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188 lines
5.4 KiB
Elixir
188 lines
5.4 KiB
Elixir
defmodule PhilomenaQuery.Parse.Evaluator do
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@moduledoc """
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Tools to evaluate whether a search query matches a document.
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"""
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# TODO: rethink the necessity of this module.
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# Can we do this in the search engine instead?
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@doc """
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Check whether a hit is matched by a query.
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- `doc` - a document definition. This could be returned by the index's `as_json/1` function.
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- `query` - a search query
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## Example
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iex> Evaluator.hits?(def, %{term: %{tags: "safe"}})
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true
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"""
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@spec hits?(map(), map()) :: boolean()
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def hits?(doc, query)
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def hits?(doc, %{bool: bool_query}) do
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must(doc, bool_query[:must]) and
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must(doc, bool_query[:filter]) and
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should(doc, bool_query[:should]) and
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not should(doc, bool_query[:must_not])
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end
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def hits?(doc, %{range: range_query}) do
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[term] = Map.keys(range_query)
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doc_values = wrap(doc[atomify(term)])
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range_query[term]
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|> Enum.all?(fn
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{:gt, query_val} ->
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Enum.any?(doc_values, &(&1 > query_val))
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{:gte, query_val} ->
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Enum.any?(doc_values, &(&1 >= query_val))
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{:lt, query_val} ->
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Enum.any?(doc_values, &(&1 < query_val))
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{:lte, query_val} ->
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Enum.any?(doc_values, &(&1 <= query_val))
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end)
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end
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def hits?(doc, %{fuzzy: fuzzy_query}) do
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[{term, %{value: query_val, fuzziness: fuzziness}}] = Enum.to_list(fuzzy_query)
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wrap(doc[atomify(term)])
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|> Enum.any?(fn doc_val ->
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cond do
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fuzziness >= 1 ->
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levenshtein(query_val, doc_val) <= fuzziness
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fuzziness >= 0 ->
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levenshtein(query_val, doc_val) <= trunc((1 - fuzziness) * byte_size(query_val))
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true ->
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false
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end
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end)
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end
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def hits?(doc, %{wildcard: wildcard_query}) do
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[{term, query_val}] = Enum.to_list(wildcard_query)
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query_re = wildcard_to_regex(query_val)
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wrap(doc[atomify(term)])
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|> Enum.any?(&Regex.match?(query_re, &1 || ""))
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end
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def hits?(doc, %{match_phrase: phrase_query}) do
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# This is wildly inaccurate but practically unavoidable as
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# there is no good reason to import a term stemmer
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[{term, query_val}] = Enum.to_list(phrase_query)
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wrap(doc[atomify(term)])
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|> Enum.any?(&String.contains?(&1, query_val))
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end
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def hits?(_doc, %{nested: _}) do
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# No way to tell without a wildly expensive database query
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false
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end
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def hits?(doc, %{term: term_query}) do
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[{term, query_val}] = Enum.to_list(term_query)
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wrap(doc[atomify(term)])
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|> Enum.member?(query_val)
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end
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def hits?(doc, %{terms: terms_query}) do
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[{term, query_vals}] = Enum.to_list(terms_query)
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wrap(doc[atomify(term)])
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|> Enum.any?(&Enum.member?(query_vals, &1))
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end
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def hits?(_doc, %{match_all: %{}}), do: true
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def hits?(_doc, %{match_none: %{}}), do: false
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def hits?(doc, %{function_score: %{query: query}}), do: hits?(doc, query)
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defp must(_doc, nil), do: true
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defp must(doc, queries) when is_list(queries), do: Enum.all?(queries, &hits?(doc, &1))
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defp must(doc, query), do: hits?(doc, query)
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defp should(_doc, nil), do: false
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defp should(doc, queries) when is_list(queries), do: Enum.any?(queries, &hits?(doc, &1))
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defp should(doc, query), do: hits?(doc, query)
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defp wrap(list) when is_list(list), do: list
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defp wrap(object), do: [object]
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defp atomify(atom) when is_atom(atom), do: atom
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defp atomify(string) when is_binary(string), do: String.to_existing_atom(string)
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defp levenshtein(s1, s2) do
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{dist, _lookup} = levenshtein_lookup(s1, s2, %{}, 0)
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dist
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end
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defp levenshtein_lookup(s1, s2, lookup, times) do
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case lookup[{s1, s2}] do
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nil ->
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levenshtein_execute(s1, s2, lookup, times)
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val ->
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{val, lookup}
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end
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end
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# Avoid pursuing excessively time-consuming substrings
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defp levenshtein_execute(s1, s2, lookup, times) when times > 2,
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do: {max(byte_size(s1), byte_size(s2)), lookup}
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defp levenshtein_execute("", s2, lookup, _times), do: {byte_size(s2), lookup}
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defp levenshtein_execute(s1, "", lookup, _times), do: {byte_size(s1), lookup}
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defp levenshtein_execute(s1, s1, lookup, _times), do: {0, lookup}
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defp levenshtein_execute(s1, s2, lookup, times) do
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{deletion, lookup} = levenshtein_lookup(chop(s1), s2, lookup, times + 1)
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{insertion, lookup} = levenshtein_lookup(s1, chop(s2), lookup, times + 1)
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{substitution, lookup} = levenshtein_lookup(chop(s1), chop(s2), lookup, times + 1)
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min =
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Enum.min([
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deletion + 1,
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insertion + 1,
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substitution + last_bytes_different?(s1, s2)
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])
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lookup = Map.put(lookup, {s1, s2}, min)
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{min, lookup}
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end
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defp chop(str) when is_binary(str), do: binary_part(str, 0, byte_size(str) - 1)
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defp last_bytes_different?(s1, s2)
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when binary_part(s1, byte_size(s1) - 1, 1) == binary_part(s2, byte_size(s2) - 1, 1),
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do: 0
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defp last_bytes_different?(_s1, _s2), do: 1
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defp wildcard_to_regex(input) do
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re =
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input
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# escape regex metacharacters
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|> String.replace(~r/([.+^$\[\]\\\(\){}|-])/, "\\\\\\1")
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# * -> .* (kleene star)
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|> String.replace(~r/([^\\]|[^\\](?:\\\\)+)\*/, "\\1.*")
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# * -> .* (kleene star)
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|> String.replace(~r/\A(?:\\\\)*\*/, ".*")
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# ? -> .? (concatenation/alternation)
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|> String.replace(~r/([^\\]|[^\\](?:\\\\)+)\?/, "\\1.?")
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# ? -> .? (concatenation/alternation)
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|> String.replace(~r/\A(?:\\\\)*\?/, ".?")
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Regex.compile!("\\A#{re}\\z", "im")
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end
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end
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