-class OldNode < ActiveRecord::Base
- set_table_name 'nodes'
-
- validates_presence_of :user_id, :timestamp
- validates_inclusion_of :visible, :in => [ true, false ]
- validates_numericality_of :latitude, :longitude
- validate :validate_position
+# == Schema Information
+#
+# Table name: nodes
+#
+# node_id :bigint(8) not null, primary key
+# latitude :integer not null
+# longitude :integer not null
+# changeset_id :bigint(8) not null
+# visible :boolean not null
+# timestamp :datetime not null
+# tile :bigint(8) not null
+# version :bigint(8) not null, primary key
+# redaction_id :integer
+#
+# Indexes
+#
+# nodes_changeset_id_idx (changeset_id)
+# nodes_tile_idx (tile)
+# nodes_timestamp_idx (timestamp)
+#
+# Foreign Keys
+#
+# nodes_changeset_id_fkey (changeset_id => changesets.id)
+# nodes_redaction_id_fkey (redaction_id => redactions.id)
+#
- belongs_to :user
-
- before_save :update_tile
+class OldNode < ApplicationRecord
+ include GeoRecord
- def self.find_by_area(minlat, minlon, maxlat, maxlon, options)
- self.with_scope(:find => {:conditions => OSM.sql_for_area(minlat, minlon, maxlat, maxlon)}) do
- return self.find(:all, options)
- end
- end
+ self.table_name = "nodes"
- def update_tile
- self.tile = QuadTile.tile_for_point(lat, lon)
- end
+ # NOTE: this needs to be included after the table name changes, or
+ # the queries generated by Redactable will use the wrong table name.
+ include Redactable
- def lat=(l)
- self.latitude = (l * 10000000).round
- end
+ validates :changeset, :associated => true
+ validates :latitude, :presence => true,
+ :numericality => { :only_integer => true }
+ validates :longitude, :presence => true,
+ :numericality => { :only_integer => true }
+ validates :timestamp, :presence => true
+ validates :visible, :inclusion => [true, false]
- def lon=(l)
- self.longitude = (l * 10000000).round
- end
+ validate :validate_position
- def lat
- return self.latitude.to_f / 10000000
- end
+ belongs_to :changeset
+ belongs_to :redaction, :optional => true
+ belongs_to :current_node, :class_name => "Node", :foreign_key => "node_id", :inverse_of => :old_nodes
- def lon
- return self.longitude.to_f / 10000000
- end
+ has_many :old_tags, :class_name => "OldNodeTag", :foreign_key => [:node_id, :version], :inverse_of => :old_node
def validate_position
- errors.add_to_base("Node is not in the world") unless in_world?
- end
-
- def in_world?
- return false if self.lat < -90 or self.lat > 90
- return false if self.lon < -180 or self.lon > 180
- return true
+ errors.add(:base, "Node is not in the world") unless in_world?
end
def self.from_node(node)
old_node.visible = node.visible
old_node.tags = node.tags
old_node.timestamp = node.timestamp
- old_node.user_id = node.user_id
- old_node.id = node.id
- return old_node
+ old_node.changeset_id = node.changeset_id
+ old_node.node_id = node.id
+ old_node.version = node.version
+ old_node
+ end
+
+ def save_with_dependencies!
+ save!
+
+ tags.each do |k, v|
+ tag = OldNodeTag.new
+ tag.k = k
+ tag.v = v
+ tag.node_id = node_id
+ tag.version = version
+ tag.save!
+ end
+ end
+
+ def tags
+ @tags ||= old_tags.to_h { |t| [t.k, t.v] }
+ end
+
+ attr_writer :tags
+
+ # Pretend we're not in any ways
+ def ways
+ []
+ end
+
+ # Pretend we're not in any relations
+ def containing_relation_members
+ []
end
- def to_xml_node
- el1 = XML::Node.new 'node'
- el1['id'] = self.id.to_s
- el1['lat'] = self.lat.to_s
- el1['lon'] = self.lon.to_s
- el1['user'] = self.user.display_name if self.user.data_public?
- Node.split_tags(el1, self.tags)
- el1['visible'] = self.visible.to_s
- el1['timestamp'] = self.timestamp.xmlschema
- return el1
+ # check whether this element is the latest version - that is,
+ # has the same version as its "current" counterpart.
+ def latest_version?
+ current_node.version == version
end
end