def _create_metadata_record(self, contact: Organization,
group: MrMapGroup):
""" Creates a Metadata record from the OGCWebMapService
Args:
contact (Organization): The contact organization for this metadata record
group (MrMapGroup): The owner/creator group
Returns:
metadata (Metadata): The persisted metadata record
"""
metadata = Metadata()
md_type = MetadataEnum.SERVICE.value
metadata.metadata_type = md_type
if self.service_file_iso_identifier is None:
# We didn't found any file identifier in the document -> we create one
self.service_file_iso_identifier = uuid.uuid4()
metadata.title = self.service_identification_title
metadata.abstract = self.service_identification_abstract
metadata.online_resource = self.service_provider_onlineresource_linkage
metadata.capabilities_original_uri = self.service_connect_url
metadata.access_constraints = self.service_identification_accessconstraints
metadata.fees = self.service_identification_fees
if self.service_bounding_box is not None:
metadata.bounding_geometry = self.service_bounding_box
metadata.identifier = self.service_file_identifier
metadata.is_active = False
metadata.created_by = group
metadata.contact = contact
# Save metadata instance to be able to add M2M entities
metadata.save()
return metadata
def create_service_model_instance(self, user: MrMapUser, register_group,
register_for_organization, external_auth,
is_update_candidate_for):
""" Map all data from the OGCCatalogueService class to their database models
Args:
user (MrMapUser): The user which performs the action
register_group (Group): The group which is used to register this service
register_for_organization (Organization): The organization for which this service is being registered
external_auth (ExternalAuthentication): The external authentication object
Returns:
service (Service): Service instance, contains all information, ready for persisting!
"""
if current_task:
current_task.update_state(state=states.STARTED,
meta={
'current':
PROGRESS_STATUS_AFTER_PARSING,
'phase': 'Persisting...',
})
md = Metadata()
md_type = MetadataEnum.CATALOGUE.value
md.metadata_type = md_type
md.title = self.service_identification_title
md.identifier = self.service_file_identifier
md.abstract = self.service_identification_abstract
md.online_resource = self.service_provider_onlineresource_linkage
md.contact = self._create_contact_organization_record()
md.authority_url = self.service_provider_url
md.access_constraints = self.service_identification_accessconstraints
md.fees = self.service_identification_fees
md.created_by = register_group
md.capabilities_original_uri = self.service_connect_url
if self.service_bounding_box is not None:
md.bounding_geometry = self.service_bounding_box
# Save metadata record so we can use M2M or id of record later
md.save()
md.identifier = str(md.id) if md.identifier is None else md.identifier
# Keywords
for kw in self.service_identification_keywords:
if kw is None:
continue
keyword = Keyword.objects.get_or_create(keyword=kw)[0]
md.keywords.add(keyword)
md.formats.add(*self.formats_list)
md.save()
service = self._create_service_record(register_group,
register_for_organization, md,
is_update_candidate_for)
return service
def _create_metadata_record(self, parent_service: Service,
group: MrMapGroup):
""" Creates a Metadata record from the OGCLayer object
Args:
self (OGCLayer): The OGCLayer object (result of parsing)
parent_service (Service): The parent Service object
group (MrMapGroup): The creator/owner group
Returns:
metadata (Metadata): The persisted metadata object
"""
metadata = Metadata()
md_type = MetadataEnum.LAYER.value
metadata.metadata_type = md_type
metadata.title = self.title
metadata.abstract = self.abstract
metadata.online_resource = parent_service.metadata.online_resource
metadata.capabilities_original_uri = parent_service.metadata.capabilities_original_uri
metadata.identifier = self.identifier
metadata.contact = parent_service.metadata.contact
metadata.access_constraints = parent_service.metadata.access_constraints
metadata.is_active = False
metadata.created_by = group
# Save metadata to use id afterwards
metadata.save()
# create bounding box polygon
bounding_points = ((float(self.capability_bbox_lat_lon["minx"]),
float(self.capability_bbox_lat_lon["miny"])),
(float(self.capability_bbox_lat_lon["minx"]),
float(self.capability_bbox_lat_lon["maxy"])),
(float(self.capability_bbox_lat_lon["maxx"]),
float(self.capability_bbox_lat_lon["maxy"])),
(float(self.capability_bbox_lat_lon["maxx"]),
float(self.capability_bbox_lat_lon["miny"])),
(float(self.capability_bbox_lat_lon["minx"]),
float(self.capability_bbox_lat_lon["miny"])))
metadata.bounding_geometry = Polygon(bounding_points)
metadata.save()
return metadata