1.1. Note: This FAQ is undergoing conversion to GTK+ 2.x

This FAQ is undergoing conversion to GTK+ 2.x. Where the text covers GTK+ 2.x this will be indicated by prefixing the text with: [GTK+ 2.x]. Where this is not indicated, the text has not yet been updated from GTK+ 1.2 and may not be totally correct.

1.2. Before anything else: the greetings [GTK 2.x]

The FAQ authors want to thank:

• Havoc Pennington
• Erik Mouw
• Owen Taylor
• Tim Janik
• Thomas Mailund Jensen
• Joe Pfeiffer
• Andy Kahn
• Federico Mena Quntero
• Damon Chaplin
• and all the members of the GTK+ lists

If we forgot you, please email us! Thanks again (I know, it's really short :)

1.3. Authors [GTK 2.x]

The original authors of GTK+ were:

• Peter Mattis
• Spencer Kimball
• Josh MacDonald

Since then, much has been added by others. Please see the AUTHORS file in the distribution for the GTK+ Team. The people currently contributing the most code to GTK+ are (in no particular order):

• Owen Taylor
• Matthias Clasen
• Federico Mena Quintero
• Soeren Sandmann
• Padraig O'Briain
• Manish Singh
• Kristian Rietveld
• Tor Lillqvist

1.4. What is GTK+? [GTK 2.x]

GTK+ is a multi-platform toolkit for creating graphical user interfaces, originally designed with the general look and feel of Motif. In reality, it looks much better than Motif. It contains common and complex widgets, such as file selection, and color selection widgets.

GTK+ was initially developed as a widget set for the GIMP (GNU Image Manipulation Program). It has grown extensively since then, and is today used by a large number of applications, and is the toolkit used by the GNOME desktop project.

GTK+ is free software and part of the GNU Project. However, the licensing terms for GTK+, the GNU LGPL, allow it to be used by all developers, including those developing proprietary software, without any license fees or royalties.

GTK+ has been designed from the ground up to support a range of language bindings, not only C/C++. Using GTK+ from languages such as Perl and Python (especially in combination with the Glade GUI builder) provides an effective method of rapid application development..

1.5. What is the + in GTK+? [GTK 2.x]

Peter Mattis informed the gtk mailing list that:

"I originally wrote gtk which included the three libraries, libglib, libgdk and libgtk. It featured a flat widget hierarchy. That is, you couldn't derive a new widget from an existing one. And it contained a more standard callback mechanism instead of the signal mechanism now present in gtk+. The + was added to distinguish between the original version of gtk and the new version. You can think of it as being an enhancement to the original gtk that adds object oriented features."

Although much has changed with GTK+, and Peter, Spencer and Josh don't have any direct involvement these days, the name is kept to keep a link with the heritage of GTK+.

GTK+ is now additionally based upon the Pango and ATK libraries, that provide text layout and rendering and accessibility interfaces.

1.6. Does the G in GTK+, GDK and GLib stand for? [GTK 2.x]

GTK+ == The GIMP Toolkit

GDK == GTK+ Drawing Kit

GLib == G Library

1.7. Where is the documentation for GTK+? [GTK 2.x]

In the GTK+ distribution's doc/ directory you will find the API Reference for both GTK and GDK, this FAQ and the GTK Tutorial.

In addition, you can find links to HTML versions of these documents by going to http://www.gtk.org/. A packaged version of the GTK Tutorial, with SGML, HTML, Postscript, DVI and text versions can be found in ftp://ftp.gtk.org/pub/gtk/tutorial

There are now a few books available that deal with programming GTK+, GDK and GNOME. Unfortunately, they currently are all based upon GTK+ 1.x:

• Eric Harlows book entitled "Developing Linux Applications with GTK+ and GDK". The ISBN is 0-7357-0021-4

• The example code from Eric's book is available on-line at http://www.bcpl.net/~eharlow/book

• Havoc Pennington has released a book called "GTK+/GNOME Application Development". The ISBN is 0-7357-0078-8

  The free version of the book lives here: http://developer.gnome.org/doc/GGAD/

  And Havoc maintains information about it and errata here: http://pobox.com/~hp/gnome-app-devel.html

• "GTK+ Programming in C" by Syd Logan. ISBN: 0-1301-4264-6

• "Linux GNOME/GTK+ Programming Bible" by Arthur Griffith. ISBN: 0-7645-4640-6

• "Beginning GTK+/GNOME Programming" by Peter Wright. ISBN: 1-8610-0381-1

• "Sams Teach Yourself GTK+ Programming in 21 Days" by Donna Martin . ISBN: 0-6723-1829-6

1.8. Is there a mailing list (or mailing list archive) for GTK+? [GTK 2.x]

Information on mailing lists relating to GTK+ can be found at: http://www.gtk.org/mailinglists.html

1.9. How to get help with GTK+ [GTK 2.x]

First, make sure your question isn't answered in the documentation, this FAQ or the tutorial. Done that? You're sure you've done that, right? In that case, the best place to post questions is to the GTK+ mailing list.

1.10. How to report bugs in GTK+ [GTK 2.x]

Bugs should be reported to the GNOME bug tracking system (http://bugzilla.gnome.org). You will need to enter your email address and receive a password before you can use the system to register a new bug report.

There are a number of options to select and boxes to fill in when submitting a bug report. Please remember that the more information you give, the easier it will be to track the problem down. Extra information that may prove useful includes:

• How to reproduce the bug.

  If you can reproduce it with the testgtk program that is built in the gtk/ subdirectory, that will be most convenient. Otherwise, please include a complete, short test program that exhibits the behavior. As a last resort, you can also provide a pointer to a larger piece of software that can be downloaded.

  (Bugs that can be reproduced within the GIMP are almost as good as bugs that can be reproduced in testgtk. If you are reporting a bug found with the GIMP, please include the version number of the GIMP you are using)

• If the bug was a crash, the exact text that was printed out when the crash occurred. If you can easily reproduce this crash then running the program under a debugger (e.g. gdb) and getting a backtrace when the crash occurs is very useful.

• Further information such as stack traces may be useful. If you do send a stack trace, and the error is an X error, it will be more useful if the stacktrace is produced running the test program with the --sync command line option.

1.11. Is there a Windows version of GTK+? [GTK 2.x]

The Win32 port of GTK+ is maintained concurrently with the Xwindows version in CVS. As such it is a supported architecture.

The Win32 port has been predominately done by Tor Lillqvist. Tor maintains some information on GTK+ and GIMP for Windows.

There is a pre-compiled, easy-to-install version of GTK+ for windows on the Dropline GTK+ site.

1.12. What applications have been written with GTK+? [GTK 2.x]

The GNOME software map contains a catalogue of software that is built using GNOME and GTK+. The catalogue is searchable and browsable, so provides easy access.

Some of the best known projects utilising GTK+ are:

• GIMP (http://www.gimp.org/), an image manipulation program

• AbiWord (http://www.abiword.com/), a professional word processor

• Dia (http://www.lysator.liu.se/~alla/dia/dia.html), a diagram creation program

• GnuCash (http://www.gnucash.org/), a personal finance manager

• Gnumeric (http://www.gnome.org/projects/gnumeric/), the GNOME spreadsheet application

• Glade (http://glade.gnome.org/), a GTK+ based RAD tool which produces GTK+ and GNOME applications

• Anjuta (http://anjuta.sourceforge.net/), a versatile Integrated Development Environment (IDE) using C and C++ for GTK+ and GIMP.

2.1. What do I need to compile GTK+? [GTK 2.x]

GTK+ is a large package that is dependent on a number of other tools and libraries. It is recommended that you use precompiled binary packages for your system if possible

To compile GTK+ from source you need a C compiler (gcc) and the X Window System and associated development libraries and packages on your system.

You will also need to have installed the tools and libraries that GTK+ depends upon. These are listed below in the order in which they need to be installed:

• pkg-config (pkg-config Site)
• GNU make (GNU make Site)
• JPEG, PNG and TIFF image libraries (GTK+ Site)
• FreeType (FreeType Site)
• fontconfig (fontconfig Site)
• GNU libiconv library (if your system doesn't have iconv()) (GNU libiconv Site)
• GNU gettext (if your system doesn't have gettext()) (GTK+ Site)
• GLib (GTK+ Site)
• Pango (GTK+ Site)
• ATK (GTK+ Site)
• GTK+ (GTK+ Site)

2.2. Where can I get GTK+? [GTK 2.x]

The canonical site is ftp://ftp.gtk.org/pub/gtk.

This site tends to get busy around the time of a new GTK+ release so try and use one of the mirror sites that are listed in ftp://ftp.gtk.org/etc/mirrors

Here's a few mirror sites to get you started:

• Africa - ftp://ftp.is.co.za/applications/gimp
• Australia - ftp://ftp.planetmirror.com/pub/gimp/gtk
• Finland - ftp://ftp.funet.fi/pub/sci/graphics/packages/gimp/gtk
• Germany - ftp://ftp.gwdg.de/pub/misc/grafik/gimp/gtk
• Japan - ftp://sunsite.sut.ac.jp/pub/archives/packages/gimp/gtk
• UK - http://www.mirror.ac.uk/sites/ftp.gimp.org/pub/gtk/

2.3. How do I configure/compile GTK+? [GTK 2.x]

Generally, the minimum you need to do is issue the commands:

./configure
make
make install

in the GTK+ source directory.

This generally also holds true for each of the packages that GTK+ depends upon, listed above.

There are various options that you can pass to the configure script in order to change its default settings. The one that you are most likely to want to use is the --prefix argument, which defines where the package is to be install, e.g.

./configure --prefix=/usr

2.4. When compiling GTK+ I get an error like: make: file `Makefile' line 456: Syntax error [GTK 2.x]

Make sure that you are using GNU make (use make -v to check). There are many weird and wonderful versions of make out there, and not all of them handle the automatically generated Makefiles.

