Ejemplo n.º 1
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        public void It_Returns_A_Curve_Where_Degree_Is_Reduced_From_5_To_4()
        {
            // Arrange
            // Followed example Under C1 constrain condition https://www.hindawi.com/journals/mpe/2016/8140427/tab1/
            List <Point3> pts = new List <Point3>
            {
                new Point3(-5.0, 0.0, 0.0),
                new Point3(-7.0, 2.0, 0.0),
                new Point3(-3.0, 5.0, 0.0),
                new Point3(2.0, 6.0, 0.0),
                new Point3(5.0, 3.0, 0.0),
                new Point3(3.0, 0.0, 0.0)
            };
            int        degree     = 5;
            double     tolerance  = 10e-2;
            NurbsCurve curve      = new NurbsCurve(pts, degree);
            Point3     ptOnCurve0 = curve.PointAt(0.5);
            Point3     ptOnCurve1 = curve.PointAt(0.25);

            // Act
            NurbsBase reducedCurve            = curve.ReduceDegree(tolerance);
            Point3    ptOnReducedDegreeCurve0 = reducedCurve.PointAt(0.5);
            Point3    ptOnReducedDegreeCurve1 = reducedCurve.PointAt(0.25);

            // Assert
            reducedCurve.Degree.Should().Be(degree - 1);

            ptOnCurve0.DistanceTo(ptOnReducedDegreeCurve0).Should().BeLessThan(GSharkMath.MinTolerance);
            ptOnCurve1.DistanceTo(ptOnReducedDegreeCurve1).Should().BeLessThan(tolerance);
        }
Ejemplo n.º 2
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        /// <summary>
        /// Samples a curve at equally spaced parametric intervals.
        /// </summary>
        /// <param name="curve">The curve object.</param>
        /// <param name="numSamples">Number of samples.</param>
        /// <returns>A tuple with the set of points and the t parameter where the point was evaluated.</returns>
        internal static (List <double> tvalues, List <Point3> pts) RegularSample(NurbsBase curve, int numSamples)
        {
            if (numSamples < 1)
            {
                throw new Exception("Number of sample must be at least 1 and not negative.");
            }

            double start = curve.Knots[0];
            double end   = curve.Knots[curve.Knots.Count - 1];

            double        span    = (end - start) / (numSamples - 1);
            List <Point3> pts     = new List <Point3>();
            List <double> tValues = new List <double>();

            for (int i = 0; i < numSamples; i++)
            {
                double t = start + span * i;

                Point3 ptEval = curve.PointAt(t);
                pts.Add(ptEval);
                tValues.Add(t);
            }

            return(tValues, pts);
        }
Ejemplo n.º 3
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        public void It_Refines_The_Curve_Knot(double val, int insertion)
        {
            // Arrange
            int degree = 3;

            List <double> newKnots = new List <double>();

            for (int i = 0; i < insertion; i++)
            {
                newKnots.Add(val);
            }

            List <Point3> pts = new List <Point3>();

            for (int i = 0; i <= 12 - degree - 2; i++)
            {
                pts.Add(new Point3(i, 0.0, 0.0));
            }

            NurbsCurve curve = new NurbsCurve(pts, degree);

            // Act
            NurbsBase curveAfterRefine = KnotVector.Refine(curve, newKnots);
            Point3    p0 = curve.PointAt(2.5);
            Point3    p1 = curveAfterRefine.PointAt(2.5);

            // Assert
            (curve.Knots.Count + insertion).Should().Be(curveAfterRefine.Knots.Count);
            (pts.Count + insertion).Should().Be(curveAfterRefine.ControlPointLocations.Count);
            (p0 == p1).Should().BeTrue();
        }
Ejemplo n.º 4
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        public double Value(Vector v)
        {
            var p0 = _curve.PointAt(v[0]);
            var p1 = _plane.ClosestPoint(p0, out _);

            var p0P1 = p0 - p1;

