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src/gleamy_structures@set.erl
-module(gleamy_structures@set).
-compile([no_auto_import, nowarn_unused_vars, nowarn_unused_function, nowarn_nomatch]).
-export([contains/2, delete/2, filter/2, fold/3, from_list/2, insert/2, intersection/2, new/1, count/1, take/2, to_list/1, union/2]).
-spec contains(gleamy_structures@tree@red_black_tree:tree(HFI), HFI) -> boolean().
contains(Set, Member) ->
case gleamy_structures@tree@red_black_tree:find(Set, Member) of
{ok, _} ->
true;
{error, _} ->
false
end.
-spec delete(gleamy_structures@tree@red_black_tree:tree(HFK), HFK) -> gleamy_structures@tree@red_black_tree:tree(HFK).
delete(Set, Member) ->
gleamy_structures@tree@red_black_tree:delete(Set, Member).
-spec filter(
gleamy_structures@tree@red_black_tree:tree(HFN),
fun((HFN) -> boolean())
) -> gleamy_structures@tree@red_black_tree:tree(HFN).
filter(Set, Property) ->
gleamy_structures@tree@red_black_tree:fold(
Set,
Set,
fun(Set@1, I) -> case Property(I) of
true ->
Set@1;
false ->
gleamy_structures@tree@red_black_tree:delete(Set@1, I)
end end
).
-spec fold(
gleamy_structures@tree@red_black_tree:tree(HFQ),
HFS,
fun((HFS, HFQ) -> HFS)
) -> HFS.
fold(Set, Initial, Reducer) ->
gleamy_structures@tree@red_black_tree:fold(Set, Initial, Reducer).
-spec from_list(list(HFT), fun((HFT, HFT) -> gleam@order:order())) -> gleamy_structures@tree@red_black_tree:tree(HFT).
from_list(Members, Compare) ->
gleam@list:fold(
Members,
gleamy_structures@tree@red_black_tree:new(Compare),
fun gleamy_structures@tree@red_black_tree:insert/2
).
-spec insert(gleamy_structures@tree@red_black_tree:tree(HFW), HFW) -> gleamy_structures@tree@red_black_tree:tree(HFW).
insert(Set, Member) ->
gleamy_structures@tree@red_black_tree:insert(Set, Member).
-spec intersection(
gleamy_structures@tree@red_black_tree:tree(HFZ),
gleamy_structures@tree@red_black_tree:tree(HFZ)
) -> gleamy_structures@tree@red_black_tree:tree(HFZ).
intersection(First, Second) ->
gleamy_structures@tree@red_black_tree:fold(
Second,
gleamy_structures@tree@red_black_tree:clear(First),
fun(A, I) ->
case gleamy_structures@tree@red_black_tree:find(First, I) of
{ok, _} ->
gleamy_structures@tree@red_black_tree:insert(A, I);
{error, _} ->
A
end
end
).
-spec new(fun((HGD, HGD) -> gleam@order:order())) -> gleamy_structures@tree@red_black_tree:tree(HGD).
new(Compare) ->
gleamy_structures@tree@red_black_tree:new(Compare).
-spec count(gleamy_structures@tree@red_black_tree:tree(any())) -> integer().
count(Set) ->
gleamy_structures@tree@red_black_tree:fold(Set, 0, fun(A, _) -> A + 1 end).
-spec take(gleamy_structures@tree@red_black_tree:tree(HGH), list(HGH)) -> gleamy_structures@tree@red_black_tree:tree(HGH).
take(Set, Desired) ->
case Desired of
[X | Xs] ->
case gleamy_structures@tree@red_black_tree:find(Set, X) of
{ok, X@1} ->
gleamy_structures@tree@red_black_tree:insert(
take(Set, Xs),
X@1
);
{error, _} ->
take(Set, Xs)
end;
[] ->
gleamy_structures@tree@red_black_tree:clear(Set)
end.
-spec to_list(gleamy_structures@tree@red_black_tree:tree(HGL)) -> list(HGL).
to_list(Set) ->
gleamy_structures@tree@red_black_tree:foldr(
Set,
[],
fun(A, I) -> [I | A] end
).
-spec union(
gleamy_structures@tree@red_black_tree:tree(HGO),
gleamy_structures@tree@red_black_tree:tree(HGO)
) -> gleamy_structures@tree@red_black_tree:tree(HGO).
union(First, Second) ->
gleamy_structures@tree@red_black_tree:fold(
First,
Second,
fun(A, I) -> gleamy_structures@tree@red_black_tree:insert(A, I) end
).