-module(hope_list). -export_type( [ t/1 ]). -export( [ unique_preserve_order/1 , map/2 , map/3 % Tunable recursion limit , map_rev/2 , map_slow/2 , first_match/2 ]). -define(DEFAULT_RECURSION_LIMIT, 1000). -type t(A) :: [A]. %% @doc Tail-recursive equivalent of lists:map/2 %% @end -spec map([A], fun((A) -> (B))) -> [B]. map(Xs, F) -> map(Xs, F, ?DEFAULT_RECURSION_LIMIT). -spec map([A], fun((A) -> (B)), RecursionLimit :: non_neg_integer()) -> [B]. map(Xs, F, RecursionLimit) -> map(Xs, F, RecursionLimit, 0). map([], _, _, _) -> []; map([X1], F, _, _) -> Y1 = F(X1), [Y1]; map([X1, X2], F, _, _) -> Y1 = F(X1), Y2 = F(X2), [Y1, Y2]; map([X1, X2, X3], F, _, _) -> Y1 = F(X1), Y2 = F(X2), Y3 = F(X3), [Y1, Y2, Y3]; map([X1, X2, X3, X4], F, _, _) -> Y1 = F(X1), Y2 = F(X2), Y3 = F(X3), Y4 = F(X4), [Y1, Y2, Y3, Y4]; map([X1, X2, X3, X4, X5 | Xs], F, RecursionLimit, RecursionCount) -> Y1 = F(X1), Y2 = F(X2), Y3 = F(X3), Y4 = F(X4), Y5 = F(X5), Ys = case RecursionCount > RecursionLimit of true -> map_slow(Xs, F) ; false -> map (Xs, F, RecursionLimit, RecursionCount + 1) end, [Y1, Y2, Y3, Y4, Y5 | Ys]. %% @doc lists:reverse(map_rev(L, F)) %% @end -spec map_slow([A], fun((A) -> (B))) -> [B]. map_slow(Xs, F) -> lists:reverse(map_rev(Xs, F)). %% @doc Tail-recursive alternative to lists:map/2, which accumulates and %% returns list in reverse order. %% @end -spec map_rev([A], fun((A) -> (B))) -> [B]. map_rev(Xs, F) -> map_rev_acc(Xs, F, []). -spec map_rev_acc([A], fun((A) -> (B)), [B]) -> [B]. map_rev_acc([], _, Ys) -> Ys; map_rev_acc([X|Xs], F, Ys) -> Y = F(X), map_rev_acc(Xs, F, [Y|Ys]). -spec unique_preserve_order(t(A)) -> t(A). unique_preserve_order(L) -> PrependIfNew = fun (X, Xs) -> case lists:member(X, Xs) of true -> Xs ; false -> [X | Xs] end end, lists:reverse(lists:foldl(PrependIfNew, [], L)). -spec first_match([{Tag, fun((A) -> boolean())}], A) -> hope_option:t(Tag). first_match([], _) -> none; first_match([{Tag, F} | Tests], X) -> case F(X) of true -> {some, Tag} ; false -> first_match(Tests, X) end.