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.

UPDATE:

An idea to make built-in strings non-iterable was proposed on python.org in 2006. My question differs in that I'm trying to only suppress this features once in a while; still this whole thread is quite relevant.

Here are the critical comments by Guido who implemented non-iterable str on a trial basis:

[...] I implemented this (it was really simple to do) but then found I had to fix tons of places that iterate over strings. For example:

  • The sre parser and compiler use things like set("0123456789") and also iterate over the characters of the input regexp to parse it.

  • difflib has an API defined for either two lists of strings (a typical line-by-line diff of a file), or two strings (a typical intra-line diff), or even two lists of anything (for a generalized sequence diff).

  • small changes in optparse.py, textwrap.py, string.py.

And I'm not even at the point where the regrtest.py framework even works (due to the difflib problem).

I'm abandoning this project; the patch is SF patch 1471291. I'm no longer in favor of this idea; it's just not practical, and the premise that there are few good reasons to iterate over a string has been refuted by the use cases I found in both sre and difflib.

ORIGINAL QUESTION:

While it's a neat feature of the language that a string is an iterable, when combined with the duck typing, it may lead to disaster:

# record has to support [] operation to set/retrieve values
# fields has to be an iterable that contains the fields to be set
def set_fields(record, fields, value):
  for f in fields:
    record[f] = value

set_fields(weapon1, ('Name', 'ShortName'), 'Dagger')
set_fields(weapon2, ('Name',), 'Katana')
set_fields(weapon3, 'Name', 'Wand') # I was tired and forgot to put parentheses

No exception will be raised, and there's no easy way to catch this except by testing for isinstance(fields, str) in a myriad places. In some circumstances, this bug will take a very long time to find.

I want to disable strings from being treated as an iterable entirely in my project. Is it a good idea? Can it be done easily and safely?

Perhaps I could subclass built-in str such that I would need to explicitly call get_iter() if I wanted its object to be treated as an iterable. Then whenever I need a string literal, I would instead create an object of this class.

Here are some tangentially related questions:

How can I tell if a python variable is a string or a list?

how to tell a variable is iterable but not a string

share|improve this question
    
I think you have basically answered your own question. Your two methods are the best ways if you have to do it, but the best answer is just make sure it doesn't happen. –  Lattyware Feb 6 '12 at 23:35
2  
I'd just stick with the isinstance(fields, str) check – you're unlikely to ever need the ability to make your own types that quack like a string. Alternately, make fields the last, varargs argument. (Although this won't help if you get tired and forget you're not supposed to put parentheses around it.) –  millimoose Feb 6 '12 at 23:52
    
Any library/language in which strings are defined as generic lists of chars will have this problem. It doesn't seem like a Python thing. –  Apalala Feb 12 '12 at 21:49

5 Answers 5

up vote 6 down vote accepted

There aren't any ways to do this automatically, unfortunately. The solution you propose (a str subclass that isn't iterable) suffers from the same problem as isinstance() ... namely, you have to remember to use it everywhere you use a string, because there's no way to make Python use it in place of the native class. And of course you can't monkey-patch the built-in objects.

I might suggest that if you find yourself writing a function that takes either an iterable container or a string, maybe there's something wrong with your design. Sometimes you can't avoid it, though.

In my mind, the least intrusive thing to do is to put the check into a function and call that when you get into a loop. This at least puts the behavior change where you are most likely to see it: in the for statement, not buried away somewhere in a class.

def iterate_no_strings(item):
    if issubclass(item, str):   # issubclass(item, basestring) for Py 2.x
        return iter([item])
    else:
        return iter(item)

for thing in iterate_no_strings(things):
    # do something...
share|improve this answer
    
+1. This is a nice answer if you have to do it. I still recommend against it, however. –  Lattyware Feb 6 '12 at 23:41
    
What about the function I gave as an example? Would you say this is a case of "wrong design" or "can't avoid it"? –  max Feb 6 '12 at 23:43
    
I kinda waver back and forth. Sometimes I want to say "be liberal in what you accept" and "try to do what the user obviously wants, if possible." In your particular case though, maybe take the value first and the names you want to set as *args? Then you'll always get an iterable and the caller just specifies as many names as they have. If they already have a tuple then they just unpack it when calling you. –  kindall Feb 6 '12 at 23:47
    
Yes, in this case using *args will work great. –  max Feb 6 '12 at 23:53
    
... and to play devil's advocate to myself, it would be better to put the names first (to match things like getattr() and setattr()). Like I said, I waver. How about **kwargs so you can just specify Name='Dagger', ShortName='Dagger' without being too unwieldy? –  kindall Feb 6 '12 at 23:57

To expand, and make an answer out of it:

No, you shouldn't do this.

