15.9. GUI Widgets

As we discussed in the introduction, a GUI program allows a user to interact with a computer program using a pointing device that manipulates small pictures called icons or widgets. The first task of a GUI program is to create the widgets needed for a program’s interface. Each widget is designed for specific purposes and your program will be more user friendly if you use each widget according to its intended purpose.

Widgets are basically images on a computer screen and they have a “look-and-feel” depending on the details of how the image is drawn. The “look-and-feel” of a widget is typically controlled by the operating system. For example, GUI programs on a Macintosh computer typically look different from programs on a Microsoft Windows computer. The tkinter module implements two versions of widgets: one is “generic,” which makes widgets look the same regardless of what computer your program is running on, and the other implements widgets that emulate a computer’s “look-and-feel”. How you import the tkinter module determines which widgets are defined. Using the import statements shown below, the standard convention uses the name tk to access the “generic” widgets and the name ttk to access the stylized, “look-and-feel” widgets. You always need to import the tk functionality because that allows you to create an application window. You can import the ttk functionality if you want “look-and-feel” widgets. You can inter-mix the tk and ttk widgets in an interface if you so choose.

# To use the "generic" widgets
import tkinter as tk

# To use the stylized, "look-and-feel" widgets
from tkinter import ttk

The following two charts list the standard, pre-defined widgets in the tkinter module.

The following widgets are used for user input. In some cases you have a choice between the tk and ttk versions. In other cases you must use the tk version because the equivalent ttk versions don’t exist.

Widget

Purpose

tk.Button, ttk.Button

Execute a specific task; a “do this now” command.

tk.Menu

Implements toplevel, pulldown, and popup menus.

ttk.Menubutton

Displays popup or pulldown menu items when activated.

tk.OptionMenu

Creates a popup menu, and a button to display it.

tk.Entry, ttk.Entry

Enter one line of text.

tk.Text

Display and edit formatted text, possibly with multiple lines.

tk.Checkbutton, ttk.Checkbutton

Set on-off, True-False selections.

tk.Radiobutton, ttk.Radiobutton

Allow one-of-many selections.

tk.Listbox

Choose one or more alternatives from a list.

ttk.Combobox

Combines a text field with a pop-down list of values.

tk.Scale, ttk.Scale

Select a numerical value by moving a “slider” along a scale.

The following figure shows examples of these widgets. You can download and run this python program, all_user_input_widgets.py, to interact with the widgets.

../_images/All_user_input_widgets.png

Examples of user input widgets

The following widgets display information to a user, but have no user interaction:

Widget

Purpose

tk.Label, ttk.Label

Display static text or an image.

tk.Message

Display static multi-line text.

ttk.Separator

Displays a horizontal or vertical separator bar.

ttk.Progressbar

Shows the status of a long-running operation.

ttk.Treeview

Displays a hierarchical collection of items.

You do not need to memorize the above lists, but you should probably re-read the lists again so that you are familiar with what is possible in a TKinter GUI interface. (Note that the TKinter module is customizable, which means that you can create your own widgets, but that is beyond what we will study in these lessons.)

15.10. Creating Widgets

After importing the Tkinter modules as shown above, the first thing you need to do is create a window for your application. This is done by creating a Tk object:

application_window = tk.Tk()

Then you create widgets and add them to the window’s widget hierarchy. For example, to create a button you would call either the tk or the ttk Button method and send the application_window as the first argument:

cmd_button = tk.Button(application_window, text="Example")
# or
cmd_button = ttk.Button(application_window, text="Example")

The parameters needed to correctly create each widget varies, so you will need to refer to the Python documentation for each specific widget type. As of fall 2016, the most current version of the Tkinter module is version 25 and its documentation can be found at https://docs.python.org/3/library/tk.html

Notice that in the above code, Tk() and Button() are both capitalized. By convention, this indicates that the window and the button are instances of a Python class. The Tkinter module is entirely object-oriented and makes extensive use of object-oriented language features.

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