def create_element(name, **attrs):
# copy.deepcopy() is an order of magnitude faster than creating a new Element() every time
if ':' in name:
ns, name = name.split(':')
name = '{%s}%s' % (ns_translation[ns], name)
elem = RestrictedElement(**attrs)
elem.tag = name
return elem
def create_element(name, **attrs):
# copy.deepcopy() is an order of magnitude faster than creating a new Element() every time
if ':' in name:
ns, name = name.split(':')
name = '{%s}%s' % (ns_translation[ns], name)
elem = RestrictedElement(**attrs)
elem.tag = name
return elem
def create_element(name, attrs=None, nsmap=None):
# Python versions prior to 3.6 do not preserve dict or kwarg ordering, so we cannot pull in attrs as **kwargs if we
# also want stable XML attribute output. Instead, let callers supply us with an OrderedDict instance.
if ':' in name:
ns, name = name.split(':')
name = '{%s}%s' % (ns_translation[ns], name)
elem = RestrictedElement(attrib=attrs, nsmap=nsmap)
elem.tag = name
return elem
def create_element(name, attrs=None, nsmap=None):
# Python versions prior to 3.6 do not preserve dict or kwarg ordering, so we cannot pull in attrs as **kwargs if we
# also want stable XML attribute output. Instead, let callers supply us with an OrderedDict instance.
if ':' in name:
ns, name = name.split(':')
name = '{%s}%s' % (ns_translation[ns], name)
elem = RestrictedElement(nsmap=nsmap)
if attrs:
# Try hard to keep attribute order, to ensure deterministic output. This simplifies testing.
for k, v in attrs.items():
elem.set(k, v)
elem.tag = name
return elem