Add a paragraph explaining events and signals

2011-01-18 21:42:29 -05:00 · 2011-01-18 21:42:29 -05:00 · ce1244fdd7
commit ce1244fdd7
parent 0b7496558d
1 changed files with 98 additions and 87 deletions
--- a/docs/reference/gtk/getting_started.xml
+++ b/docs/reference/gtk/getting_started.xml
@ -12,97 +12,108 @@
  <link linkend="gtk-compiling">Compiling the GTK+ libraries</link>
  section in this reference.</para>
-  <para>To begin our introduction to GTK, we'll start with the simplest
+  <section>
-  program possible. This program will create an empty 200x200 pixel
+    <title>Basics</title>
  window:</para>
-  <para>
+    <para>To begin our introduction to GTK, we'll start with the simplest
-    <inlinegraphic fileref="window-default.png" format="PNG"></inlinegraphic>
+    program possible. This program will create an empty 200x200 pixel
-  </para>
+    window:</para>
-  <informalexample><programlisting>
+    <para>
-    <xi:include href="../../../../examples/window-default.c" parse="text">
+      <inlinegraphic fileref="window-default.png" format="PNG"></inlinegraphic>
-      <xi:fallback>FIXME: MISSING XINCLUDE CONTENT</xi:fallback>
+    </para>
    </xi:include>
  </programlisting></informalexample>
-  <para>You can compile the program above with GCC using:</para>
+    <informalexample><programlisting>
-
+      <xi:include href="../../../../examples/window-default.c" parse="text">
  <para><literallayout>
    <literal>gcc `pkg-config --cflags gtk+-3.0` -o window-default window-default.c `pkg-config --libs gtk+-3.0`</literal>
  </literallayout></para>
  <note><para>For more information on how to compile a GTK+ application, please
  refer to the <link linkend="gtk-compiling">Compiling GTK+ Applications</link>
  section in this reference.</para></note>
  <para>All GTK+ applications will, of course, include
  <filename>gtk/gtk.h</filename>, which declares functions, types and
  macros required by GTK+ applications.</para>
  <warning><para>Even if GTK+ installs multiple header files, only the
  top-level <filename>gtk/gtk.h</filename> header can be directly included
  by third party code. The compiler will abort with an error if any other
  header is directly included.</para></warning>
  <para>We then proceed into the <function>main</function>() function of the
  application, and we declare a <varname>window</varname> variable as a pointer
  of type #GtkWidget.</para>
  <para>The following line will call gtk_init(), which
  is the initialization function for GTK+; this function will set up GTK+,
  the type system, the connection to the windowing environment, etc. The
  gtk_init() takes as arguments the pointers to the command line arguments
  counter and string array; this allows GTK+ to parse specific command line
  arguments that control the behavior of GTK+ itself. The parsed arguments
  will be removed from the array, leaving the unrecognized ones for your
  application to parse.</para>
  <note><para>For more information on which command line arguments GTK+
  recognizes, please refer to the <link linkend="gtk-running">Running GTK+
  Applications</link> section in this reference.</para></note>
  <para>The call to gtk_window_new() will create a new #GtkWindow and store
  it inside the <varname>window</varname> variable. The type of the window
  is %GTK_WINDOW_TOPLEVEL, which means that the #GtkWindow will be managed
  by the windowing system: it will have a frame, a title bar and window
  controls, depending on the platform.</para>
  <para>In order to terminate the application when the #GtkWindow is
  destroyed, we connect the #GtkWidget::destroy signal to the gtk_main_quit()
  function. This function will terminate the GTK+ main loop started by calling
  gtk_main() later. The #GtkWidget::destroy signal is emitted when a widget is
  destroyed, either by explicitly calling gtk_widget_destroy() or when the
  widget is unparented. Top-level #GtkWindow<!-- -->s are also destroyed when
  the Close window control button is clicked.</para>
  <para>#GtkWidget<!-- -->s are hidden by default. By calling gtk_widget_show()
  on a #GtkWidget we are asking GTK+ to set the visibility attribute so that it
  can be displayed. All this work is done after the main loop has been
  started.</para>
  <para>The last line of interest is the call to gtk_main(). This function will
  start the GTK+ main loop and will block the control flow of the
  <function>main</function>() until the gtk_main_quit() function is
  called.</para>
  <para>The following example is slightly more complex, and tries to
  showcase some of the capabilities of GTK+.</para>
  <para>In the long tradition of programming languages and libraries,
  it is called <emphasis>Hello, World</emphasis>.</para>
  <para>
    <inlinegraphic fileref="hello-world.png" format="PNG"></inlinegraphic>
