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<h1>Mini-HOWTO: 3D Aircraft Models in FlightGear</h1>
<h2>11 March 2002</h2>
<h2>David Megginson</h2>
<br>
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<div>
<h3>Introduction</h3>
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<br>This mini-HOWTO explains how to add 3D aircraft models to
FlightGear, and how to animate and position those models. No C++
programming is required, but the user will need some knowledge of
FlightGear's property system and XML markup, and will need to
understand the coordinate system FlightGear uses for its models:<br>
<ul>
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<li>distances are in meters</li>
<li>angles are in degrees</li>
<li>the x-axis runs lengthwise, towards the back</li>
<li>the y-axis runs sideways, towards the right</li>
<li>the z-axis runs upwards</li>
<li>heading is a rotation around the z-axis, where positive is
clockwise viewed from above</li>
<li>pitch is a rotation around the y-axis, where positive is clockwise
viewed from the left</li>
<li>roll is a rotation around the x-axis, where positive is clockwise
viewed from behind</li>
</ul>
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<p>[[TODO: will someone volunteer to draw diagrams?]]</p>
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<p>This mini-HOWTO contains three parts:</p>
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<ol>
<li><a href="#loading">Loading the model</a></li>
<li><a href="#repositioning">Repositioning the model</a></li>
<li><a href="#animating">Animating the model</a></li>
</ol>
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<!-- end of "Summary" -->
</div>
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<div><a name="loading"></a>
<h3>1. Loading the model</h3>
<p>Through <a href="http://plib.sourceforge.net/">plib</a>, FlightGear
supports many different 3D file formats, including VRML1, AC3D, DXF,
MDL (from <cite>Microsoft Flight Simulator</cite>), and many others.
The property <var>/sim/model/path</var> in the main FlightGear
property tree controls what model will be loaded; it takes
a string value giving the relative path of the model from
<var>FG_ROOT</var> (the root of the base package, such as
<code>/usr/local/lib/FlightGear</code> or
<code>C:\FLIGHTGEAR\</code>).</p>
<p>The easiest way to load a new model is to set the property at
startup with the <var>--prop:</var> command-line option; for example,
to use a 3D aircraft model that you have installed in
<code>$FG_ROOT/Models/my-cessna.wrl</code>, you could invoke
FlightGear like this (under Unix-like systems):</p>
<blockquote><pre>fgfs --prop:/sim/model/path=Models/my-cessna.wrl
</pre></blockquote>
<p>(<strong>Note:</strong> Normaly any textures used by the model must appear
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in the same directory. If <code>my-cessna.wrl</code> uses the
textures <code>cessna01.rgb</code> and <code>cessna02.rgb</code>, you
should install those textures in <code>$FG_ROOT/Models/</code>.
It is howerever possible to specify a path (relative to the model path)
to specify where the textures could be found.)</p>
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<p>When you want to set a 3D model permanently as the default for an
aircraft rather than specifying it on the command line, you need to
edit an aircraft settings file. In the
<code>$FG_ROOT/Aircraft/</code> directory there is a series of files
ending in <code>-set.xml</code>, such as <code>c172-set.xml</code>,
<code>dc3-yasim-set.xml</code>, and <code>beech99-uiuc-set.xml</code>.
When you start FlightGear with the <var>--aircraft</var> option, it
reads the properties from one of these files; for example</p>
<blockquote><pre>fgfs --aircraft=dc3-yasim
</pre></blockquote>
<p>Loads the properties from
<code>$FG_ROOT/Aircraft/dc3-yasim-set.xml</code> into the main
FlightGear property tree. These files are in the same XML
property-list format as <code>$FG_ROOT/preferences.xml</code> and the
FlightGear save files. There may be many XML files with different
startup conditions, sounds, panels, 3D models, etc. for any single
aircraft type, so you are best off copying an existing one, renaming
it, then changing the value inside the <var>path</var> element inside
<var>model</var> inside <var>sim</var>:</p>
<blockquote><pre>&lt;PropertyList&gt;
&lt;sim&gt;
&lt;model&gt;
&lt;path&gt;Models/my-cessna.wrl&lt;/path&gt;
&lt;texture-path&gt;./Textures&lt;/texture-path&gt;
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&lt;/model&gt;
&lt;/sim&gt;
&lt;/PropertyList&gt;
</pre></blockquote>
<p>So far, all of the examples have had the <var>/sim/model/path</var>
property point directly at the 3D model file
(<code>Models/my-cessna.wrl</code>); however, if you want to be able
to reposition or animate the model, you need to point to an
intermediate XML file instead, and then put the repositioning and
animation information into the XML file. Here's a simple example of a
3D-model wrapper file, with no repositioning or animation
information:</p>
<blockquote><pre>&lt;PropertyList&gt;
&lt;path&gt;my-cessna.wrl&lt;/path&gt;
&lt;texture-path&gt;./Textures&lt;/texture-path&gt;
