]> Emmanuele Bassi

&author_mail;

2008 Intel Corporation This document is distributed under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. A copy of this license can be found in the file COPYING included with the source code of this program. The Perl Cookbook Let me show you that easy way, so others may easily follow. There is a wonderful simile in the preface of the Perl Cookbook: approaching a programming problem is oftentimes similar to balancing Columbus's egg. The initial difficulties of dealing with, and more importantly solving, problems in the computer programming field sometimes can sometimes only be overcome if somebody shows you how to use a new tool. This is true for programming languages but also for programming libraries. This book has been written to try and give you a reference on how to solve common issues that you might have to face when using the Clutter toolkit. This book is not meant to be a replacement for the API reference, even though there will be descriptions of how Clutter works and how its API looks like. We will require knowledge of the Clutter API, but we will also point out where to find more information on the API that examples have used. Indeed, this book should be used as a companion to the API reference, expanding the examples and showing how to achieve a specific result. This is not a book for learning Clutter. This is also not a book for learning C, or GObject or even GUI development. Above all, this is a book for learning more about Clutter, and about how to use it in the most efficient and easiest way. It is meant to help you move past the basic usage of Clutter This book is divided into chapters. Each chapter is dedicated to a specific class, or a specific area. Each chapter starts with a short introduction, followed by different recipes. Each recipe has a problem, as a short statement describing what we want to achieve; a solution, containing the source code; and a discussion section, where the code is explained, where alternative approaches might be usefule, caveats and references to the Clutter API for furher studying. This book, in the cookbook spirit, can be accessed mostly at random.

Clutter is an free and open source software library for creating fast, visually rich and animated graphical user interfaces. Clutter uses OpenGL (and, optionally, OpenGL ES on mobile and embedded platforms) for rendering the user interface elements, but at the same time it exposes an application program interface that hides the underlying complexity of the OpenGL state machine from the developer. The program interface of Clutter is intended to be easy to use, efficient, flexible and as self-documenting as possible.

This document is available in various formats like HTML, text and PDF. The latest version is always available at &docurl;.

You can obtain Clutter from &appurl; or perhaps from your distributor.

Clutter is distributed under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. A copy of this license can be found in the file COPYING included with the source code of this program.

Edmon Gween, actor, on his deathbed An actor's a guy who if you ain't talkin' about him, ain't listening.

When building a User Interface with Clutter, the visible part of the UI — that is, what is displayed on the screen — is commonly referred to as "the scene graph". Like every graph, a scene graph is composed by nodes. Every node on the Clutter scene graph is an actor. Every actor has a single relationship with the others: it is either the parent of another actor or a child of another actor. Actors have different attributes: a position, a size, a scale factor, a rotation angle on each axis (relative to a specific center on the normal plane for that axis), an opacity factor. The scene graph is not fixed: it can be changed, not only by adding or removing actors, but also by changing the parent-child relationship: it is possible, for instance, to move an entire section of the scene graph from one parent actor to another.

You want to know when the position or the size, or both, of an actor change, for instance to update an unrelated actor or some internal state.

You can use the notify signal, detailed with the coordinate or the dimension you want to know has changed: g_signal_connect (actor, "notify::x", G_CALLBACK (on_x_changed), NULL); g_signal_connect (actor, "notify::height", G_CALLBACK (on_height_changed), NULL); g_signal_connect (actor, "notify::depth", G_CALLBACK (on_depth_changed), NULL); If you want to know if any of the coordinates or dimensions of an actor have been changed, except for depth, you can use the allocation detailt for the notify signal: g_signal_connect (actor, "notify::allocation", G_CALLBACK (on_allocation_changed), NULL); The signature for the handler of the "notify" signal is: void on_notify (GObject *gobject, GParamSpec *pspec, gpointer user_data);

Any change the position and size of an actor will cause a change in the allocation of the actor itself. This will update the values of the :x, :y, :width and :height properties as well. The first technique allows a greater deal of granularity, allowing you to know what exactly changed. Inside the callback for the signal you can query the value of the property: void on_x_changed (GObject *gobject, GParamSpec *pspec, gpointer user_data) { gint x_value = 0; g_object_get (gobject, pspec->name, &x_value, NULL); g_print ("The new X coordinate is '%d' pixels\n", x_value); } The second technique is more indicated if you want to get notification that any of the positional or dimensional attributes changed, except for the depth: void on_allocation_changed (GObject *gobject, GParamSpec *pspec, gpointer user_data) { ClutterActor *actor = CLUTTER_ACTOR (gobject); g_print ("The bounding box is now: (%d, %d) (%d x %d)\n", clutter_actor_get_x (actor), clutter_actor_get_y (actor), clutter_actor_get_width (actor), clutter_actor_get_height (actor)); } All actors will update these properties when their size or position change. The Stage, on the other hand, will not notify on position changes, so it is not possible to use the :x and :y properties to know that the platform-specific window embedding the stage has been moved — if the platform supports a windowing system. In order to achieve that you will have to use backend-specific API to extract the surface used by the Stage and then platform-specific API to retrieve its coordinates.

the author of the epigraph a short epigraph

introduction

the author of the epigraph a short epigraph

introduction

This document is written in Docbook XML. The source file for this document is located in the subdirectory "doc/cookbook" of the source directory of Clutter.