  1. It changes the functionality people expect from strings.
  2. It means extra overhead throughout your program.
  3. It's largely unnecessary.
  4. Checking types is very unpythonic.

You can do it, and the methods you have given are probably the best ways (for the record, I think sub-classing is the better option If you have to do it, see @kindall's method) but it's simply not worth doing, and it's not very pythonic. Avoid the bugs in the first place. In your example, you might want to ask yourself if that's more an issue with clarity in your arguments, and whether named arguments or the splat might be a better solution.

E.g: Change the ordering.

def set_fields(record, value, *fields):
  for f in fields:
    record[f] = value

set_fields(weapon1, 'Dagger', *('Name', 'ShortName')) #If you had a tuple you wanted to use.
set_fields(weapon2, 'Katana', 'Name')
set_fields(weapon3, 'Wand', 'Name')

E.g: Named arguments.

def set_fields(record, fields, value):
  for f in fields:
    record[f] = value

set_fields(record=weapon1, fields=('Name', 'ShortName'), value='Dagger')
set_fields(record=weapon2, fields=('Name'), value='Katana')
set_fields(record=weapon3, fields='Name', value='Wand') #I find this easier to spot.

If you really want the order the same, but don't think the named arguments idea is clear enough, then what about making each record a dict-like item instead of a dict (if it isn't already) and having:

class Record:
    ...
    def set_fields(self, *fields, value):
        for f in fileds:
            self[f] = value

weapon1.set_fields("Name", "ShortName", value="Dagger")

The only issue here is the introduced class and the fact that value parameter has to be done with a keyword, although it keeps it clear.

Alternatively, if you are using Python 3, you always have the option of using extended tuple unpacking:

def set_fields(*args):
      record, *fields, value = args
      for f in fields:
        record[f] = value

set_fields(weapon1, 'Name', 'ShortName', 'Dagger')
set_fields(weapon2, 'Name', 'Katana')
set_fields(weapon3, 'Name', 'Wand')

Or, for my last example:

class Record:
    ...
    def set_fields(self, *args):
        *fields, value = args
        for f in fileds:
            self[f] = value

weapon1.set_fields("Name", "ShortName", "Dagger")

However, these do leave some weirdness when reading the function calls, due to the fact one usually assumes that arguments would not be handled this way.

share|improve this answer
1  
I know it's unpythonic, that's why I feel bad doing that... But how can I avoid these bugs? We're talking about literally missing a pair of parentheses.. it's almost impossible to avoid once in a while, no? –  max Feb 6 '12 at 23:41
1  
@max As I say, I think that's a problem in how you are structuring your arguments in your method more than a problem with string iteration. –  Lattyware Feb 6 '12 at 23:43

Type checking in this case is not unpythonic or bad. Just do a:

if isinstance(var, (str, bytes)):
    var = [var]

In the beginning of the call. Or, if you want to educate the caller:

if isinstance(var, (str, bytes)):
    raise TypeError("Var should be an iterable, not str or bytes")
share|improve this answer

What do you think about creating a non-iterable string?

class non_iter_str(str):
    def __iter__(self):
        yield self

>>> my_str = non_iter_str('stackoverflow')
>>> my_str
'stackoverflow'
>>> my_str[5:]
'overflow'
>>> for s in my_str:
...   print s
... 
stackoverflow
share|improve this answer
    
That's what I was thinking originally; but @kindall mentioned this disadvantage, among others: "you have to remember to use it everywhere you use a string", including by the other users of my code. –  max Feb 7 '12 at 2:09

Instead of trying to make your strings non-iterable, switch the way you are looking at the problem: One of your parameters is either an iterable, or a ...

  • string
  • int
  • custom class
  • etc.

When you write your function, the first thing you do is validate your parameters, right?

def set_fields(record, fields, value):
    if isinstance(fields, str):
        fields = (fields, )  # tuple-ize it!
    for f in fields:
        record[f] = value

This will serve you well as you deal with other functions and parameters that can be either singular, or pluralized.

share|improve this answer
    
This is very unpythonic. Consider that you want to use a list, or any other iterator rather than a tuple? Python is a duck-typed language, it's not a good idea to type-check, it defies the ideals of the language. –  Lattyware Feb 7 '12 at 4:28
    
Don't check that it is a tuple. Check that it is not a string or bytes. –  Lennart Regebro Feb 7 '12 at 12:27
    
@LennartRegebro: Thanks -- hearing it a different way made it click for me. Answer updated. –  Ethan Furman Feb 7 '12 at 16:27
    
@Lattyware: As Lennart said, my mistake was in checking for a tuple instead of checking that it wasn't a str. isinstance has its place, and this is one of them. Answer updated. –  Ethan Furman Feb 7 '12 at 16:28

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.