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Data structures in pure Gleam! Including tree, heap, non empty list, map, set, and priority queue.

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gleamy_structures src gleamy@structures@tree@red_black_tree_kv.erl
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src/gleamy@structures@tree@red_black_tree_kv.erl

-module(gleamy@structures@tree@red_black_tree_kv).
-compile([no_auto_import, nowarn_unused_vars]).
-export([new/1, clear/1, insert/3, delete/2, find/2, fold/3, foldr/3, draw/2]).
-export_type([color/0, node_/2, tree/2, min_del/2]).
-type color() :: r | b | bb.
-type node_(EWV, EWW) :: e |
ee |
{t, color(), node_(EWV, EWW), {EWV, EWW}, node_(EWV, EWW)}.
-opaque tree(EWX, EWY) :: {tree,
node_(EWX, EWY),
fun((EWX, EWX) -> gleam@order:order())}.
-type min_del(EWZ, EXA) :: {min, {EWZ, EXA}, node_(EWZ, EXA)} | none.
-spec new(fun((EXB, EXB) -> gleam@order:order())) -> tree(EXB, any()).
new(Compare) ->
{tree, e, Compare}.
-spec clear(tree(EXF, EXG)) -> tree(EXF, EXG).
clear(Tree) ->
{tree, e, erlang:element(3, Tree)}.
-spec blacken(node_(EYX, EYY)) -> node_(EYX, EYY).
blacken(Node) ->
case Node of
{t, r, {t, r, _, _, _} = L, Y, C} ->
{t, b, L, Y, C};
{t, r, K, X, {t, r, _, _, _} = R} ->
{t, b, K, X, R};
T ->
T
end.
-spec balance(color(), node_(EZD, EZE), {EZD, EZE}, node_(EZD, EZE)) -> node_(EZD, EZE).
balance(C, L, V, R) ->
case {C, L, V, R} of
{b, {t, r, {t, r, K, X, B}, Y, C@1}, Z, D} ->
{t, r, {t, b, K, X, B}, Y, {t, b, C@1, Z, D}};
{b, {t, r, K@1, X@1, {t, r, B@1, Y@1, C@2}}, Z@1, D@1} ->
{t, r, {t, b, K@1, X@1, B@1}, Y@1, {t, b, C@2, Z@1, D@1}};
{b, K@2, X@2, {t, r, {t, r, B@2, Y@2, C@3}, Z@2, D@2}} ->
{t, r, {t, b, K@2, X@2, B@2}, Y@2, {t, b, C@3, Z@2, D@2}};
{b, K@3, X@3, {t, r, B@3, Y@3, {t, r, C@4, Z@3, D@3}}} ->
{t, r, {t, b, K@3, X@3, B@3}, Y@3, {t, b, C@4, Z@3, D@3}};
{bb, K@4, X@4, {t, r, {t, r, B@4, Y@4, C@5}, Z@4, D@4}} ->
{t, b, {t, b, K@4, X@4, B@4}, Y@4, {t, b, C@5, Z@4, D@4}};
{bb, {t, r, K@5, X@5, {t, r, B@5, Y@5, C@6}}, Z@5, D@5} ->
{t, b, {t, b, K@5, X@5, B@5}, Y@5, {t, b, C@6, Z@5, D@5}};
{C@7, K@6, X@6, B@6} ->
{t, C@7, K@6, X@6, B@6}
end.
-spec redden(node_(EZL, EZM)) -> node_(EZL, EZM).
redden(Node) ->
case Node of
{t, b, {t, b, _, _, _} = L, Y, {t, b, _, _, _} = R} ->
{t, r, L, Y, R};
T ->
T
end.
