-module(gleam@iterator). -compile([no_auto_import, nowarn_unused_vars]). -export([unfold/2, repeatedly/1, repeat/1, from_list/1, transform/3, fold/3, run/1, to_list/1, step/1, take/2, drop/2, map/2, append/2, flatten/1, flat_map/2, filter/2, cycle/1, find/2, index/1, iterate/2, take_while/2, drop_while/2, scan/3, zip/2, chunk/2, sized_chunk/2, intersperse/2, any/2, all/2, group/2, reduce/2, last/1, empty/0, once/1, range/2, single/1, interleave/2, fold_until/3, try_fold/3, first/1, at/2, length/1, each/2, yield/2]). -export_type([action/1, iterator/1, step/2, chunk/2, sized_chunk/1]). -type action(BOY) :: stop | {continue, BOY, fun(() -> action(BOY))}. -opaque iterator(BOZ) :: {iterator, fun(() -> action(BOZ))}. -type step(BPA, BPB) :: {next, BPA, BPB} | done. -type chunk(BPC, BPD) :: {another_by, list(BPC), BPD, BPC, fun(() -> action(BPC))} | {last_by, list(BPC)}. -type sized_chunk(BPE) :: {another, list(BPE), fun(() -> action(BPE))} | {last, list(BPE)} | no_more. -spec stop() -> action(any()). stop() -> stop. -spec do_unfold(BPH, fun((BPH) -> step(BPI, BPH))) -> fun(() -> action(BPI)). do_unfold(Initial, F) -> fun() -> case F(Initial) of {next, X, Acc} -> {continue, X, do_unfold(Acc, F)}; done -> stop end end. -spec unfold(BPM, fun((BPM) -> step(BPN, BPM))) -> iterator(BPN). unfold(Initial, F) -> _pipe = Initial, _pipe@1 = do_unfold(_pipe, F), {iterator, _pipe@1}. -spec repeatedly(fun(() -> BPR)) -> iterator(BPR). repeatedly(F) -> unfold(nil, fun(_) -> {next, F(), nil} end). -spec repeat(BPT) -> iterator(BPT). repeat(X) -> repeatedly(fun() -> X end). -spec from_list(list(BPV)) -> iterator(BPV). from_list(List) -> Yield = fun(Acc) -> case Acc of [] -> done; [Head | Tail] -> {next, Head, Tail} end end, unfold(List, Yield). -spec do_transform( fun(() -> action(BPY)), BQA, fun((BQA, BPY) -> step(BQB, BQA)) ) -> fun(() -> action(BQB)). do_transform(Continuation, State, F) -> fun() -> case Continuation() of stop -> stop; {continue, El, Next} -> case F(State, El) of done -> stop; {next, Yield, Next_state} -> {continue, Yield, do_transform(Next, Next_state, F)} end end end. -spec transform(iterator(BQF), BQH, fun((BQH, BQF) -> step(BQI, BQH))) -> iterator(BQI). transform(Iterator, Initial, F) -> _pipe = do_transform(erlang:element(2, Iterator), Initial, F), {iterator, _pipe}. -spec do_fold(fun(() -> action(BQM)), fun((BQO, BQM) -> BQO), BQO) -> BQO. do_fold(Continuation, F, Accumulator) -> case Continuation() of {continue, Elem, Next} -> do_fold(Next, F, F(Accumulator, Elem)); stop -> Accumulator end. -spec fold(iterator(BQP), BQR, fun((BQR, BQP) -> BQR)) -> BQR. fold(Iterator, Initial, F) -> _pipe = erlang:element(2, Iterator), do_fold(_pipe, F, Initial). -spec run(iterator(any())) -> nil. run(Iterator) -> fold(Iterator, nil, fun(_, _) -> nil end). -spec to_list(iterator(BQU)) -> list(BQU). to_list(Iterator) -> _pipe = Iterator, _pipe@1 = fold(_pipe, [], fun(Acc, E) -> [E | Acc] end), gleam@list:reverse(_pipe@1). -spec step(iterator(BQX)) -> step(BQX, iterator(BQX)). step(Iterator) -> case (erlang:element(2, Iterator))() of stop -> done; {continue, E, A} -> {next, E, {iterator, A}} end. -spec do_take(fun(() -> action(BRC)), integer()) -> fun(() -> action(BRC)). do_take(Continuation, Desired) -> fun() -> case Desired > 0 of false -> stop; true -> case Continuation() of stop -> stop; {continue, E, Next} -> {continue, E, do_take(Next, Desired - 1)} end end end. -spec take(iterator(BRF), integer()) -> iterator(BRF). take(Iterator, Desired) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_take(_pipe, Desired), {iterator, _pipe@1}. -spec do_drop(fun(() -> action(BRI)), integer()) -> action(BRI). do_drop(Continuation, Desired) -> case Continuation() of stop -> stop; {continue, E, Next} -> case Desired > 0 of true -> do_drop(Next, Desired - 1); false -> {continue, E, Next} end end. -spec drop(iterator(BRL), integer()) -> iterator(BRL). drop(Iterator, Desired) -> _pipe = fun() -> do_drop(erlang:element(2, Iterator), Desired) end, {iterator, _pipe}. -spec do_map(fun(() -> action(BRO)), fun((BRO) -> BRQ)) -> fun(() -> action(BRQ)). do_map(Continuation, F) -> fun() -> case Continuation() of stop -> stop; {continue, E, Continuation@1} -> {continue, F(E), do_map(Continuation@1, F)} end end. -spec map(iterator(BRS), fun((BRS) -> BRU)) -> iterator(BRU). map(Iterator, F) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_map(_pipe, F), {iterator, _pipe@1}. -spec do_append(fun(() -> action(BRW)), fun(() -> action(BRW))) -> action(BRW). do_append(First, Second) -> case First() of {continue, E, First@1} -> {continue, E, fun() -> do_append(First@1, Second) end}; stop -> Second() end. -spec append(iterator(BSA), iterator(BSA)) -> iterator(BSA). append(First, Second) -> _pipe = fun() -> do_append(erlang:element(2, First), erlang:element(2, Second)) end, {iterator, _pipe}. -spec do_flatten(fun(() -> action(iterator(BSE)))) -> action(BSE). do_flatten(Flattened) -> case Flattened() of stop -> stop; {continue, It, Next_iterator} -> do_append( erlang:element(2, It), fun() -> do_flatten(Next_iterator) end ) end. -spec flatten(iterator(iterator(BSI))) -> iterator(BSI). flatten(Iterator) -> _pipe = fun() -> do_flatten(erlang:element(2, Iterator)) end, {iterator, _pipe}. -spec flat_map(iterator(BSM), fun((BSM) -> iterator(BSO))) -> iterator(BSO). flat_map(Iterator, F) -> _pipe = Iterator, _pipe@1 = map(_pipe, F), flatten(_pipe@1). -spec do_filter(fun(() -> action(BSR)), fun((BSR) -> boolean())) -> action(BSR). do_filter(Continuation, Predicate) -> case Continuation() of stop -> stop; {continue, E, Iterator} -> case Predicate(E) of true -> {continue, E, fun() -> do_filter(Iterator, Predicate) end}; false -> do_filter(Iterator, Predicate) end end. -spec filter(iterator(BSU), fun((BSU) -> boolean())) -> iterator(BSU). filter(Iterator, Predicate) -> _pipe = fun() -> do_filter(erlang:element(2, Iterator), Predicate) end, {iterator, _pipe}. -spec cycle(iterator(BSX)) -> iterator(BSX). cycle(Iterator) -> _pipe = repeat(Iterator), flatten(_pipe). -spec do_find(fun(() -> action(BTB)), fun((BTB) -> boolean())) -> {ok, BTB} | {error, nil}. do_find(Continuation, F) -> case Continuation() of stop -> {error, nil}; {continue, E, Next} -> case F(E) of true -> {ok, E}; false -> do_find(Next, F) end end. -spec find(iterator(BTF), fun((BTF) -> boolean())) -> {ok, BTF} | {error, nil}. find(Haystack, Is_desired) -> _pipe = erlang:element(2, Haystack), do_find(_pipe, Is_desired). -spec do_index(fun(() -> action(BTJ)), integer()) -> fun(() -> action({integer(), BTJ})). do_index(Continuation, Next) -> fun() -> case Continuation() of stop -> stop; {continue, E, Continuation@1} -> {continue, {Next, E}, do_index(Continuation@1, Next + 1)} end end. -spec index(iterator(BTM)) -> iterator({integer(), BTM}). index(Iterator) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_index(_pipe, 0), {iterator, _pipe@1}. -spec iterate(BTP, fun((BTP) -> BTP)) -> iterator(BTP). iterate(Initial, F) -> unfold(Initial, fun(Element) -> {next, Element, F(Element)} end). -spec do_take_while(fun(() -> action(BTR)), fun((BTR) -> boolean())) -> fun(() -> action(BTR)). do_take_while(Continuation, Predicate) -> fun() -> case Continuation() of stop -> stop; {continue, E, Next} -> case Predicate(E) of false -> stop; true -> {continue, E, do_take_while(Next, Predicate)} end end end. -spec take_while(iterator(BTU), fun((BTU) -> boolean())) -> iterator(BTU). take_while(Iterator, Predicate) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_take_while(_pipe, Predicate), {iterator, _pipe@1}. -spec do_drop_while(fun(() -> action(BTX)), fun((BTX) -> boolean())) -> action(BTX). do_drop_while(Continuation, Predicate) -> case Continuation() of stop -> stop; {continue, E, Next} -> case Predicate(E) of false -> {continue, E, Next}; true -> do_drop_while(Next, Predicate) end end. -spec drop_while(iterator(BUA), fun((BUA) -> boolean())) -> iterator(BUA). drop_while(Iterator, Predicate) -> _pipe = fun() -> do_drop_while(erlang:element(2, Iterator), Predicate) end, {iterator, _pipe}. -spec do_scan(fun(() -> action(BUD)), fun((BUF, BUD) -> BUF), BUF) -> fun(() -> action(BUF)). do_scan(Continuation, F, Accumulator) -> fun() -> case Continuation() of stop -> stop; {continue, El, Next} -> Accumulated = F(Accumulator, El), {continue, Accumulated, do_scan(Next, F, Accumulated)} end end. -spec scan(iterator(BUH), BUJ, fun((BUJ, BUH) -> BUJ)) -> iterator(BUJ). scan(Iterator, Initial, F) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_scan(_pipe, F, Initial), {iterator, _pipe@1}. -spec do_zip(fun(() -> action(BUL)), fun(() -> action(BUN))) -> fun(() -> action({BUL, BUN})). do_zip(Left, Right) -> fun() -> case Left() of stop -> stop; {continue, El_left, Next_left} -> case Right() of stop -> stop; {continue, El_right, Next_right} -> {continue, {El_left, El_right}, do_zip(Next_left, Next_right)} end end end. -spec zip(iterator(BUQ), iterator(BUS)) -> iterator({BUQ, BUS}). zip(Left, Right) -> _pipe = do_zip(erlang:element(2, Left), erlang:element(2, Right)), {iterator, _pipe}. -spec next_chunk(fun(() -> action(BUV)), fun((BUV) -> BUX), BUX, list(BUV)) -> chunk(BUV, BUX). next_chunk(Continuation, F, Previous_key, Current_chunk) -> case Continuation() of stop -> {last_by, gleam@list:reverse(Current_chunk)}; {continue, E, Next} -> Key = F(E), case Key =:= Previous_key of true -> next_chunk(Next, F, Key, [E | Current_chunk]); false -> {another_by, gleam@list:reverse(Current_chunk), Key, E, Next} end end. -spec do_chunk(fun(() -> action(BVB)), fun((BVB) -> BVD), BVD, BVB) -> action(list(BVB)). do_chunk(Continuation, F, Previous_key, Previous_element) -> case next_chunk(Continuation, F, Previous_key, [Previous_element]) of {last_by, Chunk} -> {continue, Chunk, fun stop/0}; {another_by, Chunk@1, Key, El, Next} -> {continue, Chunk@1, fun() -> do_chunk(Next, F, Key, El) end} end. -spec chunk(iterator(BVG), fun((BVG) -> any())) -> iterator(list(BVG)). chunk(Iterator, F) -> _pipe = fun() -> case (erlang:element(2, Iterator))() of stop -> stop; {continue, E, Next} -> do_chunk(Next, F, F(E), E) end