module CSL class Locale class Terms < Node attr_children :term alias terms term def_delegators :terms, :size, :length undef_method :[]= def initialize(attributes = {}) super(attributes) children[:term] = [] @registry = Term::Registry.new @ordinals = Term::Registry.new yield self if block_given? end alias each each_child # @return [Term, nil] the first term that matches the query def lookup(name, options = {}) options = Term.specialize(options) options[:name] = name = name.to_s term = registry[name].detect { |t| t.match?(options) } return term unless term.nil? && options.delete(:'gender-form') registry[name].detect { |t| t.match?(options) } end alias [] lookup def ordinalize(number, options = {}) return unless has_ordinals? options = Term.specialize(options) number = number.to_i.abs # try to match long-ordinals first if options.delete(:form).to_s =~ /^long/i ordinal = lookup_long_ordinal_for number, options return ordinal unless ordinal.nil? end # select CSL 1.0 or 1.0.1 algorithm algorithm = ordinalizer ordinal = send algorithm, number, options return ordinal unless ordinal.nil? # fallback to non-gendered version if options.delete(:'gender-form') ordinal = send algorithm, number, options end ordinal end def ordinalizer if has_legacy_ordinals? :lookup_legacy_ordinals_for else :lookup_ordinals_for end end def lookup_long_ordinal_for(number, options = {}) ordinals[number].detect { |t| t.long_ordinal? && t.match?(options) } end def lookup_ordinals_for(number, options = {}) ordinal = lookup_ordinal_for(number, nil, options) return ordinal unless ordinal.nil? unless number < 100 ordinal = lookup_ordinal_for(number, 100, options) return ordinal unless ordinal.nil? end unless number < 10 ordinal = lookup_ordinal_for(number, 10, options) return ordinal unless ordinal.nil? end default_ordinals.detect { |t| t.match?(options) } end def lookup_ordinal_for(number, divisor, options = {}) modulus = divisor ? (number % divisor) : number ordinals[modulus].detect do |t| t.short_ordinal? && t.match?(options) && t.match_modulo?(number) end end def lookup_legacy_ordinals_for(number, options = {}) case when (11..13).include?(number.abs % 100) ordinals[4].detect { |t| t.match?(options) } when (1..3).include?(number.abs % 10) ordinals[number.abs % 10].detect { |t| t.match?(options) } else ordinals[4].detect { |t| t.match?(options) } end end # @return [Boolean] whether or not regular terms are registered at this node def has_terms? !registry.empty? end # @return [Boolean] whether or not ordinal terms are registered at this node def has_ordinals? !ordinals.empty? end def has_legacy_ordinals? has_ordinals? && !ordinals.key?(:default) end def default_ordinals ordinals[:default] end def drop_ordinals tmp = ordinals.values.flatten(1) ordinals.clear delete_children tmp end private # @!attribute [r] registry # @return [Hash] a private registry to map term names to the respective # term objects for quick term look-up attr_reader :registry # @!attribute [r] ordinals # @return [Hash] a private registry to map ordinals to the respective # term objects for quick ordinal look-up attr_reader :ordinals def added_child(term) raise ValidationError, "failed to register term #{term.inspect}: name attribute missing" unless term.attribute?(:name) if term.ordinal? store = ordinals[term.ordinal] else store = registry[term[:name]] end delete_children store.select { |value| term.exact_match? value } store.push(term) term end def deleted_child(term) if term.ordinal? ordinals[term.ordinal].delete(term) else registry[term[:name]].delete(term) end end end class Term < Node attr_struct :name, :form, :gender, :'gender-form', :match attr_children :single, :multiple attr_accessor :text def_delegators :attributes, :hash, :eql?, :name, :form, :gender class << self def specialize(options) options = options.select do |k,v| !v.nil? && Term::Attributes.keys.include?(k.to_sym) end options.delete :'gender-form' unless options[:'gender-form'].to_s =~ /^masculine|feminine$/ options end end # This method returns whether or not the ordinal term matchs the # passed-in modulus. This is determined by the ordinal term's match # attribute: a value of 'last-two-digits' matches a modulus of 100, # 'last-digit' matches a modulus of 10 and 'whole-number' matches # only if the number is identical to the ordinal value. # # If the term is no ordinal term, this methods always returns false. # # @return [Boolean] whether or not the ordinal term matches the # passed-in number. def match_modulo?(number) return false unless ordinal? case attributes.match when 'last-two-digits' ordinal == number % 100 when 'last-digit' ordinal == number % 10 when 'whole-number' ordinal == number else true end end alias matches_modulo? match_modulo? # @return [Boolean] whether or not this term is an ordinal term def ordinal? /^(long-)?ordinal(-\d\d+)?$/ === attributes.name end # @return [Boolean] whether or not this term is a long-ordinal term def long_ordinal? /^long-ordinal(-\d\d+)?$/ === attributes.name end # @return [Boolean] whether or not this term is a regular ordinal term def short_ordinal? /^ordinal(-\d\d+)?$/ === attributes.name end def default_ordinal? attributes.name == 'ordinal' end # @return [Fixnum, :default, nil] def ordinal return unless ordinal? return :default if attributes.name == 'ordinal' attributes.name[/\d+/].to_i end def gendered? !attributes.gender.blank? end def neutral? !gendered? end def short? attribute?(:form) && attributes.form.to_s =~ /^short$/i end def long? !short? end def textnode? !text.blank? end def singularize return text if textnode? children.single.to_s end alias singular singularize def pluralize return text if textnode? children.multiple.to_s end alias plural pluralize # @!method masculine? # @return [Boolean] whether or not the term is masculine # @!method masculine! # @return [self,nil] the term with the gender attribute set to # 'masculine', or nil if the term was already masculine # @!method feminine? # @return [Boolean] whether or not the term is feminie # @!method feminine! # @return [self,nil] the term with the gender attribute set to # 'feminine', or nil if the term was already feminine %w{ masculine feminine }.each do |name| define_method("#{name}?") do attributes.gender.to_s == name end define_method("#{name}!") do return nil if attributes.gender.to_s == name attributes.gender = name self end end def tags if textnode? ["<#{[nodename, *attribute_assignments].join(' ')}>", text, ""] else super end end # @param options [Hash,nil] an optional configuration hash # # @option options [:singular,:plural] :number (:singular) whether to # return the term's singular or plural variant. # @option options [Boolean] :plural (false) whether or not to return # the term's plural variant (this option, if set, takes precedence # over :number). # # @return [String] the term as a string def to_s(options = nil) if textnode? text else if pluralize?(options) pluralize else singularize end end end class Single < TextNode; end class Multiple < TextNode; end private def pluralize?(options) return false if options.nil? case when options.key?(:plural) || options.key?('plural') options[:plural] || options['plural'] when options.key?(:number) || options.key?('number') key = options[:number] || options['number'] if key.is_a?(Fixnum) || key.to_s =~ /^[+-]?\d+$/ key.to_i > 1 else !key.blank? && key.to_s =~ /^plural/i end else false end end class Registry < ::Hash def initialize super { |h,k| h[k] = [] } end end end TextNode.types << Term end end