mirror of https://github.com/python/cpython
1042 lines
41 KiB
ReStructuredText
1042 lines
41 KiB
ReStructuredText
:mod:`tkinter` --- Python interface to Tcl/Tk
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=============================================
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.. module:: tkinter
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:synopsis: Interface to Tcl/Tk for graphical user interfaces
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.. moduleauthor:: Guido van Rossum <guido@Python.org>
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**Source code:** :source:`Lib/tkinter/__init__.py`
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--------------
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The :mod:`tkinter` package ("Tk interface") is the standard Python interface to
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the Tcl/Tk GUI toolkit. Both Tk and :mod:`tkinter` are available on most Unix
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platforms, including macOS, as well as on Windows systems.
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Running ``python -m tkinter`` from the command line should open a window
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demonstrating a simple Tk interface, letting you know that :mod:`tkinter` is
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properly installed on your system, and also showing what version of Tcl/Tk is
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installed, so you can read the Tcl/Tk documentation specific to that version.
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Tkinter supports a range of Tcl/Tk versions, built either with or
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without thread support. The official Python binary release bundles Tcl/Tk 8.6
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threaded. See the source code for the :mod:`_tkinter` module
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for more information about supported versions.
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Tkinter is not a thin wrapper, but adds a fair amount of its own logic to
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make the experience more pythonic. This documentation will concentrate on these
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additions and changes, and refer to the official Tcl/Tk documentation for
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details that are unchanged.
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.. note::
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Tcl/Tk 8.5 (2007) introduced a modern set of themed user interface components
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along with a new API to use them. Both old and new APIs are still available.
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Most documentation you will find online still uses the old API and
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can be woefully outdated.
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.. seealso::
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* `TkDocs <https://tkdocs.com/>`_
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Extensive tutorial on creating user interfaces with Tkinter. Explains key concepts,
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and illustrates recommended approaches using the modern API.
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* `Tkinter 8.5 reference: a GUI for Python <https://www.tkdocs.com/shipman/>`_
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Reference documentation for Tkinter 8.5 detailing available classes, methods, and options.
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Tcl/Tk Resources:
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* `Tk commands <https://www.tcl.tk/man/tcl8.6/TkCmd/contents.htm>`_
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Comprehensive reference to each of the underlying Tcl/Tk commands used by Tkinter.
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* `Tcl/Tk Home Page <https://www.tcl.tk>`_
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Additional documentation, and links to Tcl/Tk core development.
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Books:
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* `Modern Tkinter for Busy Python Developers <https://tkdocs.com/book.html>`_
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By Mark Roseman. (ISBN 978-1999149567)
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* `Python and Tkinter Programming <https://www.packtpub.com/product/python-gui-programming-with-tkinter/9781788835886>`_
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By Alan Moore. (ISBN 978-1788835886)
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* `Programming Python <https://learning-python.com/about-pp4e.html>`_
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By Mark Lutz; has excellent coverage of Tkinter. (ISBN 978-0596158101)
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* `Tcl and the Tk Toolkit (2nd edition) <https://www.amazon.com/exec/obidos/ASIN/032133633X>`_
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By John Ousterhout, inventor of Tcl/Tk, and Ken Jones; does not cover Tkinter. (ISBN 978-0321336330)
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Architecture
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------------
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Tcl/Tk is not a single library but rather consists of a few distinct
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modules, each with separate functionality and its own official
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documentation. Python's binary releases also ship an add-on module
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together with it.
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Tcl
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Tcl is a dynamic interpreted programming language, just like Python. Though
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it can be used on its own as a general-purpose programming language, it is
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most commonly embedded into C applications as a scripting engine or an
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interface to the Tk toolkit. The Tcl library has a C interface to
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create and manage one or more instances of a Tcl interpreter, run Tcl
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commands and scripts in those instances, and add custom commands
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implemented in either Tcl or C. Each interpreter has an event queue,
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and there are facilities to send events to it and process them.
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Unlike Python, Tcl's execution model is designed around cooperative
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multitasking, and Tkinter bridges this difference
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(see `Threading model`_ for details).
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Tk
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Tk is a `Tcl package <https://wiki.tcl-lang.org/37432>`_ implemented in C
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that adds custom commands to create and manipulate GUI widgets. Each
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:class:`Tk` object embeds its own Tcl interpreter instance with Tk loaded into
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it. Tk's widgets are very customizable, though at the cost of a dated appearance.
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Tk uses Tcl's event queue to generate and process GUI events.
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Ttk
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Themed Tk (Ttk) is a newer family of Tk widgets that provide a much better
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appearance on different platforms than many of the classic Tk widgets.
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Ttk is distributed as part of Tk, starting with Tk version 8.5. Python
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bindings are provided in a separate module, :mod:`tkinter.ttk`.
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Internally, Tk and Ttk use facilities of the underlying operating system,
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i.e., Xlib on Unix/X11, Cocoa on macOS, GDI on Windows.
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When your Python application uses a class in Tkinter, e.g., to create a widget,
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the :mod:`tkinter` module first assembles a Tcl/Tk command string. It passes that
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Tcl command string to an internal :mod:`_tkinter` binary module, which then
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calls the Tcl interpreter to evaluate it. The Tcl interpreter will then call into the
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Tk and/or Ttk packages, which will in turn make calls to Xlib, Cocoa, or GDI.
