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refactor(topicidx): simplify seek instructions 

Which also avoids comparing filter tail repeatedly when evaluating
it.
This commit is contained in:
Andrew Mayorov 2023-08-25 15:24:06 +04:00
parent cf45e80c71
commit fc37d235c7
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GPG Key ID: 2837C62ACFBFED5D
1 changed files with 27 additions and 29 deletions
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56
apps/emqx/src/emqx_trie_search.erl
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@ -137,7 +137,7 @@ get_topic({Filter, _ID}) when is_list(Filter) ->
get_topic({Topic, _ID}) -> get_topic({Topic, _ID}) ->
Topic. Topic.
-compile({inline, [base/1, move_up/2, match_add/2, compare/3]}). -compile({inline, [base/1, move_up/2, match_add/2, compare/4]}).
%% Make the base-key which can be used to locate the desired search target. %% Make the base-key which can be used to locate the desired search target.
base(Prefix) -> base(Prefix) ->
@ -210,31 +210,29 @@ search_new(Words0, NewBase, NextF, Acc) ->
%% Search to the bigger end of ordered collection of topics and topic-filters. %% Search to the bigger end of ordered collection of topics and topic-filters.
search_up(Words, {Filter, _} = Cursor, NextF, Acc) -> search_up(Words, {Filter, _} = Cursor, NextF, Acc) ->
case compare(Filter, Words, false) of case compare(Filter, Words, 0, false) of
match_full -> match_full ->
search_new(Words, Cursor, NextF, match_add(Cursor, Acc)); search_new(Words, Cursor, NextF, match_add(Cursor, Acc));
match_prefix -> match_prefix ->
search_new(Words, Cursor, NextF, Acc); search_new(Words, Cursor, NextF, Acc);
lower -> lower ->
{Cursor, Acc}; {Cursor, Acc};
[SeekWord | FilterTail] -> {Pos, SeekWord} ->
% NOTE % NOTE
% This is a seek instruction. % This is a seek instruction. It means we need to take `Pos` words
% If we visualize the `Filter` as `FilterHead ++ [_] ++ FilterTail`, we need to % from the current topic filter and attach `SeekWord` to the end of it.
% seek to `FilterHead ++ [SeekWord]`. It carries the `FilterTail` because it's NewBase = base(seek(Pos, SeekWord, Filter)),
% much cheaper to return it from `compare/3` than anything more usable.
NewBase = base(seek(SeekWord, Filter, FilterTail)),
search_new(Words, NewBase, NextF, Acc) search_new(Words, NewBase, NextF, Acc)
end. end.
seek(SeekWord, [_ | FilterTail], FilterTail) -> seek(_Pos = 0, SeekWord, _FilterTail) ->
[SeekWord]; [SeekWord];
seek(SeekWord, [FilterWord | Rest], FilterTail) -> seek(Pos, SeekWord, [FilterWord | Rest]) ->
[FilterWord | seek(SeekWord, Rest, FilterTail)]. [FilterWord | seek(Pos - 1, SeekWord, Rest)].
compare(NotFilter, _, _) when is_binary(NotFilter) -> compare(NotFilter, _, _, _) when is_binary(NotFilter) ->
lower; lower;
compare([], [], _) -> compare([], [], _, _) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/+/d % Filter: a/+/+/d
@ -244,7 +242,7 @@ compare([], [], _) ->
% * a/+/+/d (same topic but a different ID) % * a/+/+/d (same topic but a different ID)
% * a/+/+/d/# (also a match) % * a/+/+/d/# (also a match)
match_full; match_full;
compare([], _Words, _) -> compare([], _Words, _, _) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/c % Filter: a/+/c
@ -257,7 +255,7 @@ compare([], _Words, _) ->
% TODO % TODO
% We might probably instead seek to a/+/c/# right away. % We might probably instead seek to a/+/c/# right away.