2.5. I've compiled and installed GTK+, but I can't get any programs to link with it! [GTK 2.x]

This problem is most often encountered when the GTK+ libraries can't be found or are the wrong version. Generally, the compiler will complain about an 'unresolved symbol'.

Make sure that the libraries can be found. You want to edit /etc/ld.so.conf to include the directories which contain the GTK libraries, so it looks something like:

/usr/X11R6/lib
/usr/local/lib

Then you need to run /sbin/ldconfig as root. You can find what libraries GTK requires using

pkg-config gtk+-2.0 --libs

If your system doesn't use ld.so to find libraries (such as Solaris), then you will have to use the LD_LIBRARY_PATH environment variable (or compile the path into your program, which I'm not going to cover here). So, with a Bourne type shell you can do (if your GTK libraries are in /usr/local/lib):

export LD_LIBRARY_PATH=/usr/local/lib

and in a csh, you can do:

setenv LD_LIBRARY_PATH /usr/local/lib

2.6. When installing a GTK+ application, configure reports that it can't find GTK. [GTK 2.x]

There are several common reasons for this:

• You have an old version of GTK installed somewhere. You should remove this old copy, but note that this may break applications that have been compiled against the old version.

• pkg-config (or another component of GTK) isn't in your path, or there is an old version on your system. Type:

  pkg-config gtk+-2.0 --modversion

  to check for both of these. If it returns a value different from what you expect, then you have an old version of GTK on your system.

• The ./configure script can't find the GTK libraries. As ./configure compiles various test programs, it needs to be able to find the GTK libraries. See the question above for help on this.

If none of the above help, then have a look in config.log, which is generated by ./configure as it runs. At the bottom will be the last action it took before failing. If it is a section of source code, copy the source code to a file and compile it with the line just above it in config.log. If the compilation is successful, try executing it.

3.1. Whats this CVS thing that everyone keeps talking about, and how do I access it? [GTK 2.x]

CVS is the Concurrent Version System and is a very popular means of version control for software projects. It is designed to allow multiple authors to simultanously operate on the same source tree. This source tree is centrally maintained, but each developer has a local mirror of this repository that they make their changes to.

The GTK+ developers use a CVS repository to store the master copy of the current development version of GTK+. As such, people wishing to contribute patches to GTK+ should generate them against the CVS version. Normal people should use the packaged releases.

The CVS toolset is available as RPM packages from the usual RedHat sites. The latest version is available at http://download.cyclic.com/pub/

Anyone can download the latest CVS version of GTK+ by using anonymous access using the following steps:

• In a bourne shell descendant (e.g. bash) type:

  CVSROOT=':pserver:anonymous@anoncvs.gnome.org:/cvs/gnome'
  export CVSROOT

• Next, the first time the source tree is checked out, a cvs login is needed.

  cvs login

  This will ask you for a password. There is no password for cvs.gimp.org, so just enter a carriage return.

• To get the tree and place it in a subdir of your current working directory, issue the command:

  cvs -z3 get gtk+

  Note that with the GTK+ 1.1 tree, glib has been moved to a separate CVS module, so if you don't have glib installed you will need to get that as well:

  cvs -z3 get glib

The CVS archive stores both the current development version of GTK+ (the CVS HEAD branch) and all current and past stable versions. If you want to retrieve a specific version of GTK+ you have to specify the CVS tag corresponding to the version you want to checkout. If you want to checkout the current GTK+ 2.2 stable source code, you would need to use the following command:

cvs -z3 get -r gtk-2-2 gtk+

3.2. How can I contribute to GTK+? [GTK 2.x]

It's simple. If something doesn't work like you think it should in a program, check the documentation to make sure you're not missing something. If it is a true bug or missing feature, track it down in the GTK+ source, change it, and then generate a patch in the form of a 'context diff'. This can be done using a command such as diff -ru <oldfile> <newfile>.

The patch should then be attached to a bug report in the GNOME bug tracking system, which can also be used to store general patches (http://bugzilla.gnome.org).

This method ensures that the patch will not be lost.

3.3. How do I know if my patch got applied, and if not, why not? [GTK 2.x]

If you have used the GNOME bug tracking system (as stated above) then the status of your patch should be reflected in the bug report.

The GTK+ developers will generally add comments to the bug report stating what needs to be done to get the patch applied, or why the patch is not appropriate.

3.4. What is the policy on incorporating new widgets into the library? [GTK 2.x]

This is up to the authors, so you will have to ask them once you are done with your widget. As a general guideline, widgets that are generally useful, work, and are not a disgrace to the widget set will gladly be included.

The new widgets that get added to GTK+ are generally either replacements for existing widgets that are no longer deemed to be adequate, or have been developed externally to GTK+ but have been widely tested. One possible avenue for this is via libegg.

Before you spend months of your valuable time implementing your revolutionary widget, it is highly recommended that you get some feedback on your idea via the appropriate mailing list.

3.5. Is anyone working on bindings for languages other than C? [GTK 2.x]

There is a list of language bindings on the GTK+ website.

The 'official' language bindings are C++, Ada and Python. However, bindings for many other languages are available.

4.1. How do I get started? [GTK 2.x]

So, after you have installed GTK+ there are a couple of things that can ease you into developing applications with it. There is the GTK+ Tutorial http://www.gtk.org/tutorial/, which is undergoing development. This will introduce you to writing applications using C.

The GTK+ Tutorial doesn't contain information on all of the widgets that are in GTK+. For example code on how to use the basics of all the GTK+ widgets you should look in the directory 'tests' (and associated source files) within the GTK+ distribution. Looking at these examples will give you a good grounding on what the widgets can do.

4.2. How do I use the Glade GUI builder with GTK+? [GTK 2.x]

There are two ways to use Glade. The first way is to use Glade's facilities for generating code; the second way is to use the libglade library which directly loads the XML user interface description files that Glade generates into a running program.

Experienced GTK+ programmers generally strongly recommend using libglade; you don't have to worry about the interaction between Glade generating the source and you editing it, and its been shown to be a method that works better for large projects, so there is a lot of example code out there you can look at.

An introduction to using libglade can be found in the libglade API docs (http://developer.gnome.org/doc/API/2.0/libglade/libglade-notes.html#libglade-basics) .

4.3. How do I write security sensitive/SUID/SGID programs with GTK+? Is GTK+ secure? What's this GTK_MODULES security hole I heard about? [GTK 2.x]

The short answer to this question is: you can't, so don't write SUID/SGID programs with GTK+

GTK+ will refuse to run with elevated privileges, as it is not designed to be used in this manner. The only correct way to write a setuid program with a graphical user interface is to have a setuid backend that communicates with the non-setuid graphical user interface via a mechanism such as a pipe and that considers the input it receives to be untrusted.

For a more thorough explanation of the GTK+ Developers position on this issue see http://www.gtk.org/setuid.html.

4.4. I tried to compile a small Hello World of mine, but it failed. Any clue? [GTK 2.x]

Since you are good at coding, we will not deal with compile time errors here :)

The classic command line to compile a GTK+ based program is

gcc -o myprog [c files] `pkg-config gtk+-2.0 --cflags --libs`

You should notice the backquote character which is used in this command line. A common mistake when you start a GTK+ based development is to use quotes instead of backquotes. If you do so, the compiler will complain about an unknown file called pkg-config gtk+-2.0 --cflags --libs. The text in backquotes is an instruction to your shell to substitute the output of executing this command into the commandline.

The command line above ensures that:

• the correct C compiler flags will be used to compile the program (including the complete C header directory list)

• your program will be linked with the needed libraries.

4.5. What about using the make utility? [GTK 2.x]

This is a sample makefile which compiles a GTK+ based program:

# basic GTK+ app makefile
SOURCES = myprg.c foo.c bar.c
OBJS    = ${SOURCES:.c=.o}
CFLAGS  = `pkg-config gtk+-2.0 --cflags`
LDADD   = `pkg-config gtk+-2.0 --libs`
CC      = gcc
PACKAGE = myprg

all : ${OBJS}
  ${CC} -o ${PACKAGE} ${OBJS} ${LDADD}

.c.o:
  ${CC} ${CFLAGS} -c $<

# end of file

For more information about the make utility, you should read either the related man page or the relevant info file.

4.6. I use the backquote stuff in my makefiles, but my make process failed. [GTK 2.x]

The backquote construction seems to not be accepted by some old make utilities. If you use one of these, the make process will probably fail. In order to have the backquote syntax working again, you should use the GNU make utility (get it on the GNU ftp server at ftp://ftp.gnu.org/gnu/make/).

4.7. I want to add some configure stuff, how could I do this? [GTK 2.x]

To use autoconf/automake, you must first install the relevant packages. These are:

• the m4 preprocessor v1.4 or better
• autoconf v2.54 or better
• automake v1.7 or better suggested

You'll find these packages on the main GNU ftp server (ftp://ftp.gnu.org/) or on any GNU mirror.

In order to use the powerful autoconf/automake scheme, you must create a configure.in which may look like:

dnl Process this file with autoconf to produce a configure script.
dnl configure.in for a GTK+ based program

AC_INIT(myprg.c)
AM_INIT_AUTOMAKE(mypkgname, 0.0.1)
AM_CONFIG_HEADER(config.h)

dnl Checks for programs.
AC_PROG_CC dnl check for the c compiler
dnl you should add CFLAGS="" here, 'cos it is set to -g by PROG_CC

dnl Checks for libraries.
AM_PATH_GTK_2_0(2.2.0,,AC_MSG_ERROR(mypkgname 0.1 needs GTK+ 2.2.0))

AC_OUTPUT(
	Makefile
)

You must add a Makefile.am file:

bin_PROGRAMS    = myprg
myprg_SOURCES   = myprg.c foo.c bar.c
INCLUDES        = @GTK_CFLAGS@
LDADD           = @GTK_LIBS@
CLEANFILES      = *~
DISTCLEANFILES  = .deps/*.P

If your project contains more than one subdirectory, you'll have to create one Makefile.am in each directory plus a master Makefile.am which will look like:

SUBDIRS         = mydir1 mydir2 mydir3

then, to use these, simply type the following commands:

aclocal
autoheader
autoconf
automake --add-missing --include-deps --foreign 

For further information, you should look at the autoconf and the automake documentation (the shipped info files are really easy to understand, and there are plenty of web resources that deal with autoconf and automake).

