require 'riddle/client/filter' require 'riddle/client/message' require 'riddle/client/response' module Riddle class VersionError < StandardError; end class ResponseError < StandardError; end # This class was heavily based on the existing Client API by Dmytro Shteflyuk # and Alexy Kovyrin. Their code worked fine, I just wanted something a bit # more Ruby-ish (ie. lowercase and underscored method names). I also have # used a few helper classes, just to neaten things up. # # Feel free to use it wherever. Send bug reports, patches, comments and # suggestions to pat at freelancing-gods dot com. # # Most properties of the client are accessible through attribute accessors, # and where relevant use symboles instead of the long constants common in # other clients. # Some examples: # # client.sort_mode = :extended # client.sort_by = "birthday DESC" # client.match_mode = :extended # # To add a filter, you will need to create a Filter object: # # client.filters << Riddle::Client::Filter.new("birthday", # Time.at(1975, 1, 1).to_i..Time.at(1985, 1, 1).to_i, false) # class Client Commands = { :search => 0, # SEARCHD_COMMAND_SEARCH :excerpt => 1, # SEARCHD_COMMAND_EXCERPT :update => 2, # SEARCHD_COMMAND_UPDATE :keywords => 3 # SEARCHD_COMMAND_KEYWORDS } Versions = { :search => 0x113, # VER_COMMAND_SEARCH :excerpt => 0x100, # VER_COMMAND_EXCERPT :update => 0x101, # VER_COMMAND_UPDATE :keywords => 0x100 # VER_COMMAND_KEYWORDS } Statuses = { :ok => 0, # SEARCHD_OK :error => 1, # SEARCHD_ERROR :retry => 2, # SEARCHD_RETRY :warning => 3 # SEARCHD_WARNING } MatchModes = { :all => 0, # SPH_MATCH_ALL :any => 1, # SPH_MATCH_ANY :phrase => 2, # SPH_MATCH_PHRASE :boolean => 3, # SPH_MATCH_BOOLEAN :extended => 4, # SPH_MATCH_EXTENDED :fullscan => 5, # SPH_MATCH_FULLSCAN :extended2 => 6 # SPH_MATCH_EXTENDED2 } RankModes = { :proximity_bm25 => 0, # SPH_RANK_PROXIMITY_BM25 :bm25 => 1, # SPH_RANK_BM25 :none => 2, # SPH_RANK_NONE :wordcount => 3 # SPH_RANK_WORDCOUNT } SortModes = { :relevance => 0, # SPH_SORT_RELEVANCE :attr_desc => 1, # SPH_SORT_ATTR_DESC :attr_asc => 2, # SPH_SORT_ATTR_ASC :time_segments => 3, # SPH_SORT_TIME_SEGMENTS :extended => 4, # SPH_SORT_EXTENDED :expr => 5 # SPH_SORT_EXPR } AttributeTypes = { :integer => 1, # SPH_ATTR_INTEGER :timestamp => 2, # SPH_ATTR_TIMESTAMP :ordinal => 3, # SPH_ATTR_ORDINAL :bool => 4, # SPH_ATTR_BOOL :float => 5, # SPH_ATTR_FLOAT :multi => 0x40000000 # SPH_ATTR_MULTI } GroupFunctions = { :day => 0, # SPH_GROUPBY_DAY :week => 1, # SPH_GROUPBY_WEEK :month => 2, # SPH_GROUPBY_MONTH :year => 3, # SPH_GROUPBY_YEAR :attr => 4, # SPH_GROUPBY_ATTR :attrpair => 5 # SPH_GROUPBY_ATTRPAIR } FilterTypes = { :values => 0, # SPH_FILTER_VALUES :range => 1, # SPH_FILTER_RANGE :float_range => 2 # SPH_FILTER_FLOATRANGE } attr_accessor :server, :port, :offset, :limit, :max_matches, :match_mode, :sort_mode, :sort_by, :weights, :id_range, :filters, :group_by, :group_function, :group_clause, :group_distinct, :cut_off, :retry_count, :retry_delay, :anchor, :index_weights, :rank_mode, :max_query_time, :field_weights, :timeout attr_reader :queue # Can instantiate with a specific server and port - otherwise it assumes # defaults of localhost and 3312 respectively. All other settings can be # accessed and changed via the attribute accessors. def initialize(server=nil, port=nil) @server = server || "localhost" @port = port || 3312 reset @queue = [] end # Reset attributes and settings to defaults. def reset # defaults @offset = 0 @limit = 20 @max_matches = 1000 @match_mode = :all @sort_mode = :relevance @sort_by = '' @weights = [] @id_range = 0..0 @filters = [] @group_by = '' @group_function = :day @group_clause = '@group desc' @group_distinct = '' @cut_off = 0 @retry_count = 0 @retry_delay = 0 @anchor = {} # string keys are index names, integer values are weightings @index_weights = {} @rank_mode = :proximity_bm25 @max_query_time = 0 # string keys are field names, integer values are weightings @field_weights = {} @timeout = 0 end # Set the geo-anchor point - with the names of the attributes that contain # the latitude and longitude (in radians), and the reference position. # Note