import expect import result:[Ok, Error] pub enum Error = | Empty // Using the Erlang C BIF implementation. // pub external fn length(List(a)) -> Int = "erlang" "length" test length { length([]) |> expect:equal(_, 0) length([1]) |> expect:equal(_, 1) length([1, 1]) |> expect:equal(_, 2) length([1, 1, 1]) |> expect:equal(_, 3) } // Using the Erlang C BIF implementation. // pub external fn reverse(List(a)) -> List(a) = "erlang" "reverse" test reverse { length([]) |> expect:equal(_, []) length([1, 2, 3, 4, 5]) |> expect:equal(_, [5, 4, 3, 2, 1]) } pub fn is_empty(list) { list == [] } test is_empty { is_empty([]) |> expect:true is_empty([1]) |> expect:false } pub fn member(list, elem) { case list { | [] -> False | elem :: _ -> True | _ :: rest -> member(rest, elem) } } test is_member { is_member([0, 4, 5, 1], 1) |> expect:true is_member([0, 4, 5, 7], 1) |> expect:false is_member([], 1) |> expect:false } pub fn head(list) { case list { | [] -> Error(Empty) | elem :: _ -> Ok(elem) } } test head { head([0, 4, 5, 7]) |> expect:equal(_, Ok(0)) head([]) |> expect:equal(_, Error(Empty)) } pub fn tail(list) { case list { | [] -> Error(Empty) | _ :: rest -> Ok(rest) } } test tail { tail([0, 4, 5, 7]) |> expect:equal(_, Ok([4, 5, 7])) tail([0]) |> expect:equal(_, Ok([])) tail([]) |> expect:equal(_, Error(Empty)) } pub fn filter(list, fun) { filter(list, fun, []) } test filter { [] |> filter(_, fn(x) { True }) |> expect:equal(_, []) [0, 4, 5, 7, 3] |> filter(_, fn(x) { True }) |> expect:equal(_, [0, 4, 5, 7, 3]) [0, 4, 5, 7, 3] |> filter(_, fn(x) { x > 4 }) |> expect:equal(_, [5, 7]) [0, 4, 5, 7, 3] |> filter(_, fn(x) { x < 4 }) |> expect:equal(_, [0, 3]) } fn do_filter(list, fun, acc) { case list { | [] -> reverse(acc) | x :: xs -> new_acc = case fun(x) { | True -> x :: acc | False -> acc } do_filter(xs, fun, new_acc) } } pub fn map(list, fun) { do_map(list, fun, []) } fn do_map(list, fun, acc) { case list { | [] -> reverse(acc) | x :: xs -> do_map(xs, fun, fun(x) :: acc) } } test map { [] |> map(_, fn(x) { x * 2 }) |> expect:equal(_, []) [0, 4, 5, 7, 3] |> map(_, fn(x) { x * 2 }) |> expect:equal(_, [0, 8, 10, 14, 6]) } pub fn traverse(list, fun) { do_traverse(list, fun, []) } pub fn do_traverse(list, fun, acc) { case list { | [] -> Ok(reverse(acc)) | x :: xs -> case fun(x) { Ok(y) -> do_traverse(xs, fun, y :: acc) error -> error } } } test traverse { fun = fn(x) { case x < 6 { True -> Ok(x * 2) False -> Error(x) } } [0, 4, 5, 6, 3] |> traverse(_, fun) |> expect:equal(_, Ok([0, 8, 10, 12, 6])) [0, 4, 5, 7, 3] |> traverse(_, fun) |> expect:equal(_, Error(7))) } pub fn drop(list, n) { case n <= 0 { | True -> list | False -> case list { | [] -> [] | _ :: xs -> drop(xs, n - 1) } } } test drop/2 { [] |> drop(_, 5) |> expect:equal(_, []) [1, 2, 3, 4, 5, 6, 7, 8] |> drop(_, 5) |> expect:equal(_, [6, 7, 8]) } pub fn take(list, n) { do_take(list, n, []) } fn do_take(list, n, acc) { case n <= 0 { | True -> reverse(acc) | False -> case list { | [] -> reverse(acc) | x :: xs -> take(xs, n - 1, x :: acc) } } } test take { [] |> take(_, 5) |> expect:equal(_, []) [1, 2, 3, 4, 5, 6, 7, 8] |> take(_, 5) |> expect:equal(_, [1, 2, 3, 4, 5]) } pub fn new() { [] } test new { new() |> expect:equal(_, []) } pub fn flatten(lists) { do_flatten(lists, []) } test flatten { flatten([]) |> expect:equal(_, []) flatten([[]]) |> expect:equal(_, []) flatten([[], [], []]) |> expect:equal(_, []) flatten([[1, 2], [], [3, 4]]) |> expect:equal(_, [1, 2, 3, 4]) } fn do_flatten(lists, acc) { case lists { | [] -> acc | l :: rest -> flatten(rest, acc ++ l) } } pub fn foldl(list, acc, fun) { case list { | [] -> acc | x :: rest -> foldl(rest, fun(x, acc), fun) } } test foldl { [1, 2, 3] |> foldl(_, [], fn(x, acc) { x :: acc }) |> expect:equal(_, [3, 2, 1]) } pub fn foldr(list, acc, fun) { case list { | [] -> acc | x :: rest -> fun(x, foldr(rest, acc, fun)) } } test foldr { [1, 2, 3] |> foldr(_, [], fn(x, acc) { x :: acc }) |> expect:equal(_, [1, 2, 3]) }