module Neo4j module NodeRelationship include ToJava # Returns the outgoing nodes for this node. # # ==== Returns # a Neo4j::NodeTraverser which can be used to further specify which nodes should be included # in traversal by using the depth, filter and prune methods. # # ==== Examples # # Find all my friends (nodes of depth 1 of type friends) # me.outgoing(:friends).each {|friend| puts friend[:name]} # # # Find all my friends and their friends (nodes of depth 1 of type friends) # # me.outgoing(:friends).depth(2).each {|friend| puts friend[:name]} # # # Find all my friends and include my self in the result # me.outgoing(:friends).depth(4).include_start_node.each {...} # # # Find all my friends friends friends, etc. at any depth # me.outgoing(:friends).depth(:all).each {...} # # # Find all my friends friends but do not include my friends (only depth == 2) # me.outgoing(:friends).depth(2).filter{|path| path.length == 2} # # # Find all my friends but 'cut off' some parts of the traversal path # me.outgoing(:friends).depth(42).prune(|path| an_expression_using_path_returning_true_false } # # # Find all my friends and work colleges # me.outgoing(:friends).outgoing(:work).each {...} # # Of course all the methods outgoing, incoming, both, depth, include_start_node, filter, and prune can be combined. # def outgoing(type) if type NodeTraverser.new(self).outgoing(type) else raise "not implemented yet" NodeTraverser.new(self) end end # Returns the incoming nodes of given type(s). # # See #outgoing # def incoming(type) if type NodeTraverser.new(self).incoming(type) else raise "not implemented yet" NodeTraverser.new(self) end end # Returns both incoming and outgoing nodes of given types(s) # # If a type is not given then it will return all types of relationships. # # See #outgoing # def both(type=nil) if type NodeTraverser.new(self).both(type) else NodeTraverser.new(self) # default is both end end # Returns an enumeration of relationship objects. # It always returns relationship of depth one. # # See Neo4j::Relationship # # ==== Examples # # Return both incoming and outgoing relationships # me.rels(:friends, :work).each {|relationship|...} # # # Only return outgoing relationship of given type # me.rels(:friends).outgoing.first.end_node # => my friend node # def rels(*type) RelationshipTraverser.new(self, type, :both) end # Returns the only relationship of a given type and direction that is attached to this node, or null. # This is a convenience method that is used in the commonly occuring situation where a node has exactly zero or # one relationships of a given type and direction to another node. # Typically this invariant is maintained by the rest of the code: if at any time more than one such relationships # exist, it is a fatal error that should generate an unchecked exception. This method reflects that semantics and # returns either: # # * nil if there are zero relationships of the given type and direction, # * the relationship if there's exactly one, or # * raise an exception in all other cases. def rel(dir, type) result = _rel(dir, type) result && result.wrapper end # Same as rel but does not return a ruby wrapped object but instead returns the Java object. def _rel(dir, type) get_single_relationship(type_to_java(type), dir_to_java(dir)) end # Returns the raw java neo4j relationship object. def rels_raw(dir=:both, *types) if types.size > 1 java_types = types.inject([]) { |result, type| result << type_to_java(type) }.to_java(:'org.neo4j.graphdb.RelationshipType') get_relationships(java_types) elsif types.size == 1 get_relationships(type_to_java(types[0], dir_to_java(dir))) elsif dir == :both get_relationships(dir_to_java(dir)) else raise "illegal argument, does not accept #{dir} #{types.join(',')} - only dir=:both for any relationship types" end end # Check if the given relationship exists # Returns true if there are one or more relationships from this node to other nodes # with the given relationship. # # ==== Parameters # type:: the key and value to be set, default any type # dir:: optional default :both (either, :outgoing, :incoming, :both) # # ==== Returns # true if one or more relationships exists for the given type and dir # otherwise false # def rel? (type=nil, dir=:both) if type hasRelationship(type_to_java(type), dir_to_java(dir)) else hasRelationship end end end end