Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
class A:
  def f(self):
    print('f')
  def g(self):
    print('g')
  def h(self):
    print('h')

x = A()
y = A()
x.f = x.g # creates a new attribute 'f' for x
x.f() # 'g'; resolves at the instance attribute level to call instance method 'g'
y.f() # 'f'; instance methods are unaffected
A.f = A.h # redefines instance method 'f' to print 'h'
x.f() # 'g'; still resolves at the attribute level to call instance method 'g'
y.f() # 'h'; instance method 'f' now prints 'h'
A.g = A.h # redefines instance method 'g' to print 'h'
x.f() # 'g'; still calls the old instance method 'g' because it kept the link to it
y.f() # 'h'

Is my understanding correct?

I'm trying to use this in the following way:

  class Attributes:
    def __init__(self, params, cache_field = None):
      # ...
      self.cache_field = cache_field
      if cache_field is None:
        # I hope I'm setting instance attribute only
        self.check_cache = self.check_external_cache
      else:
        self.check_cache = self.check_internal_cache
        self.internal_cache = {}

    def check_internal_cache(self, record):
      return self.internal_cache[record.id]

    def check_external_cache(self, record):
      return record[self.cache_field]

    def calculate_attributes(self, record):
      try:
        return self.check_cache(record) # I hope it will resolve to instance attribute
      except KeyError:
        # calculate and cache the value here
        # ...

Would this work correctly? Is it ok to do this? Originally I was hoping to save time compared to checking self.cache_field in every call to calculate_attributes; but I'm no longer sure it would save any time.

share|improve this question

1 Answer 1

up vote 3 down vote accepted

I think the basic idea here is correct, with a couple of minor corrections. First,

A.f = A.h # redefines instance method 'f' to print 'h'

That should read class method, not instance method. You're changing the class here. And second, this doesn't correspond to any defined variable here:

    if cache is None:

I guess maybe you mean cache_field?

In general, setting instance attributes in __init__ is perfectly normal and acceptable. It doesn't matter that this is a method rather than some other kind of object -- it's not any different from saying self.foo = 'bar'.

Also, sometimes this depends, but in general, it is indeed faster to set the method in init than to test cache_field every time check_cache is called.

share|improve this answer
2  
I would add that I also think its acceptable to reassign an instance method even outside the init. An example would be using an instance method as a general callback for a handler, but that callback can change based on the state. –  jdi Feb 5 '12 at 4:11
    
yes, it's cache_field, not cache. updated... Is there any link that summarizes good use cases for changing a method (inside or outside of the init)? –  max Feb 5 '12 at 4:13
    
One thing to keep in mind is that this creates a reference cycle which will affect object lifetime. –  yak Feb 5 '12 at 7:38
    
Neither A.f or A.h are "classmethods" here - they are rather "unbound methods" - which are different things in Python –  jsbueno Feb 6 '12 at 19:09
    
@jsbueno, quite so -- I was just speaking in shorthand. –  senderle Feb 6 '12 at 19:25

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.