            return(Vector3.DotProduct(p0P1, p0P1));
        }
Ejemplo n.º 5
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        /// <summary>
        /// Refines an intersection pair for two curves given an initial guess.<br/>
        /// This is an unconstrained minimization, so the caller is responsible for providing a very good initial guess.
        /// </summary>
        /// <param name="crv0">The first curve.</param>
        /// <param name="crv1">The second curve.</param>
        /// <param name="firstGuess">The first guess parameter.</param>
        /// <param name="secondGuess">The second guess parameter.</param>
        /// <param name="tolerance">The value tolerance for the intersection.</param>
        /// <returns>The results collected into the object <see cref="CurvesIntersectionResult"/>.</returns>
        internal static CurvesIntersectionResult CurvesWithEstimation(NurbsBase crv0, NurbsBase crv1,
                                                                      double firstGuess, double secondGuess, double tolerance)
        {
            IObjectiveFunction objectiveFunctions = new CurvesIntersectionObjectives(crv0, crv1);
            Minimizer          min      = new Minimizer(objectiveFunctions);
            MinimizationResult solution = min.UnconstrainedMinimizer(new Vector {
                firstGuess, secondGuess
            }, tolerance * tolerance);

            // These are not the same points, also are used to filter where the intersection is not happening.
            Point3 pt1 = crv0.PointAt(solution.SolutionPoint[0]);
            Point3 pt2 = crv1.PointAt(solution.SolutionPoint[1]);

            return(new CurvesIntersectionResult(pt1, pt2, solution.SolutionPoint[0], solution.SolutionPoint[1]));
        }
Ejemplo n.º 6
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        public void Returns_The_Surface_Isocurve_At_V_Direction()
        {
            // Arrange
            NurbsSurface surface      = NurbsSurfaceCollection.SurfaceFromPoints();
            Point3       expectedPt   = new Point3(5, 4.615385, 2.307692);
            Point3       expectedPtAt = new Point3(5, 3.913043, 1.695652);

            // Act
            NurbsBase Isocurve = surface.IsoCurve(0.3, SurfaceDirection.V);
            Point3    ptAt     = Isocurve.PointAt(0.5);

            // Assert
            Isocurve.ControlPointLocations[1].DistanceTo(expectedPt).Should().BeLessThan(GSharkMath.MinTolerance);
            ptAt.DistanceTo(expectedPtAt).Should().BeLessThan(GSharkMath.MinTolerance);
        }
Ejemplo n.º 7
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        /// <summary>
        /// Refines an intersection between a curve and a plane given an initial guess.<br/>
        /// This is an unconstrained minimization, so the caller is responsible for providing a very good initial guess.
        /// </summary>
        /// <param name="crv">The curve to intersect.</param>
        /// <param name="plane">The plane to intersect with the curve.</param>
        /// <param name="firstGuess">The first guess parameter.</param>
        /// <param name="secondGuess">The second guess parameter.</param>
        /// <param name="tolerance">The value tolerance for the intersection.</param>
        /// <returns>The results collected into the object <see cref="CurvePlaneIntersectionResult"/>.</returns>
        internal static CurvePlaneIntersectionResult CurvePlaneWithEstimation(NurbsBase crv, Plane plane,
                                                                              double firstGuess, double secondGuess, double tolerance)
        {
            IObjectiveFunction objectiveFunctions = new CurvePlaneIntersectionObjectives(crv, plane);
            Minimizer          min      = new Minimizer(objectiveFunctions);
            MinimizationResult solution = min.UnconstrainedMinimizer(new Vector {
                firstGuess, secondGuess
            }, tolerance * tolerance);

            Point3 pt = crv.PointAt(solution.SolutionPoint[0]);

            (double u, double v)parameters = plane.ClosestParameters(pt);
            Vector uv = new Vector {
                parameters.u, parameters.v, 0.0
            };

            return(new CurvePlaneIntersectionResult(pt, solution.SolutionPoint[0], uv));
        }
Ejemplo n.º 8
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        public void It_Returns_A_Curve_Where_Degree_Is_Elevated_From_1_To_Elevated_Degree_Value(int finalDegree)
        {
            // Arrange
            List <Point3> pts = new List <Point3>
            {
                new Point3(0.0, 0.0, 1.0),
                new Point3(7.0, 3.0, -10),
                new Point3(5.2, 5.2, -5),
            };
            int        degree    = 1;
            NurbsCurve curve     = new NurbsCurve(pts, degree);
            Point3     ptOnCurve = curve.PointAt(0.5);

            // Act
            NurbsBase elevatedDegreeCurve     = curve.ElevateDegree(finalDegree);
            Point3    ptOnElevatedDegreeCurve = elevatedDegreeCurve.PointAt(0.5);

            // Assert
            elevatedDegreeCurve.Degree.Should().Be(finalDegree);
            ptOnElevatedDegreeCurve.DistanceTo(ptOnCurve).Should().BeLessThan(GSharkMath.MinTolerance);
        }