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Tkinter Modules
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---------------
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Support for Tkinter is spread across several modules. Most applications will need the
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main :mod:`tkinter` module, as well as the :mod:`tkinter.ttk` module, which provides
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the modern themed widget set and API::
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from tkinter import *
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from tkinter import ttk
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.. class:: Tk(screenName=None, baseName=None, className='Tk', useTk=True, sync=False, use=None)
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Construct a toplevel Tk widget, which is usually the main window of an
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application, and initialize a Tcl interpreter for this widget. Each
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instance has its own associated Tcl interpreter.
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The :class:`Tk` class is typically instantiated using all default values.
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However, the following keyword arguments are currently recognized:
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*screenName*
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When given (as a string), sets the :envvar:`DISPLAY` environment
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variable. (X11 only)
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*baseName*
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Name of the profile file. By default, *baseName* is derived from the
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program name (``sys.argv[0]``).
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*className*
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Name of the widget class. Used as a profile file and also as the name
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with which Tcl is invoked (*argv0* in *interp*).
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*useTk*
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If ``True``, initialize the Tk subsystem. The :func:`tkinter.Tcl() <Tcl>`
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function sets this to ``False``.
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*sync*
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If ``True``, execute all X server commands synchronously, so that errors
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are reported immediately. Can be used for debugging. (X11 only)
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*use*
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Specifies the *id* of the window in which to embed the application,
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instead of it being created as an independent toplevel window. *id* must
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be specified in the same way as the value for the -use option for
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toplevel widgets (that is, it has a form like that returned by
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:meth:`winfo_id`).
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Note that on some platforms this will only work correctly if *id* refers
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to a Tk frame or toplevel that has its -container option enabled.
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:class:`Tk` reads and interprets profile files, named
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:file:`.{className}.tcl` and :file:`.{baseName}.tcl`, into the Tcl
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interpreter and calls :func:`exec` on the contents of
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:file:`.{className}.py` and :file:`.{baseName}.py`. The path for the
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profile files is the :envvar:`HOME` environment variable or, if that
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isn't defined, then :attr:`os.curdir`.
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.. attribute:: tk
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The Tk application object created by instantiating :class:`Tk`. This
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provides access to the Tcl interpreter. Each widget that is attached
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the same instance of :class:`Tk` has the same value for its :attr:`tk`
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attribute.
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.. attribute:: master
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The widget object that contains this widget. For :class:`Tk`, the
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*master* is :const:`None` because it is the main window. The terms
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*master* and *parent* are similar and sometimes used interchangeably
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as argument names; however, calling :meth:`winfo_parent` returns a
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string of the widget name whereas :attr:`master` returns the object.
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*parent*/*child* reflects the tree-like relationship while
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*master*/*slave* reflects the container structure.
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.. attribute:: children
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The immediate descendants of this widget as a :class:`dict` with the
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child widget names as the keys and the child instance objects as the
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values.
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.. function:: Tcl(screenName=None, baseName=None, className='Tk', useTk=False)
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The :func:`Tcl` function is a factory function which creates an object much like
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that created by the :class:`Tk` class, except that it does not initialize the Tk
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subsystem. This is most often useful when driving the Tcl interpreter in an
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environment where one doesn't want to create extraneous toplevel windows, or
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where one cannot (such as Unix/Linux systems without an X server). An object
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created by the :func:`Tcl` object can have a Toplevel window created (and the Tk
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subsystem initialized) by calling its :meth:`loadtk` method.
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The modules that provide Tk support include:
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:mod:`tkinter`
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Main Tkinter module.
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:mod:`tkinter.colorchooser`
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Dialog to let the user choose a color.
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:mod:`tkinter.commondialog`
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Base class for the dialogs defined in the other modules listed here.
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:mod:`tkinter.filedialog`
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Common dialogs to allow the user to specify a file to open or save.
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:mod:`tkinter.font`
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Utilities to help work with fonts.
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:mod:`tkinter.messagebox`
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Access to standard Tk dialog boxes.
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:mod:`tkinter.scrolledtext`
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Text widget with a vertical scroll bar built in.
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:mod:`tkinter.simpledialog`
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Basic dialogs and convenience functions.
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:mod:`tkinter.ttk`
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Themed widget set introduced in Tk 8.5, providing modern alternatives
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for many of the classic widgets in the main :mod:`tkinter` module.
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Additional modules:
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:mod:`_tkinter`
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A binary module that contains the low-level interface to Tcl/Tk.
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It is automatically imported by the main :mod:`tkinter` module,
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and should never be used directly by application programmers.
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It is usually a shared library (or DLL), but might in some cases be
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statically linked with the Python interpreter.
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:mod:`idlelib`
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Python's Integrated Development and Learning Environment (IDLE). Based
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on :mod:`tkinter`.
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:mod:`tkinter.constants`
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Symbolic constants that can be used in place of strings when passing
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various parameters to Tkinter calls. Automatically imported by the
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main :mod:`tkinter` module.
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:mod:`tkinter.dnd`
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(experimental) Drag-and-drop support for :mod:`tkinter`. This will
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become deprecated when it is replaced with the Tk DND.
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:mod:`tkinter.tix`
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(deprecated) An older third-party Tcl/Tk package that adds several new
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widgets. Better alternatives for most can be found in :mod:`tkinter.ttk`.
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:mod:`turtle`
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Turtle graphics in a Tk window.
