require 'chronic/handlers' module Chronic class Parser include Handlers # Hash of default configuration options. DEFAULT_OPTIONS = { :context => :future, :now => nil, :hours24 => nil, :guess => true, :ambiguous_time_range => 6, :endian_precedence => [:middle, :little], :ambiguous_year_future_bias => 50 } attr_accessor :now attr_reader :options # options - An optional Hash of configuration options: # :context - If your string represents a birthday, you can set # this value to :past and if an ambiguous string is # given, it will assume it is in the past. # :now - Time, all computations will be based off of time # instead of Time.now. # :hours24 - Time will be parsed as it would be 24 hour clock. # :guess - By default the parser will guess a single point in time # for the given date or time. If you'd rather have the # entire time span returned, set this to false # and a Chronic::Span will be returned. Setting :guess to :end # will return last time from Span, to :middle for middle (same as just true) # and :begin for first time from span. # :ambiguous_time_range - If an Integer is given, ambiguous times # (like 5:00) will be assumed to be within the range of # that time in the AM to that time in the PM. For # example, if you set it to `7`, then the parser will # look for the time between 7am and 7pm. In the case of # 5:00, it would assume that means 5:00pm. If `:none` # is given, no assumption will be made, and the first # matching instance of that time will be used. # :endian_precedence - By default, Chronic will parse "03/04/2011" # as the fourth day of the third month. Alternatively you # can tell Chronic to parse this as the third day of the # fourth month by setting this to [:little, :middle]. # :ambiguous_year_future_bias - When parsing two digit years # (ie 79) unlike Rubys Time class, Chronic will attempt # to assume the full year using this figure. Chronic will # look x amount of years into the future and past. If the # two digit year is `now + x years` it's assumed to be the # future, `now - x years` is assumed to be the past. def initialize(options = {}) @options = DEFAULT_OPTIONS.merge(options) @now = options.delete(:now) || Chronic.time_class.now end # Parse "text" with the given options # Returns either a Time or Chronic::Span, depending on the value of options[:guess] def parse(text) tokens = tokenize(text, options) span = tokens_to_span(tokens, options.merge(:text => text)) puts "+#{'-' * 51}\n| #{tokens}\n+#{'-' * 51}" if Chronic.debug guess(span, options[:guess]) if span end # Clean up the specified text ready for parsing. # # Clean up the string by stripping unwanted characters, converting # idioms to their canonical form, converting number words to numbers # (three => 3), and converting ordinal words to numeric # ordinals (third => 3rd) # # text - The String text to normalize. # # Examples: # # Chronic.pre_normalize('first day in May') # #=> "1st day in may" # # Chronic.pre_normalize('tomorrow after noon') # #=> "next day future 12:00" # # Chronic.pre_normalize('one hundred and thirty six days from now') # #=> "136 days future this second" # # Returns a new String ready for Chronic to parse. def pre_normalize(text) text = text.to_s.downcase text.gsub!(/\b(\d{2})\.(\d{2})\.(\d{4})\b/, '\3 / \2 / \1') text.gsub!(/\b([ap])\.m\.?/, '\1m') text.gsub!(/(\s+|:\d{2}|:\d{2}\.\d{3})\-(\d{2}:?\d{2})\b/, '\1tzminus\2') text.gsub!(/\./, ':') text.gsub!(/([ap]):m:?/, '\1m') text.gsub!(/['"]/, '') text.gsub!(/,/, ' ') text.gsub!(/^second /, '2nd ') text.gsub!(/\bsecond (of|day|month|hour|minute|second)\b/, '2nd \1') text = Numerizer.numerize(text) text.gsub!(/([\/\-\,\@])/) { ' ' + $1 + ' ' } text.gsub!(/(?:^|\s)0(\d+:\d+\s*pm?\b)/, ' \1') text.gsub!(/\btoday\b/, 'this day') text.gsub!(/\btomm?orr?ow\b/, 'next day') text.gsub!(/\byesterday\b/, 'last day') text.gsub!(/\bnoon\b/, '12:00pm') text.gsub!(/\bmidnight\b/, '24:00') text.gsub!