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Is there a magic method that can overload the assignment operator, like __assign__(self, new_value)?

I'd like to forbid a re-bind for an instance:

class Protect():
  def __assign__(self, value):
    raise Exception("This is an ex-parrot")

var = Protect()  # once assigned...
var = 1          # this should raise Exception()

Is it possible? Is it insane? Should I be on medicine?

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1  
What's the use case? –  msw Jun 13 '12 at 23:16
    
Use case: people are going to write small scripts using my service API, and I want to prevent them from changing internal data and propagate this change to the next script. –  Caruccio Jun 13 '12 at 23:39
2  
Python explicitly avoids promising that a malicious or ignorant coder will be prevented from access. Other languages allow you to avoid some programmer error due to ignorance, but people have an uncanny ability to code around them. –  msw Jun 13 '12 at 23:43
    
you could execute that code using exec in d where d is some dictionary. if the code is on module level, every assignment should get sent back to the dictionary. You could either restore your values after execution/check whether values changed, or intercept the dictionary assignment, i.e. replace the dictionary of variables with another object. –  Ant6n Mar 2 at 1:57

5 Answers 5

No, as assignment is a language intrinsic which doesn't have a modification hook.

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Change "Doubtful" to "No", and this is the correct answer. –  Paul McGuire Jun 13 '12 at 23:24
1  
I'm a sucker for peer pressure, fixed. (I just didn't want the Ghost of Python Future coming in and saying that in v4.x you will be able to). –  msw Jun 13 '12 at 23:30
    
Be assured, this won't happen in Python 4.x. –  Sven Marnach Jun 13 '12 at 23:40
1  
Now I'm tempted to go write a PEP for subclassing and replacing the current scope. –  zigg Jun 14 '12 at 11:55

I don't think it's possible. The way I see it, assignment to a variable doesn't do anything to the object it previously referred to: it's just that the variable "points" to a different object now.

In [3]: class My():
   ...:     def __init__(self, id):
   ...:         self.id=id
   ...: 

In [4]: a = My(1)

In [5]: b = a

In [6]: a = 1

In [7]: b
Out[7]: <__main__.My instance at 0xb689d14c>

In [8]: b.id
Out[8]: 1 # the object is unchanged!

However, you can mimic the desired behavior by creating a wrapper object with __setitem__() or __setattr__() methods that raise an exception, and keep the "unchangeable" stuff inside.

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The way you describe it is absolutely not possible. Assignment to a name is a fundamental feature of Python and no hooks have been provided to change its behavior.

However, assignment to a member in a class instance can be controlled as you want, by overriding .__setattr__().

class MyClass(object):
    def __init__(self, x):
        self.x = x
        self._locked = True
    def __setattr__(self, name, value):
        if self.__dict__.get("_locked") and name == "x":
            raise AttributeError, "MyClass does not allow assignment to .x member"
        self.__dict__[name] = value

>>> m = MyClass(3)
>>> m.x
3
>>> m.x = 4
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 7, in __setattr__
AttributeError: MyClass does not allow assignment to .x member

Note that there is a member variable, _locked, that controls whether the assignment is permitted. You can unlock it to update the value.

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No there isn't

Think about it, in your example you are rebinding the name var to a new value. You aren't actually touching the instance of Protect.

If the name you wish to rebind is in fact a property of some other entity i.e myobj.var then you can prevent assigning a value to the property/attribute of the entity. But I assume thats not what you want from your example.

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Almost there! I tried to overload the module's __dict__.__setattr__ but module.__dict__ itself is read-only. Also, type(mymodule) == <type 'module'>, and it's not instanceable. –  Caruccio Jun 14 '12 at 11:53

In the global namespace this is not possible, but you could take advantage of more advanced Python metaprogramming to prevent multiple instances of a the Protect object from being created. The Singleton pattern is good example of this.

In the case of a Singleton you would ensure that once instantiated, even if the original variable referencing the instance is reassigned, that the object would persist. Any subsequent instances would just return a reference to the same object.

Despite this pattern, you would never be able to prevent a global variable name itself from being reassigned.

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A singleton is not enough, since var = 1 does not calls the singleton mechanism. –  Caruccio Jun 14 '12 at 11:54
    
Understood. I apologize if I wasn't clear. A singleton would prevent further instances of an object (e.g. Protect()) from being created. There is no way to protect the originally assigned name (e.g. var). –  jathanism Jun 14 '12 at 18:11

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