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Tkinter Life Preserver
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----------------------
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This section is not designed to be an exhaustive tutorial on either Tk or
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Tkinter. For that, refer to one of the external resources noted earlier.
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Instead, this section provides a very quick orientation to what a Tkinter
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application looks like, identifies foundational Tk concepts, and
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explains how the Tkinter wrapper is structured.
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The remainder of this section will help you to identify the classes,
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methods, and options you'll need in your Tkinter application, and where to
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find more detailed documentation on them, including in the official Tcl/Tk
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reference manual.
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A Hello World Program
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^^^^^^^^^^^^^^^^^^^^^
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We'll start by walking through a "Hello World" application in Tkinter. This
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isn't the smallest one we could write, but has enough to illustrate some
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key concepts you'll need to know.
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::
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from tkinter import *
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from tkinter import ttk
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root = Tk()
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frm = ttk.Frame(root, padding=10)
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frm.grid()
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ttk.Label(frm, text="Hello World!").grid(column=0, row=0)
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ttk.Button(frm, text="Quit", command=root.destroy).grid(column=1, row=0)
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root.mainloop()
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After the imports, the next line creates an instance of the :class:`Tk` class,
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which initializes Tk and creates its associated Tcl interpreter. It also
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creates a toplevel window, known as the root window, which serves as the main
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window of the application.
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The following line creates a frame widget, which in this case will contain
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a label and a button we'll create next. The frame is fit inside the root
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window.
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The next line creates a label widget holding a static text string. The
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:meth:`grid` method is used to specify the relative layout (position) of the
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label within its containing frame widget, similar to how tables in HTML work.
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A button widget is then created, and placed to the right of the label. When
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pressed, it will call the :meth:`destroy` method of the root window.
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Finally, the :meth:`mainloop` method puts everything on the display, and
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responds to user input until the program terminates.
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Important Tk Concepts
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^^^^^^^^^^^^^^^^^^^^^
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Even this simple program illustrates the following key Tk concepts:
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widgets
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A Tkinter user interface is made up of individual *widgets*. Each widget is
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represented as a Python object, instantiated from classes like
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:class:`ttk.Frame`, :class:`ttk.Label`, and :class:`ttk.Button`.
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widget hierarchy
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Widgets are arranged in a *hierarchy*. The label and button were contained
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within a frame, which in turn was contained within the root window. When
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creating each *child* widget, its *parent* widget is passed as the first
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argument to the widget constructor.
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configuration options
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Widgets have *configuration options*, which modify their appearance and
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behavior, such as the text to display in a label or button. Different
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classes of widgets will have different sets of options.
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geometry management
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Widgets aren't automatically added to the user interface when they are
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created. A *geometry manager* like ``grid`` controls where in the
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user interface they are placed.
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event loop
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Tkinter reacts to user input, changes from your program, and even refreshes
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the display only when actively running an *event loop*. If your program
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isn't running the event loop, your user interface won't update.
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Understanding How Tkinter Wraps Tcl/Tk
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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When your application uses Tkinter's classes and methods, internally Tkinter
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is assembling strings representing Tcl/Tk commands, and executing those
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commands in the Tcl interpreter attached to your applicaton's :class:`Tk`
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instance.
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Whether it's trying to navigate reference documentation, trying to find
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the right method or option, adapting some existing code, or debugging your
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Tkinter application, there are times that it will be useful to understand
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what those underlying Tcl/Tk commands look like.
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To illustrate, here is the Tcl/Tk equivalent of the main part of the Tkinter
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script above.
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::
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ttk::frame .frm -padding 10
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grid .frm
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grid [ttk::label .frm.lbl -text "Hello World!"] -column 0 -row 0
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grid [ttk::button .frm.btn -text "Quit" -command "destroy ."] -column 1 -row 0
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Tcl's syntax is similar to many shell languages, where the first word is the
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command to be executed, with arguments to that command following it, separated
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by spaces. Without getting into too many details, notice the following:
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* The commands used to create widgets (like ``ttk::frame``) correspond to
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widget classes in Tkinter.
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* Tcl widget options (like ``-text``) correspond to keyword arguments in
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Tkinter.
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* Widgets are referred to by a *pathname* in Tcl (like ``.frm.btn``),
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whereas Tkinter doesn't use names but object references.
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* A widget's place in the widget hierarchy is encoded in its (hierarchical)
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pathname, which uses a ``.`` (dot) as a path separator. The pathname for
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the root window is just ``.`` (dot). In Tkinter, the hierarchy is defined
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not by pathname but by specifying the parent widget when creating each
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child widget.
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* Operations which are implemented as separate *commands* in Tcl (like
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``grid`` or ``destroy``) are represented as *methods* on Tkinter widget
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objects. As you'll see shortly, at other times Tcl uses what appear to be
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method calls on widget objects, which more closely mirror what would is
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used in Tkinter.
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How do I...? What option does...?
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If you're not sure how to do something in Tkinter, and you can't immediately
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find it in the tutorial or reference documentation you're using, there are a
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few strategies that can be helpful.
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First, remember that the details of how individual widgets work may vary
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across different versions of both Tkinter and Tcl/Tk. If you're searching
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documentation, make sure it corresponds to the Python and Tcl/Tk versions
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installed on your system.
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When searching for how to use an API, it helps to know the exact name of the
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class, option, or method that you're using. Introspection, either in an
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interactive Python shell or with :func:`print`, can help you identify what
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you need.