-spec rotate(color(), node_(EZX, EZY), {EZX, EZY}, node_(EZX, EZY)) -> node_(EZX, EZY).
rotate(C, L, V, R) ->
case {C, L, V, R} of
{r, {t, bb, K, X, B}, Y, {t, b, C@1, Z, D}} ->
balance(b, {t, r, {t, b, K, X, B}, Y, C@1}, Z, D);
{r, ee, Y@1, {t, b, C@2, Z@1, D@1}} ->
balance(b, {t, r, e, Y@1, C@2}, Z@1, D@1);
{r, {t, b, K@1, X@1, B@1}, Y@2, {t, bb, C@3, Z@2, D@2}} ->
balance(b, K@1, X@1, {t, r, B@1, Y@2, {t, b, C@3, Z@2, D@2}});
{r, {t, b, K@2, X@2, B@2}, Y@3, ee} ->
balance(b, K@2, X@2, {t, r, B@2, Y@3, e});
{b, {t, bb, K@3, X@3, B@3}, Y@4, {t, b, C@4, Z@3, D@3}} ->
balance(bb, {t, r, {t, b, K@3, X@3, B@3}, Y@4, C@4}, Z@3, D@3);
{b, ee, Y@5, {t, b, C@5, Z@4, D@4}} ->
balance(bb, {t, r, e, Y@5, C@5}, Z@4, D@4);
{b, {t, b, K@4, X@4, B@4}, Y@6, {t, bb, C@6, Z@5, D@5}} ->
balance(bb, K@4, X@4, {t, r, B@4, Y@6, {t, b, C@6, Z@5, D@5}});
{b, {t, b, K@5, X@5, B@5}, Y@7, ee} ->
balance(bb, K@5, X@5, {t, r, B@5, Y@7, e});
{b, {t, bb, K@6, W, B@6}, X@6, {t, r, {t, b, C@7, Y@8, D@6}, Z@6, E}} ->
{t,
b,
balance(b, {t, r, {t, b, K@6, W, B@6}, X@6, C@7}, Y@8, D@6),
Z@6,
E};
{b, ee, X@7, {t, r, {t, b, C@8, Y@9, D@7}, Z@7, E@1}} ->
{t, b, balance(b, {t, r, e, X@7, C@8}, Y@9, D@7), Z@7, E@1};
{b,
{t, r, K@7, W@1, {t, b, B@7, X@8, C@9}},
Y@10,
{t, bb, D@8, Z@8, E@2}} ->
{t,
b,
K@7,
W@1,
balance(b, B@7, X@8, {t, r, C@9, Y@10, {t, b, D@8, Z@8, E@2}})};
{b, {t, r, K@8, W@2, {t, b, B@8, X@9, C@10}}, Y@11, ee} ->
{t, b, K@8, W@2, balance(b, B@8, X@9, {t, r, C@10, Y@11, e})};
{C@11, K@9, X@10, B@9} ->
{t, C@11, K@9, X@10, B@9}
end.
-spec ins(node_(EYR, EYS), {EYR, EYS}, fun((EYR, EYR) -> gleam@order:order())) -> node_(EYR, EYS).
ins(Node, X, Compare) ->
case Node of
e ->
{t, r, e, X, e};
{t, C, K, Y, B} ->
case Compare(erlang:element(1, X), erlang:element(1, Y)) of
lt ->
balance(C, ins(K, X, Compare), Y, B);
gt ->
balance(C, K, Y, ins(B, X, Compare));
eq ->
{t, C, K, X, B}
end;
_ ->
Node
end.
-spec insert(tree(EXL, EXM), EXL, EXM) -> tree(EXL, EXM).
insert(Tree, Key, Value) ->
{tree,
blacken(
ins(erlang:element(2, Tree), {Key, Value}, erlang:element(3, Tree))
),
erlang:element(3, Tree)}.
-spec del(node_(EZR, EZS), EZR, fun((EZR, EZR) -> gleam@order:order())) -> node_(EZR, EZS).
del(Node, X, Compare) ->
case Node of
e ->
Node;
{t, r, e, Y, e} ->
case Compare(X, erlang:element(1, Y)) of
eq ->
e;
_ ->
Node
end;
{t, b, e, Y@1, e} ->
case Compare(X, erlang:element(1, Y@1)) of
eq ->
ee;
_ ->
Node
end;
{t, b, {t, r, e, Y@2, e} = L, Z, e} ->
case Compare(X, erlang:element(1, Z)) of
lt ->
{t, b, del(L, X, Compare), Z, e};
gt ->
Node;
eq ->
{t, b, e, Y@2, e}
end;
{t, C, K, Y@3, B} ->
case Compare(X, erlang:element(1, Y@3)) of
lt ->
rotate(C, del(K, X, Compare), Y@3, B);
gt ->
rotate(C, K, Y@3, del(B, X, Compare));
eq ->
case min_del(B) of
{min, Y1, B1} ->
rotate(C, K, Y1, B1);
none ->
e
end
end;
_ ->
Node
end.