(/\bnow\b/, 'this second') text.gsub!('quarter', '15') text.gsub!('half', '30') text.gsub!(/(\d{1,2}) (to|till|prior to|before)\b/, '\1 minutes past') text.gsub!(/(\d{1,2}) (after|past)\b/, '\1 minutes future') text.gsub!(/\b(?:ago|before(?: now)?)\b/, 'past') text.gsub!(/\bthis (?:last|past)\b/, 'last') text.gsub!(/\b(?:in|during) the (morning)\b/, '\1') text.gsub!(/\b(?:in the|during the|at) (afternoon|evening|night)\b/, '\1') text.gsub!(/\btonight\b/, 'this night') text.gsub!(/\b\d+:?\d*[ap]\b/,'\0m') text.gsub!(/\b(\d{2})(\d{2})(am|pm)\b/, '\1:\2\3') text.gsub!(/(\d)([ap]m|oclock)\b/, '\1 \2') text.gsub!(/\b(hence|after|from)\b/, 'future') text.gsub!(/^\s?an? /i, '1 ') text.gsub!(/\b(\d{4}):(\d{2}):(\d{2})\b/, '\1 / \2 / \3') # DTOriginal text.gsub!(/\b0(\d+):(\d{2}):(\d{2}) ([ap]m)\b/, '\1:\2:\3 \4') text end # Guess a specific time within the given span. # # span - The Chronic::Span object to calcuate a guess from. # # Returns a new Time object. def guess(span, mode = :middle) return span if not mode return span.begin + span.width / 2 if span.width > 1 and (mode == true or mode == :middle) return span.end if mode == :end span.begin end # List of Handler definitions. See Chronic.parse for a list of options this # method accepts. # # options - An optional Hash of configuration options. # # Returns a Hash of Handler definitions. def definitions(options = {}) options[:endian_precedence] ||= [:middle, :little] @@definitions ||= { :time => [ Handler.new([:repeater_time, :repeater_day_portion?], nil) ], :date => [ Handler.new([:repeater_day_name, :repeater_month_name, :scalar_day, :repeater_time, [:separator_slash?, :separator_dash?], :time_zone, :scalar_year], :handle_generic), Handler.new([:repeater_day_name, :repeater_month_name, :scalar_day], :handle_rdn_rmn_sd), Handler.new([:repeater_day_name, :repeater_month_name, :scalar_day, :scalar_year], :handle_rdn_rmn_sd_sy), Handler.new([:repeater_day_name, :repeater_month_name, :ordinal_day], :handle_rdn_rmn_od), Handler.new([:repeater_day_name, :repeater_month_name, :ordinal_day, :scalar_year], :handle_rdn_rmn_od_sy), Handler.new([:repeater_day_name, :repeater_month_name, :scalar_day, :separator_at?, 'time?'], :handle_rdn_rmn_sd), Handler.new([:repeater_day_name, :repeater_month_name, :ordinal_day, :separator_at?, 'time?'], :handle_rdn_rmn_od), Handler.new([:repeater_day_name, :ordinal_day, :separator_at?, 'time?'], :handle_rdn_od), Handler.new([:scalar_year, [:separator_slash, :separator_dash], :scalar_month, [:separator_slash, :separator_dash], :scalar_day, :repeater_time, :time_zone], :handle_generic), Handler.new([:ordinal_day], :handle_generic), Handler.new([:repeater_month_name, :scalar_day, :scalar_year], :handle_rmn_sd_sy), Handler.new([:repeater_month_name, :ordinal_day, :scalar_year], :handle_rmn_od_sy), Handler.new([:repeater_month_name, :scalar_day, :scalar_year, :separator_at?, 'time?'], :handle_rmn_sd_sy), Handler.new([:repeater_month_name, :ordinal_day, :scalar_year, :separator_at?, 'time?'], :handle_rmn_od_sy), Handler.new([:repeater_month_name, [:separator_slash?, :separator_dash?], :scalar_day, :separator_at?, 'time?'], :handle_rmn_sd), Handler.new([:repeater_time, :repeater_day_portion?, :separator_on?, :repeater_month_name, :scalar_day], :handle_rmn_sd_on), Handler.new([:repeater_month_name, :ordinal_day, :separator_at?, 'time?'], :handle_rmn_od), Handler.new([:ordinal_day, :repeater_month_name, :scalar_year, :separator_at?, 'time?'], :handle_od_rmn_sy), Handler.new([:ordinal_day, :repeater_month_name, :separator_at?, 'time?'], :handle_od_rmn), Handler.new([:ordinal_day, :grabber?, :repeater_month, :separator_at?, 'time?'], :handle_od_rm), Handler.new([:scalar_year, :repeater_month_name, :ordinal_day], :handle_sy_rmn_od), Handler.new([:repeater_time, :repeater_day_portion?, :separator_on?, :repeater_month_name, :ordinal_day], :handle_rmn_od_on), Handler.new([:repeater_month_name, :scalar_year], :handle_rmn_sy), Handler.new([:scalar_day, :repeater_month_name, :scalar_year, :separator_at?, 