module RDF ## # An RDF blank node, also known as an anonymous or unlabeled node. # # @example Creating a blank node with an implicit identifier # bnode = RDF::Node.new # # @example Creating a blank node with an UUID identifier # bnode = RDF::Node.uuid # bnode.to_s #=> "_:504c0a30-0d11-012d-3f50-001b63cac539" # class Node include RDF::Resource ## # Cache size may be set through {RDF.config} using `node_cache_size`. # # @note caching interned nodes means that two different invocations using the same symbol will result in the same node, which may not be appropriate depending on the graph from which it is used. RDF requires that bnodes with the same label are, in fact, different bnodes, unless they are used within the same document. # @return [RDF::Util::Cache] # @private def self.cache require 'rdf/util/cache' unless defined?(::RDF::Util::Cache) @cache ||= RDF::Util::Cache.new(RDF.config.node_cache_size) end ## # Returns a blank node with a random UUID-based identifier. # # (Depends on availability of either `uuid` or `uuidtools` gems). # # @param [:default, :compact] format (:default) # Formats supported by the UUID generator: # * `:default` Produces 36 characters, including hyphens separating the UUID value parts # * `:compact` Produces a 32 digits (hexadecimal) value with no hyphens # * `:urn` Adds the prefix urn:uuid: to the default format # # Requires that the `uuid` gem be loadable to use `format` # @return [RDF::Node] def self.uuid(format: :default) uuid = RDF::Util::UUID.generate(format: format) self.new(uuid) end ## # Alias for `RDF::Node.new`, at the moment. # # @private # @param [#to_s] id # @return [RDF::Node] # @since 0.2.0 def self.intern(id) (cache[(id = id.to_s).to_sym] ||= self.new(id)).freeze end ## # Override #dup to remember original object. # This allows .eql? to determine that two nodes # are the same thing, and not different nodes # instantiated with the same identifier. # @return [RDF::Node] def dup node = super node.original = self.original || self node end ## # Originally instantiated node, if any # @return [RDF::Node] attr_accessor :original # @return [String] attr_accessor :id ## # @param [#to_s] id def initialize(id = nil) id = nil if id.to_s.empty? @id = (id || "g#{__id__.to_i.abs}").to_s.freeze end ## # Returns `true`. # # @return [Boolean] def node? true end ## # Returns `true`. # # @return [Boolean] def anonymous? true end alias_method :unlabeled?, :anonymous? ## # Returns `false`. # # @return [Boolean] def labeled? !unlabeled? end ## # Returns a hash code for this blank node. # # @return [Integer] def hash @id.hash end ## # Determines if `self` is the same term as `other`. # # In this case, nodes must be the same object # # @param [Node] other # @return [Boolean] def eql?(other) other.is_a?(RDF::Node) && (self.original || self).equal?(other.original || other) end ## # Checks whether this blank node is equal to `other` (type checking). # # In this case, different nodes having the same id are considered the same. # # Per SPARQL data-r2/expr-equal/eq-2-2, numeric can't be compared with other types # # @param [Object] other # @return [Boolean] # @see http://www.w3.org/TR/rdf-sparql-query/#func-RDFterm-equal def ==(other) if other.is_a?(Literal) # If other is a Literal, reverse test to consolodate complex type checking logic other == self else other.respond_to?(:node?) && other.node? && self.hash == other.to_term.hash && other.respond_to?(:id) && @id == other.to_term.id end end alias_method :===, :== ## # Returns a representation of this node independent of any identifier used to initialize it # # @return [String] def to_unique_base original ? original.to_unique_base : "_:g#{__id__.to_i.abs}" end ## # Make this term identifier unique, if it is found to be shared with another node having the same identifier # @return [self] def make_unique! @id = to_unique_base[2..-1] self end ## # Returns a string representation of this blank node. # # @return [String] def to_s "_:%s" % @id.to_s end ## # Returns a symbol representation of this blank node. # # @return [Symbol] # @since 0.2.0 def to_sym @id.to_s.to_sym end end end