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I am unable to understand the following behaviour. I am creating 2 strings, and using is operator to compare it. On the first case, it is working differently. On the second case, it works as expected. What is the reason when I use comma or space, it is showing False on comparing with is and when no comma or space or other characters are used, it gives True

Python 3.6.5 (default, Mar 30 2018, 06:41:53) 
[GCC 4.2.1 Compatible Apple LLVM 9.0.0 (clang-900.0.39.2)] on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> a = 'string'
>>> b = a
>>> b is a
True
>>> b = 'string'
>>> b is a
True
>>> a = '1,2,3,4'
>>> b = a
>>> b is a
True
>>> b = '1,2,3,4'
>>> b is a
False

Is there a reliable information on why python interprets strings in different way? I understand that initially, a and b refers to same object. And then b gets a new object, still b is a says True. It is little confusing to understand the behaviour.

When I do it with 'string' - it produces same result. What's wrong when I use '1,2,3,4' - they both are strings. What's different from case 1 and case 2 ? i.e is operator producing different results for different contents of the strings.

  • I understand how == works. I am not referring == in here. It is completely with is. Check my code and see post reference change, it still produces same result. – Sibidharan Apr 26 '18 at 7:53
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    @deceze This question is not about identity and value check it's about how differently Python caches strings (string interning). – Kasrâmvd Apr 26 '18 at 7:53
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    @khelwood this looks like a subtly different question. Why does the is operator change result when the same operations are performed but with different contents of the strings. – FHTMitchell Apr 26 '18 at 7:53
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    Yes there is something to this question. If you just have a = '1,', then b = '1,' then they are apparently different objects. There is something arcane going on related to which strings are interned. – khelwood Apr 26 '18 at 7:55
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9

One important thing about this behavior is that Python caches some, mostly, short strings (usually less than 20 characters but not for every combinations of them) so that they become quickly accessible. One important reason for that is that strings are widely used in Pyhton's source code and it's an internal optimization to cache some special sorts of strings. Dictionaries are one of the generally used data structures in Python's source code that are used for preserving the variables, attributes, and namespaces in general, plus for some other purposes, and they all use strings as the object names. This is to say that every time you try to access an object attribute or have access to a variable (local or global) there's a dictionary look up firing up internally.

Now, the reason that you got such bizarre behavior is because Python (Cpython implementation) treats differently with strings in terms of interning. In Python's source code there is a intern_string_constants function that gives strings the validation to be interned which you can check for more details. Or check this comprehensive article http://guilload.com/python-string-interning/.

It's also note worthy that Python has an intern() function in sys module that you can use to intern strings manually.

In [52]: b = sys.intern('a,,')

In [53]: c = sys.intern('a,,')

In [54]: b is c
Out[54]: True

You can use this function either when you want to fasten the dictionary lookups or when you're ought to use a particular string object frequently in your code.

Another point that you should not confuse with string interning is that when you do a == b you're creating two references to the same object which is obvious for those keywords to have same id.

Regarding punctuations, it seems that if they are one character they get interned if their length is more than one.If the length is more than one they won't get cached. As mentioned in comments, one reason for that might be because it's less likely for keywords and dictionary keys to have punctuations in them.

In [28]: a = ','

In [29]: ',' is a
Out[29]: True

In [30]: a = 'abc,'

In [31]: 'abc,' is a
Out[31]: False

In [34]: a = ',,'

In [35]: ',,' is a
Out[35]: False

# Or

In [36]: a = '^'

In [37]: '^' is a
Out[37]: True

In [38]: a = '^%'

In [39]: '^%' is a
Out[39]: False

But still these are just some speculations that you cannot rely on in you codes.

  • I understood that python creates a pool of strings to make them more accessible but what is the difference between 1 and 1, that causes them to have different ids? – BcK Apr 26 '18 at 8:04
  • Moreover I realized that if I use multiple assignment like a = b = c = '1,', all of them have the same id. Link for this statement : stackoverflow.com/questions/35275026/… – BcK Apr 26 '18 at 8:08
  • Look at the source code. Crucial point: We're not talking about Python here, but one implematation of Python (CPython). PyPy might behave differently. – Matthias Apr 26 '18 at 8:09
  • @BcK As I mentioned that's a Cpython-implementation details, you can check the source for that. Regarding that assignments please check the update. – Kasrâmvd Apr 26 '18 at 8:11
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    @BcK Check out the update. – Kasrâmvd Apr 26 '18 at 8:23

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