Automatons

Usually, a finite automaton defined as: ${\displaystyle (Q,\Sigma ,\delta ,q_{0},F)}$ where Q represents a states, next is input aplhabet, then transitions, ${\displaystyle q_{0}}$ is starting state and finaly there is a set on finite states.

In our case, an finite automaton is represented by types:

type Transition = (Int, Char, Int)
type Automaton = (Int, String, [Int], Int, [Transition ])

where:

• first number N defines number of states - states will be coded by integer numbers in interval ${\displaystyle <0,N)}$;
• second element is a string containing the input symbols - you can safely assume, it contains no duplicities.

where states are coded with numbers from 0 to n

ex1 :: Automaton 
ex1 = (3, [0], [2], "ab", [(0,'a',1), (0,'b',0), (1,'a',1), (1,'b',2), (2,'a',1), (2,'b',0)])

ex2 :: Automaton 
ex2 = (3, [0], [2], "ab", [(0,'a',1), (0,'a',0), (0,'b',0), (1,'b',2)])

• Create a function, that sorts an array using quicksort algorithm quicksort. Inside, you must use the mutable array STArray.

quickSort :: Array Int Int -> Array Int Int

ghci> elems $ quickSort $  listArray (0,5) [8,4,9,6,7,1] 
[1,4,6,7,8,9]