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.

Right now, I have the following class methods:

def check_capacity(self, at_index)
def update_capacity(self, at_index)

The former returns a Boolean, while the latter changes an instance variable. The problem is both methods do very similar things. I feel like I'm violating DRY?

I'd like to have one method:

def update_capacity(self, at_index)

which I can use as:

if update_capacity(at_index):

that would create the intended side-effects if the side-effects are desirable, and return False otherwise.

My attempt was to copy the instance variable, check to see if the copy was desirably changed, and then set the instance variable to the copy if correct and return True, or don't and return False otherwise. However, this doesn't work with mutable data structures (like lists)!

Should I just be doing this with a "deep copy"? Or is there a better way to go about doing this? I'd like to be as Pythonic as possible.


The check_capacity iterates through the instance variable and checks if making the change would violate a condition.

The update_capacity iterates through the instance variable and makes the change, knowing the condition won't be violated.

Both have very similar code.

share|improve this question
Not entirely sure what you're trying to do, but would a property help? –  Daniel Roseman May 3 '12 at 17:28
"The former returns a Boolean, while the latter changes an instance variable." This does not sound like they are doing the same thing to me. I don't understand why do you want to merge the two methods. –  Wai Yip Tung May 3 '12 at 17:38
Can you please provide more information what those two methods do and what they have in common. –  Andreas Florath May 3 '12 at 18:00
Do you ever call one method without calling the other one near it? –  Daenyth May 3 '12 at 19:47

2 Answers 2

up vote 3 down vote accepted

I have a hunch that those two functions together manage to straddle your problem without exactly hitting it on the head. If I have this right, you want to have update_capacity either change something or return False if changing something is not desired.

It seems to me that you will be able to achieve this functionality by adding the checking mechanism from check_capacity into update_capacity, performing the condition check before executing the body of update_capacity:

def update_capacity(self, at_index):
    if <condition from check_capacity>:
        <body of update_capacity>
        return False

Of course, this code will return None if the condition is true, so if you want to keep your function signatures tidy, you could return True or something depending on what fits the rest of your code.

share|improve this answer
Thanks for your answer. Sorry that my edit wasn't clearer: the update_capacity function is modifying things in an iterator. The check_capacity function goes through the iterator and makes sure the condition isn't violated ANYWHERE in the iterator. Thus, the iterator passed to update_capacity may fail to meet the condition e.g. half-way through the iterator, but by that point the first half of the iterator is modified, when it shouldn't have been! Is this helpful? –  jakecar May 5 '12 at 19:35
You could go through the iterator twice in the same function. –  Grayson Oct 12 '12 at 18:15

If check_capacity is applied to more than one places, make it a decorator that makes sure it throws an exception if the constraint/check is not met.


def update_capacity(...)
    # Does the job and does not return anything

If check_capacity is not used anywhere else, just put the logic inside update_capacity.

Edit: Also this

if update_capacity(at_index):

is ambiguous at best. Is the function going to see if I can update? Is it going to actually update/mutate something?

It is evident that these 2 functions must be separate.

share|improve this answer
Why is it better to use a decorator over keeping the logic inside update_capacity? –  Grayson May 4 '12 at 17:01
It is a common technique to separate orthogonal problems. So it is not always a better way. It depends a lot on the big picture of his code, which I don't have. BTW what you suggested(about returning True/False), it is not good practice or pythonic. When you mutated a structure you should not return anything(see for example the python built-in structures and their methods). if update_capacity(..) is ambiguous and wrong. There should be a different method that checks the capacity(returning True/False) and another one which mutates the capacity(returning None). –  rantanplan May 4 '12 at 19:52
That doesn't answer my question - why is it a common technique? What makes it superior? My instinct is to say it improves readability and can DRY out repetitive code, but is that all there is to it? –  Grayson May 4 '12 at 21:48
1) It doesn't make it superior by default. Please read again the first line of my answer to the poster and my comment to you. 2) Your instinct is basically correct. Additionally you can keep the logic of distinct functions/procedures unrelated. e.g. the check_capacity's logic/code might change without changing at all the inner code of update_capacity. Plus you can chain decorators on top of each other. That would be useful if we had many "constraints". Django uses decorators extensively, @login_required and @user_passes_test are good examples to check if you want. –  rantanplan May 4 '12 at 23:43
Thank you rantanplan. Your answer is essentially what I'm doing. However, I feel like I'm violating DRY. My check_capacity goes through an iterator and sees IF modifying each object of the iterator would ever break the condition. If it does anywhere, update_capacity shouldn't be called. However, check_capacity and update_capacity have very similar code since update_capacity is making the modifications that check_capacity is just checking. Sorry for the ambiguous function names -- they are mostly irrelevant. I'm trying to abstract to the side-effects part of the functions. –  jakecar May 5 '12 at 19:41

Your Answer


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.