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&lt;/PropertyList&gt;
</pre></blockquote>
<p>Like the <var>-set.xml</var> files, this file is in XML property
list format, but the properties in it are not added to the main
FlightGear property tree; they're used only while loading the
model. The following sections will explain how to add repositioning
and animation information to the file; for now, the only property to
worry about is <var>path</var>: it provides the relative path to the
actual 3D file from the XML wrapper file (<strong>not</strong> from
<var>FG_ROOT</var>!). Usually, you should put the wrapper file in the
same directory as the 3D file, and then have
<var>/sim/model/path</var> point to the wrapper file, either on the
command line</p>
<blockquote><pre>fgfs --prop:/sim/model/path=Models/my-cessna.xml
</pre></blockquote>
<p>or in the <code>-set.xml</code> file:</p>
<blockquote><pre>&lt;PropertyList&gt;
&lt;sim&gt;
&lt;model&gt;
&lt;path&gt;Models/my-cessna.xml&lt;/path&gt;
&lt;/model&gt;
&lt;/sim&gt;
&lt;/PropertyList&gt;
</pre></blockquote>
<!-- end of "Loading the model" -->
</div>
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<div><a name="repositioning"></a>
<h3>2. Repositioning the Model</h3>
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<p>Often, an aircraft model not designed specifically for FlightGear
will not be positioned or oriented correctly; for example, it might be
too far off the ground, and the nose might point to the side or even
straight up.</p>
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<p>Inside the XML wrapper file (<em>not</em> the main FlightGear
property tree), there are six properties that allow you to tweak the
default position and orientation of the model:</p>
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<dl compact="compact"><dt><strong>/offsets/x-m</strong></dt><dd>The distance to reposition the model along the x-axis.</dd><dt><strong>/offsets/y-m</strong></dt><dd>The distance to reposition the model along the y-axis.</dd><dt><strong>/offsets/z-m</strong></dt><dd>The distance to reposition the model along the z-axis.</dd><dt><strong>/offsets/heading-deg</strong></dt><dd>The angle by which to rotate the model around the z-axis.</dd><dt><strong>/offsets/roll-deg</strong></dt><dd>The angle by which to rotate the model around the x-axis.</dd><dt><strong>/offsets/pitch-deg</strong></dt><dd>The angle by which to rotate the model around the y-axis.</dd></dl>
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<p>For example, if you wanted to use the 3D model
<code>my-cessna.wrl</code> but found that the nose was pointing to the
right instead of straight-ahead and the wheels were 1.5 meters off the
ground, you could reorient it in the XML wrapper file like this:</p>
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<blockquote><pre>&lt;PropertyList&gt;
&lt;sim&gt;
&lt;model&gt;
&lt;path&gt;Models/my-cessna.xml&lt;/path&gt;
&lt;/model&gt;
&lt;/sim&gt;
&lt;offsets&gt;
&lt;heading-offset-deg&gt;270&lt;/heading-offset-deg&gt;
&lt;z-offset-m&gt;-1.5&lt;/z-offset-m&gt;
&lt;/offsets&gt;
&lt;/PropertyList&gt;
</pre></blockquote>
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<p>It usually takes a bit of experimentation to get the model
positioned correctly.</p>
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<!-- end of "Repositioning the Model" -->
</div>
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<div><a name="animating"></a>
<h3>3. Animating the Model</h3>
<p>Now for the interesting part. FlightGear allows you to animate
models by having parts rotate or spin in response to property changes:
for example, the propellers can spin when the engine is on and the
elevators can move up and down with your controller. There is no
fixed limit on what parts can be animated: the only requirements are
that the part is named in the 3D model file, and that there is a
property in the main tree that you can use to get the positioning
information.</p>
<p>Currently, there are several types of animation recognized:</p>
<ol>
<li>none</li>
<li>billboard</li>
<li>rotate</li>
<li><a href="#scale">scale</a></li>
<li><a href="#blend">blend</a></li>
<li>select</li>
<li>spin</li>
<li>timed</li>
<li>translate</li>
<li><a href="#texrotate">texrotate</a></li>
<li><a href="#textranslate">textranslate</a></li>
<li><a href="#textmultiple">textmultiple</a></li>
<li><a href="#material">material</a></li>
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<li><a href="#range">range</a></li>
<li><a href="#alphatest">alpha-test</a></li>
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<li><a href="#noshadow">noshadow</a></li>
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</ol>
<p>Typically you will use combinations of rotate, spin, and translate
to animate the main control surfaces for most standard-configuration
aircraft. <var>none</var> is a no-op; <var>spin</var> rotates the
object around an axis with a known rotational velocity (not worrying
about the exact position), and <var>rotate</var> rotates the object
around an axis to an exact position.</p>
<p>Every animation appears inside an <var>animation</var> element, and
