Using your own approach, scan the file looking for a name:
main = do
putStrLn "Enter Director's name"
name <- getLine
base <- readFile "Films.txt" -- base is the whole file contents as a single string
print $moviesBy name $lines base
moviesBy :: String -> [String] -> [[String]]
moviesBy name (title:director:year:_:others) | director == name = [title, director, year]:moviesBy name others
| otherwise = moviesBy name others -- a different director, scan the rest of the file
moviesBy _ _ =  -- when there's no more records
In more detail...
lines base splits file contents in lines (newlines removed) producing a list of strings.
moviesBy accepts a string as a search pattern, and a list of strings which is your file's contents. From how this file was created, we expect to find director's name at each second line out of every four. Which is done as the first pattern-match:
moviesBy name (title:director:year:_:others)
(title:director:year:_:others) matches a list of at least four elements, binding them to relevant variables (
_ in the fourth position is a wildcard pattern that is here matched against the whitespace string which is of no importance for us).
others, as the rightmost operand to
:, thus matches the remaining part of the list (4th tail, in Lisp parlance). After the pipe
| we add an extra constraint on the match, that the second element from the quadruplet should equal to the director's name of concern. If true, a list of
[title, director, year] is inserted in the output (being the left operand to
: on the RHS of
=, the right-hand part of a production rule) and the remaining part of the list (
other) is examined via the recursive call (the right operand to that RHS
otherwise this quadruplet is skipped and simply the remaining part is considered.
The match in the last line deals with any list that is less than four elements (which is probably the end of file). Since we're unlikely to find any more director's movies in such a short list, we simply return
So, for instance, if we have a list
["Blade Runner", "Ridley Scott", "1982", " ", "Alien", "Ridley Scott", "1979", " "]
then looking for Scott's films we obtain:
At first, list is matched against
(title:director:year:_:others). Then variables are bound:
title is "Blade Runner",
director is "Riddley Scott",
year is "1982" and
["Alien", "Ridley Scott", "1979", " "]. Since
director equals the name we're looking for, we take the first path and proclaim
["Blade Runner", "Ridley Scott", "1982"]:moviesBy "Ridley Scott" ["Alien", "Ridley Scott", "1979", " "] to be our result.
Next, a recursive call follows to construct the tail of resulting list. Here again,
title is "Alien",
director "Ridley Scott",
year is "1979" and
others is bound to an empty list. So, the tail of the resulting list from step 1. is
["Alien", "Ridley Scott", "1979"]:moviesBy "Ridley Scott" .
The last recursive call. We cannot bind the at-least-four elements pattern to the empty list, so we take the last alternative,
moviesBy _ _ that matches any combination of a string and a list, and here the result is  (the recursion stops). So, the result of step 2. is
["Alien", "Ridley Scott", "1979"]:, in other words,
[["Alien", "Ridley Scott", "1979"]]. and with head prepended in 1., the total result of the function is
[["Blade Runner", "Ridley Scott", "1982"], ["Alien", "Ridley Scott", "1979"]].