that for geocoding to work properly, you must also set # match_mode to :extended. To sort results by distance, you will # need to set sort_mode to '@geodist asc' for example. Sphinx # expects latitude and longitude to be returned from you SQL source # in radians. # # Example: # client.set_anchor('lat', -0.6591741, 'long', 2.530770) # def set_anchor(lat_attr, lat, long_attr, long, units='') @anchor = { :latitude_attribute => lat_attr, :latitude => (units == 'degrees' ? lat * Math::PI / 180 : lat), :longitude_attribute => long_attr, :longitude => (units == 'degrees' ? long * Math::PI / 180 : long) } end # Append a query to the queue. This uses the same parameters as the query # method. def append_query(search, index = '*', comments = '') @queue << query_message(search, index, comments) end # Run all the queries currently in the queue. This will return an array of # results hashes. def run response = Response.new request(:search, @queue) results = @queue.collect do result = { :matches => [], :fields => [], :attributes => {}, :attribute_names => [], :words => {} } result[:status] = response.next_int case result[:status] when Statuses[:warning] result[:warning] = response.next when Statuses[:error] result[:error] = response.next next result end result[:fields] = response.next_array attributes = response.next_int for i in 0...attributes attribute_name = response.next type = response.next_int result[:attributes][attribute_name] = type result[:attribute_names] << attribute_name end matches = response.next_int is_64_bit = response.next_int for i in 0...matches doc = is_64_bit > 0 ? response.next_64bit_int : response.next_int weight = response.next_int result[:matches] << {:doc => doc, :weight => weight, :index => i, :attributes => {}} result[:attribute_names].each do |attr| result[:matches].last[:attributes][attr] = attribute_from_type( result[:attributes][attr], response ) end end result[:total] = response.next_int.to_i || 0 result[:total_found] = response.next_int.to_i || 0 result[:time] = ('%.3f' % (response.next_int / 1000.0)).to_f || 0.0 words = response.next_int for i in 0...words word = response.next docs = response.next_int hits = response.next_int result[:words][word] = {:docs => docs, :hits => hits} end result end @queue.clear results end # Query the Sphinx daemon - defaulting to all indexes, but you can specify # a specific one if you wish. The search parameter should be a string # following Sphinx's expectations. # # The object returned from this method is a hash with the following keys: # # * :matches # * :fields # * :attributes # * :attribute_names # * :words # * :total # * :total_found # * :time # * :status # * :warning (if appropriate) # * :error (if appropriate) # # The key :matches returns an array of hashes - the actual search # results. Each hash has the document id (:doc), the result # weighting (:weight), and a hash of the attributes for the # document (:attributes). # # The :fields and :attribute_names keys return list of # fields and attributes for the documents. The key :attributes # will return a hash of attribute name and type pairs, and :words # returns a hash of hashes representing the words from the search, with the # number of documents and hits for each, along the lines of: # # results[:words]["Pat"] #=> {:docs => 12, :hits => 15} # # :total, :total_found and :time return the # number of matches available, the total number of matches (which may be # greater than the maximum available, depending on the number of matches # and your sphinx configuration), and the time in milliseconds that the # query took to run. # # :status is the error code for the query - and if there was a # related warning, it will be under the :warning key. Fatal errors # will be described under :error. # def query(search, index = '*', comments = '') @queue << query_message(search, index, comments) self.run.first end # Build excerpts from search terms (the +words+) and the text of documents. Excerpts are bodies of text that have the +words+ highlighted. # They may also be abbreviated to fit within a word limit. # # As part of the options hash, you will need to # define: # * :docs # * :words # * :index # # Optional settings include: # * :before_match (defaults to ) # * :after_match (defaults to ) # * :chunk_separator (defaults to ' … ' - which is an HTML ellipsis) # * :limit (defaults to 256) # * :around (defaults to 5) # * :exact_phrase (defaults to false) # * :single_passage (defaults to false) # # The defaults differ from the official PHP client, as I've opted for # semantic HTML markup. # # Example: # # client.excerpts(:docs => ["Pat Allan, Pat Cash"], :words => 'Pat', :index => 'pats') # #=> ["Pat Allan, Pat Cash"] # # lorem_lipsum = "Lorem ipsum dolor..." # # client.excerpts(:docs => ["Pat Allan, #{lorem_lipsum} Pat Cash"], :words => 'Pat', :index => 'pats') # #=> ["Pat Allan, Lorem ipsum dolor sit amet, consectetur adipisicing # elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua … . Excepteur # sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est # laborum. Pat Cash"] # # Workflow: # # Excerpt creation is completely isolated from searching the index. The nominated index is only used to # discover encoding and charset information. # # Therefore, the workflow goes: # # 1. Do the sphinx query. # 2. Fetch the documents found by sphinx from their repositories. # 3. Pass the documents' text to +excerpts+ for marking up of matched terms. # def excerpts(options = {}) options[:index] ||= '*' options[:before_match] ||= '' options[:after_match] ||= '' options[:chunk_separator] ||= ' … ' # ellipsis options[:limit] ||= 256 options[:around] ||= 5 options[:exact_phrase] ||= false options[:single_passage] ||= false response = Response.new request(:excerpt, excerpts_message(options)) options[:docs].collect { response.next } end # Update attributes - first parameter is the relevant index, second is an # array of attributes to be updated, and the third is a hash, where the # keys are the document ids, and the values are arrays with the attribute # values - in the same order as the second parameter. # # Example: # # client.update('people', ['birthday'], {1 => [Time.at(1982, 20, 8).to_i]}) # def update(index, attributes, values_by_doc) response = Response.new request( :update, update_message(index, attributes, values_by_doc) ) response.next_int end # Generates a keyword list for a given query. Each keyword is represented # by a hash, with keys :tokenised and :normalised. If return_hits is set to # true it will also report on the number of hits and documents for each # keyword (see :hits and :docs keys respectively). def keywords(query, index, return_hits = false) response = Response.new request( :keywords, keywords_message(query, index, return_hits) ) (0...response.next_int).collect do hash = {} hash[:tokenised] = response.next hash[:normalised] = response.next if return_hits hash[:docs] = response.next_int hash[:hits] = response.next_int end hash end end private # Connects to the Sphinx daemon, and yields a socket to use. The socket is # closed at the end of the block. def connect(&block) socket = nil if @timeout == 0 socket = initialise_connection else begin Timeout.timeout(@timeout) { socket = initialise_connection } rescue Timeout::Error raise Riddle::ConnectionError, "Connection to #{@server} on #{@port} timed out after #{@timeout} seconds" end end begin yield socket ensure socket.close end end def initialise_connection socket = TCPSocket.new @server, @port # Checking version version = socket.recv(4).unpack('N*').first if version < 1 socket.close raise VersionError, "Can only connect to searchd version 1.0 or better, not version #{version}" end # Send version socket.send [1].pack('N'), 0 socket end # Send a collection of messages, for a command type (eg, search, excerpts, # update), to the Sphinx daemon. def request(command, messages) response = "" status = -1 version = 0 length = 0 message = Array(messages).join("") connect do |socket| case command when :search # Message length is +4 to account for the following count value for # the number of messages (well, that's what I'm assuming). socket.send [ Commands[command], Versions[command], 4+message.length, messages.length ].pack("nnNN") + message, 0 else socket.send [ Commands[command], Versions[command], message.length ].pack("nnN") + message, 0 end header = socket.recv(8) status, version, length = header.unpack('n2N') while response.length < (length || 0) part = socket.recv(length - response.length) response << part if part end end if response.empty? || response.length != length raise ResponseError, "No response from searchd (status: #{status}, version: #{version})" end case status when Statuses[:ok] if version < Versions[command] puts format("searchd command v.