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To find out what configuration options are available on any widget, call its
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:meth:`configure` method, which returns a dictionary containing a variety of
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information about each object, including its default and current values. Use
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:meth:`keys` to get just the names of each option.
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::
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btn = ttk.Button(frm, ...)
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print(btn.configure().keys())
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As most widgets have many configuration options in common, it can be useful
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to find out which are specific to a particular widget class. Comparing the
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list of options to that of a simpler widget, like a frame, is one way to
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do that.
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::
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print(set(btn.configure().keys()) - set(frm.configure().keys()))
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Similarly, you can find the available methods for a widget object using the
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standard :func:`dir` function. If you try it, you'll see there are over 200
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common widget methods, so again identifying those specific to a widget class
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is helpful.
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::
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print(dir(btn))
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print(set(dir(btn)) - set(dir(frm)))
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Navigating the Tcl/Tk Reference Manual
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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As noted, the official `Tk commands <https://www.tcl.tk/man/tcl8.6/TkCmd/contents.htm>`_
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reference manual (man pages) is often the most accurate description of what
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specific operations on widgets do. Even when you know the name of the option
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or method that you need, you may still have a few places to look.
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While all operations in Tkinter are implemented as method calls on widget
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objects, you've seen that many Tcl/Tk operations appear as commands that
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take a widget pathname as its first parameter, followed by optional
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parameters, e.g.
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::
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destroy .
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grid .frm.btn -column 0 -row 0
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Others, however, look more like methods called on a widget object (in fact,
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when you create a widget in Tcl/Tk, it creates a Tcl command with the name
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of the widget pathname, with the first parameter to that command being the
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name of a method to call).
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::
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.frm.btn invoke
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.frm.lbl configure -text "Goodbye"
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In the official Tcl/Tk reference documentation, you'll find most operations
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that look like method calls on the man page for a specific widget (e.g.,
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you'll find the :meth:`invoke` method on the
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`ttk::button <https://www.tcl.tk/man/tcl8.6/TkCmd/ttk_button.htm>`_
|
|
man page), while functions that take a widget as a parameter often have
|
|
their own man page (e.g.,
|
|
`grid <https://www.tcl.tk/man/tcl8.6/TkCmd/grid.htm>`_).
|
|
|
|
You'll find many common options and methods in the
|
|
`options <https://www.tcl.tk/man/tcl8.6/TkCmd/options.htm>`_ or
|
|
`ttk::widget <https://www.tcl.tk/man/tcl8.6/TkCmd/ttk_widget.htm>`_ man
|
|
pages, while others are found in the man page for a specific widget class.
|
|
|
|
You'll also find that many Tkinter methods have compound names, e.g.,
|
|
:func:`winfo_x`, :func:`winfo_height`, :func:`winfo_viewable`. You'd find
|
|
documentation for all of these in the
|
|
`winfo <https://www.tcl.tk/man/tcl8.6/TkCmd/winfo.htm>`_ man page.
|
|
|
|
.. note::
|
|
Somewhat confusingly, there are also methods on all Tkinter widgets
|
|
that don't actually operate on the widget, but operate at a global
|
|
scope, independent of any widget. Examples are methods for accessing
|
|
the clipboard or the system bell. (They happen to be implemented as
|
|
methods in the base :class:`Widget` class that all Tkinter widgets
|
|
inherit from).
|
|
|
|
|
|
Threading model
|
|
---------------
|
|
|
|
Python and Tcl/Tk have very different threading models, which :mod:`tkinter`
|
|
tries to bridge. If you use threads, you may need to be aware of this.
|
|
|
|
A Python interpreter may have many threads associated with it. In Tcl, multiple
|
|
threads can be created, but each thread has a separate Tcl interpreter instance
|
|
associated with it. Threads can also create more than one interpreter instance,
|
|
though each interpreter instance can be used only by the one thread that created it.
|
|
|
|
Each :class:`Tk` object created by :mod:`tkinter` contains a Tcl interpreter.
|
|
It also keeps track of which thread created that interpreter. Calls to
|
|
:mod:`tkinter` can be made from any Python thread. Internally, if a call comes
|
|
from a thread other than the one that created the :class:`Tk` object, an event
|
|
is posted to the interpreter's event queue, and when executed, the result is
|
|
returned to the calling Python thread.
|
|
|
|
Tcl/Tk applications are normally event-driven, meaning that after initialization,
|
|
the interpreter runs an event loop (i.e. :func:`Tk.mainloop`) and responds to events.
|
|
Because it is single-threaded, event handlers must respond quickly, otherwise they
|
|
will block other events from being processed. To avoid this, any long-running
|
|
computations should not run in an event handler, but are either broken into smaller
|
|
pieces using timers, or run in another thread. This is different from many GUI
|
|
toolkits where the GUI runs in a completely separate thread from all application
|
|
code including event handlers.
|
|
|
|
If the Tcl interpreter is not running the event loop and processing events, any
|
|
:mod:`tkinter` calls made from threads other than the one running the Tcl
|
|
interpreter will fail.
|
|
|
|
A number of special cases exist:
|
|
|
|
* Tcl/Tk libraries can be built so they are not thread-aware. In this case,
|
|
:mod:`tkinter` calls the library from the originating Python thread, even
|
|
if this is different than the thread that created the Tcl interpreter. A global
|
|
lock ensures only one call occurs at a time.
