Create a custom set type.
Sometimes it is necessary to define a custom data structure of some type, like a set. In this exercise you will define your own set. How it works internally doesn't matter, as long as it behaves like a set of unique elements.
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A Makefile
is provided with a default target to compile your solution and run the tests. At the command line, type:
make
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open OUnit2
module type EXPECTED = sig
type t
val of_list : int list -> t
val is_empty : t -> bool
val is_member : t -> int -> bool
val is_subset : t -> t -> bool
val is_disjoint: t -> t -> bool
val equal : t -> t -> bool
val add : t -> int -> t
val intersect : t -> t -> t
val difference : t -> t -> t
val union : t -> t -> t
end
module CSet : EXPECTED = Custom_set.Make(struct
type t = int
let compare a b = compare (a mod 10) (b mod 10)
end)
let assert_true exp _text_ctxt = assert_equal exp true
let assert_false exp _text_ctxt = assert_equal exp false
let tests = [
"sets with no elements are empty">::
assert_true (CSet.is_empty (CSet.of_list []));
"sets with elements are not empty">::
assert_false (CSet.is_empty (CSet.of_list [1]));
"nothing is contained in the empty set">::
assert_false (CSet.is_member (CSet.of_list []) 1);
"when the element is in the set">::
assert_true (CSet.is_member (CSet.of_list [1;2;3]) 1);
"when the element is not in the set">::
assert_false (CSet.is_member (CSet.of_list [1;3;3]) 4);
"empty set is a subset of an other empty set">::
assert_true (CSet.is_subset (CSet.of_list []) (CSet.of_list []));
"empty set is a subset of a non empty set">::
assert_true (CSet.is_subset (CSet.of_list []) (CSet.of_list [1]));
"non-empty set is a not subset of an empty set">::
assert_false (CSet.is_subset (CSet.of_list [1]) (CSet.of_list []));
"set is a subset of set with exact same elements">::
assert_true (CSet.is_subset (CSet.of_list [1;2;3]) (CSet.of_list [1;2;3]));
"set is a subset of larger set with exact same elements">::
assert_true (CSet.is_subset (CSet.of_list [1;2;3]) (CSet.of_list [4;1;2;3]));
"set is not a subset of set that does not contain its elements">::
assert_false (CSet.is_subset (CSet.of_list [1;2;3]) (CSet.of_list [4;1;3]));
"the empty set is disjoint with itself">::
assert_true (CSet.is_disjoint (CSet.of_list []) (CSet.of_list []));
"the empty set is disjoint with non-empty set">::
assert_true (CSet.is_disjoint (CSet.of_list []) (CSet.of_list [1]));
"non-empty set is disjoint with empty set">::
assert_true (CSet.is_disjoint (CSet.of_list [1]) (CSet.of_list []));
"sets are not disjoint if they share an element">::
assert_false (CSet.is_disjoint (CSet.of_list [1;2]) (CSet.of_list [2;3]));
"sets are disjoint if they do not share an element">::
assert_true (CSet.is_disjoint (CSet.of_list [1;2]) (CSet.of_list [3;4]));
"empty sets are equal">::
assert_true (CSet.equal (CSet.of_list []) (CSet.of_list []));
"empty set is not equal to non-empty set">::
assert_false (CSet.equal (CSet.of_list []) (CSet.of_list [1;2;3]));
"non-empty set is not equal to empty set">::
assert_false (CSet.equal (CSet.of_list [1;2;3]) (CSet.of_list []));
"sets with the same elements are equal">::
assert_true (CSet.equal (CSet.of_list [1;2]) (CSet.of_list [2;1]));
"sets with different elements are not equal">::
assert_false (CSet.equal (CSet.of_list [1;2;3]) (CSet.of_list [1;2;4]));
"add to empty set">::
assert_true (CSet.equal (CSet.of_list [3]) (CSet.add (CSet.of_list []) 3));
"add to non-empty set">::
assert_true (CSet.equal (CSet.of_list [1;2;3;4]) (CSet.add (CSet.of_list [1;2;4]) 3));
"adding existing element does not change set">::
assert_true (CSet.equal (CSet.of_list [1;2;3]) (CSet.add (CSet.of_list [1;2;3]) 3));