%d.%d older than client (v.%d.%d)", version >> 8, version & 0xff, Versions[command] >> 8, Versions[command] & 0xff) end response when Statuses[:warning] length = response[0, 4].unpack('N*').first puts response[4, length] response[4 + length, response.length - 4 - length] when Statuses[:error], Statuses[:retry] raise ResponseError, "searchd error (status: #{status}): #{response[4, response.length - 4]}" else raise ResponseError, "Unknown searchd error (status: #{status})" end end # Generation of the message to send to Sphinx for a search. def query_message(search, index, comments = '') message = Message.new # Mode, Limits, Sort Mode message.append_ints @offset, @limit, MatchModes[@match_mode], RankModes[@rank_mode], SortModes[@sort_mode] message.append_string @sort_by # Query message.append_string search # Weights message.append_int @weights.length message.append_ints *@weights # Index message.append_string index # ID Range message.append_int 1 message.append_64bit_ints @id_range.first, @id_range.last # Filters message.append_int @filters.length @filters.each { |filter| message.append filter.query_message } # Grouping message.append_int GroupFunctions[@group_function] message.append_string @group_by message.append_int @max_matches message.append_string @group_clause message.append_ints @cut_off, @retry_count, @retry_delay message.append_string @group_distinct # Anchor Point if @anchor.empty? message.append_int 0 else message.append_int 1 message.append_string @anchor[:latitude_attribute] message.append_string @anchor[:longitude_attribute] message.append_floats @anchor[:latitude], @anchor[:longitude] end # Per Index Weights message.append_int @index_weights.length @index_weights.each do |key,val| message.append_string key.to_s message.append_int val end # Max Query Time message.append_int @max_query_time # Per Field Weights message.append_int @field_weights.length @field_weights.each do |key,val| message.append_string key.to_s message.append_int val end message.append_string comments message.to_s end # Generation of the message to send to Sphinx for an excerpts request. def excerpts_message(options) message = Message.new flags = 1 flags |= 2 if options[:exact_phrase] flags |= 4 if options[:single_passage] flags |= 8 if options[:use_boundaries] flags |= 16 if options[:weight_order] message.append [0, flags].pack('N2') # 0 = mode message.append_string options[:index] message.append_string options[:words] # options message.append_string options[:before_match] message.append_string options[:after_match] message.append_string options[:chunk_separator] message.append_ints options[:limit], options[:around] message.append_array options[:docs] message.to_s end # Generation of the message to send to Sphinx to update attributes of a # document. def update_message(index, attributes, values_by_doc) message = Message.new message.append_string index message.append_array attributes message.append_int values_by_doc.length values_by_doc.each do |key,values| message.append_64bit_int key # document ID message.append_ints *values # array of new values (integers) end message.to_s end # Generates the simple message to send to the daemon for a keywords request. def keywords_message(query, index, return_hits) message = Message.new message.append_string query message.append_string index message.append_int return_hits ? 1 : 0 message.to_s end def attribute_from_type(type, response) type -= AttributeTypes[:multi] if is_multi = type > AttributeTypes[:multi] case type when AttributeTypes[:float] is_multi ? response.next_float_array : response.next_float else is_multi ? response.next_int_array : response.next_int end end end end