contains a <var>type</var> property and at least one
<var>object-name</var> property:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>The object name must match exactly the object name used in the 3D
file (including case). You may include more than one object name to
apply the same transformation to more than one object, assuming that
they rotate around exactly the same line:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;LeftElevator&lt;/object-name&gt;
&lt;object-name&gt;RightElevator&lt;/object-name&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>Each animation must be associated with exactly one property from
the main FlightGear property tree (remember that the properties in the
wrapper file are not part of the main tree), using <var>property</var>
to provide the property name:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;property&gt;/controls/rudder&lt;/property&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>This example rotates the rudder according to the value of the
<var>/controls/rudder</var> property (or at least, it will when we
specify the center and axis of rotation below); however,
<var>/controls/rudder</var> is normalized from -1.0 to 1.0, and we
probably want to rotate the rudder more than that; as a result, we
need to use the <var>factor</var> property to do scaling. For
example, if the rudder on the actual aircraft rotates 18 degrees in
each direction, we would use a factor of 18 to scale the rudder
position from -18 degrees to 18 degrees:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;property&gt;/controls/rudder&lt;/property&gt;
&lt;factor&gt;18&lt;/factor&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>If you wanted to reverse the direction of rudder movement, you
would use a factor of -18.</p>
<p>There is also an <var>offset</var> property that can be useful for
starting the rotation from a point other than center. For example,
let's say that you want the rudder to start 1% to the left rather than
dead center; you could specify that like this:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;property&gt;/controls/rudder&lt;/property&gt;
&lt;offset&gt;-0.01&lt;/offset&gt;
&lt;factor&gt;18&lt;/factor&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>The offset is applied <em>before</em> the factor.</p>
<p>Finally, there are <var>min</var> and <var>max</var> properties
that can constrain the amount of rotation in degrees, as in this (very
complicated) example for the Cessna 310 landing gear:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;NoseWheel&lt;/object-name&gt;
&lt;property&gt;/gear/gear[0]/position-norm&lt;/property&gt;
&lt;factor&gt;120&lt;/factor&gt;
&lt;offset&gt;-1&lt;/offset&gt;
&lt;min&gt;-90&lt;/min&gt;
&lt;max&gt;0&lt;/max&gt;
&lt;center&gt;
&lt;x-m&gt;-2.28&lt;/x-m&gt;
&lt;y-m&gt;0.0&lt;/y-m&gt;
&lt;z-m&gt;-0.65&lt;/z-m&gt;
&lt;/center&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;1&lt;/y&gt;
&lt;z&gt;0&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>In this example, the gear position (from 0.0 for fully retracted to
1.0 for fully extended) is multiplied by a factor of 120 and an offset
of -1, then clamped to between -90 and 0. In the 3D model, the gear
is extended by default, so we end up with the following rotations
through the gear's range of movement:</p>
<table border="1">
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<tbody><tr>
<th>position-norm</th>
<th>+ offset -1</th>
<th>* factor 120</th>
<th>clamped to min/max -90:0</th>
<th>comments</th>
</tr>
<tr>
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<td>0.0</td>
<td>-1.0</td>
<td>-120.0</td>
<td>-90.0</td>
<td>fully retracted</td>
</tr>
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<tr>
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<td>0.25</td>
<td>-0.75</td>
<td>-90.0</td>
<td>-90.0</td>
<td>still retracted</td>
</tr>
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<tr>
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<td>0.5</td>
<td>-0.5</td>
<td>-60.0</td>
<td>-50.0</td>
<td>1/3 extended</td>
</tr>
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<tr>
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<td>0.75</td>
<td>-0.25</td>
<td>-30.0</td>
<td>-30.0</td>
<td>2/3 extended</td>
</tr>
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<tr>
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<td>1.0</td>
<td>0.0</td>
<td>0.0</td>
<td>0.0</td>
<td>fully extended (default position)</td>
</tr>
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</tbody></table>
<p>The gear does not move at all during the first 1/4 of the
position-norm value, giving the doors a chance to open and close in a
separate animation. Obviously, this would be easier to manage with an
interpolation table, and future versions of the model animation will
likely support interpolation.</p>
<p>Update: Interpolation tables our now supported. Each table entry
plots a dependency point and output values
are interpolated in a linear manner between two points. In the following
example an input property value of
25 will result in an application of a value 65 to the animation
(65 degrees rotation maybe):</p>
<blockquote><pre> &lt;interpolation&gt;