4.8. I try to debug my GTK+ application with gdb, but it hangs my X server when I hit some breakpoint. Any Idea? [GTK 2.x]

From Federico Mena Quintero:

"X is not locked up. It is likely that you are hitting a breakpoint inside a callback that is called from a place in Gtk that has a mouse grab."

"Run your program with the --sync option; it will make it easier to debug. Also, you may want to use the console for running the debugger, and just let the program run in another console with the X server."

Eric Mouw had another solution:

"An old terminal connected to an otherwise unused serial port is also great for debugging X programs. Old vt100/vt220 terminals are dirt cheap but a bit hard to get (here in The Netherlands, YMMV)."

Another option is to run your application on Xnest. Xnest is an X server which displays its root window in a regular window of another X server. A pointer grab on the Xnest display will not affect the GUI of your debugger running on your regular X server.

Xnest :1
twm -display :1
myapp --display=:1

5.1. What widgets are in GTK?

The GTK+ Tutorial lists the following widgets:

  GtkObject
   +GtkData
   | +GtkAdjustment
   | `GtkTooltips
   `GtkWidget
     +GtkContainer
     | +GtkBin
     | | +GtkAlignment
     | | +GtkEventBox
     | | +GtkFrame
     | | | `GtkAspectFrame
     | | +GtkHandleBox
     | | +GtkItem
     | | | +GtkListItem
     | | | +GtkMenuItem
     | | | | `GtkCheckMenuItem
     | | | |   `GtkRadioMenuItem
     | | | `GtkTreeItem
     | | +GtkViewport
     | | `GtkWindow
     | |   +GtkColorSelectionDialog
     | |   +GtkDialog
     | |   | `GtkInputDialog
     | |   `GtkFileSelection
     | +GtkBox
     | | +GtkButtonBox
     | | | +GtkHButtonBox
     | | | `GtkVButtonBox
     | | +GtkHBox
     | | | +GtkCombo
     | | | `GtkStatusbar
     | | `GtkVBox
     | |   +GtkColorSelection
     | |   `GtkGammaCurve
     | +GtkButton
     | | +GtkOptionMenu
     | | `GtkToggleButton
     | |   `GtkCheckButton
     | |     `GtkRadioButton
     | +GtkCList
     |   `GtkCTree
     | +GtkFixed
     | +GtkList
     | +GtkMenuShell
     | | +GtkMenuBar
     | | `GtkMenu
     | +GtkNotebook
     | +GtkPaned
     | | +GtkHPaned
     | | `GtkVPaned
     | +GtkScrolledWindow
     | +GtkTable
     | +GtkToolbar
     | `GtkTree
     +GtkDrawingArea
     | `GtkCurve
     +GtkEditable
     | +GtkEntry
     | | `GtkSpinButton
     | `GtkText
     +GtkMisc
     | +GtkArrow
     | +GtkImage
     | +GtkLabel
     | | `GtkTipsQuery
     | `GtkPixmap
     +GtkPreview
     +GtkProgressBar
     +GtkRange
     | +GtkScale
     | | +GtkHScale
     | | `GtkVScale
     | `GtkScrollbar
     |   +GtkHScrollbar
     |   `GtkVScrollbar
     +GtkRuler
     | +GtkHRuler
     | `GtkVRuler
     `GtkSeparator
       +GtkHSeparator
       `GtkVSeparator

5.2. Is GTK+ thread safe? How do I write multi-threaded GTK+ applications? [GTK 2.x]

The GLib library can be used in a thread-safe mode by calling g_thread_init() before making any other GLib calls. In this mode GLib automatically locks all internal data structures as needed. This does not mean that two threads can simultaneously access, for example, a single hash table, but they can access two different hash tables simultaneously. If two different threads need to access the same hash table, the application is responsible for locking itself.

In order to make GDK thread aware, you also need to call gdk_threads_init() in conjunction with the above call. There is a single global lock that you must acquire with gdk_threads_enter() before making any GDK calls, and release with gdk_threads_leave() afterwards throughout your code.

A minimal main program for a threaded GTK+ application looks like:

int
main (int argc, char *argv[])
{
  GtkWidget *window;

  /* init threads */	
  g_thread_init(NULL);
  gdk_threads_init();
  
  /* init gtk */
  gtk_init(&argc, &argv);

  window = create_window();
  gtk_widget_show(window);

  gdk_threads_enter();
  gtk_main();
  gdk_threads_leave();

  return 0;
}

Callbacks require a bit of attention. Callbacks from GTK+ (signals) are made within the GTK+ lock. However callbacks from GLib (timeouts, IO callbacks, and idle functions) are made outside of the GTK+ lock. So, within a signal handler you do not need to call gdk_threads_enter(), but within the other types of callbacks, you do.

Erik Mouw contributed the following code example to illustrate how to use threads within GTK+ programs.

/*-------------------------------------------------------------------------
 * Filename:      gtk-thread.c
 * Version:       1.99.1
 * Copyright:     Copyright (C) 1999, Erik Mouw
 * Author:        Erik Mouw <J.A.K.Mouw@its.tudelft.nl>
 * Description:   GTK threads example.
 * Created at:    Sun Oct 17 21:27:09 1999
 * Modified by:   Owen Taylor <otaylor@gtk.org>
 * Modified at:   Wed May 28 10:43:00 2003
 *-----------------------------------------------------------------------*/
/*
 * Compile with:
 *
 * cc -o gtk-thread gtk-thread.c `pkg-config --cflags --libs gtk+-2.0 gthread-2.0`
 *
 * Thanks to Sebastian Wilhelmi for pointing out some bugs in earlier versions.
 *
 */

#include <unistd.h>
#include <gtk/gtk.h>

#define YES_IT_IS    (1)
#define NO_IT_IS_NOT (0)

typedef struct
{
  GtkWidget *label;
  int what;
} yes_or_no_args;

G_LOCK_DEFINE_STATIC (yes_or_no);
static volatile int yes_or_no = YES_IT_IS;

void destroy(GtkWidget *widget, gpointer data)
{
  gtk_main_quit();
}

void *argument_thread(void *args)
{
  yes_or_no_args *data = (yes_or_no_args *)args;
  gboolean say_something;

  for(;;)
    {
      /* sleep a while */
      sleep(g_random_int_range (1, 4));

      /* lock the yes_or_no_variable */
      G_LOCK(yes_or_no);

      /* do we have to say something? */
      say_something = (yes_or_no != data->what);

      if(say_something)
	{
	  /* set the variable */
	  yes_or_no = data->what;
	}

      /* Unlock the yes_or_no variable */
      G_UNLOCK(yes_or_no);

      if(say_something)
	{
	  /* get GTK thread lock */
	  gdk_threads_enter();

	  /* set label text */
	  if(data->what == YES_IT_IS)
	    gtk_label_set_text(GTK_LABEL(data->label), "O yes, it is!");
	  else
	    gtk_label_set_text(GTK_LABEL(data->label), "O no, it isn't!");

	  /* Make sure all X commands are sent to the X server; not strictly
	   * necessary here, but always a good idea when you do anything
	   * from a thread other than the one where the main loop is running.
	   */
	  gdk_flush ();

	  /* release GTK thread lock */
	  gdk_threads_leave();
	}
    }

  return NULL;
}

int main(int argc, char *argv[])
{
  GtkWidget *window;
  GtkWidget *label;
  GError *error = NULL;
  yes_or_no_args yes_args, no_args;

  /* init threads */
  g_thread_init(NULL);
  gdk_threads_init();

  /* init gtk */
  gtk_init(&argc, &argv);

  /* create a window */
  window = gtk_window_new(GTK_WINDOW_TOPLEVEL);

  g_signal_connect(window, "destroy",
		   G_CALLBACK(destroy), NULL);

  gtk_container_set_border_width(GTK_CONTAINER (window), 10);

  /* create a label */
  label = gtk_label_new("And now for something completely different ...");
  gtk_container_add(GTK_CONTAINER(window), label);

  /* show everything */
  gtk_widget_show(label);
  gtk_widget_show (window);

  /* create the threads */
  yes_args.label = label;
  yes_args.what = YES_IT_IS;
  if (!g_thread_create(argument_thread, &yes_args, FALSE, &error))
    {
      g_printerr ("Failed to create YES thread: %s\n", error->message);
      return 1;
    }

  no_args.label = label;
  no_args.what = NO_IT_IS_NOT;
  if (!g_thread_create(argument_thread, &no_args, FALSE, &error))
    {
      g_printerr ("Failed to create NO thread: %s\n", error->message);
      return 1;
    }

  /* enter the GTK main loop */
  gdk_threads_enter();
  gtk_main();
  gdk_threads_leave();

  return 0;
}

5.3. I'm doing some stuff with GTK+ in a separate thread, and properly locking with gdk_threads_enter/gdk_threads_leave() but the display doesn't update properly. [GTK 2.x]

For efficiency, the X window system batches up commands and sends them to the X server in batches instead of sending out immediately.

In a non-multithreaded program, you don't have to worry about this, since the first thing that happens when control returns to the main loop is that any outstanding X requests are sent to the X server.

However, if you are making GTK+ calls from a thread other than the main loop, then GTK+ doesn't know when to send batched commands out. For that reason, after making GTK+ calls in a separate thread, it is usually a good idea to call gdk_flush() before gdk_thread_leave().

Actually, gdk_flush() is more expensive than is necessary here, since it waits for the X server to finish outstanding commands as well; if performance is an issue, you may want to call XFlush() directly:

#include <gdk/gdkx.h>

void my_flush_commands (void)
{
  GdkDisplay *display = gdk_display_get_default ();
  XFlush (GDK_DISPLAY_XDISPLAY (display);
}

5.4. What's an easy way to run a function in the thread with the main loop? [GTK 2.x]

Sometimes the simplest way to set up a threaded program is to make all the GTK+ calls in a single thread. In such a program, you should still call g_threads_init(), but don't need to call gdk_threads_init(), gkd_threads_enter(), and gdk_threads_leave().

