projprog/fstfunc.hs

{-# LANGUAGE ParallelListComp #-}
import Text.Printf

addTwo :: Num a => a -> a
addTwo x = x + 2

threeParam :: Num a => a -> a -> a -> a
threeParam x y z = let w = x+y in w*z

myFirst :: (a,b) -> a
myFirst t = let (x,y)=t in x

okko :: [Int] -> [[Char]]
okko xs = [if x<10 then "OK" else "KO" | x <- xs]

addList :: [Int] -> [Int] -> [Int]
addList xs ys = [x+y | x <- xs, y <- ys]


length2 :: [a] -> Int
length2 xs = last [n | _ <- xs | n <- [2,4..]]

greaterTwo :: [Char] -> Bool
greaterTwo "one" = False
greaterTwo "two" = False
greaterTwo _ = True

divide :: Fractional a => Eq a => a -> a -> a
divide _ 0 = -9999
divide p q = p/q

myand :: Bool -> Bool -> Bool
myand False False = False
myand True False = True
myand False True = True
myand True True = False

myand2 :: Bool -> Bool -> Bool
myand2 False b = b
myand2 True b = not b

compVectOld :: (Double,Double) -> (Double,Double) -> Double
compVectOld u v = ((fst u) + (fst v)) * ((snd u) + (snd v))

compVect :: Real a => (a,a) -> (a,a) -> a
compVect (x,y) (w,z) = (x+y)*(w+z)

myFst :: (a,a,a) -> a
myFst (x,y,z) = x

mySnd :: (a,a,a) -> a
mySnd (x,y,z) = y

myThd :: (a,a,a) -> a
myThd (x,y,z) = z

listPat :: Num a => [(a,a,a)] -> [a]
listPat [] = []
listPat ((x,y,z):s) = (x+y*z):(listPat s)

myHead :: [a] -> a
myHead [] = error "The list is empty !"
myHead (x:_) = x

twoEq :: Eq a => [a] -> [a] -> Bool
twoEq (x:_) (y:_) = (x==y)
twoEq [] [] = True
twoEq _ _ = False

myLength :: PrintfType r => [a] -> r
myLength [] = printf "The list has no elements\n"
myLength [x] = printf "The list has one element\n"
myLength [x,y] = printf "The list has two elements\n"
myLength _ = printf "The list has more than two elements\n"

myLengthShow :: PrintfType r => Show a => [a] -> r
myLengthShow [] = printf "The list has no elements\n"
myLengthShow [x] = printf "The list has one element: %s\n" (show x)
myLengthShow [x,y] = printf "The list has two elements: %s and %s\n" (show x) (show y)
myLengthShow _ = printf "The list has more than two elements\n"


goodStudent :: Real a => a -> String
goodStudent m
    | m>12 = "You are a good student"
    | m>=10 = "You can be do what you want to do"
    | otherwise = "You are a bad student"


myMin :: Ord a => a -> a -> a
myMin a b
    | a<b = a
    | otherwise = b
    
maxVect :: Ord a => (a,a) -> (a,a) -> (a,a)
maxVect (x,y) (x',y')
    | x>=x' &&    y>=y' = (x,y)
    | x>=x' = (x,y')
    | y>=y' = (x',y)
    | otherwise = (x',y')

myMean :: Fractional a => Real a => a -> a -> String
myMean x y
    | (x+y)/2>12 = "You are a good student"
    | (x+y)/2>=10 = "You can be do what you want to do"
    | otherwise = "You are a bad student"

myMean2 :: Fractional a => Real a => a -> a -> String
myMean2 x y
    | moy>12 = "You are a good student"
    | moy>=10 = "You can be do what you want to do"
    | otherwise = "You are a bad student"
    where moy=(x+y)/2

myMean3 :: Fractional a => Real a => a -> a -> String
myMean3 x y
    | moy>=acceptable = "You are a good student"
    | moy>=pass = "You can be do what you want to do"
    | otherwise = "You are a bad student"
    where 
    moy=(x+y)/2
    pass=10
    acceptable=12


myMean4 :: Fractional a => Real a => a -> a -> String
myMean4 x y
    | moy>=acceptable = "You are a good student"
    | moy>=pass = "You can be do what you want to do"
    | otherwise = "You are a bad student"
    where (moy,pass,acceptable)=((x+y)/2,10,12)

whereList :: Show a => Show b => [a] -> [b] -> String
whereList l1 l2
    | length l1 > 1 && length l2 > 1 = show secondl1 ++ " " ++ show lastl2
    | length l1 <= 1  && length l2 <= 1 = "The lengths of l1 and l2 are too short"
    | length l1 <= 1 = "The length of l1 is too short"
    | length l2 <= 1 = "The length of l2 is too short"
    where 
    _:secondl1:_ = l1
    lastl2 = last l2
    
listMean :: [(Double,Double)] -> [Double]
listMean l = [moy x y | (x,y) <- l]
    where moy u v = (u+v)/2

listMeanlet :: [(Double,Double)] -> [Double]
listMeanlet l = [moy x y | d<-l, let (x,y) =d]
    where moy u v = (u+v)/2

listMeanlet2 :: [(Double,Double)] -> [Double]
listMeanlet2 l = [let (x,y) =d in moy x y | d<-l]
    where moy u v = (u+v)/2

listMeanlet3 :: [(Double,Double)] -> [Double]
listMeanlet3 l = [m| d<-l, let (x,y) =d, let m = moy x y, m>=12]
    where moy u v = (u+v)/2

modifStrings :: [[Char]] -> [[Char]]
modifStrings l = [ case s of {
        [] -> "null";
        [e] -> "indefini";
        [e,f] -> [e];
        _ -> [last s]
    } | s<-l]