&lt;entry&gt;
&lt;ind&gt;0&lt;/ind&gt;
&lt;dep&gt;0&lt;/dep&gt;
&lt;/entry&gt;
&lt;entry&gt;
&lt;ind&gt;16.67&lt;/ind&gt;
&lt;dep&gt;60&lt;/dep&gt;
&lt;/entry&gt;
&lt;entry&gt;
&lt;ind&gt;25&lt;/ind&gt;
&lt;dep&gt;65&lt;/dep&gt;
&lt;/entry&gt;
&lt;entry&gt;
&lt;ind&gt;33.3333&lt;/ind&gt;
&lt;dep&gt;70&lt;/dep&gt;
&lt;/entry&gt;
&lt;entry&gt;
&lt;ind&gt;66.6667&lt;/ind&gt;
&lt;dep&gt;71&lt;/dep&gt;
&lt;/entry&gt;
&lt;entry&gt;
&lt;ind&gt;100&lt;/ind&gt;
&lt;dep&gt;75&lt;/dep&gt;
&lt;/entry&gt;
&lt;/interpolation&gt;
</pre></blockquote>
<p>For a <var>spin</var> animation, the property provides a value in
revolutions per minute (RPM) rather than an absolute position in
degrees, and offset is not used. You can still use <var>factor</var>
to scale the property value if it is not in RPM.</p>
<p>Now, it is necessary to specify the axis of rotation for the
object, its virtual hinge. This is often the hardest part, requiring
a lot of trial-and-error when the axis of rotation is not lined up
with the x-, y-, or z- axis (think of ailerons on a swept wing with a
non-zero dihedral angle). You need to provide two groups of
information: a point through which the axis of rotation passes, and
the direction in which the axis is moving.</p>
<p>Update: there is now an alternate method for specifying axes
that avoids the trial-and-error approach. See below after the Cessna
172 animation examples.<p>
<p>For the point through which the axis passes, you use the
<var>/center/x-m</var>, <var>/center/y-m</var>, and
<var>/center/z-m</var> properties to specify a position in meters,
using the aircraft's coordinate system. Note that this is the system
before repositioning: if the original model was pointing sideways,
then your fuselage will run along the y-axis rather than the
x-axis. Here is an example for a rudder:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;property&gt;/controls/rudder&lt;/property&gt;
&lt;factor&gt;18&lt;/factor&gt;
&lt;center&gt;
&lt;x-m&gt;5.45&lt;/x-m&gt;
&lt;y-m&gt;0.0&lt;/y-m&gt;
&lt;z-m&gt;0.0&lt;/z-m&gt;
&lt;/center&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>In this example, the point is right on the y and z axes, but 5.45
meters along the x axis (i.e. towards the back of the plane).</p>
<p>Finally, in addition to the center point, it's necessary to specify
the direction of the axis that passes through it, using the properties
<var>/axis/x</var>, <var>/axis/y</var>, and <var>axis/z</var>. These
are unitless values showing the rate of change in each direction; for
example, a straight up-and-down rotational axis could be specified
like this:</p>
<blockquote><pre>&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;1&lt;/z&gt;
&lt;/axis&gt;
</pre></blockquote>
<p>or like this:</p>
<blockquote><pre>&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;1000000&lt;/z&gt;
&lt;/axis&gt;
</pre></blockquote>
<p>Since there's 0 movement along the other two axes, it doesn't
matter. On the other hand, let's say that the rudder hinge sloped
back 5% because of a swept tail. In that case, the x-axis would have
to show some movement as well:</p>
<blockquote><pre>&lt;axis&gt;
&lt;x&gt;0.05&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;1&lt;/z&gt;
&lt;/axis&gt;
</pre></blockquote>
<p>That could just as easily be written as</p>
<blockquote><pre>&lt;axis&gt;
&lt;x&gt;1&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;20&lt;/z&gt;
&lt;/axis&gt;
</pre></blockquote>
<p>as long as the ratios are the same. For a complicated rotation
axis, like that for an aileron on a swept-back wing with a significant
dihedral angle, you'll have to specify movement along all three
axes:</p>
<blockquote><pre>&lt;axis&gt;
&lt;x&gt;0.15&lt;/x&gt;
&lt;y&gt;1.00&lt;/y&gt;
&lt;z&gt;0.01&lt;/z&gt;
&lt;/axis&gt;
</pre></blockquote>
<p>Here's a complete example, showing the animation for the rudder on
the Cessna 172:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;Rudder&lt;/object-name&gt;
&lt;property&gt;/controls/rudder&lt;/property&gt;
&lt;factor&gt;18&lt;/factor&gt;
&lt;center&gt;
&lt;x-m&gt;5.45&lt;/x-m&gt;
&lt;y-m&gt;0.0&lt;/y-m&gt;
&lt;z-m&gt;0.0&lt;/z-m&gt;
&lt;/center&gt;
&lt;axis&gt;
&lt;x&gt;0.72&lt;/x&gt;
&lt;y&gt;0.0&lt;/y&gt;
&lt;z&gt;1.0&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>And here's an example of a spin, using the Cessna 172
propeller:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;spin&lt;/type&gt;
&lt;object-name&gt;Propeller&lt;/object-name&gt;
&lt;property&gt;/engines/engine[0]/rpm&lt;/property&gt;
&lt;center&gt;
&lt;x-m&gt;0&lt;/x-m&gt;
&lt;y-m&gt;0&lt;/y-m&gt;
&lt;z-m&gt;-.25&lt;/z-m&gt;
&lt;/center&gt;
&lt;axis&gt;
&lt;x&gt;1.0&lt;/x&gt;
&lt;y&gt;0.0&lt;/y&gt;
&lt;z&gt;0.0&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>There is an alternate method of specifying the axis that can often be find much easier.
This method is particularly
helpful for rotating on axes that are at odd angles, such as ailerons on dihedral swept
wings.</p>
<p>It is not necessary to specify a &lt;center&gt; tag for this method as it will be calculated
automatically. The &lt;axis&gt; tag requres two sets of coordinates (x1-m,y1-m,z1-m and
x2-m,y2-m,z2-m), one for each end of the axis.