If you set your program up this way, how then do you get the thread making GTK+ calls and running the main loop to do something in response to another thread?

An easy way to do it is to take advantage of the fact that the GLib main loop functions are all thread safe, and can be called from any thread by adding an idle function with g_idle_add(). The function provided will be called at the next opportunity by the main thread. If you want your function to take priority over event handling and drawing, you can instead use g_idle_add_full() and pass in a priority of G_PRIORITY_HIGH.

5.5. Why does this strange 'x io error' occur when I fork() in my GTK+ app? [GTK 2.x]

This is not really a GTK+ problem, and the problem is not related to fork() either. If the 'x io error' occurs then you probably use the exit() function in order to exit from the child process.

When GDK opens an X display, it creates a socket file descriptor. When you use the exit() function, you implicitly close all the open file descriptors, and the underlying X library really doesn't like this.

The right function to use here is _exit().

Erik Mouw contributed the following code example to illustrate handling fork() and exit().

/*-------------------------------------------------------------------------
 * Filename:      gtk-fork.c
 * Version:       0.99.2
 * Copyright:     Copyright (C) 1999, Erik Mouw
 * Author:        Erik Mouw <J.A.K.Mouw@its.tudelft.nl>
 * Description:   GTK+ fork example
 * Created at:    Thu Sep 23 21:37:55 1999
 * Modified by:   Erik Mouw <J.A.K.Mouw@its.tudelft.nl>
 * Modified at:   Thu Sep 23 22:39:39 1999
 * Modified by:   Tony Gale <gale@gtk.org>
 * Modified at:   Wed Jan 14 12:38:00 2004
 *-----------------------------------------------------------------------*/
/*
 * Compile with:
 *
 * cc -o gtk-fork gtk-fork.c `pkg-config gtk+-2.0 --cflags --libs`
 *
 */

#include <stdio.h>
#include <stdlib.h>
#include <signal.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <gtk/gtk.h>

void sigchld_handler(int num)
{
  sigset_t set, oldset;
  pid_t pid;
  int status, exitstatus;

  /* block other incoming SIGCHLD signals */
  sigemptyset(&set);
  sigaddset(&set, SIGCHLD);
  sigprocmask(SIG_BLOCK, &set, &oldset);

  /* wait for child */
  while((pid = waitpid((pid_t)-1, &status, WNOHANG)) > 0)
    {
      if(WIFEXITED(status))
	{
	  exitstatus = WEXITSTATUS(status);

	  fprintf(stderr, 
		  "Parent: child exited, pid = %d, exit status = %d\n", 
		  (int)pid, exitstatus);
	}
      else if(WIFSIGNALED(status))
	{
	  exitstatus = WTERMSIG(status);

	  fprintf(stderr,
		  "Parent: child terminated by signal %d, pid = %d\n",
		  exitstatus, (int)pid);
	}
      else if(WIFSTOPPED(status))
	{
	  exitstatus = WSTOPSIG(status);

	  fprintf(stderr,
		  "Parent: child stopped by signal %d, pid = %d\n",
		  exitstatus, (int)pid);
	}
      else
	{
	  fprintf(stderr,
		  "Parent: child exited magically, pid = %d\n",
		  (int)pid);
	}
    }

  /* re-install the signal handler (some systems need this) */
  signal(SIGCHLD, sigchld_handler);
  
  /* and unblock it */
  sigemptyset(&set);
  sigaddset(&set, SIGCHLD);
  sigprocmask(SIG_UNBLOCK, &set, &oldset);
}

gint delete_event(GtkWidget *widget, GdkEvent *event, gpointer data)
{
  return(FALSE);
}

void destroy(GtkWidget *widget, gpointer data)
{
  gtk_main_quit();
}

void fork_me(GtkWidget *widget, gpointer data)
{
  pid_t pid;

  pid = fork();

  if(pid == -1)
    {
      /* ouch, fork() failed */
      perror("fork");
      exit(-1);
    }
  else if(pid == 0)
    {
      /* child */
      fprintf(stderr, "Child: pid = %d\n", (int)getpid());

      execlp("ls", "ls", "-CF", "/", NULL);
      
      /* if exec() returns, there is something wrong */
      perror("execlp");

      /* exit child. note the use of _exit() instead of exit() */
      _exit(-1);
    }
  else
    {
      /* parent */
      fprintf(stderr, "Parent: forked a child with pid = %d\n", (int)pid);
    }
}

int main(int argc, char *argv[])
{
  GtkWidget *window;
  GtkWidget *button;

  gtk_init(&argc, &argv);

  /* the basic stuff: make a window and set callbacks for destroy and
   * delete events 
   */
  window = gtk_window_new(GTK_WINDOW_TOPLEVEL);

  g_signal_connect(G_OBJECT (window), "delete_event",
		     G_CALLBACK(delete_event), NULL);
          
  g_signal_connect(G_OBJECT (window), "destroy",
		     G_CALLBACK(destroy), NULL);

#if (GTK_MAJOR_VERSION == 1) && (GTK_MINOR_VERSION == 0)
  gtk_container_border_width(GTK_CONTAINER (window), 10);
#else  
  gtk_container_set_border_width(GTK_CONTAINER (window), 10);
#endif

  /* add a button to do something useful */
  button = gtk_button_new_with_label("Fork me!");
          
  g_signal_connect(G_OBJECT (button), "clicked",
		     G_CALLBACK(fork_me), NULL);

  gtk_container_add(GTK_CONTAINER(window), button);
          
  /* show everything */
  gtk_widget_show (button);
  gtk_widget_show (window);


  /* install a signal handler for SIGCHLD signals */
  signal(SIGCHLD, sigchld_handler);

  
  /* main loop */
  gtk_main ();

  exit(0);         
}

5.6. Why don't the contents of a button move when the button is pressed? Here's a patch to make it work that way... [GTK 2.x]

From: Peter Mattis

"The reason buttons don't move their child down and to the right when they are depressed is because I don't think that's what is happening visually. My view of buttons is that you are looking at them straight on. That is, the user interface lies in a plane and you're above it looking straight at it. When a button gets pressed it moves directly away from you. To be absolutely correct I guess the child should actually shrink a tiny amount. But I don't see why the child should shift down and to the left. Remember, the child is supposed to be attached to the buttons surface. Its not good for it to appear like the child is slipping on the surface of the button."

"On a more practical note, I did implement this at one point and determined it didn't look good and removed it."

5.7. How do I identifiy a widgets top level window or other ancestor? [GTK 2.x]

There are a couple of ways to find the top level parent of a widget. The easiest way is to call the gtk_widget_get_toplevel() function that returns a pointer to a GtkWidget that is the top level window.

A more complicated way to do this (but less limited, as it allows the user to get the closest ancestor of a known type) is to use gtk_widget_get_ancestor() as in:

      GtkWidget       *widget;
      widget = gtk_widget_get_ancestor(w, GTK_TYPE_WINDOW);

Since virtually all the GTK_TYPEs can be used as the second parameter of this function, you can get any parent widget of a particular widget. Suppose you have an hbox which contains a vbox, which in turn contains some other atomic widget (entry, label, etc. To find the master hbox using the entry widget simply use:

      GtkWidget       *hbox;
      hbox = gtk_widget_get_ancestor(w, GTK_TYPE_HBOX);

You can also follow the a widgets ancestry by using the function gtk_widget_get_parent() that returns a pointer to a widgets parent widget.

5.8. How do I get the Window ID of a GtkWindow? [GTK 2.x]

The actual Gdk/X window will be created when the widget gets realized. You can get the Window ID with:

#include <gdk/gdkx.h>

Window xwin = GDK_WINDOW_XWINDOW (GTK_WIDGET (my_window)->window);

5.9. How do I catch a double click event? [GTK 2.x]

Tim Janik wrote to gtk-list (slightly modified):

Define a signal handler:

gint
signal_handler_event(GtkWidget *widget, GdkEventButton *event, gpointer func_data)
{
  if (GTK_IS_BUTTON(widget) &&
       (event->type==GDK_2BUTTON_PRESS ||
        event->type==GDK_3BUTTON_PRESS) ) {
    printf("I feel %s clicked with button %d\n",
           event->type==GDK_2BUTTON_PRESS ? "double" : "triple",
           event->button);
  }

  return FALSE;
}

And connect the handler to your object:

{
  /* button init stuff */     

  g_signal_connect(G_OBJECT(button),
                     "button_press_event",
                     G_CALLBACK(signal_handler_event),
                     NULL);

  /* and/or */

  g_signal_connect(G_OBJECT(button),
                     "button_release_event",
                     G_CALLBACK(signal_handler_event),
                     NULL);

  /* something else */
}

and, Owen Taylor wrote:

"Note that a single button press will be received beforehand, and if you are doing this for a button, you will therefore also get a "clicked" signal for the button. (This is going to be true for any toolkit, since computers aren't good at reading one's mind.)"

5.10. By the way, what are the differences between signals and events?

First of all, Havoc Pennington gives a rather complete description of the differences between events and signals in his free book (two chapters can be found at http://www106.pair.com/rhp/sample_chapters.html).

Moreover, Havoc posted this to the gtk-list "Events are a stream of messages received from the X server. They drive the Gtk main loop; which more or less amounts to "wait for events, process them" (not exactly, it is really more general than that and can wait on many different input streams at once). Events are a Gdk/Xlib concept."

"Signals are a feature of GtkObject and its subclasses. They have nothing to do with any input stream; really a signal is just a way to keep a list of callbacks around and invoke them ("emit" the signal). There are lots of details and extra features of course. Signals are emitted by object instances, and are entirely unrelated to the Gtk main loop. Conventionally, signals are emitted "when something changes" about the object emitting the signal."

