GetSweptBoundingBox() public method

Computes a bounding box for the shape and expands it.
public GetSweptBoundingBox ( RigidTransform &transform, Vector3 &sweep, BoundingBox &boundingBox ) : void
transform BEPUutilities.RigidTransform Transform to use to position the shape.
sweep Vector3 Extra to add to the bounding box.
boundingBox BoundingBox Expanded bounding box.
return void
示例#1
0
        /// <summary>
        /// Casts a convex shape against the collidable.
        /// </summary>
        /// <param name="castShape">Shape to cast.</param>
        /// <param name="startingTransform">Initial transform of the shape.</param>
        /// <param name="sweep">Sweep to apply to the shape.</param>
        /// <param name="filter">Test to apply to the entry. If it returns true, the entry is processed, otherwise the entry is ignored. If a collidable hierarchy is present
        /// in the entry, this filter will be passed into inner ray casts.</param>
        /// <param name="result">Hit data, if any.</param>
        /// <returns>Whether or not the cast hit anything.</returns>
        public bool ConvexCast(ConvexShapes.ConvexShape castShape, ref RigidTransform startingTransform, ref Vector3 sweep, Func <BroadPhaseEntry, bool> filter, out RayCastResult result)
        {
            var         outputOverlappedElements = PhysicsResources.GetCollidableList();
            BoundingBox boundingBox;

            castShape.GetSweptBoundingBox(ref startingTransform, ref sweep, out boundingBox);

            CollidableTree.GetOverlaps(boundingBox, outputOverlappedElements);
            result           = new RayCastResult();
            result.HitData.T = Fix64.MaxValue;
            for (int i = 0; i < outputOverlappedElements.Count; ++i)
            {
                RayHit hit;
                if (outputOverlappedElements.Elements[i].ConvexCast(castShape, ref startingTransform, ref sweep, filter, out hit))
                {
                    if (hit.T < result.HitData.T)
                    {
                        result.HitData   = hit;
                        result.HitObject = outputOverlappedElements.Elements[i];
                    }
                }
            }
            PhysicsResources.GiveBack(outputOverlappedElements);
            return(result.HitData.T < Fix64.MaxValue);
        }
示例#2
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 public override bool ConvexCast(ConvexShape castShape, ref RigidTransform startingTransform, ref Vector3 sweep, out RayHit hit)
 {
     hit = new RayHit();
     BoundingBox boundingBox;
     castShape.GetSweptBoundingBox(ref startingTransform, ref sweep, out boundingBox);
     var tri = PhysicsResources.GetTriangle();
     var hitElements = CommonResources.GetIntList();
     if (triangleMesh.Tree.GetOverlaps(boundingBox, hitElements))
     {
         hit.T = float.MaxValue;
         for (int i = 0; i < hitElements.Count; i++)
         {
             triangleMesh.Data.GetTriangle(hitElements[i], out tri.vA, out tri.vB, out tri.vC);
             Vector3 center;
             Vector3.Add(ref tri.vA, ref tri.vB, out center);
             Vector3.Add(ref center, ref tri.vC, out center);
             Vector3.Multiply(ref center, 1f / 3f, out center);
             Vector3.Subtract(ref tri.vA, ref center, out tri.vA);
             Vector3.Subtract(ref tri.vB, ref center, out tri.vB);
             Vector3.Subtract(ref tri.vC, ref center, out tri.vC);
             tri.maximumRadius = tri.vA.LengthSquared();
             float radius = tri.vB.LengthSquared();
             if (tri.maximumRadius < radius)
                 tri.maximumRadius = radius;
             radius = tri.vC.LengthSquared();
             if (tri.maximumRadius < radius)
                 tri.maximumRadius = radius;
             tri.maximumRadius = (float)Math.Sqrt(tri.maximumRadius);
             tri.collisionMargin = 0;
             var triangleTransform = new RigidTransform { Orientation = Quaternion.Identity, Position = center };
             RayHit tempHit;
             if (MPRToolbox.Sweep(castShape, tri, ref sweep, ref Toolbox.ZeroVector, ref startingTransform, ref triangleTransform, out tempHit) && tempHit.T < hit.T)
             {
                 hit = tempHit;
             }
         }
         tri.maximumRadius = 0;
         PhysicsResources.GiveBack(tri);
         CommonResources.GiveBack(hitElements);
         return hit.T != float.MaxValue;
     }
     PhysicsResources.GiveBack(tri);
     CommonResources.GiveBack(hitElements);
     return false;
 }
示例#3
0
文件: Space.cs 项目: d3x0r/Voxelarium
        /// <summary>
        /// <para>Casts a convex shape against the space.</para>
        /// <para>Convex casts are sensitive to length; avoid extremely long convex casts for better stability and performance.</para>
        /// </summary>
        /// <param name="castShape">Shape to cast.</param>
        /// <param name="startingTransform">Initial transform of the shape.</param>
        /// <param name="sweep">Sweep to apply to the shape. Avoid extremely long convex casts for better stability and performance.</param>
        /// <param name="filter">Delegate to prune out hit candidates before performing a cast against them. Return true from the filter to process an entry or false to ignore the entry.</param>
        /// <param name="outputCastResults">Hit data, if any.</param>
        /// <returns>Whether or not the cast hit anything.</returns>
        public bool ConvexCast(ConvexShape castShape, ref RigidTransform startingTransform, ref Vector3 sweep, Func<BroadPhaseEntry, bool> filter, IList<RayCastResult> outputCastResults)
        {
            var overlappedElements = PhysicsResources.GetBroadPhaseEntryList();
            BoundingBox boundingBox;
            castShape.GetSweptBoundingBox(ref startingTransform, ref sweep, out boundingBox);

            BroadPhase.QueryAccelerator.GetEntries(boundingBox, overlappedElements);
            for (int i = 0; i < overlappedElements.Count; ++i)
            {
                RayHit hit;
                if (overlappedElements.Elements[i].ConvexCast(castShape, ref startingTransform, ref sweep, filter, out hit))
                {
                    outputCastResults.Add(new RayCastResult { HitData = hit, HitObject = overlappedElements.Elements[i] });
                }
            }
            PhysicsResources.GiveBack(overlappedElements);
            return outputCastResults.Count > 0;
        }