|
|
|
|
* While :mod:`tkinter` allows you to create more than one instance of a :class:`Tk`
|
|
object (with its own interpreter), all interpreters that are part of the same
|
|
thread share a common event queue, which gets ugly fast. In practice, don't create
|
|
more than one instance of :class:`Tk` at a time. Otherwise, it's best to create
|
|
them in separate threads and ensure you're running a thread-aware Tcl/Tk build.
|
|
|
|
* Blocking event handlers are not the only way to prevent the Tcl interpreter from
|
|
reentering the event loop. It is even possible to run multiple nested event loops
|
|
or abandon the event loop entirely. If you're doing anything tricky when it comes
|
|
to events or threads, be aware of these possibilities.
|
|
|
|
* There are a few select :mod:`tkinter` functions that presently work only when
|
|
called from the thread that created the Tcl interpreter.
|
|
|
|
|
|
Handy Reference
|
|
---------------
|
|
|
|
|
|
.. _tkinter-setting-options:
|
|
|
|
Setting Options
|
|
^^^^^^^^^^^^^^^
|
|
|
|
Options control things like the color and border width of a widget. Options can
|
|
be set in three ways:
|
|
|
|
At object creation time, using keyword arguments
|
|
::
|
|
|
|
fred = Button(self, fg="red", bg="blue")
|
|
|
|
After object creation, treating the option name like a dictionary index
|
|
::
|
|
|
|
fred["fg"] = "red"
|
|
fred["bg"] = "blue"
|
|
|
|
Use the config() method to update multiple attrs subsequent to object creation
|
|
::
|
|
|
|
fred.config(fg="red", bg="blue")
|
|
|
|
For a complete explanation of a given option and its behavior, see the Tk man
|
|
pages for the widget in question.
|
|
|
|
Note that the man pages list "STANDARD OPTIONS" and "WIDGET SPECIFIC OPTIONS"
|
|
for each widget. The former is a list of options that are common to many
|
|
widgets, the latter are the options that are idiosyncratic to that particular
|
|
widget. The Standard Options are documented on the :manpage:`options(3)` man
|
|
page.
|
|
|
|
No distinction between standard and widget-specific options is made in this
|
|
document. Some options don't apply to some kinds of widgets. Whether a given
|
|
widget responds to a particular option depends on the class of the widget;
|
|
buttons have a ``command`` option, labels do not.
|
|
|
|
The options supported by a given widget are listed in that widget's man page, or
|
|
can be queried at runtime by calling the :meth:`config` method without
|
|
arguments, or by calling the :meth:`keys` method on that widget. The return
|
|
value of these calls is a dictionary whose key is the name of the option as a
|
|
string (for example, ``'relief'``) and whose values are 5-tuples.
|
|
|
|
Some options, like ``bg`` are synonyms for common options with long names
|
|
(``bg`` is shorthand for "background"). Passing the ``config()`` method the name
|
|
of a shorthand option will return a 2-tuple, not 5-tuple. The 2-tuple passed
|
|
back will contain the name of the synonym and the "real" option (such as
|
|
``('bg', 'background')``).
|
|
|
|
+-------+---------------------------------+--------------+
|
|
| Index | Meaning | Example |
|
|
+=======+=================================+==============+
|
|
| 0 | option name | ``'relief'`` |
|
|
+-------+---------------------------------+--------------+
|
|
| 1 | option name for database lookup | ``'relief'`` |
|
|
+-------+---------------------------------+--------------+
|
|
| 2 | option class for database | ``'Relief'`` |
|
|
| | lookup | |
|
|
+-------+---------------------------------+--------------+
|
|
| 3 | default value | ``'raised'`` |
|
|
+-------+---------------------------------+--------------+
|
|
| 4 | current value | ``'groove'`` |
|
|
+-------+---------------------------------+--------------+
|
|
|
|
Example::
|
|
|
|
>>> print(fred.config())
|
|
{'relief': ('relief', 'relief', 'Relief', 'raised', 'groove')}
|
|
|
|
Of course, the dictionary printed will include all the options available and
|
|
their values. This is meant only as an example.
|
|
|
|
|
|
The Packer
|
|
^^^^^^^^^^
|
|
|
|
.. index:: single: packing (widgets)
|
|
|
|
The packer is one of Tk's geometry-management mechanisms. Geometry managers
|
|
are used to specify the relative positioning of widgets within their container -
|
|
their mutual *master*. In contrast to the more cumbersome *placer* (which is
|
|
used less commonly, and we do not cover here), the packer takes qualitative
|
|
relationship specification - *above*, *to the left of*, *filling*, etc - and
|
|
works everything out to determine the exact placement coordinates for you.
|
|
|
|
The size of any *master* widget is determined by the size of the "slave widgets"
|
|
inside. The packer is used to control where slave widgets appear inside the
|
|
master into which they are packed. You can pack widgets into frames, and frames
|
|
into other frames, in order to achieve the kind of layout you desire.
|
|
Additionally, the arrangement is dynamically adjusted to accommodate incremental
|
|
changes to the configuration, once it is packed.
|
|
|
|
Note that widgets do not appear until they have had their geometry specified
|
|
with a geometry manager. It's a common early mistake to leave out the geometry
|
|
specification, and then be surprised when the widget is created but nothing
|
|
appears. A widget will appear only after it has had, for example, the packer's
|
|
:meth:`pack` method applied to it.