"Signals and events only come together because GtkWidget happens to emit signals when it gets events. This is purely a convenience, so you can connect callbacks to be invoked when a particular widget receives a particular event. There is nothing about this that makes signals and events inherently related concepts, any more than emitting a signal when you click a button makes button clicking and signals related concepts."

5.11. Data I pass to the delete_event (or other event) handler gets corrupted.

All event handlers take an additional argument which contains information about the event that triggered the handler. So, a delete_event handler must be declared as:

gint delete_event_handler (GtkWidget   *widget,
                           GdkEventAny *event,
                           gpointer     data);

5.12. I have my signal connected to the the (whatever) event, but it seems I don't catch it. What's wrong?

There is some special initialisation to do in order to catch some particular events. In fact, you must set the correct event mask bit of your widget before getting some particular events.

For example,

  gtk_widget_add_events(window, GDK_KEY_RELEASE_MASK);

lets you catch the key release events. If you want to catch every events, simply us the GDK_ALL_EVENTS_MASK event mask.

All the event masks are defined in the gdktypes.h file.

5.13. I need to add a new signal to a GTK+ widget. Any idea?

If the signal you want to add may be beneficial for other GTK+ users, you may want to submit a patch that presents your changes. Check the tutorial for more information about adding signals to a widget class.

If you don't think it is the case or if your patch is not applied you'll have to use the gtk_object_class_user_signal_new function. gtk_object_class_user_signal_new allows you to add a new signal to a predefined GTK+ widget without any modification of the GTK+ source code. The new signal can be emited with gtk_signal_emit and can be handled in the same way as other signals.

Tim Janik posted this code snippet:

static guint signal_user_action = 0;

signal_user_action =
  gtk_object_class_user_signal_new (gtk_type_class (GTK_TYPE_WIDGET),
                    "user_action",
                    GTK_RUN_LAST | GTK_RUN_ACTION,
                    gtk_marshal_NONE__POINTER,
                    GTK_TYPE_NONE, 1,
                    GTK_TYPE_POINTER);

void
gtk_widget_user_action (GtkWidget *widget,
                        gpointer   act_data)
{
  g_return_if_fail (GTK_IS_WIDGET (widget));

  gtk_signal_emit (GTK_OBJECT (widget), signal_user_action, act_data);
}

If you want your new signal to have more than the classical gpointer parameter, you'll have to play with GTK+ marshallers.

5.14. Is it possible to get some text displayed which is truncated to fit inside its allocation?

GTK's behavior (no clipping) is a consequence of its attempts to conserve X resources. Label widgets (among others) don't get their own X window - they just draw their contents on their parent's window. While it might be possible to have clipping occur by setting the clip mask before drawing the text, this would probably cause a substantial performance penalty.

Its possible that, in the long term, the best solution to such problems might be just to change gtk to give labels X windows. A short term workaround is to put the label widget inside another widget that does get its own window - one possible candidate would be the viewport widget.

viewport = gtk_viewport (NULL, NULL);
gtk_widget_set_usize (viewport, 50, 25);
gtk_viewport_set_shadow_type (GTK_VIEWPORT(viewport), GTK_SHADOW_NONE);
gtk_widget_show(viewport);

label = gtk_label ("a really long label that won't fit");
gtk_container_add (GTK_CONTAINER(viewport), label);
gtk_widget_show (label);

If you were doing this for a bunch of widgets, you might want to copy gtkviewport.c and strip out the adjustment and shadow functionality (perhaps you could call it GtkClipper).

5.15. How do I make my window modal? / How do I make a single window active?

After you create your window, do gtk_grab_add(my_window). And after closing the window do gtk_grab_remove(my_window).

5.16. Why doesn't my widget (e.g. progressbar) update? [GTK 2.x]

You are probably doing all the changes within a function without returning control to gtk_main(). This may be the case if you do some lengthy calculation in your code. Most drawing updates are only placed on a queue, which is processed within gtk_main(). You can force the drawing queue to be processed using something like:

while (g_main_context_iteration(NULL, FALSE));

inside you're function that changes the widget.

What the above snippet does is run all pending events and high priority idle functions, then return immediately (the drawing is done in a high priority idle function).

5.17. How do I attach data to some GTK+ object/widget? [GTK 2.x]

First of all, the attached data is stored in the object_data field of a GtkObject. The type of this field is GData, which is defined in glib.h. So you should read the gdataset.c file in your glib source directory very carefully.

There are two (easy) ways to attach some data to a gtk object. Using g_object_set_data() and g_object_get_data() seems to be the most common way to do this, as it provides a powerful interface to connect objects and data.

void g_object_set_data(GObject *object, const gchar *key, gpointer data);

gpointer g_object_get_data(GObject *object, const gchar *key);

Since a short example is better than any lengthy speech:

struct my_struct	p1,p2,*result;
GtkWidget		*w;

g_object_set_data(G_OBJECT(w),"p1 data",(gpointer)&p1);
g_object_set_data(G_OBJECT(w),"p2 data",(gpointer)&p2);

result = g_object_get_data(G_OBJECT(w),"p1 data");

The gtk_object_set_user_data() and gtk_object_get_user_data() functions does exactly the same thing as the functions above, but does not let you specify the "key" parameter.Instead, it uses a standard "user_data" key. Note that the use of these functions is deprecated in 1.2. They only provide a compatibility mode with some old gtk packages.

5.18. How do I remove the data I have attached to an object?

When attaching the data to the object, you can use the gtk_object_set_data_full() function. The three first arguments of the function are the same as in gtk_object_set_data(). The fourth one is a pointer to a callback function which is called when the data is destroyed. The data is destroyed when you:

• destroy the object

• replace the data with a new one (with the same key)

• replace the data with NULL (with the same key)

5.19. How do I reparent a widget?

The normal way to reparent (ie change the owner) of a widget should be to use the function:

void gtk_widget_reparent (GtkWidget *widget, 
                          GtkWidget *new_parent)

But this is only a "should be" since this function does not correctly do its job on some specific widgets. The main goal of gtk_widget_reparent() is to avoid unrealizing widget if both widget and new_parent are realized (in this case, widget->window is successfully reparented). The problem here is that some widgets in the GTK+ hierarchy have multiple attached X subwindows and this is notably the case for the GtkSpinButton widget. For those, gtk_widget_reparent() will fail by leaving an unrealized child window where it should not.

To avoid this problem, simply use the following code snippet:

     gtk_widget_ref(widget);
     gtk_container_remove(GTK_CONTAINER(old_parent), widget);
     gtk_container_add(GTK_CONTAINER(new_parent), widget);
     gtk_widget_unref(widget);

5.20. How could I get any widgets position?

As Tim Janik pointed out, there are different cases, and each case requires a different solution.

• If you want the position of a widget relative to its parent, you should use widget->allocation.x and widget->allocation.y.

• If you want the position of a window relative to the X root window, you should use gdk_window_get_geometry() gdk_window_get_position() or gdk_window_get_origin().

• If you want to get the position of the window (including the WM decorations), you should use gdk_window_get_root_origin().

• Last but not least, if you want to get a Window Manager frame position, you should use gdk_window_get_deskrelative_origin().

Your choice of Window Manager will have an effect of the results of the above functions. You should keep this in mind when writing your application. This is dependant upon how the Window Managers manage the decorations that they add around windows.

5.21. How do I set the size of a widget/window? How do I prevent the user resizing my window? [GTK 2.x]

The gtk_widget_set_size_request() function is used to set the size of a widget to a specific size. The function gtk_window_set_resizable() function sets whether the user can resize a window, which they can by default. The definition of these functions are:

void gtk_widget_set_size_request (GtkWidget *widget,
                                  gint       width,
                                  gint       height);

void gtk_window_set_resizable (GtkWindow *window,
                               gboolean   resizable);

5.22. How do I add a popup menu to my GTK+ application?

The menu example in the examples/menu directory of the GTK+ distribution implements a popup menu with this technique:

static gint button_press (GtkWidget *widget, GdkEvent *event)
{

    if (event->type == GDK_BUTTON_PRESS) {
        GdkEventButton *bevent = (GdkEventButton *) event; 
        gtk_menu_popup (GTK_MENU(widget), NULL, NULL, NULL, NULL,
                        bevent->button, bevent->time);
        /* Tell calling code that we have handled this event; the buck
         * stops here. */
        return TRUE;
    }

    /* Tell calling code that we have not handled this event; pass it on. */
    return FALSE;
}

5.23. How do I disable or enable a widget, such as a button?

To disable (or to enable) a widget, use the gtk_widget_set_sensitive() function. The first parameter is you widget pointer. The second parameter is a boolean value: when this value is TRUE, the widget is enabled.

5.24. Shouldn't the text argument in the gtk_clist_* functions be declared const?

For example:

gint gtk_clist_prepend (GtkCList *clist,
                        gchar    *text[]);

Answer: No, while a type "gchar*" (pointer to char) can automatically be cast into "const gchar*" (pointer to const char), this does not apply for "gchar *[]" (array of an unspecified number of pointers to char) into "const gchar *[]" (array of an unspecified number of pointers to const char).

The type qualifier "const" may be subject to automatic casting, but in the array case, it is not the array itself that needs the (const) qualified cast, but its members, thus changing the whole type.

5.25. How do I render pixels (image data) to the screen?

There are several ways to approach this. The simplest way is to use GdkRGB, see gdk/gdkrgb.h. You create an RGB buffer, render to your RGB buffer, then use GdkRGB routines to copy your RGB buffer to a drawing area or custom widget. The book "GTK+/Gnome Application Development" gives some details; GdkRGB is also documented in the GTK+ reference documentation.

If you're writing a game or other graphics-intensive application, you might consider a more elaborate solution. OpenGL is the graphics standard that will let you access hardware accelaration in future versions of XFree86; so for maximum speed, you probably want to use OpenGL. A GtkGLArea widget is available for using OpenGL with GTK+ (but GtkGLArea does not come with GTK+ itself). There are also several open source game libraries, such as ClanLib and Loki's Simple DirectMedia Layer library (SDL).