  </para>
  <example id="gtk-getting-started-hello-world">
    <title>Hello World in GTK+</title>
    <programlisting>
      <xi:include href="../../../../examples/hello-world.c" parse="text">
        <xi:fallback>FIXME: MISSING XINCLUDE CONTENT</xi:fallback>
      </xi:include>
-    </programlisting>
+    </programlisting></informalexample>
-  </example>
+
    <para>You can compile the program above with GCC using:</para>
    <para><literallayout>
      <literal>gcc `pkg-config --cflags gtk+-3.0` -o window-default window-default.c `pkg-config --libs gtk+-3.0`</literal>
    </literallayout></para>
    <note><para>For more information on how to compile a GTK+ application, please
    refer to the <link linkend="gtk-compiling">Compiling GTK+ Applications</link>
    section in this reference.</para></note>
    <para>All GTK+ applications will, of course, include
    <filename>gtk/gtk.h</filename>, which declares functions, types and
    macros required by GTK+ applications.</para>
    <warning><para>Even if GTK+ installs multiple header files, only the
    top-level <filename>gtk/gtk.h</filename> header can be directly included
    by third party code. The compiler will abort with an error if any other
    header is directly included.</para></warning>
    <para>We then proceed into the <function>main</function>() function of the
    application, and we declare a <varname>window</varname> variable as a pointer
    of type #GtkWidget.</para>
    <para>The following line will call gtk_init(), which
    is the initialization function for GTK+; this function will set up GTK+,
    the type system, the connection to the windowing environment, etc. The
    gtk_init() takes as arguments the pointers to the command line arguments
    counter and string array; this allows GTK+ to parse specific command line
    arguments that control the behavior of GTK+ itself. The parsed arguments
    will be removed from the array, leaving the unrecognized ones for your
    application to parse.</para>
    <note><para>For more information on which command line arguments GTK+
    recognizes, please refer to the <link linkend="gtk-running">Running GTK+
    Applications</link> section in this reference.</para></note>
    <para>The call to gtk_window_new() will create a new #GtkWindow and store
    it inside the <varname>window</varname> variable. The type of the window
    is %GTK_WINDOW_TOPLEVEL, which means that the #GtkWindow will be managed
    by the windowing system: it will have a frame, a title bar and window
    controls, depending on the platform.</para>
    <para>In order to terminate the application when the #GtkWindow is
    destroyed, we connect the #GtkWidget::destroy signal to the gtk_main_quit()
    function. This function will terminate the GTK+ main loop started by calling
    gtk_main() later. The #GtkWidget::destroy signal is emitted when a widget is
    destroyed, either by explicitly calling gtk_widget_destroy() or when the
    widget is unparented. Top-level #GtkWindow<!-- -->s are also destroyed when
    the Close window control button is clicked.</para>
    <para>#GtkWidget<!-- -->s are hidden by default. By calling gtk_widget_show()
    on a #GtkWidget we are asking GTK+ to set the visibility attribute so that it
    can be displayed. All this work is done after the main loop has been
    started.</para>
    <para>The last line of interest is the call to gtk_main(). This function will
    start the GTK+ main loop and will block the control flow of the
    main() until the gtk_main_quit() function is called.</para>
    <para>While the program is running, GTK+ is receiving
    <firstterm>events</firstterm>. These are typically input events caused by
    the user interacting with your program, but also things like messages from
    the window manager or other applications. GTK+ processes these and as a
    result, <firstterm>signals</firstterm> may be emitted on your widgets.
    Connecting handlers for these signals is how you normally make your
    program do something in response to user input.</para>
    <para>The following example is slightly more complex, and tries to
    showcase some of the capabilities of GTK+.</para>
    <para>In the long tradition of programming languages and libraries,
    it is called <emphasis>Hello, World</emphasis>.</para>
    <para>
      <inlinegraphic fileref="hello-world.png" format="PNG"></inlinegraphic>
    </para>
    <example id="gtk-getting-started-hello-world">
      <title>Hello World in GTK+</title>
      <programlisting>
        <xi:include href="../../../../examples/hello-world.c" parse="text">
          <xi:fallback>FIXME: MISSING XINCLUDE CONTENT</xi:fallback>
        </xi:include>
      </programlisting>
    </example>
  </section>
 </chapter>