public void EfieldCalTest1()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, 0, 0); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = 0;
expected.X.Im = 0;
expected.Y.Re = -3.8729833462074;
expected.Y.Im = -6.70820393249938;
expected.Z.Re = 6.66493056834915;
expected.Z.Im = 11.5439983732997;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest13()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, 0, Math.Sqrt(3)); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = -1.44299978225551;
expected.X.Im = 2.4993489381773;
expected.Y.Re = -1.93649167310375;
expected.Y.Im = 3.35410196624966;
expected.Z.Re = 0.833116312725791;
expected.Z.Im = -1.44299978225547;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest15()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, 1, Math.Sqrt(2)); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = 0.191101863744437;
expected.X.Im = -0.330998137426465;
expected.Y.Re = -2.54751092378142;
expected.Y.Im = 4.41241835282609;
expected.Z.Re = 1.66623282560157;
expected.Z.Im = -2.88599991118093;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest12()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, 0, Math.Sqrt(3) / 3); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = 2.9127396218559;
expected.X.Im = 4.06237996247662;
expected.Y.Re = 3.90886803931641;
expected.Y.Im = 5.45167411454598;
expected.Z.Re = -5.04501301427337;
expected.Z.Im = -7.03624849465925;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest11()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, 0, 1); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = -1.05564268913923;
expected.X.Im = 4.59306794482337;
expected.Y.Re = -1.22686532511019;
expected.Y.Im = 5.33805221724575;
expected.Z.Re = 1.05564268913923;
expected.Z.Im = -4.59306794482337;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest10()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, Math.Sqrt(3), 0); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = 1.67705098312488;
expected.X.Im = -2.90473750965554;
expected.Y.Re = -0.968245836551877;
expected.Y.Im = 1.67705098312483;
expected.Z.Re = 3.33246528417467;
expected.Z.Im = -5.77199918664981;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest9()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, Math.Sqrt(3) / 3, 0); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = -1.95443401965821;
expected.X.Im = -2.72583705727299;
expected.Y.Re = 3.38517902208908;
expected.Y.Im = 4.72128827635085;
expected.Z.Re = -6.72668373552254;
expected.Z.Im = -9.38166426413794;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
public void EfieldCalTest8()
{
string uan = uanstr; // TODO: 初始化为适当的值
ReadUan.GetGainPara(uan);
double power1 = 1; // TODO: 初始化为适当的值
double frequency = 1000; // TODO: 初始化为适当的值
Point originPoint = new Point(0, 0, 0); // TODO: 初始化为适当的值
Point targetPoint = new Point(1, -1, 0); // TODO: 初始化为适当的值
Point rotateAngle = null; // TODO: 初始化为适当的值
EField expected = new EField(); // TODO: 初始化为适当的值
expected.X.Re = -0.867524790988055;
expected.X.Im = 3.77457292114235;
expected.Y.Re = -0.867524790988055;
expected.Y.Im = 3.77457292114236;
expected.Z.Re = 2.11128514574735;
expected.Z.Im = -9.18613487791125;
EField actual;
actual = DirectEfieldCal.EfieldCal(uan, power1, frequency, originPoint, targetPoint, rotateAngle);
Assert.IsTrue((Math.Abs(expected.X.Re - actual.X.Re) < 0.00001) && (Math.Abs(expected.X.Im - actual.X.Im) < 0.00001) &&
(Math.Abs(expected.Y.Re - actual.Y.Re) < 0.00001) && (Math.Abs(expected.Y.Im - actual.Y.Im) < 0.00001) &&
(Math.Abs(expected.Z.Re - actual.Z.Re) < 0.00001) && (Math.Abs(expected.Z.Im - actual.Z.Im) < 0.00001));
//Assert.Inconclusive("验证此测试方法的正确性。");
}
