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I have a class LabelMapper (a boost::python class), which implements the dictionary protocol. I would like to have a proxy class which will use attributes for accessing that dicionary. I've seen many posts for overriding __setitem__ and __getitem__ but I can't seem to get it right.

The naive approach (below) leads to infinite recursion due to self.mapper invoking LabelMapperProxy.__getattr__, which in turn needs self.mapper and so on.

class LabelMapper(object):
   def __init__(self):{}
   def __getitem__(self,key): return[key]
   def __setitem__(self,key,val):[key]=val
   def __delitem__(self,key): del[key]

class LabelMapperProxy(object):
   def __init__(self,mapper): self.mapper=mapper
   def __getattr__(self,key): return self.mapper[key]
   def __setattr__(self,key,val): self.mapper[key]=val
   def __delattr__(self,key): del self.mapper[key]


# construct the proxy
print                    # !!! recursion

What is the solution? Perhaps is there such a proxy pre-cooked in the standard library?

share|improve this question
up vote 5 down vote accepted

You are trying to set a new attribute on your Proxy instance:

class LabelMapperProxy(object):
    def __init__(self, mapper): self.mapper = mapper

Since there is no .mapper attribute yet, that triggers a __setattr__, which tries to access the non-existent self.mapper attribute, so __getattr__ is consulted. Which tries to access self.mapper...

The solution is to set mapper directly in self.__dict__:

class LabelMapperProxy(object):
    def __init__(self, mapper): self.__dict__['mapper'] = mapper

Alternatively, use the original baseclass __setattr__ just for the mapper attribute:

class LabelMapperProxy(object):
   def __init__(self, mapper): self.mapper = mapper

   def __setattr__(self, key, val):
       if key == 'mapper':
           return super(LabelMapperProxy, self).__setattr__(key, val)
       self.mapper[key] = val
share|improve this answer
Just my 2c: I'd rename mapper into something like __mapper so that if somebody wants to use mapper as an attribute name it will remain consistent. – bereal Apr 17 '13 at 13:28
@bereal: sure, but that would not have solved the problem at hand here. :-) – Martijn Pieters Apr 17 '13 at 13:29
Great! How come __getattr__ does not get in loop when self.mapper is looked up in __getattr__? Is that the __getattribute__ and __getattr__ difference? – eudoxos Apr 17 '13 at 14:07
@eudoxos: Exactly; __getattr__ is only called if the attribute has not been found elsewhere first. – Martijn Pieters Apr 17 '13 at 14:11
@bereal: if you use __mapper (with two leading underscores), it actually breaks, since python will mange that name when looking it up. – eudoxos Apr 17 '13 at 14:20

Here is the trap:

class LabelMapperProxy(object):
   def __init__(self, mapper):
       # This will not assign this object's attribute 
       # since __setattr__ is overriden.
       # Instead, it will do self.mapper['mapper'] = mapper

   def __getattr__(self, key): 
       # And this won't find `self.mapper` and resort to __getattr__
       # (which is itself)
       return self.mapper[key]  

   def __setattr__(self, key, val): 

   def __delattr__(self, key): 
       del self.mapper[key]
share|improve this answer

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