"intersection of two empty sets is empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.intersect (CSet.of_list []) (CSet.of_list [])));
"intersection of empty set with non-empty set is an empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.intersect (CSet.of_list []) (CSet.of_list [3;2;5])));
"intersection of non-empty set with empty set is an empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.intersect (CSet.of_list [1;2;3;4]) (CSet.of_list [])));
"intersection of sets with no shared elements is empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.intersect (CSet.of_list [1;2;3]) (CSet.of_list [4;5;6])));
"intersection of set with shared elements is set of shared elements">::
assert_true (CSet.equal (CSet.of_list [2;3]) (CSet.intersect (CSet.of_list [1;2;3;4]) (CSet.of_list [3;2;5])));
"difference of two empty sets is an empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.difference (CSet.of_list []) (CSet.of_list [])));
"difference of empty set and non-empty set is empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.difference (CSet.of_list []) (CSet.of_list [3;2;5])));
"difference of non-empty set and empty set is the non-empty set">::
assert_true (CSet.equal (CSet.of_list [1;2;3;4]) (CSet.difference (CSet.of_list [1;2;3;4]) (CSet.of_list [])));
"difference of two non-empty sets is the sets of elements only in the first set">::
assert_true (CSet.equal (CSet.of_list [1;3]) (CSet.difference (CSet.of_list [3;2;1]) (CSet.of_list [2;4])));
"union of two empty sets is an empty set">::
assert_true (CSet.equal (CSet.of_list []) (CSet.union (CSet.of_list []) (CSet.of_list [])));
"union of empty set and non-empty set is non-empty set">::
assert_true (CSet.equal (CSet.of_list [2]) (CSet.union (CSet.of_list []) (CSet.of_list [2])));
"union of non-empty set and empty set is the non-empty set">::
assert_true (CSet.equal (CSet.of_list [1;3]) (CSet.union (CSet.of_list [1;3]) (CSet.of_list [])));
"union of two non-empty sets contains all unique elements">::
assert_true (CSet.equal (CSet.of_list [1;2;3]) (CSet.union (CSet.of_list [1;3]) (CSet.of_list [2;3])));
]
let () =
run_test_tt_main ("custom_set tests" >::: tests)
open Base
module type ELEMENT = sig
type t
val compare : t -> t -> int
end
module Make (El : ELEMENT) = struct
type t = Empty | Node of t * El.t * t
type el = El.t
let el_equal x y = El.compare x y
let ( = ) x y = el_equal x y = 0
let return x = Node (Empty, x, Empty)
let is_empty = function Empty -> true | Node _ -> false
let rec is_member s x =
match s with
| Empty -> false
| Node (_, y, _) when x = y -> true
| Node (l, y, _) when el_equal x y < 0 -> is_member l x
| Node (_, _, r) -> is_member r x
let fold_left s init f =
let rec inner s acc f =
match s with
| Empty -> acc
| Node (l, x, r) ->
let acc_l = inner l acc f in
let acc_c = f acc_l x in
inner r acc_c f
in
inner s init f
let is_subset small big =
fold_left small true (fun acc x -> is_member big x && acc)
let is_disjoint x y =
fold_left x true (fun acc x -> (not (is_member y x)) && acc)
let to_list s = fold_left s [] (fun acc x -> x :: acc)
let equal x y = List.equal ( = ) (to_list x) (to_list y)
let rec add s x =
match s with
| Empty -> return x
| Node (l, y, r) -> (
match el_equal x y with
| 0 -> s
| n when n < 0 -> Node (add l x, y, r)
| _ -> Node (l, y, add r x) )
let of_list = List.fold ~f:add ~init:Empty
type status = [`OnlyA | `OnlyB | `Both]
let difference x y =
fold_left x Empty (fun acc xx ->
if is_member y xx then acc else add acc xx)
let intersect x y =
fold_left x Empty (fun acc xx ->
if is_member y xx then add acc xx else acc)
let rec union x y =
match y with
| Empty -> x
| Node (l, v, r) ->
let x = add x v in
let x = union x l in
union x r
end
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