程序代写代做代考 Haskell graph G6021: Comparative Programming

G6021: Comparative Programming
Exam Practice
1. Consider the ¦Ë-term t = (¦Ëx.xx)(II), where I = ¦Ëx.x.
(a) Give the definition of a ¦Â-reduction graph.
(b) Draw the ¦Â-reduction graph of the term t.
(c) Which reduction strategy gives the shortest reduction sequence for reducing t to normal form?
2. Give the types of the following:
(a) f(x) = if x>0 then True else False
(b) f(g,x) = g(g x)
(c) inf = inf+1
(d) \(x,y,z) -> x (y z)
3. Using list comprehension, write a Haskell expression that will generate Pythagorean triples (triple of numbers that satisfy Pythagoras¡¯ theorem: a2 + b2 = c2) for numbers up to 100.
4. Using map and a one-off function (written using Haskell¡¯s lambda notation), write a function that will swap all pairs of a list of pairs of numbers. I.e. write a function f such that f [(1,2),(3,4)] = [(2,1),(4,3)].
5. Convert the following function to accumulating parameter style. Include in your answer the type of the converted function.
fact (n) = if n<1 then 1 else n*(fact (n-1)) 6. Convert the following function to accumulating parameter style. Include in your answer the type of the converted function. power(x,y) = if y==0 then 1 else x*power(x,y-1) 7. * Define add in PCF (a function that takes two arguments, and computes the sum of the arguments). 1