public void Move_Forward_ReturnsRightPosition(DirectionType currentDirection, int currentPositionX, int currentPositionY, int expectedPositionX, int expectedPositionY) { Rover rover = new Rover(currentDirection); rover.Position = new Position(currentPositionX, currentPositionY); rover.Move(); Assert.Equal(expectedPositionX, rover.Position.X); Assert.Equal(expectedPositionY, rover.Position.Y); }
public void TestIfRoverThrowsErrorIfMadeToFall() { var rover = new Rover(); rover.Stand(new Point(4, 4), Direction.NORTH); Assert.Throws <ApplicationException>(() => { rover.Move(); }); }
public void When_The_Rover_Is_Created_Turn_Right_And_Move_Rover_Will_Be_At_Coordinates_1_0() { int xCoordinate = 0; int yCoordinate = 0; char oriantation = 'N'; var rover = new Rover(xCoordinate, yCoordinate, oriantation, _plateaue); rover.TurnRight(); rover.Move(); Assert.Equal(1, rover.XCoordinate); Assert.Equal(0, rover.YCoordinate); }
public void When_Rover_IsCreated_At_North_And_Move_TheRover_WillBe_0_1_Coordinate() { int xCoordinate = 0; int yCoordinate = 0; char oriantation = 'N'; var rover = new Rover(xCoordinate, yCoordinate, oriantation, _plateaue); rover.Move(); Assert.Equal(0, rover.XCoordinate); Assert.Equal(1, rover.YCoordinate); }
public void TestIfRoverMovesBackwardsOnXAxis() { var rover = new Rover(); rover.Stand(new Point(1, 1), Direction.WEST); rover.Move(); Assert.AreEqual(rover.Position.X, 0); Assert.AreEqual(rover.Position.Y, 1); Assert.AreEqual(rover.Direction, Direction.WEST); }
public void Test4() { var position = new Position(0, 1, 'S'); _rover = new Rover(position); _rover.Move("MMLMT"); var result = _rover.GetCurrentPosition(); Assert.Equal(2, result.X); Assert.Equal(1, result.Y); Assert.Equal(Application.Constants.DirectionType.N, result.FaceDirectionType); }
public void TestIfRoverMovesForwardOnYAxis() { var rover = new Rover(); rover.Stand(new Point(1, 1), Direction.NORTH); rover.Move(); Assert.AreEqual(rover.Position.X, 1); Assert.AreEqual(rover.Position.Y, 2); Assert.AreEqual(rover.Direction, Direction.NORTH); }
public void RoverPerformans() { Rover rover = new Rover(100000, 1000000); var result = rover.Move(2434, 32233, "N", "LLMLRMMMRRRLRMMMMMRRRRMMRRMMMMMRRLMMMMRRMMMMMRRLMMMLLMLRMMMRRRLRMMMMMRRRRMMRRLLMLRMMMRRRLRMMMMMRRRLRMMRRLLMLRMMMRRRLRMMMMMLRRRRMMRRLLMLRMMLMRRRLRMMMMMRRRRMMRRMM"); if (!result.IsError) { Assert.Pass(); } else { Assert.Fail(result.Message); } }
public void CanMoveDown() { // arrange const int x = 1; const int y = 2; const CardinalDirection cardinalDirection = CardinalDirection.South; var rover = new Rover(x, y, cardinalDirection); // act rover.Move(); // assert Assert.AreEqual(1, rover.Position.Coordinate.Y); }
public void CanMoveRight() { // arrange const int x = 3; const int y = 2; const CardinalDirection cardinalDirection = CardinalDirection.East; var rover = new Rover(x, y, cardinalDirection); // act rover.Move(); // assert Assert.AreEqual(4, rover.Position.Coordinate.X); }
public void Test1() { Rover rover = new Rover(10, 10); var result = rover.Move(2, 3, "N", "LLMLRMMM"); if (!result.IsError) { Assert.Pass(); } else { Assert.Fail(result.Message); } }
public void TestScanrio_23S_MMMRRLLLRMRMLLMR() { Coords maxPoints = new Coords(10, 10); Rover rover = new Rover(maxPoints); var moves = "MMRRLLLRMRLLMR"; Coords currentPosition = new Coords(2, 3); rover.Move(currentPosition, Directions.S, moves); var actualOutput = $"{rover.CurrentPosition.X} {rover.CurrentPosition.Y} {rover.Direction}"; var expectedOutput = "3 0 S"; Assert.Equal(expectedOutput, actualOutput); }
public void initialposition_12N_message_LMLMLMLMM_finalposition_13N() { Plateau.SetUpperCoordinate(5, 5); ISpaceCompany company = new Nasa(); var rover = new Rover(new Position(1, 2, Direction.N)); company.Subscribe(rover); var message = new Message("LMLMLMLMM"); rover.Move(message); var finalPositionOfRover = rover.GetFinalPosition(); var expectedResult = "1 3 N"; Assert.AreEqual(expectedResult, finalPositionOfRover); }
public void TestScanrio_21W_RRMMMLRLLMR() { Coords maxPoints = new Coords(5, 5); Rover rover = new Rover(maxPoints); var moves = "RRMMMLRLLMR"; Coords currentPosition = new Coords(2, 1); rover.Move(currentPosition, Directions.W, moves); var actualOutput = $"{rover.CurrentPosition.X} {rover.CurrentPosition.Y} {rover.Direction}"; var expectedOutput = "4 1 N"; Assert.Equal(expectedOutput, actualOutput); }
public void initialposition_33E_message_MMRMMRMRRM_finalposition_51E() { Plateau.SetUpperCoordinate(5, 5); ISpaceCompany company = new Nasa(); var rover = new Rover(new Position(3, 3, Direction.E)); company.Subscribe(rover); var message = new Message("MMRMMRMRRM"); rover.Move(message); var finalPositionOfRover = rover.GetFinalPosition(); var expectedResult = "5 1 E"; Assert.AreEqual(expectedResult, finalPositionOfRover); }
public void RoverMoveShould() { var expectedResult = new Position { X = 0, Y = 1 }; var rover = new Rover { Direction = Direction.North, Position = new Position { X = 0, Y = 0 } }; rover.Move(); Assert.Equal(expectedResult.X, rover.Position.X); Assert.Equal(expectedResult.Y, rover.Position.Y); }
public void TestScenario_ThrowException() { Coords maxPoints = new Coords(1, 1); Rover rover = new Rover(maxPoints); var moves = "LMLMLMLMM"; Coords currentPosition = new Coords(1, 2); var exception = Assert.Throws <Exception>(() => { rover.Move(currentPosition, Directions.N, moves); }); var expectedExceptionMsg = $"Oops! Position can not be beyond bounderies (0 , 0) and ({maxPoints.X} , {maxPoints.Y})"; Assert.Equal(expectedExceptionMsg, exception.Message); }