Exemplo n.º 1
0
 public void Reset()
 {
     _cachedValidClosest = false;
     _numVertices        = 0;
     _needsUpdate        = true;
     _lastW = TSVector.one * FP.MaxValue;
     _cachedBC.Reset();
 }
Exemplo n.º 2
0
        public bool ClosestPtPointTetrahedron(TSVector a, TSVector b, TSVector c, TSVector d,
                                              ref SubSimplexClosestResult finalResult)
        {
            tempResult.Reset();

            // Start out assuming point inside all halfspaces, so closest to itself
            finalResult.closestPointOnSimplex = TSVector.zero;
            finalResult.usedVertices.Reset();
            finalResult.usedVertices.UsedVertexA = true;
            finalResult.usedVertices.UsedVertexB = true;
            finalResult.usedVertices.UsedVertexC = true;
            finalResult.usedVertices.UsedVertexD = true;

            int pointOutsideABC = PointOutsideOfPlane(a, b, c, d);
            int pointOutsideACD = PointOutsideOfPlane(a, c, d, b);
            int pointOutsideADB = PointOutsideOfPlane(a, d, b, c);
            int pointOutsideBDC = PointOutsideOfPlane(b, d, c, a);

            if (pointOutsideABC < 0 || pointOutsideACD < 0 || pointOutsideADB < 0 || pointOutsideBDC < 0)
            {
                finalResult.degenerate = true;
                return(false);
            }

            if (pointOutsideABC == 0 && pointOutsideACD == 0 && pointOutsideADB == 0 && pointOutsideBDC == 0)
            {
                return(false);
            }

            FP bestSqDist = FP.MaxValue;

            // If point outside face abc then compute closest point on abc
            if (pointOutsideABC != 0)
            {
                ClosestPtPointTriangle(a, b, c, ref tempResult);
                TSVector q = tempResult.closestPointOnSimplex;

                FP sqDist = q.sqrMagnitude;
                // Update best closest point if (squared) distance is less than current best
                if (sqDist < bestSqDist)
                {
                    bestSqDist = sqDist;
                    finalResult.closestPointOnSimplex = q;
                    //convert result bitmask!
                    finalResult.usedVertices.Reset();
                    finalResult.usedVertices.UsedVertexA = tempResult.usedVertices.UsedVertexA;
                    finalResult.usedVertices.UsedVertexB = tempResult.usedVertices.UsedVertexB;
                    finalResult.usedVertices.UsedVertexC = tempResult.usedVertices.UsedVertexC;
                    finalResult.SetBarycentricCoordinates(
                        tempResult.barycentricCoords[VertexA],
                        tempResult.barycentricCoords[VertexB],
                        tempResult.barycentricCoords[VertexC],
                        FP.Zero);
                }
            }

            // Repeat test for face acd
            if (pointOutsideACD != 0)
            {
                ClosestPtPointTriangle(a, c, d, ref tempResult);
                TSVector q = tempResult.closestPointOnSimplex;
                //convert result bitmask!

                FP sqDist = q.sqrMagnitude;
                if (sqDist < bestSqDist)
                {
                    bestSqDist = sqDist;
                    finalResult.closestPointOnSimplex = q;
                    finalResult.usedVertices.Reset();
                    finalResult.usedVertices.UsedVertexA = tempResult.usedVertices.UsedVertexA;
                    finalResult.usedVertices.UsedVertexC = tempResult.usedVertices.UsedVertexB;
                    finalResult.usedVertices.UsedVertexD = tempResult.usedVertices.UsedVertexC;
                    finalResult.SetBarycentricCoordinates(
                        tempResult.barycentricCoords[VertexA],
                        FP.Zero,
                        tempResult.barycentricCoords[VertexB],
                        tempResult.barycentricCoords[VertexC]);
                }
            }
            // Repeat test for face adb

            if (pointOutsideADB != 0)
            {
                ClosestPtPointTriangle(a, d, b, ref tempResult);
                TSVector q = tempResult.closestPointOnSimplex;
                //convert result bitmask!

                FP sqDist = q.sqrMagnitude;
                if (sqDist < bestSqDist)
                {
                    bestSqDist = sqDist;
                    finalResult.closestPointOnSimplex = q;
                    finalResult.usedVertices.Reset();
                    finalResult.usedVertices.UsedVertexA = tempResult.usedVertices.UsedVertexA;
                    finalResult.usedVertices.UsedVertexD = tempResult.usedVertices.UsedVertexB;
                    finalResult.usedVertices.UsedVertexB = tempResult.usedVertices.UsedVertexC;
                    finalResult.SetBarycentricCoordinates(
                        tempResult.barycentricCoords[VertexA],
                        tempResult.barycentricCoords[VertexC],
                        FP.Zero,
                        tempResult.barycentricCoords[VertexB]);
                }
            }
            // Repeat test for face bdc

            if (pointOutsideBDC != 0)
            {
                ClosestPtPointTriangle(b, d, c, ref tempResult);
                TSVector q = tempResult.closestPointOnSimplex;
                //convert result bitmask!
                FP sqDist = q.sqrMagnitude;
                if (sqDist < bestSqDist)
                {
                    bestSqDist = sqDist;
                    finalResult.closestPointOnSimplex = q;
                    finalResult.usedVertices.Reset();
                    finalResult.usedVertices.UsedVertexB = tempResult.usedVertices.UsedVertexA;
                    finalResult.usedVertices.UsedVertexD = tempResult.usedVertices.UsedVertexB;
                    finalResult.usedVertices.UsedVertexC = tempResult.usedVertices.UsedVertexC;

                    finalResult.SetBarycentricCoordinates(
                        FP.Zero,
                        tempResult.barycentricCoords[VertexA],
                        tempResult.barycentricCoords[VertexC],
                        tempResult.barycentricCoords[VertexB]);
                }
            }

            //help! we ended up full !

            if (finalResult.usedVertices.UsedVertexA &&
                finalResult.usedVertices.UsedVertexB &&
                finalResult.usedVertices.UsedVertexC &&
                finalResult.usedVertices.UsedVertexD)
            {
                return(true);
            }

            return(true);
        }