end, {iterator, _pipe}. -spec next_sized_chunk(fun(() -> action(BVL)), integer(), list(BVL)) -> sized_chunk(BVL). next_sized_chunk(Continuation, Left, Current_chunk) -> case Continuation() of stop -> case Current_chunk of [] -> no_more; Remaining -> {last, gleam@list:reverse(Remaining)} end; {continue, E, Next} -> Chunk = [E | Current_chunk], case Left > 1 of false -> {another, gleam@list:reverse(Chunk), Next}; true -> next_sized_chunk(Next, Left - 1, Chunk) end end. -spec do_sized_chunk(fun(() -> action(BVP)), integer()) -> fun(() -> action(list(BVP))). do_sized_chunk(Continuation, Count) -> fun() -> case next_sized_chunk(Continuation, Count, []) of no_more -> stop; {last, Chunk} -> {continue, Chunk, fun stop/0}; {another, Chunk@1, Next_element} -> {continue, Chunk@1, do_sized_chunk(Next_element, Count)} end end. -spec sized_chunk(iterator(BVT), integer()) -> iterator(list(BVT)). sized_chunk(Iterator, Count) -> _pipe = erlang:element(2, Iterator), _pipe@1 = do_sized_chunk(_pipe, Count), {iterator, _pipe@1}. -spec do_intersperse(fun(() -> action(BVX)), BVX) -> action(BVX). do_intersperse(Continuation, Separator) -> case Continuation() of stop -> stop; {continue, E, Next} -> Next_interspersed = fun() -> do_intersperse(Next, Separator) end, {continue, Separator, fun() -> {continue, E, Next_interspersed} end} end. -spec intersperse(iterator(BWA), BWA) -> iterator(BWA). intersperse(Iterator, Elem) -> _pipe = fun() -> case (erlang:element(2, Iterator))() of stop -> stop; {continue, E, Next} -> {continue, E, fun() -> do_intersperse(Next, Elem) end} end end, {iterator, _pipe}. -spec do_any(fun(() -> action(BWD)), fun((BWD) -> boolean())) -> boolean(). do_any(Continuation, Predicate) -> case Continuation() of stop -> false; {continue, E, Next} -> case Predicate(E) of true -> true; false -> do_any(Next, Predicate) end end. -spec any(iterator(BWF), fun((BWF) -> boolean())) -> boolean(). any(Iterator, Predicate) -> _pipe = erlang:element(2, Iterator), do_any(_pipe, Predicate). -spec do_all(fun(() -> action(BWH)), fun((BWH) -> boolean())) -> boolean(). do_all(Continuation, Predicate) -> case Continuation() of stop -> true; {continue, E, Next} -> case Predicate(E) of true -> do_all(Next, Predicate); false -> false end end. -spec all(iterator(BWJ), fun((BWJ) -> boolean())) -> boolean(). all(Iterator, Predicate) -> _pipe = erlang:element(2, Iterator), do_all(_pipe, Predicate). -spec update_group_with(BWL) -> fun((gleam@option:option(list(BWL))) -> list(BWL)). update_group_with(El) -> fun(Maybe_group) -> case Maybe_group of {some, Group} -> [El | Group]; none -> [El] end end. -spec group_updater(fun((BWP) -> BWQ)) -> fun((gleam@map:map_(BWQ, list(BWP)), BWP) -> gleam@map:map_(BWQ, list(BWP))). group_updater(F) -> fun(Groups, Elem) -> _pipe = Groups, gleam@map:update(_pipe, F(Elem), update_group_with(Elem)) end. -spec group(iterator(BWX), fun((BWX) -> BWZ)) -> gleam@map:map_(BWZ, list(BWX)). group(Iterator, Key) -> _pipe = Iterator, _pipe@1 = fold(_pipe, gleam@map:new(), group_updater(Key)), gleam@map:map_values( _pipe@1, fun(_, Group) -> gleam@list:reverse(Group) end ). -spec reduce(iterator(BXD), fun((BXD, BXD) -> BXD)) -> {ok, BXD} | {error, nil}. reduce(Iterator, F) -> case (erlang:element(2, Iterator))() of stop -> {error, nil}; {continue, E, Next} -> _pipe = do_fold(Next, F, E), {ok, _pipe} end. -spec last(iterator(BXH)) -> {ok, BXH} | {error, nil}. last(Iterator) -> _pipe = Iterator, reduce(_pipe, fun(_, Elem) -> Elem end). -spec empty() -> iterator(any()). empty() -> {iterator, fun stop/0}. -spec once(fun(() -> BXN)) -> iterator(BXN). once(F) -> _pipe = fun() -> {continue, F(), fun stop/0} end, {iterator, _pipe}. -spec range(integer(), integer()) -> iterator(integer()). range(Start, Stop) -> case gleam@int:compare(Start, Stop) of eq -> once(fun() -> Start end); gt -> unfold(Start, fun(Current) -> case Current < Stop of false -> {next, Current, Current - 1}; true -> done end end); lt -> unfold(Start, fun(Current@1) -> case Current@1 > Stop of false -> {next, Current@1, Current@1 + 1}; true -> done end end) end. -spec single(BXP) -> iterator(BXP). single(Elem) -> once(fun() -> Elem end). -spec do_interleave(fun(() -> action(BXR)), fun(() -> action(BXR))) -> action(BXR). do_interleave(Current, Next) -> case Current() of stop -> Next(); {continue, E, Next_other} -> {continue, E, fun() -> do_interleave(Next, Next_other) end} end. -spec interleave(iterator(BXV), iterator(BXV)) -> iterator(BXV). interleave(Left, Right) -> _pipe = fun() -> do_interleave(erlang:element(2, Left), erlang:element(2, Right)) end, {iterator, _pipe}. -spec do_fold_until( fun(() -> action(BXZ)), fun((BYB, BXZ) -> gleam@list:continue_or_stop(BYB)), BYB ) -> BYB. do_fold_until(Continuation, F, Accumulator) -> case Continuation() of stop -> Accumulator; {continue, Elem, Next} -> case F(Accumulator, Elem) of {continue, Accumulator@1} -> do_fold_until(Next, F, Accumulator@1); {stop, Accumulator@2} -> Accumulator@2 end end. -spec fold_until( iterator(BYD), BYF, fun((BYF, BYD) -> gleam@list:continue_or_stop(BYF)) ) -> BYF. fold_until(Iterator, Initial, F) -> _pipe = erlang:element(2, Iterator), do_fold_until(_pipe, F, Initial). -spec do_try_fold( fun(() -> action(BYH)), fun((BYJ, BYH) -> {ok, BYJ} | {error, BYK}), BYJ ) -> {ok, BYJ} | {error, BYK}. do_try_fold(Continuation, F, Accumulator) -> case Continuation() of stop -> {ok, Accumulator}; {continue, Elem, Next} -> gleam@result:'try'( F(Accumulator, Elem), fun(Accumulator@1) -> do_try_fold(Next, F, Accumulator@1) end ) end. -spec try_fold(iterator(BYP), BYR, fun((BYR, BYP) -> {ok, BYR} | {error, BYS})) -> {ok, BYR} | {error, BYS}. try_fold(Iterator, Initial, F) -> _pipe = erlang:element(2, Iterator), do_try_fold(_pipe, F, Initial). -spec first(iterator(BYX)) -> {ok, BYX} | {error, nil}. first(Iterator) -> case (erlang:element(2, Iterator))() of stop -> {error, nil}; {continue, E, _} -> {ok, E} end. -spec at(iterator(BZB), integer()) -> {ok, BZB} | {error, nil}. at(Iterator, Index) -> _pipe = Iterator, _pipe@1 = drop(_pipe, Index), first(_pipe@1). -spec do_length(fun(() -> action(any())), integer()) -> integer(). do_length(Continuation, Length) -> case Continuation() of stop -> Length; {continue, _, Next} -> do_length(Next, Length + 1) end. -spec length(iterator(any())) -> integer(). length(Iterator) -> _pipe = erlang:element(2, Iterator), do_length(_pipe, 0). -spec each(iterator(BZJ), fun((BZJ) -> any())) -> nil. each(Iterator, F) -> _pipe = Iterator, _pipe@1 = map(_pipe, F), run(_pipe@1). -spec yield(BZM, fun(() -> iterator(BZM))) -> iterator(BZM). yield(Element, Next) -> {iterator, fun() -> {continue, Element, erlang:element(2, Next())} end}.