match_prefix; match_prefix;
compare(['#'], _Words, _) -> compare(['#'], _Words, _, _) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/+/d/# % Filter: a/+/+/d/#
@ -266,57 +264,57 @@ compare(['#'], _Words, _) ->
% Closest possible next entries that we must not miss: % Closest possible next entries that we must not miss:
% * a/+/+/d/# (same topic but a different ID) % * a/+/+/d/# (same topic but a different ID)
match_full; match_full;
compare(['+' | TF], [HW | TW], _PrevBacktrack) -> compare(['+' | TF], [HW | TW], Pos, _PrevBacktrack) ->
% NOTE % NOTE
% We need to keep backtrack point each time we encounter a plus. To safely skip over % We need to keep backtrack point each time we encounter a plus. To safely skip over
% parts of the search space, we may need last backtrack point when recursion terminates. % parts of the search space, we may need last backtrack point when recursion terminates.
% See next clauses for examples. % See next clauses for examples.
compare(TF, TW, [HW | TF]); compare(TF, TW, Pos + 1, {Pos, HW});
compare([HW | TF], [HW | TW], Backtrack) -> compare([HW | TF], [HW | TW], Pos, Backtrack) ->
% NOTE % NOTE
% Skip over the same word in both topic and filter, keeping the last backtrack point. % Skip over the same word in both topic and filter, keeping the last backtrack point.
compare(TF, TW, Backtrack); compare(TF, TW, Pos + 1, Backtrack);
compare([HF | _], [HW | _], false) when HF > HW -> compare([HF | _], [HW | _], _, false) when HF > HW ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/b/c/e/1 % Filter: a/b/c/e/1
% The topic is lower than a topic filter. There's nowhere to backtrackto, we're out of % The topic is lower than a topic filter. There's nowhere to backtrackto, we're out of
% the search space. We should stop the search. % the search space. We should stop the search.
lower; lower;
compare([HF | _], [HW | _], Backtrack) when HF > HW -> compare([HF | _], [HW | _], _, Backtrack) when HF > HW ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/+/e/1 % Filter: a/+/+/e/1
% The topic is lower than a topic filter. There was a plus, last time at the 3rd level, % The topic is lower than a topic filter. There was a plus, last time at the 3rd level,
% we have a backtrack point to seek to: % we have a backtrack point to seek to:
% Seek: [c | e/1] % Seek: {2, c}
% We need to skip over part of search space, and seek to the next possible match: % We need to skip over part of search space, and seek to the next possible match:
% Next: a/+/c % Next: a/+/c
Backtrack; Backtrack;
compare([_ | _], [], false) -> compare([_ | _], [], _, false) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/b/c/d/1 % Filter: a/b/c/d/1
% The topic is lower than a topic filter. (since it's shorter). There's nowhere to % The topic is lower than a topic filter (since it's shorter). There's nowhere to
% backtrack to, we're out of the search space. We should stop the search. % backtrack to, we're out of the search space. We should stop the search.
lower; lower;
compare([_ | _], [], Backtrack) -> compare([_ | _], [], _, Backtrack) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/c/d/1 % Filter: a/+/c/d/1
% The topic is lower than a topic filter. There was a plus, last and only time at the % The topic is lower than a topic filter. There was a plus, last and only time at the
% 3rd level, we have a backtrack point: % 3rd level, we have a backtrack point:
% Seek: [b | c/d/1] % Seek: {1, b}
% Next: a/b % Next: a/b
Backtrack; Backtrack;
compare([_HF | TF], [HW | _], _) -> compare([_ | _], [HW | _], Pos, _) ->
% NOTE % NOTE
% Topic: a/b/c/d % Topic: a/b/c/d
% Filter: a/+/+/0/1/2 % Filter: a/+/+/0/1/2
% Topic is higher than the filter, we need to skip over to the next possible filter. % Topic is higher than the filter, we need to skip over to the next possible filter.
% Seek: [d | 0/1/2] % Seek: {3, d}
% Next: a/+/+/d % Next: a/+/+/d
[HW | TF]. {Pos, HW}.
match_add(K = {_Filter, ID}, Acc = #{}) -> match_add(K = {_Filter, ID}, Acc = #{}) ->
% NOTE: ensuring uniqueness by record ID % NOTE: ensuring uniqueness by record ID