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The mapping of GTK+ onto Python
===============================
This file documents the mapping of the C GTK+ functions and types in
the pygtk package. If you want just enough information on how to use
C documentation to help you program with pygtk or help you read or
translate GTK+ programs written in C, then see the "Mapping of GTK+
functions to gtk.py" section.
The _gtk module
===============
This module is almost a direct mapping of the GTK+ functions. It has
no object oriented constructs and is the part written in C. Large
parts of it are generated from .defs files (which are also used in the
guile and perl bindings), while some is written in hand crafted C.
Note that this module is mainly a convenience that makes it easier to
code the higher level gtk.py.
There are a number of types defined by this module. The main one is a
wrapper for GtkObject and all its descendants. This type is just a
wrapper round the pointer, and calls gtk_object_ref on creation, and
gtk_object_unref on destruction (hence the C structure will not be
freed while python has a reference to it).
For all the functions in _gtk that take GtkObject descendents as
arguments, the type conversion is done automatically (so you don't
have to call GTK_WIDGET or GTK_CONTAINER type macros). So at this
level, reference counting and type casting has already been taken care
of.
Also a number of other types are defined in this module. For these
objects, there are relatively few functions and attributes specific to
the individual types, so I have spent some time writing nice
interfaces to them. Outlines of the available attributes and methods
of these types are available in the file description.py, which is
distributed with pygtk. These types include:
GtkCTreeNode
GtkStyle
GtkSelectionData
GdkAtom
GdkColor
GdkColormap
GdkCursor
GdkDragContext
GdkEvent
GdkFont
GdkGC
GdkWindow (aka GdkDrawable aka GdkPixmap aka GdkBitmap)
Also, for the functions defined in _gtk, enumerations and flags are
handled specially. Where an enumeration value is to be passed to a
function, you can give it an integer representing its value, or a
string representing the name. For the list of names that can be used,
see the file gtk.defs that comes with the GTK+ distribution. The
(define-enum) and (define-flags) sections list the possible values.
For flags, you can pass any value that would be accepted as an enum
value in adition to a tuple of strings, which would be converted to
their corresponding numeric values and ORed together.
GTK.py and GDK.py
=================
These python modules define the numerical values for the host of enums
and flags in gtk and gdk respectively. The GTK_ prefix has been
removed from the gtk enums, and the GDK_ prefix from the GDK ones
(where this would leave the identifier starting with a digit, an
underscore has been prepended). This way if you do an "import GTK",
you reference the constants with a gtk prefix (eg GTK.STATE_NORMAL),
or if you do a "from GTK import *" you can access the constants via
shorter names (eg STATE_NORMAL).
With _gtk, GTK.py and GDK.py, you should be able to write programs
that quite closely resemble the what they would look like in C (minus
type casts and occasional referencing/dereferencing).
gtk.py
======
This module is meant to be the high level interface that will be used
by most programmers. It defines a number of classes that mirror the
class heirachy of the GtkObject descendents found in GTK+. Each of
these classes has an _o attribute which points to an instance of the
GtkObject wrapper type from _gtk.
Because of reference counting problems (we don't want the GTK object
to die while we have a reference to the python one, and we don't want
the python one to die while we have a reference to the GTK object --
circular reference alert :), there will usually be more than one of
these python wrappers existing for a single GtkObject (ie. a 1 to many
relationship). The bigest example of this is signal handlers where a
different object will always be passed in. This means that any
attributes you set on the object (ie. obj.foo = "bar") will not be
visible inside the callback. You can get round this by using the
object data mechanisms:
obj.set_data("string_tag", data)
data = obj.get_data("string_tag")
This data will be accessible to every instance pointing to a single
GtkObject.
Since there are two times you may want to create instances of these
classes, there are two ways to call their constructors:
- as normal to create a new C level object.
- as 'GtkSomething(_obj=obj)', which does not create a new C level
object, but creates a new python instance that represents the C
level object wrapped by obj.
The second way of creating instances is done by giving default values
for all the constructor arguments, and adding "_obj=None" to the end
of the argument list. Then the first line of the constructor is set
to:
if _obj: self._o = _obj; return
Mapping of GTK+ functions to gtk.py
===================================
For each GtkObject descendent, there is a python class of the same
name. It will list the C class's superclass as its superclass. For
each desendant, say GtkSomething, there will be a function defined in
GTK+ called gtk_something_new() or similar. This is mapped to the
constructor for the class.
There are usually a number of other functions starting with
gtk_something_ in GTK+. These functions will generally take an
instance of GtkSomething as the first argument. These map to methods
of the python class. So the following:
gtk_something_method(GtkSomething *something, args, ...)
maps to this:
something.method(args, ...)
Note that this means that methods of the parent class are accessed as
easily as those of the actual class.
There are a few special cases of course. For instance, all the
gtk_drag_*() functions have been mapped to GtkWidget.drag_*(), and the
gtk_selection_*() functions have been mapped to
GtkWidget.selection_*().
The object argument mechanisms are also implemented in pygtk. You can
query and change these properties on an already instantiated object
using the mapping behaviour similar to the way you can in Tkinter (eg
label_widget['label'] = 'Hello' will change a label's text). You can
also create new objects and setting their object arguments at creation
time with the new() method. The first argument should be the class
object for the instance you want. The rest of the arguments should be
keyword arguments specifying the object arguments you want to set (eg
label = new(GtkLabel, label='Hello')).
There are also a number of other functions not associated with any
particular class that are accessible through the global scope of the
gtk.py module. It is probably easiest to read the end of gtk.py to
get a feel for these functions.
gtk.py also imports the GTK constants with "from GTK import *", and
the GDK constants with "import GDK". The reasons for using "from GTK
import *" are partly for convenience and partly because thats how I
did it when I first wrote pygtk :)
Conclusions
===========
That about sums up the language mapping in pygtk. The best way of
learning how to program in pygtk is to read sample code. Take a look
at the examples/ directory, and go through the examples there.
If you think something is missing from this document, please mail me
at <james@daa.com.au>.
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