openstack/deb-python-cassandra-driver
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be0d0037ea0227897e665be1f522ab66e20ad084
deb-python-cassandra-driver/cassandra/cqlengine/usertype.py
jpuerta f7fac976d8 cqle: backport cqlengine to support Python 2.6 
https://datastax-oss.atlassian.net/browse/PYTHON-288

Add Python 2.6 compliancy:
- Remove dict/set comprehensions.
- Use cassandra's OrderedDict.
- Replace str.format() implicit placeholders ('{}') with
  explicit ones ('{0} {1} ...').
- Implement cqlengine.functions.get_total_seconds() as alternative to
  timedelta.total_seconds().

cqlengine integration tests remain to be backported.
2015-06-02 16:12:54 +01:00

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import re
import six
from cassandra.util import OrderedDict
from cassandra.cqlengine import CQLEngineException
from cassandra.cqlengine import columns
from cassandra.cqlengine import connection
from cassandra.cqlengine import models
class UserTypeException(CQLEngineException):
pass
class UserTypeDefinitionException(UserTypeException):
pass
class BaseUserType(object):
"""
The base type class; don't inherit from this, inherit from UserType, defined below
"""
__type_name__ = None
_fields = None
_db_map = None
def __init__(self, **values):
self._values = {}
for name, field in self._fields.items():
value = values.get(name, None)
if value is not None or isinstance(field, columns.BaseContainerColumn):
value = field.to_python(value)
value_mngr = field.value_manager(self, field, value)
if name in values:
value_mngr.explicit = True
self._values[name] = value_mngr
def __eq__(self, other):
if self.__class__ != other.__class__:
return False
keys = set(self._fields.keys())
other_keys = set(other._fields.keys())
if keys != other_keys:
return False
for key in other_keys:
if getattr(self, key, None) != getattr(other, key, None):
return False
return True
def __ne__(self, other):
return not self.__eq__(other)
def __str__(self):
return "{{{0}}}".format(', '.join("'{0}': {1}".format(k, getattr(self, k)) for k, v in six.iteritems(self._values)))
def has_changed_fields(self):
return any(v.changed for v in self._values.values())
def reset_changed_fields(self):
for v in self._values.values():
v.reset_previous_value()
def __iter__(self):
for field in self._fields.keys():
yield field
def __getitem__(self, key):
if not isinstance(key, six.string_types):
raise TypeError
if key not in self._fields.keys():
raise KeyError
return getattr(self, key)
def __setitem__(self, key, val):
if not isinstance(key, six.string_types):
raise TypeError
if key not in self._fields.keys():
raise KeyError
return setattr(self, key, val)
def __len__(self):
try:
return self._len
except:
self._len = len(self._columns.keys())
return self._len
def keys(self):
""" Returns a list of column IDs. """
return [k for k in self]
def values(self):
""" Returns list of column values. """
return [self[k] for k in self]
def items(self):
""" Returns a list of column ID/value tuples. """
return [(k, self[k]) for k in self]
@classmethod
def register_for_keyspace(cls, keyspace):
connection.register_udt(keyspace, cls.type_name(), cls)
@classmethod
def type_name(cls):
"""
Returns the type name if it's been defined
otherwise, it creates it from the class name
"""
if cls.__type_name__:
type_name = cls.__type_name__.lower()
else:
camelcase = re.compile(r'([a-z])([A-Z])')
ccase = lambda s: camelcase.sub(lambda v: '{0}_{1}'.format(v.group(1), v.group(2)), s)
type_name = ccase(cls.__name__)
# trim to less than 48 characters or cassandra will complain
type_name = type_name[-48:]
type_name = type_name.lower()
type_name = re.sub(r'^_+', '', type_name)
cls.__type_name__ = type_name
return type_name
def validate(self):
"""
Cleans and validates the field values
"""
pass
for name, field in self._fields.items():
v = getattr(self, name)
if v is None and not self._values[name].explicit and field.has_default:
v = field.get_default()
val = field.validate(v)
setattr(self, name, val)
class UserTypeMetaClass(type):
def __new__(cls, name, bases, attrs):
field_dict = OrderedDict()
field_defs = [(k, v) for k, v in attrs.items() if isinstance(v, columns.Column)]
field_defs = sorted(field_defs, key=lambda x: x[1].position)
def _transform_column(field_name, field_obj):
field_dict[field_name] = field_obj
field_obj.set_column_name(field_name)
attrs[field_name] = models.ColumnDescriptor(field_obj)
# transform field definitions
for k, v in field_defs:
# don't allow a field with the same name as a built-in attribute or method
if k in BaseUserType.__dict__:
raise UserTypeDefinitionException("field '{0}' conflicts with built-in attribute/method".format(k))
_transform_column(k, v)
# create db_name -> model name map for loading
db_map = {}
for field_name, field in field_dict.items():
db_map[field.db_field_name] = field_name
attrs['_fields'] = field_dict
attrs['_db_map'] = db_map
klass = super(UserTypeMetaClass, cls).__new__(cls, name, bases, attrs)
return klass
@six.add_metaclass(UserTypeMetaClass)
class UserType(BaseUserType):
"""
This class is used to model User Defined Types. To define a type, declare a class inheriting from this,
and assign field types as class attributes:
.. code-block:: python
# connect with default keyspace ...
from cassandra.cqlengine.columns import Text, Integer
from cassandra.cqlengine.usertype import UserType
class address(UserType):
street = Text()
zipcode = Integer()
from cassandra.cqlengine import management
management.sync_type(address)
Please see :ref:`user_types` for a complete example and discussion.
"""
__type_name__ = None
"""
*Optional.* Sets the name of the CQL type for this type.
If not specified, the type name will be the name of the class, with it's module name as it's prefix.
"""
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