You do NOT want to use gdk_draw_point(), that will be extremely slow.

5.26. How do I create a pixmap without having my window being realized/shown?

Functions such as gdk_pixmap_create_from_xpm() require a valid window as a parameter. During the initialisation phase of an application, a valid window may not be available without showing a window, which may be inappropriate. In order to avoid this, a function such as gdk_pixmap_colormap_create_from_xpm can be used, as in:

  char *pixfile = "foo.xpm";
  GtkWidget *top, *box, *pixw;
  GdkPixmap *pixmap, *pixmap_mask;

  top = gtk_window_new (GKT_WINDOW_TOPLEVEL);
  box = gtk_hbox_new (FALSE, 4);
  gtk_conainer_add (GTK_CONTAINER(top), box);
 
  pixmap = gdk_pixmap_colormap_create_from_xpm (
               NULL, gtk_widget_get_colormap(top),
               &pixmap_mask, NULL, pixfile);
  pixw = gtk_pixmap_new (pixmap, pixmap_mask);
  gdk_pixmap_unref (pixmap);
  gdk_pixmap_unref (pixmap_mask);

5.27. How do I do drag-and-drop?

GTK+ has a high level set of functions for doing inter-process communication via the drag-and-drop system. GTK+ can perform drag-and-drop on top of the low level Xdnd and Motif drag-and-drop protocols.

The documentation on GTK+ drag-and-drop isn't complete, but there is some information in the Tutorial. You should also look at the drag-and-drop example code that is part of the GTK+ source distribution, in the file gtk/testdnd.c.

5.28. Why does GTK+/GLib leak memory?

It doesn't. Both GLib and the C library (malloc implementation) will cache allocated memory on occasion, even if you free it with free().

So you can't generally use tools such as top to see if you are using free() properly (aside from the very roughest of estimations, i.e. if you are really, really screwing up top will show that, but you can't distinguish small mistakes from the GLib/malloc caches).

In order to find memory leaks, use proper memory profiling tools.

6.1. How do I find out about the selection of a GtkList?

Get the selection something like this:

GList *sel;
sel = GTK_LIST(list)->selection;

This is how GList is defined (quoting glist.h):

typedef struct _GList GList;

struct _GList
{
  gpointer data;
  GList *next;
  GList *prev;
};

A GList structure is just a simple structure for doubly linked lists. There exist several g_list_*() functions to modify a linked list in glib.h. However the GTK_LIST(MyGtkList)->selection is maintained by the gtk_list_*() functions and should not be modified.

The selection_mode of the GtkList determines the selection facilities of a GtkList and therefore the contents of GTK_LIST(AnyGtkList)->selection:

The data field of the GList structure GTK_LIST(MyGtkList)->selection points to the first GtkListItem that is selected. So if you would like to determine which listitems are selected you should go like this:

{
        gchar           *list_items[]={
                                "Item0",
                                "Item1",
                                "foo",
                                "last Item",
                        };
        guint           nlist_items=sizeof(list_items)/sizeof(list_items[0]);
        GtkWidget       *list_item;
        guint           i;

        list=gtk_list_new();
        gtk_list_set_selection_mode(GTK_LIST(list), GTK_SELECTION_MULTIPLE);
        gtk_container_add(GTK_CONTAINER(AnyGtkContainer), list);
        gtk_widget_show (list);

        for (i = 0; i < nlist_items; i++)
        {
                list_item=gtk_list_item_new_with_label(list_items[i]);
                gtk_object_set_user_data(GTK_OBJECT(list_item), (gpointer)i);
                gtk_container_add(GTK_CONTAINER(list), list_item);
                gtk_widget_show(list_item);
        }
}

To get known about the selection:

{
        GList   *items;

        items=GTK_LIST(list)->selection;

        printf("Selected Items: ");
        while (items) {
                if (GTK_IS_LIST_ITEM(items->data))
                        printf("%d ", (guint) 
                gtk_object_get_user_data(items->data));
                items=items->next;
        }
        printf("\n");
}

6.2. How do I stop the column headings of a GtkCList disappearing when the list is scrolled?

This happens when a GtkCList is packed into a GtkScrolledWindow using the function gtk_scroll_window_add_with_viewport(). The prefered method of adding a CList to a scrolled window is to use the function gtk_container_add, as in:

    GtkWidget *scrolled, *clist;
    char *titles[] = { "Title1" , "Title2" };

    scrolled = gtk_scrolled_window_new(NULL, NULL);

    clist = gtk_clist_new_with_titles(2, titles);
    gtk_container_add(GTK_CONTAINER(scrolled), clist);

6.3. I don't want the user of my applications to enter text into a GtkCombo. Any idea?

A GtkCombo has an associated entry which can be accessed using the following expression:

      GTK_COMBO(combo_widget)->entry

If you don't want the user to be able to modify the content of this entry, you can use the gtk_entry_set_editable() function:

      void gtk_entry_set_editable(GtkEntry *entry, 
                                  gboolean editable);

Set the editable parameter to FALSE to disable typing into the entry.

6.4. How do I catch a combo box change?

The entry which is associated to your GtkCombo send a "changed" signal when:

• some text is typed in

• the selection of the combo box is changed

To catch any combo box change, simply connect your signal handler with

      gtk_signal_connect(GTK_COMBO(cb)->entry,
                         "changed",
                         GTK_SIGNAL_FUNC(my_cb_change_handler),
                         NULL);

6.5. How can I define a separation line in a menu?

See the Tutorial for information on how to create menus. However, to create a separation line in a menu, just insert an empty menu item:

menuitem = gtk_menu_item_new();
gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem);
gtk_widget_show(menuitem);

6.6. How can I right justify a menu, such as Help?

Depending on if you use the MenuFactory or not, there are two ways to proceed. With the MenuFactory, use something like the following:

menu_path = gtk_menu_factory_find (factory,  "<MyApp>/Help");
gtk_menu_item_right_justify(menu_path->widget);

If you do not use the MenuFactory, you should simply use:

gtk_menu_item_right_justify(my_menu_item);

6.7. How do I add some underlined accelerators to menu items?

Damon Chaplin, the technical force behind the Glade project, provided the following code sample (this code is an output from Glade). It creates a small File menu item with only one child (New). The F in File and the N in New are underlined, and the relevant accelerators are created.

  menubar1 = gtk_menu_bar_new ();
  gtk_object_set_data (GTK_OBJECT (window1), "menubar1", menubar1);
  gtk_widget_show (menubar1);
  gtk_box_pack_start (GTK_BOX (vbox1), menubar1, FALSE, FALSE, 0);

  file1 = gtk_menu_item_new_with_label ("");
  tmp_key = gtk_label_parse_uline (GTK_LABEL (GTK_BIN (file1)->child),
                                   _("_File"));
  gtk_widget_add_accelerator (file1, "activate_item", accel_group,
                              tmp_key, GDK_MOD1_MASK, 0);
  gtk_object_set_data (GTK_OBJECT (window1), "file1", file1);
  gtk_widget_show (file1);
  gtk_container_add (GTK_CONTAINER (menubar1), file1);

  file1_menu = gtk_menu_new ();
  file1_menu_accels = gtk_menu_ensure_uline_accel_group (GTK_MENU (file1_menu));
  gtk_object_set_data (GTK_OBJECT (window1), "file1_menu", file1_menu);
  gtk_menu_item_set_submenu (GTK_MENU_ITEM (file1), file1_menu);

  new1 = gtk_menu_item_new_with_label ("");
  tmp_key = gtk_label_parse_uline (GTK_LABEL (GTK_BIN (new1)->child),
                                   _("_New"));
  gtk_widget_add_accelerator (new1, "activate_item", file1_menu_accels,
                              tmp_key, 0, 0);
  gtk_object_set_data (GTK_OBJECT (window1), "new1", new1);
  gtk_widget_show (new1);
  gtk_container_add (GTK_CONTAINER (file1_menu), new1);

6.8. How can I retrieve the text from a GtkMenuItem?

You can usually retrieve the label of a specific GtkMenuItem with:

    if (GTK_BIN (menu_item)->child)
    {
      GtkWidget *child = GTK_BIN (menu_item)->child;
  
      /* do stuff with child */
      if (GTK_IS_LABEL (child))
      {
        gchar *text;
    
        gtk_label_get (GTK_LABEL (child), &text);
        g_print ("menu item text: %s\n", text);
      }
    }

To get the active menu item from a GtkOptionMenu you can do:

if (GTK_OPTION_MENU (option_menu)->menu_item)
{
  GtkWidget *menu_item = GTK_OPTION_MENU (option_menu)->menu_item;
}

But, there's a catch. For this specific case, you can not get the label widget from menu_item with the above code, because the option menu reparents the menu_item's child temporarily to display the currently active contents. So to retrive the child of the currently active menu_item of an option menu, you'll have to do:

    if (GTK_BIN (option_menu)->child)
    {
      GtkWidget *child = GTK_BIN (option_menu)->child;

      /* do stuff with child */
    }

6.9. How do I right (or otherwise) justify a GtkLabel?

Are you sure you want to justify the labels? The label class contains the gtk_label_set_justify() function that is used to control the justification of a multi-line label.

What you probably want is to set the alignment of the label, ie right align it, center it or left align it. If you want to do this, you should use:

void gtk_misc_set_alignment (GtkMisc *misc,
                             gfloat xalign,
                             gfloat yalign);

where the xalign and yalign values are floats in [0.00;1.00].

GtkWidget       *label;

/* horizontal : left align, vertical : top */
gtk_misc_set_alignment(GTK_MISC(label), 0.0f, 0.0f);

/* horizontal : centered, vertical : centered */
gtk_misc_set_alignment(GTK_MISC(label), 0.5f, 0.5f);

/* horizontal : right align, vertical : bottom */
gtk_misc_set_alignment(GTK_MISC(label), 1.0f, 1.0f);

6.10. How do I set the background color of a GtkLabel widget?

The GtkLabel widget is one of a few GTK+ widgets that don't create their own window to render themselves into. Instead, they draw themselves directly onto their parents window.

