-module(gleam@set). -compile([no_auto_import, nowarn_unused_vars]). -export([new/0, size/1, insert/2, contains/2, delete/2, to_list/1, from_list/1, fold/3, filter/2, drop/2, take/2, union/2, intersection/2]). -export_type([set/1]). -opaque set(EFD) :: {set, gleam@map:map_(EFD, list(nil))}. -spec new() -> set(any()). new() -> {set, gleam@map:new()}. -spec size(set(any())) -> integer(). size(Set) -> gleam@map:size(erlang:element(2, Set)). -spec insert(set(EFJ), EFJ) -> set(EFJ). insert(Set, Member) -> {set, gleam@map:insert(erlang:element(2, Set), Member, [])}. -spec contains(set(EFM), EFM) -> boolean(). contains(Set, Member) -> _pipe = erlang:element(2, Set), _pipe@1 = gleam@map:get(_pipe, Member), gleam@result:is_ok(_pipe@1). -spec delete(set(EFO), EFO) -> set(EFO). delete(Set, Member) -> {set, gleam@map:delete(erlang:element(2, Set), Member)}. -spec to_list(set(EFR)) -> list(EFR). to_list(Set) -> gleam@map:keys(erlang:element(2, Set)). -spec from_list(list(EFU)) -> set(EFU). from_list(Members) -> Map = gleam@list:fold( Members, gleam@map:new(), fun(M, K) -> gleam@map:insert(M, K, []) end ), {set, Map}. -spec fold(set(EFX), EFZ, fun((EFZ, EFX) -> EFZ)) -> EFZ. fold(Set, Initial, Reducer) -> gleam@map:fold( erlang:element(2, Set), Initial, fun(A, K, _) -> Reducer(A, K) end ). -spec filter(set(EGA), fun((EGA) -> boolean())) -> set(EGA). filter(Set, Property) -> {set, gleam@map:filter(erlang:element(2, Set), fun(M, _) -> Property(M) end)}. -spec drop(set(EGD), list(EGD)) -> set(EGD). drop(Set, Disallowed) -> gleam@list:fold(Disallowed, Set, fun delete/2). -spec take(set(EGH), list(EGH)) -> set(EGH). take(Set, Desired) -> {set, gleam@map:take(erlang:element(2, Set), Desired)}. -spec order(set(EGL), set(EGL)) -> {set(EGL), set(EGL)}. order(First, Second) -> case gleam@map:size(erlang:element(2, First)) > gleam@map:size( erlang:element(2, Second) ) of true -> {First, Second}; false -> {Second, First} end. -spec union(set(EGQ), set(EGQ)) -> set(EGQ). union(First, Second) -> {Larger, Smaller} = order(First, Second), fold(Smaller, Larger, fun insert/2). -spec intersection(set(EGU), set(EGU)) -> set(EGU). intersection(First, Second) -> {Larger, Smaller} = order(First, Second), take(Larger, to_list(Smaller)).