include ConsistencyValidations
# maps each element type to the model class which handles it
- MODELS = {
- "node" => Node,
- "way" => Way,
+ MODELS = {
+ "node" => Node,
+ "way" => Way,
"relation" => Relation
}
def initialize(data, changeset)
@reader = XML::Reader.string(data)
@changeset = changeset
+ # document that's (re-)used to handle elements expanded out of the
+ # diff processing stream.
+ @doc = XML::Document.new
+ @doc.root = XML::Node.new("osm")
end
##
def read_or_die
# NOTE: XML::Reader#read returns false for EOF and raises an
# exception if an error occurs.
- begin
- @reader.read
- rescue LibXML::XML::Error => ex
- raise OSM::APIBadXMLError.new("changeset", xml, ex.message)
- end
+ @reader.read
+ rescue LibXML::XML::Error => ex
+ raise OSM::APIBadXMLError.new("changeset", xml, ex.message)
end
##
- # An element-block mapping for using the LibXML reader interface.
+ # An element-block mapping for using the LibXML reader interface.
#
# Since a lot of LibXML reader usage is boilerplate iteration through
# elements, it would be better to DRY and do this in a block. This
# read the first element
read_or_die
- while @reader.node_type != 15 do # end element
+ while @reader.node_type != 15 # end element
# because we read elements in DOM-style to reuse their DOM
# parsing code, we don't always read an element on each pass
# as the call to @reader.next in the innermost loop will take
else
read_or_die
end
- end
+ end
end
read_or_die
end
##
- # An element-block mapping for using the LibXML reader interface.
+ # An element-block mapping for using the LibXML reader interface.
#
# Since a lot of LibXML reader usage is boilerplate iteration through
# 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,model_attributes|
+ with_element do |model_name, _model_attributes|
model = MODELS[model_name]
- raise OSM::APIBadUserInput.new("Unexpected element type #{model_name}, " +
+ fail OSM::APIBadUserInput.new("Unexpected element type #{model_name}, " +
"expected node, way or relation.") if model.nil?
- yield model, @reader.expand
+ # new in libxml-ruby >= 2, expand returns an element not associated
+ # with a document. this means that there's no encoding parameter,
+ # which means basically nothing works.
+ expanded = @reader.expand
+
+ # create a new, empty document to hold this expanded node
+ new_node = @doc.import(expanded)
+ @doc.root << new_node
+
+ yield model, new_node
@reader.next
+
+ # remove element from doc - it will be garbage collected and the
+ # rest of the document is re-used in the next iteration.
+ @doc.root.child.remove!
end
end
# Checks a few invariants. Others are checked in the model methods
# such as save_ and delete_with_history.
def check(model, xml, new)
- raise OSM::APIBadXMLError.new(model, xml) if new.nil?
- unless new.changeset_id == @changeset.id
- raise OSM::APIChangesetMismatchError.new(new.changeset_id, @changeset.id)
+ fail OSM::APIBadXMLError.new(model, xml) if new.nil?
+ unless new.changeset_id == @changeset.id
+ fail OSM::APIChangesetMismatchError.new(new.changeset_id, @changeset.id)
end
end
# is *not* transactional, so code which calls it should ensure that the
# appropriate transaction block is in place.
#
- # On a failure to meet preconditions (e.g: optimistic locking fails)
+ # On a failure to meet preconditions (e.g: optimistic locking fails)
# an exception subclassing OSM::APIError will be thrown.
def commit
-
# data structure used for mapping placeholder IDs to real IDs
- node_ids, way_ids, rel_ids = {}, {}, {}
- ids = { :node => node_ids, :way => way_ids, :relation => rel_ids}
+ ids = { :node => {}, :way => {}, :relation => {} }
# take the first element and check that it is an osmChange element
@reader.read
- raise OSM::APIBadUserInput.new("Document element should be 'osmChange'.") if @reader.name != 'osmChange'
+ fail 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,action_attributes|
- if action_name == 'create'
+ 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.
with_model do |model, xml|
# when this element is saved it will get a new ID, so we save it
# to produce the mapping which is sent to other elements.
- placeholder_id = xml['id'].to_i
- raise OSM::APIBadXMLError.new(model, xml) if placeholder_id.nil?
+ placeholder_id = xml["id"].to_i
+ fail OSM::APIBadXMLError.new(model, xml) if placeholder_id.nil?
# check if the placeholder ID has been given before and throw
# an exception if it has - we can't create the same element twice.
model_sym = model.to_s.downcase.to_sym
- raise OSM::APIBadUserInput.new("Placeholder IDs must be unique for created elements.") if ids[model_sym].include? placeholder_id
+ fail OSM::APIBadUserInput.new("Placeholder IDs must be unique for created elements.") if ids[model_sym].include? placeholder_id
# some elements may have placeholders for other elements in the
# diff, so we must fix these before saving the element.
# create element given user
new.create_with_history(@changeset.user)
-
+
# save placeholder => allocated ID map
ids[model_sym][placeholder_id] = new.id
xml_result["new_version"] = new.version.to_s
result.root << xml_result
end
-
- elsif action_name == 'modify'
+
+ elsif action_name == "modify"
# modify an existing element. again, this code doesn't directly deal
# with types, but uses duck typing to handle them transparently.
with_model do |model, xml|
xml_result = XML::Node.new model.to_s.downcase
xml_result["old_id"] = client_id.to_s
- xml_result["new_id"] = 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!
xml_result["new_version"] = old.version.to_s
result.root << xml_result
end
- elsif action_name == 'delete'
+ elsif action_name == "delete"
# delete action. this takes a payload in API 0.6, so we need to do
# most of the same checks that are done for the modify.
with_model do |model, xml|
# 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 OSM::APIBadXMLError.new(model, xml, "ID attribute is required") if new_id.nil?
+ new_id = xml["id"].to_i
+ fail 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
# build the "new" element by modifying the existing one
new = model.find(id)
- new.changeset_id = xml['changeset'].to_i
- new.version = xml['version'].to_i
+ new.changeset_id = xml["changeset"].to_i
+ new.version = xml["version"].to_i
check(model, xml, new)
# fetch the matching old element from the DB
if action_attributes["if-unused"]
begin
old.delete_with_history!(new, @changeset.user)
- rescue OSM::APIPreconditionFailedError => ex
+ rescue OSM::APIAlreadyDeletedError, OSM::APIPreconditionFailedError
xml_result["new_id"] = old.id.to_s
xml_result["new_version"] = old.version.to_s
end
else
# no other actions to choose from, so it must be the users fault!
- raise OSM::APIChangesetActionInvalid.new(action_name)
+ fail OSM::APIChangesetActionInvalid.new(action_name)
end
end
# return the XML document to be rendered back to the client
- return result
+ result
end
-
end