-spec delete(tree(EXR, EXS), EXR) -> tree(EXR, EXS).
delete(Tree, Key) ->
{tree,
del(redden(erlang:element(2, Tree)), Key, erlang:element(3, Tree)),
erlang:element(3, Tree)}.
-spec do_find(node_(FAL, FAM), FAL, fun((FAL, FAL) -> gleam@order:order())) -> {ok,
{FAL, FAM}} |
{error, nil}.
do_find(Node, Key, Compare) ->
case Node of
{t, _, L, K, R} ->
case Compare(Key, erlang:element(1, K)) of
lt ->
do_find(L, Key, Compare);
gt ->
do_find(R, Key, Compare);
eq ->
{ok, K}
end;
_ ->
{error, nil}
end.
-spec find(tree(EXX, EXY), EXX) -> {ok, {EXX, EXY}} | {error, nil}.
find(Tree, Key) ->
do_find(erlang:element(2, Tree), Key, erlang:element(3, Tree)).
-spec do_fold(node_(FAR, FAS), FAV, fun((FAV, FAR, FAS) -> FAV)) -> FAV.
do_fold(Node, Acc, Fun) ->
case Node of
{t, _, R, V, L} ->
Acc@1 = do_fold(R, Acc, Fun),
Acc@2 = Fun(Acc@1, erlang:element(1, V), erlang:element(2, V)),
Acc@3 = do_fold(L, Acc@2, Fun),
Acc@3;
_ ->
Acc
end.
-spec fold(tree(EYD, EYE), EYH, fun((EYH, EYD, EYE) -> EYH)) -> EYH.
fold(Tree, Acc, Fun) ->
do_fold(erlang:element(2, Tree), Acc, Fun).
-spec do_foldr(node_(FAW, FAX), FBA, fun((FBA, FAW, FAX) -> FBA)) -> FBA.
do_foldr(Node, Acc, Fun) ->
case Node of
{t, _, R, V, L} ->
Acc@1 = do_foldr(L, Acc, Fun),
Acc@2 = Fun(Acc@1, erlang:element(1, V), erlang:element(2, V)),
Acc@3 = do_foldr(R, Acc@2, Fun),
Acc@3;
_ ->
Acc
end.
-spec foldr(tree(EYI, EYJ), EYM, fun((EYM, EYI, EYJ) -> EYM)) -> EYM.
foldr(Tree, Acc, Fun) ->
do_foldr(erlang:element(2, Tree), Acc, Fun).
-spec do_draw(node_(FBB, FBC), integer(), fun((FBB, FBC) -> binary())) -> binary().
do_draw(Node, Indent, To_string) ->
case Node of
{t, _, L, K, R} ->
Ls = do_draw(L, Indent + 1, To_string),
Ks = do_indent(
<<(To_string(erlang:element(1, K), erlang:element(2, K)))/binary,
"\n"/utf8>>,
Indent
),
Rs = do_draw(R, Indent + 1, To_string),
<<<<Ls/binary, Ks/binary>>/binary, Rs/binary>>;
_ ->
<<""/utf8>>
end.
-spec draw(tree(EYN, EYO), fun((EYN, EYO) -> binary())) -> binary().
draw(Tree, To_string) ->
do_draw(erlang:element(2, Tree), 0, To_string).
-spec min_del(node_(FAF, FAG)) -> min_del(FAF, FAG).
min_del(Node) ->
case Node of
{t, r, e, X, e} ->
{min, X, e};
{t, b, e, X@1, e} ->
{min, X@1, ee};
{t, b, e, X@2, {t, r, e, Y, e}} ->
{min, X@2, {t, b, e, Y, e}};
{t, C, K, X@3, B} ->
case min_del(K) of
{min, X1, A1} ->
{min, X1, rotate(C, A1, X@3, B)};
none ->
none
end;
_ ->
none
end.
-spec do_indent(binary(), integer()) -> binary().
do_indent(Acc, I) ->
case I of
0 ->
Acc;
I@1 ->
do_indent(<<". "/utf8, Acc/binary>>, I@1 - 1)
end.