private bool _drawDebugInfo; // true if the collision shapes should be drawn for debugging.
public ContentPipelineSample(Microsoft.Xna.Framework.Game game)
: base(game)
{
SampleFramework.IsMouseVisible = false;
GraphicsScreen.ClearBackground = true;
GraphicsScreen.BackgroundColor = Color.CornflowerBlue;
SetCamera(new Vector3F(0, 1, 10), 0, 0);
// Initialize collision detection.
// Note: The physics Simulation also has a collision domain (Simulation.CollisionDomain)
// which we could use and which is updated together with the Simulation in
// SampleGame.cs. But in this example we create our own CollisionDomain for demonstration
// purposes.
_collisionDomain = new CollisionDomain(new CollisionDetection());
// Register CollisionDomain in service container.
Services.Register(typeof(CollisionDomain), null, _collisionDomain);
// Add game objects which manage graphics models and their collision representations.
_saucerObject = new SaucerObject(Services) { Name = "Saucer" };
_shipObjectA = new ShipObject(Services) { Name = "ShipA" };
_shipObjectB = new ShipObject(Services) { Name = "ShipB" };
GameObjectService.Objects.Add(_saucerObject);
GameObjectService.Objects.Add(_shipObjectA);
GameObjectService.Objects.Add(_shipObjectB);
// Position the second ship right of the first ship with an arbitrary rotation.
_shipObjectB.Pose = new Pose(new Vector3F(2, 0, 0), QuaternionF.CreateRotationY(0.7f) * QuaternionF.CreateRotationX(1.2f));
// Position the saucer left of the first ship with an arbitrary rotation.
_saucerObject.Pose = new Pose(new Vector3F(-2.5f, 0, 0), QuaternionF.CreateRotationY(0.2f) * QuaternionF.CreateRotationX(0.4f));
}
private bool _drawDebugInfo; // true if the collision shapes should be drawn for debugging.
public ContentPipelineSample(Microsoft.Xna.Framework.Game game)
: base(game)
{
SampleFramework.IsMouseVisible = false;
GraphicsScreen.ClearBackground = true;
GraphicsScreen.BackgroundColor = Color.CornflowerBlue;
SetCamera(new Vector3(0, 1, 10), 0, 0);
// Initialize collision detection.
// Note: The physics Simulation also has a collision domain (Simulation.CollisionDomain)
// which we could use and which is updated together with the Simulation in
// SampleGame.cs. But in this example we create our own CollisionDomain for demonstration
// purposes.
_collisionDomain = new CollisionDomain(new CollisionDetection());
// Register CollisionDomain in service container.
Services.Register(typeof(CollisionDomain), null, _collisionDomain);
// Add game objects which manage graphics models and their collision representations.
_saucerObject = new SaucerObject(Services)
{
Name = "Saucer"
};
_shipObjectA = new ShipObject(Services)
{
Name = "ShipA"
};
_shipObjectB = new ShipObject(Services)
{
Name = "ShipB"
};
GameObjectService.Objects.Add(_saucerObject);
GameObjectService.Objects.Add(_shipObjectA);
GameObjectService.Objects.Add(_shipObjectB);
// Position the second ship right of the first ship with an arbitrary rotation.
_shipObjectB.Pose = new Pose(new Vector3(2, 0, 0), Quaternion.CreateRotationY(0.7f) * Quaternion.CreateRotationX(1.2f));
// Position the saucer left of the first ship with an arbitrary rotation.
_saucerObject.Pose = new Pose(new Vector3(-2.5f, 0, 0), Quaternion.CreateRotationY(0.2f) * Quaternion.CreateRotationX(0.4f));
}
