Blog

JigLibFlash Rewrite – Video Game Case Physics Example

April 13, 2009 by Devin Reimer

Video Game Case Physics Screenshot

Over the past 2 months the JigLibFlash team has been re-architecting the whole JigLibFlash project and the new version is now available. Using this re-architected library is quite a bit different from the old version. So before I convert some of my older stuff over, I decided to making a new demo of the updated library in action.

In this demo randomly positioned and oriented video game cases drop one on top of the other until 7 cases are on the screen. Then it resets and starts all over again. It is a very simple example, but it will give you a place to start.

To play the demo click here.

To get the source click here.

Source Requirements: You will need Papervision3D , JigLibFlash and bulk-loader to compile the source.

Note: The case is a scan of my copy of ‘Left 4 Dead’, if you want to read a good article on how the actual case artwork came to be, check out this link: http://www.l4d.com/blog/post.php?id=2353

JigLibFlash Object Rotation – Pitch, Yaw and Roll

March 27, 2009 by Devin Reimer

JigLibFlash Rotation Example Screenshot

I get asked the following question a lot: “How do I rotate a JigLibFlash object?”. I do understand why people have this question as rotating pieces of geometry in JigLibFlash is not very straight forward. It also can end up being kind of challenging if your not familiar with exactly how rotation matrix work. The bottom line is it is not as easy as Papervision3D ( ex: pitch(10) ). So instead of me trying to explain any formulas I decided to add a few functions to the RigidBody class in JigLibFlash to make it easier for people to use.  I have created the following functions.

public static var toDEGREES:Number = 180/Math.PI;
public static var toRADIANS:Number = Math.PI/180;
 
public function pitch(angleDeg:Number):void
{
	SetOrientation(JMatrix3D.multiply(CurrentState.Orientation, JMatrix3D.rotationX(angleDeg*toRADIANS)));
}
 
public function yaw(angleDeg:Number):void
{
	SetOrientation(JMatrix3D.multiply(CurrentState.Orientation, JMatrix3D.rotationY(-angleDeg * toRADIANS)));
}
 
public function roll(angleDeg:Number):void
{
	SetOrientation(JMatrix3D.multiply(CurrentState.Orientation, JMatrix3D.rotationZ(angleDeg*toRADIANS)));
}
 
public function setRotationsDegrees(xRotation:Number, yRotation:Number, zRotation:Number):void
{
	SetOrientation(JMatrix3D.euler2matrix(new JNumber3D(xRotation, yRotation, zRotation)));
}
 
public function get rotationX():Number
{
	return JMatrix3D.matrix2euler(CurrentState.Orientation).x;
}
 
public function get rotationY():Number
{
	return JMatrix3D.matrix2euler(CurrentState.Orientation).y;
}
 
public function get rotationZ():Number
{
	return JMatrix3D.matrix2euler(CurrentState.Orientation).z;
}

You can copy this into the RigidBody Class within JigLibFlash (jiglib/physics/). Or you can click here to download a modified version of the RigidBody class to add to your JigLibFlash source. Once complete you can now use these functions from any standard JigLibFlash geometry object.

What you might notice is this source is missing a set function for rotationX, rotationY and rotationZ. I have included commented out version of my function in the source, but be advised that they are commented out because they can cause some weird results when rotating on more then one axis. You are free to use them, but you have been warned. I’m not a math genius so if anyone has any optimizations or additions please let me know.

These functions should hold everyone over until the JigLibFlash team has finished its rewrite of this project.  To read more about what the new syntax will be when completed, check out this recent post by drojdjou.
http://code.google.com/p/jiglibflash/wiki/New_API_Very_Short_Tutorial

To play the demo click here.

To get the demo source click here.

Update: As of April 12 (rev. 81), these functions are now part of JigLibFlash source, so you will no longer need to copy in these functions into your project. :)