 Pose of a widget
 ****************
 Goal
 ====
 In this tutorial you will learn how to
 .. container:: enumeratevisibleitemswithsquare
  * Add widgets to the visualization window
  * Use Affine3 to set pose of a widget
  * Rotating and translating a widget along an axis
 Code
 ====
 You can download the code from `here <../../../../samples/cpp/tutorial_code/viz/widget_pose.cpp>`_.
 .. code-block:: cpp
    #include <opencv2/viz.hpp>
    #include <opencv2/calib3d.hpp>
    #include <iostream>
    using namespace cv;
    using namespace std;
    /**
     * @function main
     */
    int main()
    {
        /// Create a window
        viz::Viz3d myWindow("Coordinate Frame");
        /// Add coordinate axes
        myWindow.showWidget("Coordinate Widget", viz::CoordinateSystemWidget());
        /// Add line to represent (1,1,1) axis
        viz::LineWidget axis(Point3f(-1.0f,-1.0f,-1.0f), Point3f(1.0f,1.0f,1.0f));
        axis.setRenderingProperty(viz::VIZ_LINE_WIDTH, 4.0);
        myWindow.showWidget("Line Widget", axis);
        /// Construct a cube widget
        viz::CubeWidget cube_widget(Point3f(0.5,0.5,0.0), Point3f(0.0,0.0,-0.5), true, viz::Color::blue());
        cube_widget.setRenderingProperty(viz::VIZ_LINE_WIDTH, 4.0);
        /// Display widget (update if already displayed)
        myWindow.showWidget("Cube Widget", cube_widget); 
        /// Rodrigues vector
        Mat rot_vec = Mat::zeros(1,3,CV_32F);
        float translation_phase = 0.0, translation = 0.0;
        while(!myWindow.wasStopped())
        {
            /* Rotation using rodrigues */
            /// Rotate around (1,1,1)
            rot_vec.at<float>(0,0) += CV_PI * 0.01f;
            rot_vec.at<float>(0,1) += CV_PI * 0.01f;
            rot_vec.at<float>(0,2) += CV_PI * 0.01f;
            /// Shift on (1,1,1)
            translation_phase += CV_PI * 0.01f;
            translation = sin(translation_phase);
            Mat rot_mat;
            Rodrigues(rot_vec, rot_mat); 
            /// Construct pose
            Affine3f pose(rot_mat, Vec3f(translation, translation, translation));
            myWindow.setWidgetPose("Cube Widget", pose);
            myWindow.spinOnce(1, true);
        }
        return 0;
    }
 Explanation
 ===========
 Here is the general structure of the program:
 * Create a visualization window.
 .. code-block:: cpp
    /// Create a window
    viz::Viz3d myWindow("Coordinate Frame");
 * Show coordinate axes in the window using CoordinateSystemWidget.
 .. code-block:: cpp
    /// Add coordinate axes
    myWindow.showWidget("Coordinate Widget", viz::CoordinateSystemWidget());
 * Display a line representing the axis (1,1,1).
 .. code-block:: cpp
    /// Add line to represent (1,1,1) axis
    viz::LineWidget axis(Point3f(-1.0f,-1.0f,-1.0f), Point3f(1.0f,1.0f,1.0f));
    axis.setRenderingProperty(viz::VIZ_LINE_WIDTH, 4.0);
    myWindow.showWidget("Line Widget", axis);
 * Construct a cube.
 .. code-block:: cpp
    /// Construct a cube widget
    viz::CubeWidget cube_widget(Point3f(0.5,0.5,0.0), Point3f(0.0,0.0,-0.5), true, viz::Color::blue());
    cube_widget.setRenderingProperty(viz::VIZ_LINE_WIDTH, 4.0);
    myWindow.showWidget("Cube Widget", cube_widget); 
 * Create rotation matrix from rodrigues vector
 .. code-block:: cpp
    /// Rotate around (1,1,1)
    rot_vec.at<float>(0,0) += CV_PI * 0.01f;
    rot_vec.at<float>(0,1) += CV_PI * 0.01f;
    rot_vec.at<float>(0,2) += CV_PI * 0.01f;
    ...
    Mat rot_mat;
    Rodrigues(rot_vec, rot_mat); 
 * Use Affine3f to set pose of the cube.    
 .. code-block:: cpp
    /// Construct pose
    Affine3f pose(rot_mat, Vec3f(translation, translation, translation));
    myWindow.setWidgetPose("Cube Widget", pose);
 * Animate the rotation using wasStopped and spinOnce
 .. code-block:: cpp
    while(!myWindow.wasStopped())
    {
        ...
        myWindow.spinOnce(1, true);
    }
 Results
 =======
 Here is the result of the program.
 .. raw:: html
  <div align="center">
  <iframe width="420" height="315" src="https://www.youtube.com/embed/Jo47zc6-hvI" frameborder="0" allowfullscreen></iframe>
  </div>
--- a/samples/cpp/tutorial_code/viz/widget_pose.cpp
+++ b/samples/cpp/tutorial_code/viz/widget_pose.cpp
@ -0,0 +1,79 @@
 /**
 * @file creating_widgets.cpp
 * @brief Creating custom widgets using VTK
 * @author Ozan Cagri Tonkal
 */
 #include <opencv2/viz.hpp>
 #include <opencv2/calib3d.hpp>
 #include <iostream>
 using namespace cv;
 using namespace std;
 /**
 * @function help
 * @brief Display instructions to use this tutorial program
 */
 void help()
 {
    cout
    << "--------------------------------------------------------------------------"   << endl
    << "This program shows how to visualize a cube rotated around (1,1,1) and shifted "
    << "using Rodrigues matrix."                                                      << endl
    << "Usage:"                                                                       << endl
    << "./coordinate_frame"                                                           << endl
    << endl;
 }
 /**
 * @function main
 */
 int main()
 {
    help();
    /// Create a window
    viz::Viz3d myWindow("Coordinate Frame");
    /// Add coordinate axes
    myWindow.showWidget("Coordinate Widget", viz::CoordinateSystemWidget());
    /// Add line to represent (1,1,1) axis
    viz::LineWidget axis(Point3f(-1.0f,-1.0f,-1.0f), Point3f(1.0f,1.0f,1.0f));
    axis.setRenderingProperty(viz::LINE_WIDTH, 4.0);
    myWindow.showWidget("Line Widget", axis);
    /// Construct a cube widget
    viz::CubeWidget cube_widget(Point3f(0.5,0.5,0.0), Point3f(0.0,0.0,-0.5), true, viz::Color::blue());
    cube_widget.setRenderingProperty(viz::LINE_WIDTH, 4.0);
    myWindow.showWidget("Cube Widget", cube_widget); 
    /// Rodrigues vector
    Mat rot_vec = Mat::zeros(1,3,CV_32F);
    float translation_phase = 0.0, translation = 0.0;
    while(!myWindow.wasStopped())
    {
        /* Rotation using rodrigues */
        /// Rotate around (1,1,1)
        rot_vec.at<float>(0,0) += CV_PI * 0.01f;
        rot_vec.at<float>(0,1) += CV_PI * 0.01f;
        rot_vec.at<float>(0,2) += CV_PI * 0.01f;
        /// Shift on (1,1,1)
        translation_phase += CV_PI * 0.01f;
        translation = sin(translation_phase);
        Mat rot_mat;
        Rodrigues(rot_vec, rot_mat); 
        /// Construct pose
        Affine3f pose(rot_mat, Vec3f(translation, translation, translation));
        myWindow.setWidgetPose("Cube Widget", pose);
        myWindow.spinOnce(1, true);
    }
    return 0;
 }