float Calc(float c, float cx, float b) { var determinant=cx*cx*b/c; var n=norm(cx,b); SomeAlgorithm a = new SomeAlgorithm(determinant, n, b); SomeStruct scratch; return a.crunch(ref scratch); }
float Calc(float c, float cx, float b) { var determinant = cx * cx * b / c; var n = norm(cx, b); SomeAlgorithm a = new SomeAlgorithm(determinant, n, b); SomeStruct scratch; return(a.crunch(ref scratch)); }
public void T04_Should_get_valid_admin_data() { var admin = SomeAlgorithm.GetAdmin(); Assert.NotNull(admin); Assert.NotNull(admin.LastName); Assert.NotNull(admin.FirstName); Assert.True(admin.FirstName.Length > 3); Assert.True(admin.LastName.Length > 3); Assert.True(admin.Age > 24); }
public void T03_Should_throw_exception_for_negative_values(int arg) { Assert.Throws <ArgumentException>(() => SomeAlgorithm.MagicCalculation(arg)); }
public void T02_Should_compute_MagicCalculation_for_data_serie(int input, int expected) { Assert.Equal(0, SomeAlgorithm.MagicCalculation(1)); Assert.Equal(1, SomeAlgorithm.MagicCalculation(2)); Assert.Equal(-2, SomeAlgorithm.MagicCalculation(3)); }
public void T01_Should_compute_MagicCalculation() { Assert.Equal(0, SomeAlgorithm.MagicCalculation(1)); Assert.Equal(1, SomeAlgorithm.MagicCalculation(2)); Assert.Equal(-2, SomeAlgorithm.MagicCalculation(3)); }