Classes which inherit from the following
Immutable class are immutable, as are their instances, after their
__init__ method finishes executing. Since it's pure python, as others have pointed out, there's nothing stopping someone from using the mutating special methods from the base
type, but this is enough to stop anyone from mutating a class/instance by accident.
It works by hijacking the class-creation process with a metaclass.
"""Subclasses of class Immutable are immutable after their __init__ has run, in
the sense that all special methods with mutation semantics (in-place operators,
setattr, etc.) are forbidden.
# Enumerate the mutating special methods
mutation_methods = set()
# Arithmetic methods with in-place operations
iarithmetic = '''add sub mul div mod divmod pow neg pos abs bool invert lshift
rshift and xor or floordiv truediv matmul'''.split()
for op in iarithmetic:
mutation_methods.add('__i%s__' % op)
# Operations on instance components (attributes, items, slices)
for verb in ['set', 'del']:
for component in '''attr item slice'''.split():
mutation_methods.add('__%s%s__' % (verb, component))
# Operations on properties
def checked_call(_self, name, method, *args, **kwargs):
"""Calls special method method(*args, **kw) on self if mutable."""
self = args if isinstance(_self, object) else _self
if not getattr(self, '__mutable__', True):
# self told us it's immutable, so raise an error
cname= (self if isinstance(self, type) else self.__class__).__name__
raise TypeError('%s is immutable, %s disallowed' % (cname, name))
return method(*args, **kwargs)
def method_wrapper(_self, name):
"Wrap a special method to check for mutability."
method = getattr(_self, name)
def wrapper(*args, **kwargs):
return checked_call(_self, name, method, *args, **kwargs)
wrapper.__name__ = name
wrapper.__doc__ = method.__doc__
"Place the wrapper methods on mutative special methods of _self"
for name in mutation_methods:
if hasattr(_self, name):
method = method_wrapper(_self, name)
type.__setattr__(_self, name, method)
def set_mutability(self, ismutable):
"Set __mutable__ by using the unprotected __setattr__"
b = _MetaImmutable if isinstance(self, type) else Immutable
super(b, self).__setattr__('__mutable__', ismutable)
'''The metaclass of Immutable. Wraps __init__ methods via __call__.'''
def __init__(cls, *args, **kwargs):
# Make class mutable for wrapping special methods
# Disable mutability
def __call__(cls, *args, **kwargs):
'''Make an immutable instance of cls'''
self = cls.__new__(cls)
# Make the instance mutable for initialization
# Execute cls's custom initialization on this instance
# Disable mutability
# Given a class T(metaclass=_MetaImmutable), mutative special methods which
# already exist on _MetaImmutable (a basic type) cannot be over-ridden
# programmatically during _MetaImmutable's instantiation of T, because the
# first place python looks for a method on an object is on the object's
# __class__, and T.__class__ is _MetaImmutable. The two extant special
# methods on a basic type are __setattr__ and __delattr__, so those have to
# be explicitly overridden here.
def __setattr__(cls, name, value):
checked_call(cls, '__setattr__', type.__setattr__, cls, name, value)
def __delattr__(cls, name, value):
checked_call(cls, '__delattr__', type.__delattr__, cls, name, value)
"""Inherit from this class to make an immutable object.
__init__ methods of subclasses are executed by _MetaImmutable.__call__,
which enables mutability for the duration.
__metaclass__ = _MetaImmutable
class T(int, Immutable): # Checks it works with multiple inheritance, too.
"Class for testing immutability semantics"
def __init__(self, b):
self.b = b
cls.a = 5
self.c = 1
def __iadd__(self, o):
def immutabilityTest(f, name):
"Call f, which should try to mutate class T or T instance."
except TypeError, e:
assert 'T is immutable, %s disallowed' % name in e.args
raise RuntimeError('Immutability failed!')