class Node < ActiveRecord::Base require 'xml/libxml' include GeoRecord set_table_name 'current_nodes' validates_presence_of :user_id, :timestamp validates_inclusion_of :visible, :in => [ true, false ] validates_numericality_of :latitude, :longitude validate :validate_position belongs_to :user has_many :old_nodes, :foreign_key => :id has_many :way_nodes has_many :ways, :through => :way_nodes has_many :old_way_nodes has_many :ways_via_history, :class_name=> "Way", :through => :old_way_nodes, :source => :way has_many :containing_relation_members, :class_name => "RelationMember", :as => :member has_many :containing_relations, :class_name => "Relation", :through => :containing_relation_members, :source => :relation, :extend => ObjectFinder # Sanity check the latitude and longitude and add an error if it's broken def validate_position errors.add_to_base("Node is not in the world") unless in_world? end # # Search for nodes matching tags within bounding_box # # Also adheres to limitations such as within max_number_of_nodes # def self.search(bounding_box, tags = {}) min_lon, min_lat, max_lon, max_lat = *bounding_box # @fixme a bit of a hack to search for only visible nodes # couldn't think of another to add to tags condition #conditions_hash = tags.merge({ 'visible' => 1 }) # using named placeholders http://www.robbyonrails.com/articles/2005/10/21/using-named-placeholders-in-ruby #keys = [] #values = {} #conditions_hash.each do |key,value| # keys << "#{key} = :#{key}" # values[key.to_sym] = value #end #conditions = keys.join(' AND ') find_by_area(min_lat, min_lon, max_lat, max_lon, :conditions => 'visible = 1', :limit => APP_CONFIG['max_number_of_nodes']+1) end # Read in xml as text and return it's Node object representation def self.from_xml(xml, create=false) begin p = XML::Parser.string(xml) doc = p.parse node = Node.new doc.find('//osm/node').each do |pt| node.lat = pt['lat'].to_f node.lon = pt['lon'].to_f return nil unless node.in_world? unless create if pt['id'] != '0' node.id = pt['id'].to_i end end node.visible = pt['visible'] and pt['visible'] == 'true' if create node.timestamp = Time.now else if pt['timestamp'] node.timestamp = Time.parse(pt['timestamp']) end end tags = [] pt.find('tag').each do |tag| tags << [tag['k'],tag['v']] end node.tags = Tags.join(tags) end rescue node = nil end return node end # Save this node with the appropriate OldNode object to represent it's history. def save_with_history! Node.transaction do self.timestamp = Time.now self.save! old_node = OldNode.from_node(self) old_node.save! end end # Turn this Node in to a complete OSM XML object with wrapper def to_xml doc = OSM::API.new.get_xml_doc doc.root << to_xml_node() return doc end # Turn this Node in to an XML Node without the wrapper. def to_xml_node(user_display_name_cache = nil) el1 = XML::Node.new 'node' el1['id'] = self.id.to_s el1['lat'] = self.lat.to_s el1['lon'] = self.lon.to_s user_display_name_cache = {} if user_display_name_cache.nil? if user_display_name_cache and user_display_name_cache.key?(self.user_id) # use the cache if available elsif self.user.data_public? user_display_name_cache[self.user_id] = self.user.display_name else user_display_name_cache[self.user_id] = nil end el1['user'] = user_display_name_cache[self.user_id] unless user_display_name_cache[self.user_id].nil? Tags.split(self.tags) do |k,v| el2 = XML::Node.new('tag') el2['k'] = k.to_s el2['v'] = v.to_s el1 << el2 end el1['visible'] = self.visible.to_s el1['timestamp'] = self.timestamp.xmlschema return el1 end # Return the node's tags as a Hash of keys and their values def tags_as_hash hash = {} Tags.split(self.tags) do |k,v| hash[k] = v end hash end end