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I am not sure why strings and tuples were made to be immutable; what are the advantages and disadvantage of making them immutable?

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    other than the internal implementation of the python interpreter, does this design make a good sense on writing programs? (for instance, will it make it easier if tuples and strings were mutable?) if it does, what would be examples of choosing immutable tuples vs lists? (or pherhaps, mutable strings vs python strings)
    – user186477
    Oct 8, 2009 at 18:31
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    There's an entire style of programming called Functional Programming where everything is immutable. en.wikipedia.org/wiki/Functional_programming Oct 8, 2009 at 18:55
  • 2
    Python DOES have mutable strings and tuples; they are spelled bytearray and list, respectively. Sep 25, 2011 at 1:48

6 Answers 6

85

Imagine a language called FakeMutablePython, where you can alter strings using list assignment and such (such as mystr[0] = 'a')

a = "abc"

That creates an entry in memory in memory address 0x1, containing "abc", and the identifier a pointing to it.

Now, say you do..

b = a

This creates the identifier b and also points it to the same memory address of 0x1

Now, if the string were mutable, and you change b:

b[0] = 'z'

This alters the first byte of the string stored at 0x1 to z.. Since the identifier a is pointing to here to, thus that string would altered also, so..

print a
print b

..would both output zbc

This could make for some really weird, unexpected behaviour. Dictionary keys would be a good example of this:

mykey = 'abc'
mydict = {
    mykey: 123,
    'zbc': 321
}

anotherstring = mykey
anotherstring[0] = 'z'

Now in FakeMutablePython, things become rather odd - you initially have two keys in the dictionary, "abc" and "zbc".. Then you alter the "abc" string (via the identifier anotherstring) to "zbc", so the dict has two keys, "zbc" and "zbc"...

One solution to this weirdness would be, whenever you assign a string to an identifier (or use it as a dict key), it copies the string at 0x1 to 0x2.

This prevents the above, but what if you have a string that requires 200MB of memory?

a = "really, really long string [...]"
b = a

Suddenly your script takes up 400MB of memory? This isn't very good.

What about if we point it to the same memory address, until we modify it? Copy on write. The problem is, this can be quite complicated to do..

This is where immutability comes in.. Instead of requiring the .replace() method to copy the string from memory into a new address, then modify it and return.. We just make all strings immutable, and thus the function must create a new string to return. This explains the following code:

a = "abc"
b = a.replace("a", "z")

And is proven by:

>>> a = 'abc'
>>> b = a
>>> id(a) == id(b)
True
>>> b = b.replace("a", "z")
>>> id(a) == id(b)
False

(the id() function returns the memory address of the object)

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    Best explanation I've heard! Oct 24, 2013 at 13:30
  • so if i say a="abc", b="abcd" will it share abc? like b[:4] is a? Mar 29, 2015 at 13:45
  • @Dineshkumar Nope, I'm pretty sure "abc" and "abcd" are different, entirely unrelated, objects - stackoverflow.com/questions/5722006/…
    – dbr
    Mar 30, 2015 at 12:18
  • @dbr You say "Copy on write... can be quite complicated to do.." But isn't implementing immutability just as complicated? You'd still need to be aware if modifications are made, and if so, make another "instance" with the desired modifications.
    – flow2k
    Jan 31, 2021 at 10:23
  • @flow2k no immutability is easier. Python knows which operations can modify a string, and it forces all of them to create a new string object - even if that string is identical to the one you started with. Jun 23 at 22:00
35

One is performance: knowing that a string is immutable makes it easy to lay it out at construction time — fixed and unchanging storage requirements. This is also one of the reasons for the distinction between tuples and lists. This also allows the implementation to safely reuse string objects. For example, the CPython implemenation uses pre-allocated objects for single-character strings, and usually returns the original string for string operations that doesn’t change the content.

The other is that strings in Python are considered as "elemental" as numbers. No amount of activity will change the value 8 to anything else, and in Python, no amount of activity will change the string “eight” to anything else.

https://web.archive.org/web/20201031092707/http://effbot.org/pyfaq/why-are-python-strings-immutable.htm

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One big advantage of making them immutable is that they can be used as keys in a dictionary. I'm sure the internal data structures used by dictionaries would get quite messed up if the keys were allowed to change.

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    Buuuuut you can key by any user-created object instance, which are obviously mutable. The "key" then is probably just the memory address, and if strings were mutable, you could still key by their unique memory address. Oct 27, 2009 at 19:01
  • @Triptych which wouldn't be what you want for strings -- you'd want them to key by value, else dictionaries would be of little to no use....
    – Hejazzman
    Feb 23, 2018 at 12:32
  • @Hejazzman that's not how python dicts work. The literal string value isn't used as the dict key, instead a hash of the string is taken. Prove this to yourself with 'abc'.__hash__(). Mar 1, 2018 at 0:59
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    @Triptych everything you say is wrong. First, you could have two equal strings with different addresses so using the address doesn't work. Second while the hash of a string is used by the dict, it's the string itself that is the key - prove it by showing d.keys(). You could easily have two strings with the same hash and the dict will keep them separate. Mar 1, 2018 at 1:27
  • @Mark Ransom Not address, hash. By definition, you cannot have two strings which compare as equal but which have different hashes. Mar 1, 2018 at 13:40
4

Immutable types are conceptually much simpler than mutable ones. For example, you don't have to mess with copy constructors or const-correctness like in C++. The more types are immutable, the easier the language gets. Thus the easiest languages are the pure functional ones without any global state (because lambda calculus is much easier than Turing machines, and equally powerful), although a lot of people don't seem to appreciate this.

3

Perl has mutable strings and seems to function just fine. The above seems like a lot of hand waving and rationalization for an arbitrary design decision.

My answer to the question of why Python has immutable strings, because Python creator Guido van Rossum wanted it that way and he now has legions of fans that will defend that arbitrary decision to their dying breath.

You could pose a similar question of why Perl doesn't have immutable strings and a whole passel of people would write how awful the very concept of immutable strings are and why it's The Very Bestest Idea Ever (TM) that Perl doesn't have them.

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    Perl does not really have strings: it has scalars, that can behave as strings or numbers (more than one type of the latter). If scalars were immutable, it would become purely functional Perl and Perl developers worldwide would commit suicide by assigning undef to themselves. Feb 17, 2015 at 15:30
3

pros: Performance

cons: you can't change mutables.

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    pros: you can't change them
    – Matt Ellen
    Jul 2, 2010 at 12:21

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