public static IObject[] CreateOBJ(IWorld world, GraphicFactory factory, GraphicInfo ginfo, ObjectInformation[] mi)
{
IModelo model = new CustomModel(factory, mi);
MaterialDescription material;
if (mi[0].staticfriction == -1 || mi[0].dinamicfriction == -1 || mi[0].ellasticity == -1)
{
material = MaterialDescription.DefaultBepuMaterial();
}
else
{
material = new MaterialDescription(mi[0].staticfriction, mi[0].dinamicfriction, mi[0].ellasticity);
}
IPhysicObject po;
bool massflag = false;
if (mi[0].mass == 0)
{
massflag = true;
mi[0].mass = 0.5f;
}
BatchInformation binf = model.GetBatchInformation(0)[0];
BoundingBox bb;
switch (mi[0].collisionType)
{
case "Ghost":
po = new GhostObject(mi[0].position, Matrix.CreateFromQuaternion(mi[0].rotation), mi[0].scale);
break;
case "Cylinder":
binf.ModelLocalTransformation = Matrix.Identity;
bb = ModelBuilderHelper.CreateBoundingBoxFromModel(binf);
Vector3 len = bb.Max - bb.Min;
po = new CylinderObject(mi[0].position, len.Y, len.X / 2, Vector3.Up, mi[0].mass, Matrix.CreateFromQuaternion(mi[0].rotation), material);
break;
case "Sphere":
binf.ModelLocalTransformation = Matrix.Identity;
po = new SphereObject(mi[0].position, model.GetModelRadius(), mi[0].mass, mi[0].scale.X, material);
po.Rotation = Matrix.CreateFromQuaternion(mi[0].rotation);
break;
case "Box":
bb = ModelBuilderHelper.CreateBoundingBoxFromModel(binf);
len = bb.Max - bb.Min;
po = new BoxObject(mi[0].position, len.X, len.Y, len.Z, mi[0].mass, mi[0].scale, Matrix.CreateFromQuaternion(mi[0].rotation), material);
break;
case "Water":
po = new GhostObject(mi[0].position, Matrix.CreateFromQuaternion(mi[0].rotation), mi[0].scale);
break;
case "TriangleMesh":
default:
po = new TriangleMeshObject(model, Vector3.Zero, Matrix.Identity, new Vector3(1), material);
break;
}
po.isMotionLess = massflag;
IShader shader = null;
#if !REACH && !WINDOWS_PHONE
if (mi[0].HasTexture(TextureType.ENVIRONMENT))
{
shader = new DeferredEMReflectiveShader();
(shader as DeferredEMReflectiveShader).TextureCube = mi[0].textureInformation.getCubeTexture(TextureType.ENVIRONMENT);
}
else if (mi[0].collisionType != null && mi[0].collisionType.Contains("Water"))
{
Vector3 position = (Vector3)(mi[0].extra["position"]);
var width = (mi[0].extra["width"]);
var height = (mi[0].extra["length"]);
shader = new DeferredWaterCompleteShader((int)width, (int)height, new Plane(position.X, position.Y, position.Z, 1), 10.0f);
}
else
{
shader = new DeferredCustomShader(mi[0].HasTexture(TextureType.GLOW), mi[0].HasTexture(TextureType.BUMP), mi[0].HasTexture(TextureType.SPECULAR), mi[0].HasTexture(TextureType.PARALAX));
}
DeferredMaterial dm = new DeferredMaterial(shader);
#else
shader = new ForwardXNABasicShader();
ForwardMaterial dm = new ForwardMaterial(shader);
#endif
IObject ob = new IObject(dm, model, po);
ob.Name = mi[0].modelName;
return(new IObject[] { ob });
}
