public void Puzzle2_Isosceles_Pass() { Double sideA = 10, sideB = 10, sideC = 15; string strTriangleType = Puzzles_JohnHolland.fnReturnTriangleType(sideA, sideB, sideC); Assert.AreEqual("Isosceles", strTriangleType); }
public void Puzzle2_Scalene_Pass() { Double sideA = 10, sideB = 11, sideC = 12; string strTriangleType = Puzzles_JohnHolland.fnReturnTriangleType(sideA, sideB, sideC); Assert.AreEqual("Scalene", strTriangleType); }
public void Puzzle2_Equilateral_Pass() { Double sideA = 10, sideB = 10, sideC = 10; string strTriangleType = Puzzles_JohnHolland.fnReturnTriangleType(sideA, sideB, sideC); Assert.AreEqual("Equilateral", strTriangleType); }
public void Puzzle2_IsTriangle_Fail() { Double sideA = 10, sideB = 9, sideC = 100; bool isValid = Puzzles_JohnHolland.fnCheckIfTriangle(sideA, sideB, sideC); Assert.AreEqual(false, isValid); }
public void Puzzle1_Pass() { int[] numbers = new int[] { 1, 2, 3, 4, 5, 6, 7, 8, 9 }; int i = Puzzles_JohnHolland.fnReturnFifthElement(numbers); Assert.AreEqual(numbers[numbers.Length - 5], i); }
public void Puzzle1_Fail() { int[] numbers = new int[] { 1, 2, 3, 4, 5 }; int i = Puzzles_JohnHolland.fnReturnFifthElement(numbers); //Comparing with 4th element in array from tail Assert.AreNotEqual(numbers[numbers.Length - 4], i); }
public void Puzzle1_Exception() { int[] numbers = new int[] { 2, 3, 4, 5 }; int i = Puzzles_JohnHolland.fnReturnFifthElement(numbers); }