|
|
|
|
The pack() method can be called with keyword-option/value pairs that control
|
|
where the widget is to appear within its container, and how it is to behave when
|
|
the main application window is resized. Here are some examples::
|
|
|
|
fred.pack() # defaults to side = "top"
|
|
fred.pack(side="left")
|
|
fred.pack(expand=1)
|
|
|
|
|
|
Packer Options
|
|
^^^^^^^^^^^^^^
|
|
|
|
For more extensive information on the packer and the options that it can take,
|
|
see the man pages and page 183 of John Ousterhout's book.
|
|
|
|
anchor
|
|
Anchor type. Denotes where the packer is to place each slave in its parcel.
|
|
|
|
expand
|
|
Boolean, ``0`` or ``1``.
|
|
|
|
fill
|
|
Legal values: ``'x'``, ``'y'``, ``'both'``, ``'none'``.
|
|
|
|
ipadx and ipady
|
|
A distance - designating internal padding on each side of the slave widget.
|
|
|
|
padx and pady
|
|
A distance - designating external padding on each side of the slave widget.
|
|
|
|
side
|
|
Legal values are: ``'left'``, ``'right'``, ``'top'``, ``'bottom'``.
|
|
|
|
|
|
Coupling Widget Variables
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
The current-value setting of some widgets (like text entry widgets) can be
|
|
connected directly to application variables by using special options. These
|
|
options are ``variable``, ``textvariable``, ``onvalue``, ``offvalue``, and
|
|
``value``. This connection works both ways: if the variable changes for any
|
|
reason, the widget it's connected to will be updated to reflect the new value.
|
|
|
|
Unfortunately, in the current implementation of :mod:`tkinter` it is not
|
|
possible to hand over an arbitrary Python variable to a widget through a
|
|
``variable`` or ``textvariable`` option. The only kinds of variables for which
|
|
this works are variables that are subclassed from a class called Variable,
|
|
defined in :mod:`tkinter`.
|
|
|
|
There are many useful subclasses of Variable already defined:
|
|
:class:`StringVar`, :class:`IntVar`, :class:`DoubleVar`, and
|
|
:class:`BooleanVar`. To read the current value of such a variable, call the
|
|
:meth:`get` method on it, and to change its value you call the :meth:`!set`
|
|
method. If you follow this protocol, the widget will always track the value of
|
|
the variable, with no further intervention on your part.
|
|
|
|
For example::
|
|
|
|
import tkinter as tk
|
|
|
|
class App(tk.Frame):
|
|
def __init__(self, master):
|
|
super().__init__(master)
|
|
self.pack()
|
|
|
|
self.entrythingy = tk.Entry()
|
|
self.entrythingy.pack()
|
|
|
|
# Create the application variable.
|
|
self.contents = tk.StringVar()
|
|
# Set it to some value.
|
|
self.contents.set("this is a variable")
|
|
# Tell the entry widget to watch this variable.
|
|
self.entrythingy["textvariable"] = self.contents
|
|
|
|
# Define a callback for when the user hits return.
|
|
# It prints the current value of the variable.
|
|
self.entrythingy.bind('<Key-Return>',
|
|
self.print_contents)
|
|
|
|
def print_contents(self, event):
|
|
print("Hi. The current entry content is:",
|
|
self.contents.get())
|
|
|
|
root = tk.Tk()
|
|
myapp = App(root)
|
|
myapp.mainloop()
|
|
|
|
The Window Manager
|
|
^^^^^^^^^^^^^^^^^^
|
|
|
|
.. index:: single: window manager (widgets)
|
|
|
|
In Tk, there is a utility command, ``wm``, for interacting with the window
|
|
manager. Options to the ``wm`` command allow you to control things like titles,
|
|
placement, icon bitmaps, and the like. In :mod:`tkinter`, these commands have
|
|
been implemented as methods on the :class:`Wm` class. Toplevel widgets are
|
|
subclassed from the :class:`Wm` class, and so can call the :class:`Wm` methods
|
|
directly.
|
|
|
|
To get at the toplevel window that contains a given widget, you can often just
|
|
refer to the widget's master. Of course if the widget has been packed inside of
|
|
a frame, the master won't represent a toplevel window. To get at the toplevel
|
|
window that contains an arbitrary widget, you can call the :meth:`_root` method.
|
|
This method begins with an underscore to denote the fact that this function is
|
|
part of the implementation, and not an interface to Tk functionality.
|
|
|
|
Here are some examples of typical usage::
|
|
|
|
import tkinter as tk
|
|
|
|
class App(tk.Frame):
|
|
def __init__(self, master=None):
|
|
super().__init__(master)
|
|
self.pack()
|
|
|
|
# create the application
|
|
myapp = App()
|
|
|
|
#
|
|
# here are method calls to the window manager class
|
|
#
|
|
myapp.master.title("My Do-Nothing Application")
|
|
myapp.master.maxsize(1000, 400)
|
|
|
|
# start the program
|
|
myapp.mainloop()
|
|
|
|
|
|
Tk Option Data Types
|
|
^^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. index:: single: Tk Option Data Types
|
|
|
|
anchor
|
|
Legal values are points of the compass: ``"n"``, ``"ne"``, ``"e"``, ``"se"``,
|
|
``"s"``, ``"sw"``, ``"w"``, ``"nw"``, and also ``"center"``.