With an aileron, for example, you would need to specify coordinates from both the right and left
corner of the aileron along the hinged edge. If your object rotates in the direction opposite
of what you intended you may correct it by simply swapping the two sets of coordinate values (swap x1
and x2, y1 and y2, z1 and z2).</p>
<p>Here is an example from the 747-400:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;rotate&lt;/type&gt;
&lt;object-name&gt;AileronLeftOuter&lt;/object-name&gt;
&lt;property&gt;/surface-positions/left-aileron-pos-norm&lt;/property&gt;
&lt;factor&gt;-30&lt;/factor&gt;
&lt;axis&gt;
&lt;x1-m&gt;18.28&lt;/x1-m&gt;
&lt;y1-m&gt;-21.55&lt;/y1-m&gt;
&lt;z1-m&gt;-0.37&lt;/z1-m&gt;
&lt;x2-m&gt;22.51&lt;/x2-m&gt;
&lt;y2-m&gt;-28.37&lt;/y2-m&gt;
&lt;z2-m&gt;0.08&lt;/z2-m&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>You can get a lot of your initial measurements by viewing the model
in a 3D editor like <a href="http://prettypoly.sourceforge.net/">PPE</a>, and you can also
use PPE to name or rename objects so that you can animate them in
FlightGear. In the end, though, you'll almost have to do a little
tweaking by trial and error until everything looks right.</p>
<p>This document will likely be out of date by the time you read it.
Look at the actual XML wrapper files (currently in
<code>$FG_ROOT/Aircraft/<em>aircraft-type</em>/Models/</code>) to look
at how FlightGear is doing things now. In the future, we'll be adding
other animation types, including selecting among different versions of
the same object (such as a translucent propeller disk for high RPM),
non-rotational transformations, scaling, and conditionals (i.e. draw
engine exhaust only above a certain velocity).</p>
<h3><a name="scale">"scale" animation type</a></h3>
<p>Here is a contrived example of one way to use the "scale" animation
type. In this case a shadow map is placed below the aircraft and we
can control the size based on some property value (i.e. alitutude
above the ground.) In real life, the shadow size should stay pretty
much fixed, so this technique might ultimately be more useful for a
landing light.</p>
<blockquote><pre> &lt;animation&gt;
&lt;type&gt;scale&lt;/type&gt;
&lt;object-name&gt;ShadowMap&lt;/object-name&gt;
&lt;property&gt;/position/altitude-agl-ft&lt;/property&gt;
&lt;x-factor&gt;0.05&lt;/x-factor&gt;
&lt;x-offset&gt;1.0&lt;/x-offset&gt;
&lt;y-factor&gt;0.05&lt;/y-factor&gt;
&lt;y-offset&gt;1.0&lt;/y-offset&gt;
&lt;z-factor&gt;0.0&lt;/z-factor&gt;
&lt;z-offset&gt;1.0&lt;/z-offset&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>As with the other animations, you need to specify an object-name and
the property that will drive this animation. And, as with other types
of transform animations, the order they are applied is important. For
a given object, you will probably want to put the scaling animation
after any other translate or rotate animations.</p>
<p>You have some individual control over the X, Y, and Z axis scaling.
For each dimension you can provide factors (x-factor, y-factor, and
z-factor) and also offsets (x-offset, y-offset, and z-offset.) You
can also specify minimum values (x-min, y-min, z-min) and maximum
values (x-max, y-max, and z-max) for scaling results.</p>
<p>The amount of scaling for each dimension is computed by the
following formula (and then clamped if a min or max value is
specified.)</p>
<blockquote><pre> scale = offset + property * factor
</pre></blockquote>
<p>Specifying an offset of 1.0 and a factor of 0.0 is equivalent to no
scaling at all.</p>
<p>As you can see in the above example, at ground level (the property
value = 0.0) the scaling formula will evaluate to 1.0 (no scaling.)
As altitude above the ground increases, the scaling factor will
increase by 1.0 + agl * 0.05. Note that because a shadow has no depth
we use a z-factor of 0.0 and a z-offset of 1.0 so the formula always
evalutes to a scaling factor of 1.0 in the Z dimension.</p>
<p>There is still a plib issue to be aware of when using scale
animation. When rendering an object, the plib bounding sphere culling
system isn't aware of the scale transformation so it will do the cull
based on the object's original size. If you have made the object
bigger, it will disappear if the space occupied by the original size
of the object goes out of the view frustum. If you make the object
smaller then this won't be a problem because the larger original
object will always contain it's currently smaller version. So one
work around would be to build the object at it's maximum size and then
use the scaling transform to always make it smaller.</p>
<h3><a name="blend">"blend" animation type</a></h3>
<p>The blend animation type can be used to adjust the transparency of
an object. To controll it's behavior it is possible to define:</p><p>
<table>
<tbody><tr>
<td><b>property</b></td>
<td><i>use the value of this property in the calculation</i></td>
</tr>
<tr>
<td><b>offset</b></td>
<td><i>offset, ranges from 0.0 to 1.0</i></td>
</tr>
<tr>
<td><b>factor</b></td>
<td><i>multiplication factor for the property</i></td>
</tr>
</tbody></table>
</p><p>The formula used is:
</p><blockquote><pre>alpha = property * factor + offset
</pre></blockquote>
<p>The result should be between 0.0 and 1.0 where 0.0 equals to a fully visible model and 1.0 equals to a fully transparent model.</p>
<p>To gain greater controll over the result it is possible to limit
the result by defining a &lt;min&gt; and/or a &lt;max&gt; parameter.
