Source

gltut / Documents / Building the Tutorials.xml

<?xml version="1.0" encoding="UTF-8"?>
<?oxygen RNGSchema="http://docbook.org/xml/5.0/rng/docbookxi.rng" type="xml"?>
<?oxygen SCHSchema="http://docbook.org/xml/5.0/rng/docbookxi.rng"?>
<article xmlns="http://docbook.org/ns/docbook" xmlns:xi="http://www.w3.org/2001/XInclude"
    xmlns:xlink="http://www.w3.org/1999/xlink" version="5.0">
    <?dbhtml filename="Building the Tutorials.html" ?>
    <title>Building the Tutorials</title>
    <para>These tutorials require a number of external libraries in order to function. The specific
        version of these libraries that the tutorials use are distributed with the tutorials. The
        tutorial <link xlink:href="http://bitbucket.org/alfonse/gltut/downloads">source
            distribution</link> can be found online. This section will describe each of the external
        libraries, how to build them, and how to build the tutorials themselves. Windows and Linux
        builds are supported.</para>
    <para>You will need minimal familiarity with using the command line in order to build these
        tutorials. Also, any mention of directories is always relative to where you unzipped this
        distribution.</para>
    <simplesect>
        <title>File Structure</title>
        <para>The layout of the files in the tutorial directory is quite simple. The
                <filename>framework</filename> directory and all directories of the form
                <filename>Tut*</filename> contain all of the source code for the tutorials
            themselves. Each <filename>Tut*</filename> directory has the code for the various
            tutorials. The <filename>framework</filename> directory simply contains utility code
            that is commonly used by each tutorial.</para>
        <para>Each tutorial contains one or more projects; each project is referenced in the text
            for that tutorial.</para>
        <para>The <filename>Documents</filename> directory contains the source for the text
            documentation explaining how these tutorials work. This source is in xml files using the
            DocBook 5.0 format.</para>
        <para>Every other directory contains the code and build files for a library that the
            tutorials require.</para>
    </simplesect>
    <simplesect>
        <title>Necessary Utilities</title>
        <para>In order to build everything, you will need to download the <link
                xlink:href="http://industriousone.com/premake">Premake 4</link> utility for your
            platform of choice.</para>
        <para>Premake is a utility like <link xlink:href="http://www.cmake.org/">CMake</link>: it
            generates build files for a specific platform. Unlike CMake, Premake is strictly a
            command-line utility. Premake's build scripts are written in the <link
                xlink:href="http://www.lua.org/home.html">Lua language</link>, unlike CMake's build
            scripts that use their own language.</para>
        <para>Note that Premake only generates build files; once the build files are created, you
            can use them as normal. It can generate project files for Visual Studio, <link
                xlink:href="http://www.codeblocks.org/">Code::Blocks</link>, and XCode, as well as
            GNU Makefiles. And unless you want to modify one of the tutorials, you only need to run
            Premake once for each tutorial.</para>
        <para>The Premake download comes as a pre-built executable for all platforms of interest,
            including Linux.</para>
    </simplesect>
    <simplesect>
        <title>FreeGLUT</title>
        <para><link xlink:href="http://freeglut.sourceforge.net/">FreeGLUT</link> is a
            cross-platform library that handles a lot of the boilerplate initialization code
            necessary for running a windowing application. It creates a window, attaches an OpenGL
            context to the window, and handles window messages. This makes it much easier to focus
            on OpenGL and less on how to initialize OpenGL properly.</para>
        <para>To build FreeGLUT for Win32 with Visual Studio, go to the
                <filename>freeglut-2.6.0/VisualStudio2008Static</filename> directory and open the
            solution file there. There will be several projects in the solution, but the only one of
            interest is the <quote>FreeGLUT</quote> project. Build this, for both debug and
            release.</para>
        <para>To build FreeGLUT for Linux, or to build it on Windows without using Visual Studio,
            open a console window and go to the <filename>freeglut-2.6.0</filename> directory. Enter
            the following commands:</para>
        <programlisting>./configure
make</programlisting>
        <para>Do <emphasis>not</emphasis> execute <userinput>make install</userinput>. This source
            distribution is intended to be self-contained. If you try to install FreeGLUT, it will
            make non-local changes to your system. The rest of the build process assumes that the
            results of the build are in the local directories after the make process.</para>
    </simplesect>
    <simplesect>
        <title>TinyXML</title>
        <para><link xlink:href="http://sourceforge.net/projects/tinyxml/">TinyXML</link> is an XML
            parser. The framework uses an XML file format for loading complex 3D mesh data. This
            library simply makes the loading and parsing of this format easier.</para>
        <para>Unlike the previous libraries, this library uses Premake to generate its build files.
            So, with <command>premake4.exe</command> in your path, go to the
                <filename>tinyxml</filename> directory. Type <userinput>premake4
                    <replaceable>plat</replaceable></userinput>, where
                <replaceable>plat</replaceable> is the name of the platform of choice. For Visual
            Studio 2008, this would be <quote>vs2008</quote>; for VS2010, this would be
                <quote>vs2010.</quote> This will generate Visual Studio project and solution files
            for that particular version.</para>
        <para>For GNU and makefile-based builds, this is <quote>gmake</quote>. This will generate a
            makefile. To build for debug, use <userinput>make config=debug</userinput>; similarly,
            to build for release, use <userinput>make config=release</userinput>.</para>
        <para>Using the generated build files, compile for both debug and release.</para>
    </simplesect>
    <simplesect>
        <title>GLLoad and GLImg</title>
        <para>The GLImg library is a library for loading image data from various file formats. The
            GLLoad library is a library for loading OpenGL function entrypoints from the .dll. For
            reasons that are too technical to repeat here, using OpenGL on most platforms requires
            manually loading function pointers from a .dll. This library makes this process
            painless.</para>
        <para>Like TinyXML, these two libraries use Premake to generate their build files. However,
            they are both generated from the same premake file. To generate the build for these two
            libraries, go to the <filename>glimg</filename> directory. Type <userinput>premake4
                    <replaceable>plat</replaceable></userinput> as you did for TinyXML. This will
            create the build file you need to use to build the libraries for both debug and
            release.</para>
    </simplesect>
    <simplesect>
        <title>Tutorial Building</title>
        <para>Each tutorial directory has a <filename>premake4.lua</filename> file; this file is
            used by Premake to generate the build files for that tutorial. Therefore, to build any
            tutorial, you need only go to that directory and type <userinput>premake4
                    <replaceable>plat</replaceable></userinput>, then use those build files to build
            the tutorial.</para>
        <para>Each tutorial will generally have more than one source file and generate multiple
            executables. Each executable represents a different section of the tutorial, as
            explained in that tutorial's documentation.</para>
        <para>If you want to build all of the tutorials at once, go to the root directory of the
            distribution and use Premake on the <filename>premake4.lua</filename> file in that
            directory. It will put all of the tutorials into one giant project that you can
            build.</para>
        <para>If you look at any of the tutorial source files, you will not find the
                <function>main</function> function defined anywhere. This function is defined in
                <filename>framework/framework.cpp</filename>; it and all of the other source files
            in the <filename>framework</filename> directory is shared by every tutorial. It does the
            basic boilerplate work: creating a FreeGLUT window, etc. This allows the tutorial source
            files to focus on the useful OpenGL-specific code.</para>
    </simplesect>
</article>
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