I see someone's code this way:

class SomeClass(ParentClass):
    def __init__(
        del self.self

I can understand the first line -- adding new attributes to the ParentClass' attribute dictionary. But what is del self.self?

I tried to see what self.self is. It is exactly THAT self. Why should one delete the object in its __init__ function? When I stepped out __init__, I found the object still existed with the same address.

Out[2]: <classname at 0x244ee3f6a90>
Out[3]: <classname at 0x244ee3f6a90>
Out[4]: <classname at 0x244ee3f6a90>
  • 3
    Because whoever decided to do this: self.__dict__.update(locals()) is a terribly lazy coder. – juanpa.arrivillaga Aug 5 at 22:22
  • "I can understand the first line -- adding new attributes to the ParentClass' attribute dictionary" That's actually not what's happening. It's adding the attributes to the current instance being initialized, the instance of SomeClass, instances carry around their own dict, the class dict is the classes namespace, i.e. where class-level variables are found. Instance variables belong to the instance. – juanpa.arrivillaga Aug 5 at 22:25

self is a local variable, so it appears in locals().

self.__dict__.update(locals()) adds an attribute to the new object for every local variable, including self. Since that attribute is apparently not required, it gets deleted.


The line: self.__dict__.update(locals()) results in three names being bound as attributes of self: self, attribute_1, attribute_2. The del self.self simply removes the unwanted self attribute on the object named by the name self.

This is lazy. It would be better to simply have the two lines:

self.attribute_1 = attribute_1
self.attribute_2 = attribute_2

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