</p>
<p><strong>Note:</strong> This effect will only work if there is already a transparent component in the object, either in the vertex color or in the texture.
<!-- end of "Animating the Model" -->
<h3><a name="texrotate">"texrotate" texture rotation animation type</a></h3>
<p>This animation will adjust the texture mapping on an object
so that the texture image appears to rotate about
the specified center on the object. Note that when talking
about texture mapping, meaningful values are from
0.0 ~ 1.0. Texture coordinates are commonly specified as (u,v).
A square object's lower left corner would generally be
specified as (u=0,v=0) and the upper right corner as (u=1,v=1). The
center will be (u=0.5, v=0.5). These values
will be vary (within the 0.0 ~ 1.0 range) if only a portion of a texture is
mapped (see compass rose example below).</p>
<p>For the purpose of specifying the &lt;center&gt; tag
you need only use the x and y coordinates.
The &lt;axis&gt; tag usually only requires a value for z. It is possible to
obtain some unusual texture mapping effects, like as giving the illusion of
perspective on a flat stationary surface by using the other axes. Here is
an example of a rotating compass rose on the 747-400 PDF
(primary flight display):<p>
<blockquote><pre> &lt;animation&gt;
&lt;type&gt;texrotate&lt;/type&gt;
&lt;object-name&gt;rose&lt;/object-name&gt;
&lt;property&gt;/orientation/heading-magnetic-deg&lt;/property&gt;
&lt;center&gt;
&lt;x&gt;0.75&lt;/x&gt;
&lt;y&gt;0.75&lt;/y&gt;
&lt;z&gt;0.0&lt;/z&gt;
&lt;/center&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;-1&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>The center in this example is (0.75, 0.75) because the compass
rose only occupies the upper right corner of the total
texture image that it is contained in. The other three quardrants
have other textures for the same model. As mentioned
before, the coordinates are (0,0) lower left to (1,1) upper right,
the center of the upper right quadrant is thus (0.75, 0.75).
<h3><a name="textranslate">"textranslate" texture translation animation type</a></h3>
<p>This animation will adjust the texture mapping on an object so
that the texture image appears to slides around
on the object. An &lt;axis&gt; tag is required to specify the axis
along which the texture is moved (the direction of movement). The
following example displays the right most digit in the altitude indicator
on the primary flight display:</p>
<blockquote><pre> &lt;animation&gt;
&lt;type&gt;textranslate&lt;/type&gt;
&lt;object-name&gt;alt1&lt;/object-name&gt;
&lt;property&gt;/position/altitude-ft&lt;/property&gt;
&lt;factor&gt;0.01&lt;/factor&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;1&lt;/y&gt;
&lt;z&gt;0&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<p>There are also some special properties available for use in the texture animations. These are:</p>
<ol>
<li>step</li>
<li>scroll</li>
</ol>
<p>The &lt;step&gt; property is useful if you want animations to
happen in steps rather than smoothly. It causes values that are
fractional (between) steps size to be ingnored. It can be used for
things like changing digits on nurmeric displays or a ticking second
hand on a clock. The &lt;scroll&gt; property works with the
&lt;step&gt; property. The scroll value specifies the distance the input
property value should be from a step when scrolling to the next
position begins. This type of scrolling is common on EFIS cockpit
displays. The following example gives an "odometer effect"
where the hundreds position digit doesn't move until the input value
is within is within 1 (e.g. > 99):</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;textranslate&lt;/type&gt;
&lt;object-name&gt;asi3&lt;/object-name&gt;
&lt;property&gt;/velocities/airspeed-kt&lt;/property&gt;
&lt;factor&gt;0.001&lt;/factor&gt;
&lt;step&gt;100&lt;/step&gt;
&lt;scroll&gt;1&lt;/scroll&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;1&lt;/y&gt;
&lt;z&gt;0&lt;/z&gt;
&lt;/axis&gt;
&lt;/animation&gt;
</pre></blockquote>
<h3><a name="textmultiple">"textmultiple" type, combining texture animation types</a></h3>
<p>The textmultiple animation type isn't a real animation type, but
instead it is a method of combining multiple texture
tansform operations on the same object. Unlike object vertex
operations, texture operations can not be stacked (a plib limitation),
which means that if you configure two or more texture animation tags
on the same object, only the first in the list will be used. By
listing operations using texmultiple they are combined together in
Simgear and then handled as a single operation.</p>
<p>If you need to combine together a translation and rotation
this is the only way to do it currently. Note that
transform operations are applied in the same order that they are
listed in the configuration file. The following
example for the horizon texture from the 747-400 primary flight
display explains the format clearly:</p>
<blockquote><pre>&lt;animation&gt;
&lt;type&gt;texmultiple&lt;/type&gt;
&lt;object-name&gt;horizon&lt;/object-name&gt;
&lt;transform&gt;
&lt;property&gt;/orientation/pitch-deg&lt;/property&gt;
&lt;subtype&gt;textranslate&lt;/subtype&gt;
&lt;factor&gt;0.0045&lt;/factor&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;1&lt;/y&gt;
&lt;z&gt;0&lt;/z&gt;
&lt;/axis&gt;
&lt;/transform&gt;
&lt;transform&gt;
&lt;property&gt;/orientation/roll-deg&lt;/property&gt;
&lt;subtype&gt;texrotate&lt;/subtype&gt;
&lt;center&gt;
&lt;x&gt;0.50&lt;/x&gt;
&lt;y&gt;0.50&lt;/y&gt;
&lt;/center&gt;
&lt;axis&gt;
&lt;x&gt;0&lt;/x&gt;
&lt;y&gt;0&lt;/y&gt;
&lt;z&gt;-1&lt;/z&gt;
&lt;/axis&gt;
&lt;/transform&gt;
&lt;/animation&gt;
</pre></blockquote>
<h3><a name="range">"range" animation type</a></h3>
<p>The range type is used to select part of a model using its distance from the
viewer as the criterion. To be viewed, the model must be between a minimum
distance and a maximum one. Minimum distance can be specified either with the
&lt;min-m&gt; element or the &lt;min-property&gt; element that are exclusive.