'time?'], :handle_sd_rmn_sy), Handler.new([:scalar_day, [:separator_slash?, :separator_dash?], :repeater_month_name, :separator_at?, 'time?'], :handle_sd_rmn), Handler.new([:scalar_year, [:separator_slash, :separator_dash], :scalar_month, [:separator_slash, :separator_dash], :scalar_day, :separator_at?, 'time?'], :handle_sy_sm_sd), Handler.new([:scalar_year, [:separator_slash, :separator_dash], :scalar_month], :handle_sy_sm), Handler.new([:scalar_month, [:separator_slash, :separator_dash], :scalar_year], :handle_sm_sy), Handler.new([:scalar_day, [:separator_slash, :separator_dash], :repeater_month_name, [:separator_slash, :separator_dash], :scalar_year, :repeater_time?], :handle_sm_rmn_sy), Handler.new([:scalar_year, [:separator_slash, :separator_dash], :scalar_month, [:separator_slash, :separator_dash], :scalar?, :time_zone], :handle_generic), ], :anchor => [ Handler.new([:separator_on?, :grabber?, :repeater, :separator_at?, :repeater?, :repeater?], :handle_r), Handler.new([:grabber?, :repeater, :repeater, :separator?, :repeater?, :repeater?], :handle_r), Handler.new([:repeater, :grabber, :repeater], :handle_r_g_r) ], :arrow => [ Handler.new([:scalar, :repeater, :pointer], :handle_s_r_p), Handler.new([:scalar, :repeater, :separator_and?, :scalar, :repeater, :pointer, :separator_at?, 'anchor'], :handle_s_r_a_s_r_p_a), Handler.new([:pointer, :scalar, :repeater], :handle_p_s_r), Handler.new([:scalar, :repeater, :pointer, :separator_at?, 'anchor'], :handle_s_r_p_a) ], :narrow => [ Handler.new([:ordinal, :repeater, :separator_in, :repeater], :handle_o_r_s_r), Handler.new([:ordinal, :repeater, :grabber, :repeater], :handle_o_r_g_r) ] } endians = [ Handler.new([:scalar_month, [:separator_slash, :separator_dash], :scalar_day, [:separator_slash, :separator_dash], :scalar_year, :separator_at?, 'time?'], :handle_sm_sd_sy), Handler.new([:scalar_month, [:separator_slash, :separator_dash], :scalar_day, :separator_at?, 'time?'], :handle_sm_sd), Handler.new([:scalar_day, [:separator_slash, :separator_dash], :scalar_month, :separator_at?, 'time?'], :handle_sd_sm), Handler.new([:scalar_day, [:separator_slash, :separator_dash], :scalar_month, [:separator_slash, :separator_dash], :scalar_year, :separator_at?, 'time?'], :handle_sd_sm_sy) ] case endian = Array(options[:endian_precedence]).first when :little @@definitions.merge(:endian => endians.reverse) when :middle @@definitions.merge(:endian => endians) else raise ArgumentError, "Unknown endian option '#{endian}'" end end private def tokenize(text, options) text = pre_normalize(text) tokens = text.split(' ').map { |word| Token.new(word) } [Repeater, Grabber, Pointer, Scalar, Ordinal, Separator, Sign, TimeZone].each do |tok| tok.scan(tokens, options) end tokens.select { |token| token.tagged? } end def tokens_to_span(tokens, options) definitions = definitions(options) (definitions[:endian] + definitions[:date]).each do |handler| if handler.match(tokens, definitions) good_tokens = tokens.select { |o| !o.get_tag Separator } return handler.invoke(:date, good_tokens, self, options) end end definitions[:anchor].each do |handler| if handler.match(tokens, definitions) good_tokens = tokens.select { |o| !o.get_tag Separator } return handler.invoke(:anchor, good_tokens, self, options) end end definitions[:arrow].each do |handler| if handler.match(tokens, definitions) good_tokens = tokens.reject { |o| o.get_tag(SeparatorAt) || o.get_tag(SeparatorSlash) || o.get_tag(SeparatorDash) || o.get_tag(SeparatorComma) || o.get_tag(SeparatorAnd) } return handler.invoke(:arrow, good_tokens, self, options) end end definitions[:narrow].each do |handler| if handler.match(tokens, definitions) return handler.invoke(:narrow, tokens, self, options) end end puts "-none" if Chronic.debug return nil end end end