public void ReflectEfieldTest1() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, -3), new Point(6, -2, 3), new Point(6, 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(-1, 0, 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 4.1; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0, 0), new Plural(-0.0847023107852173, -0.146708705798483), new Plural(-0.0847023107852173, -0.146708705798483));; // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest2() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 / Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(-1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 4.1; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.0623877164578374, 0.108058694673174), new Plural(0.0360195648910585, 0.0623877164578365), new Plural(0.0968928150328006, 0.167823278525182)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest14() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(10, 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(0, 1, 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 1 / 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(-0.26082694568263, -0.426578602845795), new Plural(0, 0), new Plural(0.429829743600304, -0.25543373214299)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest15() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 * Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 1 / 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(-0.221914313088277, -0.37182527838564), new Plural(0.128122288398547, 0.214673424567456), new Plural(0.49998683666538, -0.00362810713003811)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest12() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(10, 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(0, 1, 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 10000000; // TODO: 初始化为适当的值 double Epara = 0; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.2500272723013, 0.432910889925977), new Plural(0, 0), new Plural(0.25001363855995, 0.432961794520133)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest13() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 / Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(-1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 1 / 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(-0.232861639196329, -0.365069112622252), new Plural(-0.134442730073938, -0.210772750445275), new Plural(0.240433653861357, -0.43839669032828)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest9() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 * Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.137839140789951, 0.238744395119831), new Plural(-0.0795814650399449, -0.137839140789949), new Plural(0.223473914142364, 0.387068173460853)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest11() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 / Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(-1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 10000000; // TODO: 初始化为适当的值 double Epara = 0; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.216525636623664, 0.374928007347336), new Plural(0.125011134591127, 0.216464785968714), new Plural(0.250016703089389, 0.432950353731651)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest8() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(10, 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(0, 1, 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.182066642851485, 0.315348675782264), new Plural(0, 0), new Plural(0.213346339815971, 0.36952670017011)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest7() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 / Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(-1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 80.4; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.167173715239667, 0.289553368485151), new Plural(0.0965177894950518, 0.167173715239665), new Plural(0.205899086049201, 0.356627678269207)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest6() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 * Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 6.2; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.0304958700190565, 0.0528203962940216), new Plural(-0.0176067987646741, -0.0304958700190561), new Plural(0.161801754519918, 0.28024885958228)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest5() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(10, 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(0, 1, 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 6.2; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.0737128450442626, 0.127674392787113), new Plural(0, 0), new Plural(0.135750547921789, 0.235126846155848)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }
public void ReflectEfieldTest3() { EField e = new EField(new Plural(0, 0), new Plural(1, 0), new Plural(1, 0)); // TODO: 初始化为适当的值 RayInfo rayIn = new RayInfo(new Point(0, 0, 0), new Point(1, 0, 0)); // TODO: 初始化为适当的值 Face face = new SpaceFace(new Point(6, -2, 3), new Point(6, -2, -3), new Point(6 + 4 * Math.Sqrt(3), 2, 0)); RayInfo rayOut = new RayInfo(new Point(0, 0, 0), new Point(1, Math.Sqrt(3), 0)); // TODO: 初始化为适当的值 SpectVector l = face.GetNormalVector(); // TODO: 初始化为适当的值 double Conduct = 0; // TODO: 初始化为适当的值 double Epara = 4.1; // TODO: 初始化为适当的值 double s1 = 1; // TODO: 初始化为适当的值 double s2 = 1; // TODO: 初始化为适当的值 double f = 1000; // TODO: 初始化为适当的值 EField expected = new EField(new Plural(0.0122584145400459, 0.0212321968036003), new Plural(-0.00707739893453353, -0.0122584145400457), new Plural(0.142717699857073, 0.247194307291812)); // TODO: 初始化为适当的值 EField actual = new EField(); actual = ReflectEfieldCal.ReflectEfield(e, rayIn, rayOut, l, Conduct, Epara, s1, s2, f); Assert.IsTrue(Math.Abs(actual.X.Re - expected.X.Re) < 0.0000001 && Math.Abs(actual.X.Im - expected.X.Im) < 0.0000001 && Math.Abs(actual.Y.Re - expected.Y.Re) < 0.0000001 && Math.Abs(actual.Y.Im - expected.Y.Im) < 0.0000001 && Math.Abs(actual.Z.Re - expected.Z.Re) < 0.0000001 && Math.Abs(actual.Z.Im - expected.Z.Im) < 0.0000001); //Assert.Inconclusive("验证此测试方法的正确性。"); }