{- Contents A short introduction to Haskell; The very basics -} ----------------------------------------------------------- -- Comments ----------------------------------------------------------- -- a single line comment {- a multiline comment {- can be nested -} -} {- Usually (from now on), we will try to adhere to the following conventuion/structure for multiline comments: -} {- Optional "title" of the comment Content of the comment possibly spaning multiple lines with length <= 60. -} ----------------------------------------------------------- -- Simple declarations ----------------------------------------------------------- {- Declaring a variable Generally, in Haskell we define the type of a variable in a separate line before we define the variable. -} -- 'five' is the integer 5 five :: Integer five = 5 {- 'six' is the integer 6. The type 'Integer' can accomodate integers of arbitrary size -} six :: Integer six = 6 -- 'four' is the float 4.0 four :: Float four = 4 ----------------------------------------------------------- ---- Numeric operations ----------------------------------------------------------- seven :: Integer seven = five + 2 theIntEight :: Integer theIntEight = 3 + five theFloatSeven :: Float theFloatSeven = 3 + four twentyFour :: Float twentyFour = 3 * 2 ^ 3 {- Integer division 'div' denotes integer division. Generally, it is possible to write a function between '`' to use infix notation. I order to define functions that are "natively" infix, you would use brackets '(...)' when defining the function/operator. -} intSevenByThree :: Integer intSevenByThree = seven `div` 3 {- Division The "normal" division '/' is for "fractional numbers, e.g. floats. -} floatSevenByThree :: Float floatSevenByThree = 7 / 3 {- Exercise Fill out the types where possible Check your solutions with the REPL. x :: Integer x = 2 ^ 3 y :: Float y = 2.0 ^ 3 a :: ? a = x + 5 b :: ? b = y/2 c :: ? c = y `div` 3 -} ----------------------------------------------------------- ---- Booleans and boolean operations ----------------------------------------------------------- true :: Bool true = True false :: Bool false = False alsoTrue :: Bool alsoTrue = true || false alsoFalse :: Bool alsoFalse = true && false moreTruth :: Bool moreTruth = not alsoFalse ----------------------------------------------------------- ---- Strings and chars ----------------------------------------------------------- aChar :: Char aChar = 'a' aString :: String aString = "Happy new year" greeting :: String greeting = aString ++ " " ++ "2022" greeting2 :: String greeting2 = concat [ aString , " " , "2022" ] {- Warning The operators are strongly typed; they can only digest values of the same type. The following declarations are thus rejected by the type checker: aString = "Happy new year" greeting = aString ++ " " ++ 2022 five :: Int five = 5 seven = five + 2.0 -} ----------------------------------------------------------- ---- Lists ----------------------------------------------------------- {- We will often use `List` (linked lists), a generic container to hold multiple values of *the same type*. -} aListOfStrings :: [String] aListOfStrings = [ "one", "two", "three" ] aListOfInts :: [Integer] aListOfInts = [ 1, 2, 3 ] {- Exercise Fill out the type, check your solutions with the REPL. friendGroups :: ? friendGroups = [ ["Peter", "Anna", "Roman", "Laura"] , ["Anna","Reto"] , ["Christoph", "Mara", "Andrew"] ] -} {- List comprehension Aside from declaring lists explicitly by writing down their element (as shown before), lists can also be declared by "list comprehension" and also as "ranges". -} someInts :: [Integer] someInts = [1..15] -- range someEvens :: [Integer] someEvens = [ 2*x | x <- [-5..5]] pairs :: [(Integer, Bool)] pairs = [ (x,y) | x <- [0..5], y <- [True, False]] lessThanPairs :: [(Integer,Integer)] lessThanPairs = [ (x,y) | x <- [0..5] , y <- [0..5] , x < y -- guard , x > 1 -- second guard ] {- Exercise Use list comprehension to declare a list that contains all square numbers between 1 and 100. -} squares :: [Integer] squares = error "fixme" {- Exercise Use list comprehension to declare a list that contains all odd square numbers between 1 and 100. -} oddSquares :: [Integer] oddSquares = error "fixme"