# as the call to @reader.next in the innermost loop will take
# care of that for us.
if @reader.node_type == 1 # element
- yield @reader.name
+ name = @reader.name
+ attributes = {}
+
+ if @reader.has_attributes?
+ while @reader.move_to_next_attribute == 1
+ attributes[@reader.name] = @reader.value
+ end
+
+ @reader.move_to_element
+ end
+
+ yield name, attributes
else
read_or_die
end
# elements, it would be better to DRY and do this in a block. This
# could also help with error handling...?
def with_model
- with_element do |model_name|
+ with_element do |model_name,model_attributes|
model = MODELS[model_name]
raise OSM::APIBadUserInput.new("Unexpected element type #{model_name}, " +
"expected node, way or relation.") if model.nil?
# take the first element and check that it is an osmChange element
@reader.read
- raise APIBadUserInput.new("Document element should be 'osmChange'.") if @reader.name != 'osmChange'
+ raise OSM::APIBadUserInput.new("Document element should be 'osmChange'.") if @reader.name != 'osmChange'
result = OSM::API.new.get_xml_doc
result.root.name = "diffResult"
# loop at the top level, within the <osmChange> element
- with_element do |action_name|
+ with_element do |action_name,action_attributes|
if action_name == 'create'
# create a new element. this code is agnostic of the element type
# because all the elements support the methods that we're using.
# if the ID is a placeholder then map it to the real ID
model_sym = model.to_s.downcase.to_sym
- is_placeholder = ids[model_sym].include? new.id
- id = is_placeholder ? ids[model_sym][new.id] : new.id
+ client_id = new.id
+ is_placeholder = ids[model_sym].include? client_id
+ id = is_placeholder ? ids[model_sym][client_id] : client_id
# and the old one from the database
old = model.find(id)
+ # translate any placeholder IDs to their true IDs.
new.fix_placeholders!(ids)
+ new.id = id
+
old.update_from(new, @changeset.user)
xml_result = XML::Node.new model.to_s.downcase
- # oh, the irony... the "new" element actually contains the "old" ID
- # a better name would have been client/server, but anyway...
- xml_result["old_id"] = new.id.to_s
+ xml_result["old_id"] = client_id.to_s
xml_result["new_id"] = id.to_s
# version is updated in "old" through the update, so we must not
# return new.version here but old.version!
# delete doesn't have to contain a full payload, according to
# the wiki docs, so we just extract the things we need.
new_id = xml['id'].to_i
- raise API::APIBadXMLError.new(model, xml, "ID attribute is required") if new_id.nil?
+ raise OSM::APIBadXMLError.new(model, xml, "ID attribute is required") if new_id.nil?
# if the ID is a placeholder then map it to the real ID
model_sym = model.to_s.downcase.to_sym
# can a delete have placeholders under any circumstances?
# if a way is modified, then deleted is that a valid diff?
new.fix_placeholders!(ids)
- old.delete_with_history!(new, @changeset.user)
xml_result = XML::Node.new model.to_s.downcase
# oh, the irony... the "new" element actually contains the "old" ID
# a better name would have been client/server, but anyway...
xml_result["old_id"] = new_id.to_s
+
+ if action_attributes["if-unused"]
+ begin
+ old.delete_with_history!(new, @changeset.user)
+ rescue OSM::APIPreconditionFailedError => ex
+ xml_result["new_id"] = old.id.to_s
+ xml_result["new_version"] = old.version.to_s
+ end
+ else
+ old.delete_with_history!(new, @changeset.user)
+ end
+
result.root << xml_result
end