module Tests exposing (..) import Test exposing (..) import Expect import RobotSimulator exposing (defaultRobot, Robot, Bearing(North, East, West, South), turnRight, turnLeft, advance, simulate) tests : Test tests = describe "RobotSimulator" [ describe "init" (let robot = defaultRobot in [ test "coordinates" <| \() -> Expect.equal { x = 0, y = 0 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal North robot.bearing ] ) , describe "setup" (let robot = Robot South { x = -1, y = 1 } in [ skip <| test "coordinates" <| \() -> Expect.equal { x = -1, y = 1 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal South robot.bearing ] ) , describe "turn right" ((List.range 1 3) |> List.scanl (\_ r -> turnRight r) defaultRobot |> List.map .bearing |> assertionList [ North, East, South, West ] |> List.indexedMap (\i e -> skip <| test ("step " ++ toString i) (\() -> e)) ) , describe "turn left" ((List.range 1 3) |> List.scanl (\_ r -> turnLeft r) defaultRobot |> List.map .bearing |> assertionList [ North, West, South, East ] |> List.indexedMap (\i e -> skip <| test ("step " ++ toString i) (\() -> e)) ) , describe "advance positive north" (let robot = Robot North { x = 0, y = 0 } |> advance in [ skip <| test "coordinates" <| \() -> Expect.equal { x = 0, y = 1 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal North robot.bearing ] ) , describe "advance positive east" (let robot = Robot East { x = 0, y = 0 } |> advance in [ skip <| test "coordinates" <| \() -> Expect.equal { x = 1, y = 0 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal East robot.bearing ] ) , describe "advance negative south" (let robot = Robot South { x = 0, y = 0 } |> advance in [ skip <| test "coordinates" <| \() -> Expect.equal { x = 0, y = -1 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal South robot.bearing ] ) , describe "advance positive west" (let robot = Robot West { x = 0, y = 0 } |> advance in [ skip <| test "coordinates" <| \() -> Expect.equal { x = -1, y = 0 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal West robot.bearing ] ) , describe "simulate prog 1" (let robot = Robot North { x = 0, y = 0 } |> simulate "LAAARALA" in [ skip <| test "coordinates" <| \() -> Expect.equal { x = -4, y = 1 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal West robot.bearing ] ) , describe "simulate prog 2" (let robot = Robot East { x = 2, y = -7 } |> simulate "RRAAAAALA" in [ skip <| test "coordinates" <| \() -> Expect.equal { x = -3, y = -8 } robot.coordinates , test "bearing" <| \() -> Expect.equal South robot.bearing ] ) , describe "simulate prog 3" (let robot = Robot South { x = 8, y = 4 } |> simulate "LAAARRRALLLL" in [ skip <| test "coordinates" <| \() -> Expect.equal { x = 11, y = 5 } robot.coordinates , skip <| test "bearing" <| \() -> Expect.equal North robot.bearing ] ) ] {-| Given a list of values and another list of expected values, generate a list of Assert Equal assertions. -} assertionList : List a -> List a -> List Expect.Expectation assertionList xs ys = List.map2 Expect.equal xs ys