|
|
|
|
bitmap
|
|
There are eight built-in, named bitmaps: ``'error'``, ``'gray25'``,
|
|
``'gray50'``, ``'hourglass'``, ``'info'``, ``'questhead'``, ``'question'``,
|
|
``'warning'``. To specify an X bitmap filename, give the full path to the file,
|
|
preceded with an ``@``, as in ``"@/usr/contrib/bitmap/gumby.bit"``.
|
|
|
|
boolean
|
|
You can pass integers 0 or 1 or the strings ``"yes"`` or ``"no"``.
|
|
|
|
callback
|
|
This is any Python function that takes no arguments. For example::
|
|
|
|
def print_it():
|
|
print("hi there")
|
|
fred["command"] = print_it
|
|
|
|
color
|
|
Colors can be given as the names of X colors in the rgb.txt file, or as strings
|
|
representing RGB values in 4 bit: ``"#RGB"``, 8 bit: ``"#RRGGBB"``, 12 bit:
|
|
``"#RRRGGGBBB"``, or 16 bit: ``"#RRRRGGGGBBBB"`` ranges, where R,G,B here
|
|
represent any legal hex digit. See page 160 of Ousterhout's book for details.
|
|
|
|
cursor
|
|
The standard X cursor names from :file:`cursorfont.h` can be used, without the
|
|
``XC_`` prefix. For example to get a hand cursor (:const:`XC_hand2`), use the
|
|
string ``"hand2"``. You can also specify a bitmap and mask file of your own.
|
|
See page 179 of Ousterhout's book.
|
|
|
|
distance
|
|
Screen distances can be specified in either pixels or absolute distances.
|
|
Pixels are given as numbers and absolute distances as strings, with the trailing
|
|
character denoting units: ``c`` for centimetres, ``i`` for inches, ``m`` for
|
|
millimetres, ``p`` for printer's points. For example, 3.5 inches is expressed
|
|
as ``"3.5i"``.
|
|
|
|
font
|
|
Tk uses a list font name format, such as ``{courier 10 bold}``. Font sizes with
|
|
positive numbers are measured in points; sizes with negative numbers are
|
|
measured in pixels.
|
|
|
|
geometry
|
|
This is a string of the form ``widthxheight``, where width and height are
|
|
measured in pixels for most widgets (in characters for widgets displaying text).
|
|
For example: ``fred["geometry"] = "200x100"``.
|
|
|
|
justify
|
|
Legal values are the strings: ``"left"``, ``"center"``, ``"right"``, and
|
|
``"fill"``.
|
|
|
|
region
|
|
This is a string with four space-delimited elements, each of which is a legal
|
|
distance (see above). For example: ``"2 3 4 5"`` and ``"3i 2i 4.5i 2i"`` and
|
|
``"3c 2c 4c 10.43c"`` are all legal regions.
|
|
|
|
relief
|
|
Determines what the border style of a widget will be. Legal values are:
|
|
``"raised"``, ``"sunken"``, ``"flat"``, ``"groove"``, and ``"ridge"``.
|
|
|
|
scrollcommand
|
|
This is almost always the :meth:`!set` method of some scrollbar widget, but can
|
|
be any widget method that takes a single argument.
|
|
|
|
wrap
|
|
Must be one of: ``"none"``, ``"char"``, or ``"word"``.
|
|
|
|
.. _Bindings-and-Events:
|
|
|
|
Bindings and Events
|
|
^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. index::
|
|
single: bind (widgets)
|
|
single: events (widgets)
|
|
|
|
The bind method from the widget command allows you to watch for certain events
|
|
and to have a callback function trigger when that event type occurs. The form
|
|
of the bind method is::
|
|
|
|
def bind(self, sequence, func, add=''):
|
|
|
|
where:
|
|
|
|
sequence
|
|
is a string that denotes the target kind of event. (See the
|
|
:manpage:`bind(3tk)` man page, and page 201 of John Ousterhout's book,
|
|
:title-reference:`Tcl and the Tk Toolkit (2nd edition)`, for details).
|
|
|
|
func
|
|
is a Python function, taking one argument, to be invoked when the event occurs.
|
|
An Event instance will be passed as the argument. (Functions deployed this way
|
|
are commonly known as *callbacks*.)
|
|
|
|
add
|
|
is optional, either ``''`` or ``'+'``. Passing an empty string denotes that
|
|
this binding is to replace any other bindings that this event is associated
|
|
with. Passing a ``'+'`` means that this function is to be added to the list
|
|
of functions bound to this event type.
|
|
|
|
For example::
|
|
|
|
def turn_red(self, event):
|
|
event.widget["activeforeground"] = "red"
|
|
|
|
self.button.bind("<Enter>", self.turn_red)
|
|
|
|
Notice how the widget field of the event is being accessed in the
|
|
``turn_red()`` callback. This field contains the widget that caught the X
|
|
event. The following table lists the other event fields you can access, and how
|
|
they are denoted in Tk, which can be useful when referring to the Tk man pages.