This means that in order to set the background color for a GtkLabel widget, you need to change the background color of its parent, i.e. the object that you pack it into.

6.11. How do I set the color and font of a GtkLabel using a Resource File?

The widget name path constructed for a Label consists of the widget names of its object hierarchy as well, e.g.

window (name: humphrey)
hbox
label (name: mylabel)

The widget path your pattern needs to match would be: humphrey.GtkHBox.mylabel

The resource file may look something like:

style "title"
{
      fg[NORMAL] = {1.0, 0.0, 0.0}
      font = "-adobe-helvetica-bold-r-normal--*-140-*-*-*-*-*-*"
}
widget "*mylabel" style "title"

In your program, you would also need to give a name to the Label widget, which can be done using:

  label = gtk_label_new("Some Label Text");
  gtk_widget_set_name(label, "mylabel");
  gtk_widget_show(label);

6.12. How do I configure Tooltips in a Resource File?

The tooltip's window is named "gtk-tooltips", GtkTooltips in itself is not a GtkWidget (though a GtkObject) and as such is not attempted to match any widget styles.

So, your resource file should look something like:

style "postie"
{
      bg[NORMAL] = {1.0, 1.0, 0.0}
}
widget "gtk-tooltips*" style "postie"

6.13. I can't add more than (something like) 2000 chars in a GtkEntry. What's wrong?

There is now a known problem in the GtkEntry widget. In the gtk_entry_insert_text() function, the following lines limit the number of chars in the entry to 2047.

  /* The algorithms here will work as long as, the text size (a
   * multiple of 2), fits into a guint16 but we specify a shorter
   * maximum length so that if the user pastes a very long text, there
   * is not a long hang from the slow X_LOCALE functions.  */

  if (entry->text_max_length == 0)
    max_length = 2047;
  else
    max_length = MIN (2047, entry->text_max_length);

6.14. How do I make a GtkEntry widget activate on pressing the Return key?

The Entry widget emits an 'activate' signal when you press return in it. Just attach to the activate signal on the entry and do whatever you want to do. Typical code would be:

  entry = gtk_entry_new();
  gtk_signal_connect (GTK_OBJECT(entry), "activate",
                      GTK_SIGNAL_FUNC(entry_callback),
                      NULL);

6.15. How do I validate/limit/filter the input to a GtkEntry? [GTK 2.x]

If you want to validate the text that a user enters into a GtkEntry widget you can attach to the "insert_text" signal of the entry, and modify the text within the callback function. The example below forces all characters to uppercase, and limits the range of characters to A-Z. Note that the entry is cast to an object of type GtkEditable, from which GtkEntry is derived.

#include <ctype.h>
#include <gtk/gtk.h>

void insert_text_handler (GtkEntry    *entry,
                          const gchar *text,
                          gint         length,
                          gint        *position,
                          gpointer     data)
{
  GtkEditable *editable = GTK_EDITABLE(entry);
  int i, count=0;
  gchar *result = g_new (gchar, length);

  for (i=0; i < length; i++) {
    if (!isalpha(text[i]))
      continue;
    result[count++] = islower(text[i]) ? toupper(text[i]) : text[i];
  }
  
  if (count > 0) {
    g_signal_handlers_block_by_func (G_OBJECT (editable),
                                     G_CALLBACK (insert_text_handler),
                                     data);
    gtk_editable_insert_text (editable, result, count, position);
    g_signal_handlers_unblock_by_func (G_OBJECT (editable),
                                       G_CALLBACK (insert_text_handler),
                                       data);
  }
  g_signal_stop_emission_by_name (G_OBJECT (editable), "insert_text");

  g_free (result);
}

int main (int   argc,
          char *argv[])
{
  GtkWidget *window;
  GtkWidget *entry;
  
  gtk_init (&argc, &argv);
  
  /* create a new window */
  window = gtk_window_new(GTK_WINDOW_TOPLEVEL);
  gtk_window_set_title(GTK_WINDOW (window), "GTK Entry");
  g_signal_connect (G_OBJECT (window), "destroy",
                    G_CALLBACK (gtk_main_quit),
                    NULL);

  entry = gtk_entry_new();
  g_signal_connect(G_OBJECT(entry), "insert_text",
		     G_CALLBACK(insert_text_handler),
		     NULL);
  gtk_container_add(GTK_CONTAINER (window), entry);
  gtk_widget_show(entry);
  
  gtk_widget_show(window);
  
  gtk_main();
  return(0);
}

6.16. How do I use horizontal scrollbars with a GtkText widget?

The short answer is that you can't. The current version of the GtkText widget does not support horizontal scrolling. There is an intention to completely rewrite the GtkText widget, at which time this limitation will be removed.

6.17. How do I change the font of a GtkText widget?

There are a couple of ways of doing this. As GTK+ allows the appearance of applications to be changed at run time using resources you can use something like the following in the appropriate file:

style "text"
{
  font = "-adobe-helvetica-medium-r-normal--*-100-*-*-*-*-*-*"
}

Another way to do this is to load a font within your program, and then use this in the functions for adding text to the text widget. You can load a font using, for example:

  GdkFont *font;
  font = gdk_font_load("-adobe-helvetica-medium-r-normal--*-140-*-*-*-*-*-*");

6.18. How do I set the cursor position in a GtkText object?

Notice that the response is valid for any object that inherits from the GtkEditable class.

Are you sure that you want to move the cursor position? Most of the time, while the cursor position is good, the insertion point does not match the cursor position. If this apply to what you really want, then you should use the gtk_text_set_point() function. If you want to set the insertion point at the current cursor position, use the following:

  gtk_text_set_point(GTK_TEXT(text),
  gtk_editable_get_position(GTK_EDITABLE(text)));

If you want the insertion point to follow the cursor at all time, you should probably catch the button press event, and then move the insertion point. Be careful : you'll have to catch it after the widget has changed the cursor position though. Thomas Mailund Jensen proposed the following code:

static void
insert_bar (GtkWidget *text)
{
  /* jump to cursor mark */
  gtk_text_set_point (GTK_TEXT (text),
  gtk_editable_get_position (GTK_EDITABLE  (text)));

  gtk_text_insert (GTK_TEXT (text), NULL, NULL, NULL,
     "bar", strlen ("bar"));
}

int
main (int argc, char *argv[])
{
  GtkWidget *window, *text;

  gtk_init (&argc, &argv);

  window = gtk_window_new (GTK_WINDOW_TOPLEVEL);
  text = gtk_text_new (NULL, NULL);
  gtk_text_set_editable (GTK_TEXT (text), TRUE);
  gtk_container_add (GTK_CONTAINER (window), text);

  /* connect after everything else */
  gtk_signal_connect_after (GTK_OBJECT(text), "button_press_event",
    GTK_SIGNAL_FUNC (insert_bar), NULL);

  gtk_widget_show_all(window);
  gtk_main();

  return 0;
}

Now, if you really want to change the cursor position, you should use the gtk_editable_set_position() function.

7.1. What is GDK?

GDK is basically a wrapper around the standard Xlib function calls. If you are at all familiar with Xlib, a lot of the functions in GDK will require little or no getting used to. All functions are written to provide an way to access Xlib functions in an easier and slightly more intuitive manner. In addition, since GDK uses GLib (see below), it will be more portable and safer to use on multiple platforms.

7.2. How do I use color allocation?

One of the nice things about GDK is that it's based on top of Xlib; this is also a problem, especially in the area of color management. If you want to use color in your program (drawing a rectangle or such, your code should look something like this:

{
  GdkColor *color;
  int width, height;
  GtkWidget *widget;
  GdkGC *gc;

  ...
  
  /* first, create a GC to draw on */
  gc = gdk_gc_new(widget->window);

  /* find proper dimensions for rectangle */
  gdk_window_get_size(widget->window, &width, &height);

  /* the color we want to use */
  color = (GdkColor *)malloc(sizeof(GdkColor));
  
  /* red, green, and blue are passed values, indicating the RGB triple
   * of the color we want to draw. Note that the values of the RGB components
   * within the GdkColor are taken from 0 to 65535, not 0 to 255.
   */
  color->red = red * (65535/255);
  color->green = green * (65535/255);
  color->blue = blue * (65535/255);
  
  /* the pixel value indicates the index in the colormap of the color.
   * it is simply a combination of the RGB values we set earlier
   */
  color->pixel = (gulong)(red*65536 + green*256 + blue);

  /* However, the pixel valule is only truly valid on 24-bit (TrueColor)
   * displays. Therefore, this call is required so that GDK and X can
   * give us the closest color available in the colormap
   */
  gdk_color_alloc(gtk_widget_get_colormap(widget), color);

  /* set the foreground to our color */
  gdk_gc_set_foreground(gc, color);
  
  /* draw the rectangle */
  gdk_draw_rectangle(widget->window, gc, 1, 0, 0, width, height);

  ...
}

8.1. What is GLib?

GLib is a library of useful functions and definitions available for use when creating GDK and GTK applications. It provides replacements for some standard libc functions, such as malloc, which are buggy on some systems.

It also provides routines for handling:

• Doubly Linked Lists
• Singly Linked Lists
• Timers
• String Handling
• A Lexical Scanner
• Error Functions

8.2. How can I use the doubly linked lists?

The GList object is defined as:

typedef struct _GList GList;

struct _GList
{
  gpointer data;
  GList *next;
  GList *prev;
};

To use the GList objects, simply:

GList   *list = NULL;
GList   *listrunner;
gint    array[] = { 1, 2, 3, 4, 5, 6 };
gint    pos;
gint    *value;

/* add data to the list */
for (pos=0;pos < sizeof array; pos++) {
  list = g_list_append(list, (gpointer)&array[pos]);
}

/* run through the list */
listrunner = g_list_first(list);
while (listrunner) {
  value = (gint *)listrunner->data;
  printf("%d\n", *value);
  listrunner = g_list_next(listrunner);
}

/* removing datas from the list */
listrunner = g_list_first(list);
list = g_list_remove_link(list, listrunner);
list = g_list_remove(list, &array[4]);

The same code is usable with singly linked lists (GSList objects) by replacing g_list_* functions with the relevant g_slist_* ones (g_slist_append, g_slist_remove, ...). Just remember that since you can't go backward in a singly linked list, there is no g_slist_first function - you'll need to keep a reference on the first node of the list.

