Adding a Trackbar to our applications! {#tutorial_trackbar} ====================================== @tableofcontents @next_tutorial{tutorial_raster_io_gdal} | | | | -: | :- | | Original author | Ana Huamán | | Compatibility | OpenCV >= 3.0 | - In the previous tutorials (about @ref tutorial_adding_images and the @ref tutorial_basic_linear_transform) you might have noted that we needed to give some **input** to our programs, such as \f$\alpha\f$ and \f$beta\f$. We accomplished that by entering this data using the Terminal. - Well, it is time to use some fancy GUI tools. OpenCV provides some GUI utilities (**highgui** module) for you. An example of this is a **Trackbar**. ![](images/Adding_Trackbars_Tutorial_Trackbar.png) - In this tutorial we will just modify our two previous programs so that they get the input information from the trackbar. Goals ----- In this tutorial you will learn how to: - Add a Trackbar in an OpenCV window by using @ref cv::createTrackbar Code ---- Let's modify the program made in the tutorial @ref tutorial_adding_images. We will let the user enter the \f$\alpha\f$ value by using the Trackbar. @add_toggle_cpp This tutorial code's is shown lines below. You can also download it from [here](https://github.com/opencv/opencv/tree/master/samples/cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp) @include cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp @end_toggle @add_toggle_java This tutorial code's is shown lines below. You can also download it from [here](https://github.com/opencv/opencv/tree/master/samples/java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java) @include java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java @end_toggle @add_toggle_python This tutorial code's is shown lines below. You can also download it from [here](https://github.com/opencv/opencv/tree/master/samples/python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py) @include python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py @end_toggle Explanation ----------- We only analyze the code that is related to Trackbar: - First, we load two images, which are going to be blended. @add_toggle_cpp @snippet cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp load @end_toggle @add_toggle_java @snippet java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java load @end_toggle @add_toggle_python @snippet python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py load @end_toggle - To create a trackbar, first we have to create the window in which it is going to be located. So: @add_toggle_cpp @snippet cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp window @end_toggle @add_toggle_java @snippet java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java window @end_toggle @add_toggle_python @snippet python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py window @end_toggle - Now we can create the Trackbar: @add_toggle_cpp @snippet cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp create_trackbar @end_toggle @add_toggle_java @snippet java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java create_trackbar @end_toggle @add_toggle_python @snippet python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py create_trackbar @end_toggle Note the following (C++ code): - Our Trackbar has a label **TrackbarName** - The Trackbar is located in the window named **Linear Blend** - The Trackbar values will be in the range from \f$0\f$ to **alpha_slider_max** (the minimum limit is always **zero**). - The numerical value of Trackbar is stored in **alpha_slider** - Whenever the user moves the Trackbar, the callback function **on_trackbar** is called Finally, we have to define the callback function **on_trackbar** for C++ and Python code, using an anonymous inner class listener in Java @add_toggle_cpp @snippet cpp/tutorial_code/HighGUI/AddingImagesTrackbar.cpp on_trackbar @end_toggle @add_toggle_java @snippet java/tutorial_code/highgui/trackbar/AddingImagesTrackbar.java on_trackbar @end_toggle @add_toggle_python @snippet python/tutorial_code/highgui/trackbar/AddingImagesTrackbar.py on_trackbar @end_toggle Note that (C++ code): - We use the value of **alpha_slider** (integer) to get a double value for **alpha**. - **alpha_slider** is updated each time the trackbar is displaced by the user. - We define *src1*, *src2*, *dist*, *alpha*, *alpha_slider* and *beta* as global variables, so they can be used everywhere. Result ------ - Our program produces the following output: ![](images/Adding_Trackbars_Tutorial_Result_0.jpg) - As a manner of practice, you can also add two trackbars for the program made in @ref tutorial_basic_linear_transform. One trackbar to set \f$\alpha\f$ and another for set \f$\beta\f$. The output might look like: ![](images/Adding_Trackbars_Tutorial_Result_1.jpg)