The first one allow to specify a fixed distance in meters, the latter allow to
lookup the value from a property. Both can be multiplied by a fixed amount,
specified in the &lt;min-factor&gt; element. The same apply for the maximum
value with &lt;max-m&gt;, &lt;max-property&gt; and &lt;max-factor&gt; elements.
The example below shows how it can be used :</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;range&lt;/type&gt;
&lt;object-name&gt;Detailed&lt;/object-name&gt;
2004-08-30 13:17:08 +00:00
&lt;min-m&gt;0&lt;/min-m&gt;
&lt;max-property&gt;/sim/rendering/static-lod/detailed&lt;/max-property&gt;
&lt;/animation&gt;
</pre>
</blockquote>
<h3><a name="alphatest">"alpha-test" animation type</a></h3>
<p>This "animation" is a way to set an alpha test on a model branch. The effect
is to avoid depth buffer writing of pixel that are not seen because they are
transparent. This is particulary useful when modeling a metallic structure or a
tree with a billboard. The threshold of transparency is set with the
&lt;alpha-factor&gt; element like this :</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;alpha-test&lt;/type&gt;
&lt;object-name&gt;Detailed&lt;/object-name&gt;
2004-08-30 13:17:08 +00:00
&lt;alpha-factor&gt;0.01&lt;/alpha-factor&gt;
&lt;/animation&gt;
</pre>
</blockquote>
2005-07-05 17:58:17 +00:00
<h3><a name="noshadow">"noshadow" animation type</a></h3>
<p>This "animation" prevents the shadow casting code to include this object,
which might be handy when it doesn't cast a shadow (exhaust flame) or when
it looks ugly.</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;noshadow&lt;/type&gt;
&lt;object-name&gt;Wires.1&lt;/object-name&gt;
&lt;object-name&gt;Wires.2&lt;/object-name&gt;
&lt;/animation&gt;
</pre>
</blockquote>
<h3><a name="material">"material" animation type</a></h3>
<p>This "animation" can set any of the material properties on a model branch, including
the texture file path. The following minimalistic example animation allows to change the
"panel" object's emissive color from (0,0,0) to (1,.2,0) by setting the factor property
to values between 0.0 and 1.0.</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;material&lt;/type&gt;
&lt;object-name&gt;panel&lt;/object-name&gt;
&lt;emission&gt;
&lt;red&gt;1.0&lt;/red&gt;
&lt;green&gt;0.2&lt;/green&gt;
&lt;blue&gt;0.0&lt;/blue&gt;
&lt;factor-prop&gt;/controls/lighting/instruments-norm&lt;/factor-prop&gt;
&lt;/emission&gt;
&lt;/animation&gt;
</pre>
</blockquote>
<p>Changes made with this animation type are by default only effective for the objects listed in
&lt;object-name&gt; tags, whereby you can use more than one of those. The next example, however,
sets the optional &lt;global&gt; property, so that changes affect all objects that share
the same material. This is the preferred method and should be used whereever possible. It isn't
only faster, but also doesn't break other animations by forcing objects into the same branch.
Note that all material properties can be set to fixed values, for instance &lt;red&gt; or, by appending
"-prop", to the contents of another property node: &lt;red-prop&gt;. Because a "material" animation
can contain a lot of such property paths, which is a nuisance to write, hard to read, and a potential
source for typos, there's a &lt;property-base&gt; component. Its string value is prepended to
all material property names (but not to property paths in a &lt;condition&gt; statement!).