8.3. Memory does not seem to be released when I free the list nodes I've allocated

GLib tries to be "intelligent" on this special issue: it assumes that you are likely to reuse the objects, so caches the allocated memory. If you do not want to use this behavior, you'll probably want to set up a special allocator.

To quote Tim Janik:

"If you have a certain portion of code that uses *lots* of GLists or GNodes, and you know you'd better want to release all of them after a short while, you'd want to use a GAllocator. Pushing an allocator into g_list will make all subsequent glist operations private to that allocator's memory pool (and thus you have to take care to pop the allocator again, before making any external calls): "

GAllocator *allocator;
GList *list = NULL;
guint i;

/* set a new allocation pool for GList nodes */
allocator = g_allocator_new ("list heap", 1024);
g_list_push_allocator (allocator);

/* do some list operations */
for (i = 0; i < 4096; i++)
  list = g_list_prepend (list, NULL);
list = g_list_reverse (list);

/* beware to pop allocator befor calling external functions */
g_list_pop_allocator ();
gtk_label_set_text (GTK_LABEL (some_label), "some text");

/* and set our private glist pool again */
g_list_push_allocator (allocator);

/* do some list operations */
g_list_free (list);
list = NULL;
for (i = 0; i < 4096; i++)
  list = g_list_prepend (list, NULL);
  
/* and back out (while freeing all of the list nodes in our pool) */
g_list_pop_allocator ();
g_allocator_free (allocator);

8.4. Why use g_print, g_malloc, g_strdup and fellow glib functions?

Thanks to Tim Janik who wrote to gtk-list: (slightly modified)

"Regarding g_malloc(), g_free() and siblings, these functions are much safer than their libc equivalents. For example, g_free() just returns if called with NULL. Also, if USE_DMALLOC is defined, the definition for these functions changes (in glib.h) to use MALLOC(), FREE() etc... If MEM_PROFILE or MEM_CHECK are defined, there are even small statistics made counting the used block sizes (shown by g_mem_profile() / g_mem_check())."

"Considering the fact that glib provides an interface for memory chunks to save space if you have lots of blocks that are always the same size and to mark them ALLOC_ONLY if needed, it is just straight forward to create a small saver (debug able) wrapper around the normal malloc/free stuff as well - just like gdk covers Xlib. ;)"

"Using g_error() and g_warning() inside of applications like the GIMP that fully rely on gtk even gives the opportunity to pop up a window showing the messages inside of a gtk window with your own handler (by using g_set_error_handler()) along the lines of gtk_print() (inside of gtkmain.c)."

8.5. What's a GScanner and how do I use one?

A GScanner will tokenize your text, that is, it'll return an integer for every word or number that appears in its input stream, following certain (customizable) rules to perform this translation. You still need to write the parsing functions on your own though.

Here's a little test program supplied by Tim Janik that will parse

<SYMBOL> = <OPTIONAL-MINUS> <NUMBER> ;

constructs, while skipping "#\n" and "/**/" style comments.

#include <glib.h>

/* some test text to be fed into the scanner */
static const gchar *test_text =
( "ping = 5;\n"
  "/* slide in some \n"
  " * comments, just for the\n"
  " * fun of it \n"
  " */\n"
  "pong = -6; \n"
  "\n"
  "# the next value is a float\n"
  "zonk = 0.7;\n"
  "# redefine ping\n"
  "ping = - 0.5;\n" );

/* define enumeration values to be returned for specific symbols */
enum {
  SYMBOL_PING = G_TOKEN_LAST + 1,
  SYMBOL_PONG = G_TOKEN_LAST + 2,
  SYMBOL_ZONK = G_TOKEN_LAST + 3
};

/* symbol array */
static const struct {
  gchar *symbol_name;
  guint  symbol_token;
} symbols[] = {
  { "ping", SYMBOL_PING, },
  { "pong", SYMBOL_PONG, },
  { "zonk", SYMBOL_ZONK, },
  { NULL, 0, },
}, *symbol_p = symbols;

static gfloat ping = 0;
static gfloat pong = 0;
static gfloat zonk = 0;

static guint
parse_symbol (GScanner *scanner)
{
  guint symbol;
  gboolean negate = FALSE;

  /* expect a valid symbol */
  g_scanner_get_next_token (scanner);
  symbol = scanner->token;
  if (symbol < SYMBOL_PING ||
      symbol > SYMBOL_ZONK)
    return G_TOKEN_SYMBOL;

  /* expect '=' */
  g_scanner_get_next_token (scanner);
  if (scanner->token != '=')
    return '=';

  /* feature optional '-' */
  g_scanner_peek_next_token (scanner);
  if (scanner->next_token == '-')
    {
      g_scanner_get_next_token (scanner);
      negate = !negate;
    }

  /* expect a float (ints are converted to floats on the fly) */
  g_scanner_get_next_token (scanner);
  if (scanner->token != G_TOKEN_FLOAT)
    return G_TOKEN_FLOAT;

  /* make sure the next token is a ';' */
  if (g_scanner_peek_next_token (scanner) != ';')
    {
      /* not so, eat up the non-semicolon and error out */
      g_scanner_get_next_token (scanner);
      return ';';
    }

  /* assign value, eat the semicolon and exit successfully */
  switch (symbol)
    {
    case SYMBOL_PING:
      ping = negate ? - scanner->value.v_float : scanner->value.v_float;
      break;
    case SYMBOL_PONG:
      pong = negate ? - scanner->value.v_float : scanner->value.v_float;
      break;
    case SYMBOL_ZONK:
      zonk = negate ? - scanner->value.v_float : scanner->value.v_float;
      break;
    }
  g_scanner_get_next_token (scanner);

  return G_TOKEN_NONE;
}

int
main (int argc, char *argv[])
{
  GScanner *scanner;
  guint expected_token;

  scanner = g_scanner_new (NULL);

  /* adjust lexing behaviour to suit our needs
   */
  /* convert non-floats (octal values, hex values...) to G_TOKEN_INT */
  scanner->config->numbers_2_int = TRUE;
  /* convert G_TOKEN_INT to G_TOKEN_FLOAT */
  scanner->config->int_2_float = TRUE;
  /* don't return G_TOKEN_SYMBOL, but the symbol's value */
  scanner->config->symbol_2_token = TRUE;

  /* load symbols into the scanner */
  while (symbol_p->symbol_name)
    {
      g_scanner_add_symbol (scanner,
                            symbol_p->symbol_name,
                            GINT_TO_POINTER (symbol_p->symbol_token));
      symbol_p++;
    }

  /* feed in the text */
  g_scanner_input_text (scanner, test_text, strlen (test_text));

  /* give the error handler an idea on how the input is named */
  scanner->input_name = "test text";

  /* scanning loop, we parse the input until its end is reached,
   * the scanner encountered a lexing error, or our sub routine came
   * across invalid syntax
   */
  do
    {
      expected_token = parse_symbol (scanner);
      
      g_scanner_peek_next_token (scanner);
    }
  while (expected_token == G_TOKEN_NONE &&
         scanner->next_token != G_TOKEN_EOF &&
         scanner->next_token != G_TOKEN_ERROR);

  /* give an error message upon syntax errors */
  if (expected_token != G_TOKEN_NONE)
    g_scanner_unexp_token (scanner, expected_token, NULL, "symbol", NULL, NULL, TRUE);

  /* finsish parsing */
  g_scanner_destroy (scanner);

  /* print results */
  g_print ("ping: %f\n", ping);
  g_print ("pong: %f\n", pong);
  g_print ("zonk: %f\n", zonk);
  
  return 0;
}

You need to understand that the scanner will parse its input and tokenize it, it is up to you to interpret these tokens, not define their types before they get parsed, e.g. watch gscanner parse a string:

"hi i am 17"
| | | |
| | | v
| | v TOKEN_INT, value: 17
| v TOKEN_IDENTIFIER, value: "am"
v TOKEN_CHAR, value: 'i'
TOKEN_IDENTIFIER, value: "hi"

If you configure the scanner with:

scanner->config->int_2_float = TRUE;
scanner->config->char_2_token = TRUE;
scanner->config->scan_symbols = TRUE;

and add "am" as a symbol with

g_scanner_add_symbol (scanner, "am", "symbol value");

GScanner will parse it as

"hi i am 17"
| | | |
| | | v
| | v TOKEN_FLOAT, value: 17.0 (automatic int->float conversion)
| | TOKEN_SYMBOL, value: "symbol value" (a successfull hash table lookup
| | turned a TOKEN_IDENTIFIER into a
| | TOKEN_SYMBOL and took over the
| v symbol's value)
v 'i' ('i' can be a valid token as well, as all chars >0 and <256)
TOKEN_IDENTIFIER, value: "hi"

You need to match the token sequence with your code, and if you encounter something that you don't want, you error out:

/* expect an identifier ("hi") */
g_scanner_get_next_token (scanner);
if (scanner->token != G_TOKEN_IDENTIFIER)
  return G_TOKEN_IDENTIFIER;
/* expect a token 'i' */
g_scanner_get_next_token (scanner);
if (scanner->token != 'i')
  return 'i';
/* expect a symbol ("am") */
g_scanner_get_next_token (scanner);
if (scanner->token != G_TOKEN_SYMBOL)
  return G_TOKEN_SYMBOL;
/* expect a float (17.0) */
g_scanner_get_next_token (scanner);
if (scanner->token != G_TOKEN_FLOAT)
  return G_TOKEN_FLOAT;

If you got past here, you have parsed "hi i am 17" and would have accepted "dooh i am 42" and "bah i am 0.75" as well, but you would have not accepted "hi 7 am 17" or "hi i hi 17".