# frozen_string_literal: true class SearchQueryTransformer < Parslet::Transform class Query def initialize(clauses, options = {}) raise ArgumentError if options[:current_account].nil? @clauses = clauses @options = options flags_from_clauses! end def request search = Chewy::Search::Request.new(*indexes).filter(default_filter) must_clauses.each { |clause| search = search.query.must(clause.to_query) } must_not_clauses.each { |clause| search = search.query.must_not(clause.to_query) } filter_clauses.each { |clause| search = search.filter(**clause.to_query) } search end private def clauses_by_operator @clauses_by_operator ||= @clauses.compact.chunk(&:operator).to_h end def flags_from_clauses! @flags = clauses_by_operator.fetch(:flag, []).to_h { |clause| [clause.prefix, clause.term] } end def must_clauses clauses_by_operator.fetch(:must, []) end def must_not_clauses clauses_by_operator.fetch(:must_not, []) end def filter_clauses clauses_by_operator.fetch(:filter, []) end def indexes case @flags['in'] when 'library' [StatusesIndex] else [PublicStatusesIndex, StatusesIndex] end end def default_filter { bool: { should: [ { term: { _index: PublicStatusesIndex.index_name, }, }, { bool: { must: [ { term: { _index: StatusesIndex.index_name, }, }, { term: { searchable_by: @options[:current_account].id, }, }, ], }, }, ], minimum_should_match: 1, }, } end end class Operator class << self def symbol(str) case str when '+', nil :must when '-' :must_not else raise "Unknown operator: #{str}" end end end end class TermClause attr_reader :operator, :term def initialize(operator, term) @operator = Operator.symbol(operator) @term = term end def to_query if @term.start_with?('#') { match: { tags: { query: @term, operator: 'and' } } } else { multi_match: { type: 'most_fields', query: @term, fields: ['text', 'text.stemmed'], operator: 'and' } } end end end class PhraseClause attr_reader :operator, :phrase def initialize(operator, phrase) @operator = Operator.symbol(operator) @phrase = phrase end def to_query { match_phrase: { text: { query: @phrase } } } end end class PrefixClause attr_reader :operator, :prefix, :term def initialize(prefix, operator, term, options = {}) @prefix = prefix @negated = operator == '-' @options = options @operator = :filter case prefix when 'has', 'is' @filter = :properties @type = :term @term = term when 'language' @filter = :language @type = :term @term = language_code_from_term(term) when 'from' @filter = :account_id @type = :term @term = account_id_from_term(term) when 'before' @filter = :created_at @type = :range @term = { lt: term, time_zone: @options[:current_account]&.user_time_zone.presence || 'UTC' } when 'after' @filter = :created_at @type = :range @term = { gt: term, time_zone: @options[:current_account]&.user_time_zone.presence || 'UTC' } when 'during' @filter = :created_at @type = :range @term = { gte: term, lte: term, time_zone: @options[:current_account]&.user_time_zone.presence || 'UTC' } when 'in' @operator = :flag @term = term else raise "Unknown prefix: #{prefix}" end end def to_query if @negated { bool: { must_not: { @type => { @filter => @term } } } } else { @type => { @filter => @term } } end end private def account_id_from_term(term) return @options[:current_account]&.id || -1 if term == 'me' username, domain = term.gsub(/\A@/, '').split('@') domain = nil if TagManager.instance.local_domain?(domain) account = Account.find_remote(username, domain) # If the account is not found, we want to return empty results, so return # an ID that does not exist account&.id || -1 end def language_code_from_term(term) language_code = term return language_code if LanguagesHelper::SUPPORTED_LOCALES.key?(language_code.to_sym) language_code = term.downcase return language_code if LanguagesHelper::SUPPORTED_LOCALES.key?(language_code.to_sym) language_code = term.split(/[_-]/).first.downcase return language_code if LanguagesHelper::SUPPORTED_LOCALES.key?(language_code.to_sym) term end end rule(clause: subtree(:clause)) do prefix = clause[:prefix][:prefix_operator].to_s if clause[:prefix] operator = clause[:operator]&.to_s term = clause[:phrase] ? clause[:phrase].to_s : clause[:term].to_s if clause[:prefix] PrefixClause.new(prefix, operator, term, current_account: current_account) elsif clause[:term] TermClause.new(operator, term) elsif clause[:phrase] PhraseClause.new(operator, term) else raise "Unexpected clause type: #{clause}" end end rule(query: sequence(:clauses)) do Query.new(clauses, current_account: current_account) end end