Esempio n. 1
0
		//
		// Api
		//


		//

		//
		public static bool Distance( btConvexShape shape0,
											  ref btTransform wtrs0,
											  btConvexShape shape1,
											  ref btTransform wtrs1,
											  ref btVector3 guess,
											  out sResults results )
		{
			tShape shape = new tShape();
			results.witness0 =
				results.witness1 = btVector3.Zero;
			results.status = btGjkEpaSolver2.sResults.eStatus.Separated;
			Initialize( shape0, ref wtrs0, shape1, ref wtrs1, out results, shape, false );
			GJK gjk = new GJK();
			GJK.eStatus._ gjk_status = gjk.Evaluate( shape, ref guess );
			if( gjk_status == GJK.eStatus._.Valid )
			{
				btVector3 w0 = btVector3.Zero;
				btVector3 w1 = btVector3.Zero;
				for( uint i = 0; i < gjk.m_simplex.rank; ++i )
				{
					double p = gjk.m_simplex.p[i];
					btVector3 tmp;
					shape.Support( ref gjk.m_simplex.c[i].d, 0, out tmp );
					w0.AddScale( ref tmp, p, out w0 );

					gjk.m_simplex.c[i].d.Invert( out tmp );
					shape.Support( ref tmp, 1, out tmp );
					w1.AddScale( ref tmp, p, out w1 );
				}
				wtrs0.Apply( ref w0, out results.witness0 );
				wtrs0.Apply( ref w1, out results.witness1 );
				w0.Sub( ref w1, out results.normal );
				results.distance = results.normal.length();
				results.normal.Div( ( results.distance > GJK_MIN_DISTANCE ) ? results.distance : 1, out results.normal );
				return ( true );
			}
			else
			{
				results.status = gjk_status == GJK.eStatus._.Inside
					? sResults.eStatus.Penetrating
					: sResults.eStatus.GJK_Failed;
				return ( false );
			}
		}
Esempio n. 2
0
		//
		public static bool Penetration( btConvexShape shape0,
											 ref btTransform wtrs0,
											 btConvexShape shape1,
											 ref btTransform wtrs1,
											 ref btVector3 guess,
											 out sResults results,
											 bool usemargins = false )
		{
			tShape shape = new tShape();
			Initialize( shape0, ref wtrs0, shape1, ref wtrs1, out results, shape, usemargins );
			GJK gjk = new GJK();
			btVector3 tmp;
			guess.Invert( out tmp );
			GJK.eStatus._ gjk_status = gjk.Evaluate( shape, ref tmp );
			switch( gjk_status )
			{
				case GJK.eStatus._.Inside:
					{
						EPA epa = new EPA();
						EPA.eStatus._ epa_status = epa.Evaluate( gjk, ref tmp );
						if( epa_status != EPA.eStatus._.Failed )
						{
							btVector3 w0 = btVector3.Zero;
							for( uint i = 0; i < epa.m_result.rank; ++i )
							{
								shape.Support( ref epa.m_result.c[i].d, 0, out tmp );
								w0.AddScale( ref tmp, epa.m_result.p[i], out w0 );
							}
							results.status = sResults.eStatus.Penetrating;
							wtrs0.Apply( ref w0, out results.witness0 );
							w0.SubScale( ref epa.m_normal, epa.m_depth, out tmp );
							wtrs0.Apply( ref tmp, out results.witness1 );
							epa.m_normal.Invert( out results.normal );
							results.distance = -epa.m_depth;
							return ( true );
						}
						else results.status = sResults.eStatus.EPA_Failed;
					}
					break;
				case GJK.eStatus._.Failed:
					results.status = sResults.eStatus.GJK_Failed;
					break;
				default:
					break;
			}
			return ( false );
		}
Esempio n. 3
0
		//
		public static double SignedDistance( ref btVector3 position,
													double margin,
													btConvexShape shape0,
													ref btTransform wtrs0,
													sResults results )
		{
			tShape shape = new tShape();
			using( btSphereShape shape1 = BulletGlobals.SphereShapePool.Get() )
			{
				shape1.Initialize( margin );
				btTransform wtrs1 = new btTransform( ref btQuaternion.Zero, ref position );
				Initialize( shape0, ref wtrs0, shape1, ref wtrs1, out results, shape, false );
				GJK gjk = new GJK();
				GJK.eStatus._ gjk_status = gjk.Evaluate( shape, ref btVector3.One );
				if( gjk_status == GJK.eStatus._.Valid )
				{
					btVector3 w0 = btVector3.Zero;
					btVector3 w1 = btVector3.Zero;
					for( uint i = 0; i < gjk.m_simplex.rank; ++i )
					{
						double p = gjk.m_simplex.p[i];
						btVector3 tmp;
						shape.Support( ref gjk.m_simplex.c[i].d, 0, out tmp );
						w0.AddScale( ref tmp, p, out w0 );
						btVector3 tmp2;
						gjk.m_simplex.c[i].d.Invert( out tmp2 );
						shape.Support( ref tmp2, 1, out tmp );
						w1.AddScale( ref tmp, p, out w1 );
					}
					wtrs0.Apply( ref w0, out results.witness0 );
					wtrs0.Apply( ref w1, out results.witness1 );
					btVector3 delta; results.witness1.Sub( ref results.witness0, out delta );
					margin = shape0.getMarginNonVirtual() +
						shape1.getMarginNonVirtual();
					double length = delta.length();
					delta.Div( length, out results.normal );
					results.witness0.AddScale( ref results.normal, margin, out results.witness0 );
					return ( length - margin );
				}
				else
				{
					if( gjk_status == GJK.eStatus._.Inside )
					{
						if( Penetration( shape0, ref wtrs0, shape1, ref wtrs1, ref gjk.m_ray, out results ) )
						{
							btVector3 delta; results.witness0.Sub(
								ref results.witness1, out delta );
							double length = delta.length();
							if( length >= btScalar.SIMD_EPSILON )
								delta.Div( length, out results.normal );
							return ( -length );
						}
					}
				}
			}
			return ( btScalar.SIMD_INFINITY );
		}