The following example shows all available elements:</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;material&lt;/type&gt;
&lt;object-name&gt;fuselage&lt;/object-name&gt;
&lt;condition&gt;
&lt;property&gt;/sim/model/foo/animate-fuselage-material&lt;/property&gt;
&lt;/condition&gt;
&lt;global type="bool"&gt;true&lt;/global&gt;
&lt;property-base&gt;/sim/model/foo/material/fuselage&lt;/property-base&gt;
&lt;diffuse&gt;
&lt;red-prop&gt;diffuse/red&lt;/red-prop&gt;
&lt;green-prop&gt;diffuse/green&lt;/green-prop&gt;
&lt;blue-prop&gt;diffuse/blue&lt;/blue-prop&gt;
&lt;factor-prop&gt;diffuse/factor&lt;/factor-prop&gt;
&lt;offset-prop&gt;diffuse/offset&lt;/offset-prop&gt;
&lt;/diffuse&gt;
&lt;ambient&gt;
&lt;red-prop&gt;ambient/red&lt;/red-prop&gt;
&lt;green-prop&gt;ambient/green&lt;/green-prop&gt;
&lt;blue-prop&gt;ambient/blue&lt;/blue-prop&gt;
&lt;factor-prop&gt;ambient/factor&lt;/factor-prop&gt;
&lt;offset-prop&gt;ambient/offset&lt;/offset-prop&gt;
&lt;/ambient&gt;
&lt;emission&gt;
&lt;red-prop&gt;emission/red&lt;/red-prop&gt;
&lt;green-prop&gt;emission/green&lt;/green-prop&gt;
&lt;blue-prop&gt;emission/blue&lt;/blue-prop&gt;
&lt;factor-prop&gt;emission/factor&lt;/factor-prop&gt;
&lt;offset-prop&gt;emission/offset&lt;/offset-prop&gt;
&lt;/emission&gt;
&lt;specular&gt;
&lt;red-prop&gt;specular/red&lt;/red-prop&gt;
&lt;green-prop&gt;specular/green&lt;/green-prop&gt;
&lt;blue-prop&gt;specular/blue&lt;/blue-prop&gt;
&lt;factor-prop&gt;specular/factor&lt;/factor-prop&gt;
&lt;offset-prop&gt;specular/offset&lt;/offset-prop&gt;
&lt;/specular&gt;
&lt;shininess&gt;
&lt;transparency&gt;
&lt;alpha-prop&gt;transparency/alpha&lt;/alpha-prop&gt;
&lt;factor-prop&gt;transparency/factor&lt;/factor-prop&gt;
&lt;offset-prop&gt;transparency/offset&lt;/offset-prop&gt;
&lt;min&gt;0.0&lt;min&gt; &lt;!-- no min-prop! --&gt;
&lt;max&gt;1.0&lt;max&gt; &lt;!-- no max-prop! --&gt;
&lt;/transparency&gt;
&lt;texture&gt;texture&lt;/texture&gt;
&lt;threshold&gt;threshold&lt;/threshold&gt;
&lt;/animation&gt;
</pre>
</blockquote>
<p>A change to one of the components in each color group does always update
all three color components. Unset values default to zero. The &lt;texture&gt; path
is relative to the model's &lt;texture-path&gt; directory, or, if unset, to the model
directory. All numerical values are clamped to 0.0-1.0, except &lt;shininess&gt;, which is
clamped to 0.0-128.0. The &lt;alpha&gt; property (&lt;transparency&gt; group) makes an
object fully transparent (and thus invisible) with 0.0, and fully opaque with 1.0.
("alpha" could also be called "opaqueness".) The &lt;threshold&gt; property sets the
alpha/opaqueness threshold. It is only relevant for semitransparent textures. Only parts
of the texture that are more opaque than this are diplayed at all. If it is set
to 0.0, all parts of the texture will be shown. If it is 0.5, only parts with
opaqueness greater than 0.5 (or transparency less than 0.5) are shown.</p>
<p>Note that defining two or more of these animations for the same object,
or a mixture of "material" and "blend" animations, will probably not yield
the result that you expect. Try to put all state manipulations for one
object or material in one "material" animation, and use its "transparency"
property instead of an extra "blend" animation.</p>
<p>To make a texture replaceable at runtime, use a "material" animation
like this:</p>
<blockquote>
<pre>&lt;animation&gt;
&lt;type&gt;material&lt;/type&gt;
&lt;object-name&gt;tail-vert&lt;/object-name&gt;
&lt;texture-prop&gt;/sim/model/foo/texture&lt;/texture-prop&gt;
&lt;/animation&gt;
</pre>
</blockquote>
<p>and put something like this into your aircraft's *-set.xml file:</p>
<blockquote>
<pre>&lt;sim&gt;
&lt;model&gt;
&lt;foo&gt;
&lt;texture&gt;logos/tail-logo.rgb&lt;/texture&gt;
&lt;/foo&gt;
&lt;/model&gt;
&lt;/sim&gt;
</pre>
</blockquote>
<p>You can explore the influence of material changes at runtime, if you use
a material animation like the above complete example, and call the material
dialog on it, like in the following Nasal example. Note, that the path is
the same that you would set in &lt;property-base&gt;.
</p>
<blockquote>
<pre>material.showDialog("/sim/model/foo/material/fuselage");</pre>
</blockquote>
<hr>
2004-08-30 13:17:08 +00:00
<address>David Megginson, 11 March 2002</address>
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