|
|
|
|
+----+---------------------+----+---------------------+
|
|
| Tk | Tkinter Event Field | Tk | Tkinter Event Field |
|
|
+====+=====================+====+=====================+
|
|
| %f | focus | %A | char |
|
|
+----+---------------------+----+---------------------+
|
|
| %h | height | %E | send_event |
|
|
+----+---------------------+----+---------------------+
|
|
| %k | keycode | %K | keysym |
|
|
+----+---------------------+----+---------------------+
|
|
| %s | state | %N | keysym_num |
|
|
+----+---------------------+----+---------------------+
|
|
| %t | time | %T | type |
|
|
+----+---------------------+----+---------------------+
|
|
| %w | width | %W | widget |
|
|
+----+---------------------+----+---------------------+
|
|
| %x | x | %X | x_root |
|
|
+----+---------------------+----+---------------------+
|
|
| %y | y | %Y | y_root |
|
|
+----+---------------------+----+---------------------+
|
|
|
|
|
|
The index Parameter
|
|
^^^^^^^^^^^^^^^^^^^
|
|
|
|
A number of widgets require "index" parameters to be passed. These are used to
|
|
point at a specific place in a Text widget, or to particular characters in an
|
|
Entry widget, or to particular menu items in a Menu widget.
|
|
|
|
Entry widget indexes (index, view index, etc.)
|
|
Entry widgets have options that refer to character positions in the text being
|
|
displayed. You can use these :mod:`tkinter` functions to access these special
|
|
points in text widgets:
|
|
|
|
Text widget indexes
|
|
The index notation for Text widgets is very rich and is best described in the Tk
|
|
man pages.
|
|
|
|
Menu indexes (menu.invoke(), menu.entryconfig(), etc.)
|
|
Some options and methods for menus manipulate specific menu entries. Anytime a
|
|
menu index is needed for an option or a parameter, you may pass in:
|
|
|
|
* an integer which refers to the numeric position of the entry in the widget,
|
|
counted from the top, starting with 0;
|
|
|
|
* the string ``"active"``, which refers to the menu position that is currently
|
|
under the cursor;
|
|
|
|
* the string ``"last"`` which refers to the last menu item;
|
|
|
|
* An integer preceded by ``@``, as in ``@6``, where the integer is interpreted
|
|
as a y pixel coordinate in the menu's coordinate system;
|
|
|
|
* the string ``"none"``, which indicates no menu entry at all, most often used
|
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with menu.activate() to deactivate all entries, and finally,
|
|
|
|
* a text string that is pattern matched against the label of the menu entry, as
|
|
scanned from the top of the menu to the bottom. Note that this index type is
|
|
considered after all the others, which means that matches for menu items
|
|
labelled ``last``, ``active``, or ``none`` may be interpreted as the above
|
|
literals, instead.
|
|
|
|
|
|
Images
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|
^^^^^^
|
|
|
|
Images of different formats can be created through the corresponding subclass
|
|
of :class:`tkinter.Image`:
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|
|
|
* :class:`BitmapImage` for images in XBM format.
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|
|
|
* :class:`PhotoImage` for images in PGM, PPM, GIF and PNG formats. The latter
|
|
is supported starting with Tk 8.6.
|
|
|
|
Either type of image is created through either the ``file`` or the ``data``
|
|
option (other options are available as well).
|
|
|
|
The image object can then be used wherever an ``image`` option is supported by
|
|
some widget (e.g. labels, buttons, menus). In these cases, Tk will not keep a
|
|
reference to the image. When the last Python reference to the image object is
|
|
deleted, the image data is deleted as well, and Tk will display an empty box
|
|
wherever the image was used.
|
|
|
|
.. seealso::
|
|
|
|
The `Pillow <https://python-pillow.org/>`_ package adds support for
|
|
formats such as BMP, JPEG, TIFF, and WebP, among others.
|
|
|
|
.. _tkinter-file-handlers:
|
|
|
|
File Handlers
|
|
-------------
|
|
|
|
Tk allows you to register and unregister a callback function which will be
|
|
called from the Tk mainloop when I/O is possible on a file descriptor.
|
|
Only one handler may be registered per file descriptor. Example code::
|
|
|
|
import tkinter
|
|
widget = tkinter.Tk()
|
|
mask = tkinter.READABLE | tkinter.WRITABLE
|
|
widget.tk.createfilehandler(file, mask, callback)
|
|
...
|
|
widget.tk.deletefilehandler(file)
|
|
|
|
This feature is not available on Windows.
|
|
|
|
Since you don't know how many bytes are available for reading, you may not
|
|
want to use the :class:`~io.BufferedIOBase` or :class:`~io.TextIOBase`
|
|
:meth:`~io.BufferedIOBase.read` or :meth:`~io.IOBase.readline` methods,
|
|
since these will insist on reading a predefined number of bytes.
|
|
For sockets, the :meth:`~socket.socket.recv` or
|
|
:meth:`~socket.socket.recvfrom` methods will work fine; for other files,
|
|
use raw reads or ``os.read(file.fileno(), maxbytecount)``.
|
|
|
|
|
|
.. method:: Widget.tk.createfilehandler(file, mask, func)
|
|
|
|
Registers the file handler callback function *func*. The *file* argument
|
|
may either be an object with a :meth:`~io.IOBase.fileno` method (such as
|
|
a file or socket object), or an integer file descriptor. The *mask*
|
|
argument is an ORed combination of any of the three constants below.
|
|
The callback is called as follows::
|
|
|
|
callback(file, mask)
|
|
|
|
|
|
.. method:: Widget.tk.deletefilehandler(file)
|
|
|
|
Unregisters a file handler.
|
|
|
|
|
|
.. data:: READABLE
|
|
WRITABLE
|
|
EXCEPTION
|
|
|
|
Constants used in the *mask* arguments.
|