I've read several python tutorials (Dive Into Python, for one), and the language reference on Python.org - I don't see why the language needs tuples.

Tuples have no methods compared to a list or set, and if I must convert a tuple to a set or list to be able to sort them, what's the point of using a tuple in the first place?


Why does anyone care if a variable lives at a different place in memory than when it was originally allocated? This whole business of immutability in Python seems to be over emphasized.

In C/C++ if I allocate a pointer and point to some valid memory, I don't care where the address is located as long as it's not null before I use it.

Whenever I reference that variable, I don't need to know if the pointer is still pointing to the original address or not. I just check for null and use it (or not).

In Python, when I allocate a string (or tuple) assign it to x, then modify the string, why do I care if it's the original object? As long as the variable points to my data, that's all that matters.

>>> x='hello'
>>> id(x)
>>> x='good bye'
>>> id(x)

x still references the data I want, why does anyone need to care if its id is the same or different?

  • 13
    you're paying attention to the wrong aspect of mutability: "whether the id is the same or different" is just a side effect; "whether the data pointed to by other references which previously pointed to the same object now reflect updates" is critical. Feb 1, 2010 at 2:44

9 Answers 9

  1. immutable objects can allow substantial optimization; this is presumably why strings are also immutable in Java, developed quite separately but about the same time as Python, and just about everything is immutable in truly-functional languages.

  2. in Python in particular, only immutables can be hashable (and, therefore, members of sets, or keys in dictionaries). Again, this afford optimization, but far more than just "substantial" (designing decent hash tables storing completely mutable objects is a nightmare -- either you take copies of everything as soon as you hash it, or the nightmare of checking whether the object's hash has changed since you last took a reference to it rears its ugly head).

Example of optimization issue:

$ python -mtimeit '["fee", "fie", "fo", "fum"]'
1000000 loops, best of 3: 0.432 usec per loop
$ python -mtimeit '("fee", "fie", "fo", "fum")'
10000000 loops, best of 3: 0.0563 usec per loop
  • 12
    @musicfreak, see the edit I just did where building a tuple is over 7.6 times faster than building the equivalent list -- now you can't say you've "never seen a noticeable difference" any more, unless your definition of "noticeable" is truly peculiar... Feb 1, 2010 at 4:35
  • 13
    @musicfreak I think you are misusing "premature optimization is the root of all evil". There's a huge difference between doing premature optimization in an application (for example, saying "tuples are faster than lists, so we're going to use only tuples in all the app!") and doing benchmarks. Alex's benchmark is insightful and knowing that building a tuple is faster than building a list might help us in future optimization operations (when it's really needed). Feb 1, 2010 at 9:02
  • 6
    @Alex, is "building" a tuple really faster than "building a list", or are we seeing the result of the Python runtime caching the tuple? Seems the latter to me. Feb 1, 2010 at 12:57
  • 6
    @ACoolie, that's totally dominated by the random calls (try doing just that, you'll see!), so not very significant. Try python -mtimeit -s "x=23" "[x,x]" and you'll see a more meaningful speedup of 2-3 times for building the tuple vs building the list. Feb 1, 2010 at 21:23
  • 10
    for anyone wondering -- we were able to shave off over an hour of data processing by switching from lists to tuples.
    – Mark Ribau
    Jul 1, 2013 at 20:34

None of the answers above point out the real issue of tuples vs lists, which many new to Python seem to not fully understand.

Tuples and lists serve different purposes. Lists store homogenous data. You can and should have a list like this:

["Bob", "Joe", "John", "Sam"]

The reason that is a correct use of lists is because those are all homogenous types of data, specifically, people's names. But take a list like this:

["Billy", "Bob", "Joe", 42]

That list is one person's full name, and their age. That isn't one type of data. The correct way to store that information is either in a tuple, or in an object. Lets say we have a few :

[("Billy", "Bob", "Joe", 42), ("Robert", "", "Smith", 31)]

The immutability and mutability of Tuples and Lists is not the main difference. A list is a list of the same kind of items: files, names, objects. Tuples are a grouping of different types of objects. They have different uses, and many Python coders abuse lists for what tuples are meant for.

Please don't.


I think this blog post explains why I think this better than I did:

  • 19
    I think you have a vision which is not agreed at least by me, don't know the others. Feb 1, 2010 at 1:54
  • 18
    I also strongly disagree with this answer. The homogeneity of the data has absolutely nothing to do with whether you should use a list or a tuple. Nothing in Python suggests this distinction. Feb 1, 2010 at 2:11
  • 14
    Guido made this point a few years ago too. aspn.activestate.com/ASPN/Mail/Message/python-list/1566320 Feb 1, 2010 at 2:33
  • 14
    Even though Guido (the designer of Python) intended for lists to be used for homogeneous data and tuples for heterogeneous, the fact is that the language doesn't enforce this. Therefore, I think this interpretation is more of a style issue than anything else. It so happens that in many people's typical use cases, lists tend to be array-like and tuples tend to be record-like. But this shouldn't stop people from using lists for heterogeneous data if it suits their problem better. As the Zen of Python says: Practicality beats purity.
    – John Y
    Feb 1, 2010 at 5:36
  • 9
    @Glenn, you're basically wrong. One of the chief uses of tuples is as a composite data type for storing multiple pieces of data that are related. The fact that you can iterate over a tuple and perform many of the same operations does not change this. (As reference consider that tuples in many other languages do not have the same iterable features as their list counterparts)
    – HS.
    Feb 1, 2010 at 15:47

if I must convert a tuple to a set or list to be able to sort them, what's the point of using a tuple in the first place?

In this particular case, there probably isn't a point. This is a non-issue, because this isn't one of the cases where you'd consider using a tuple.

As you point out, tuples are immutable. The reasons for having immutable types apply to tuples:

  • copy efficiency: rather than copying an immutable object, you can alias it (bind a variable to a reference)
  • comparison efficiency: when you're using copy-by-reference, you can compare two variables by comparing location, rather than content
  • interning: you need to store at most one copy of any immutable value
  • there's no need to synchronize access to immutable objects in concurrent code
  • const correctness: some values shouldn't be allowed to change. This (to me) is the main reason for immutable types.

Note that a particular Python implementation may not make use of all of the above features.

Dictionary keys must be immutable, otherwise changing the properties of a key-object can invalidate invariants of the underlying data structure. Tuples can thus potentially be used as keys. This is a consequence of const correctness.

See also "Introducing tuples", from Dive Into Python.

  • 2
    id((1,2,3))==id((1,2,3)) is false. You can't compare tuples just by comparing the location, because there's no guarantee that they were copied by reference. Feb 1, 2010 at 1:39
  • @Glenn: Note the qualifying remark "when you're using copy-by-reference". While the coder can create their own implementation, copy-by-reference for tuples is largely a matter for the interpreter/compiler. I was mostly referring to how == is implemented at the platform level.
    – outis
    Feb 1, 2010 at 3:40
  • 1
    @Glenn: also note that copy-by-reference doesn't apply to the tuples in (1,2,3) == (1,2,3). That's more a matter of interning.
    – outis
    Feb 1, 2010 at 3:56
  • Like I said rather clearly, there's no guarantee that they were copied by reference. Tuples aren't interned in Python; that's a string concept. Feb 1, 2010 at 21:57
  • Like I said very clearly: I'm not talking about the programmer comparing tuples by comparing location. I'm talking about the possibility that the platform can, which can guarantee copy-by-reference. Also, interning can be applied to any immutable type, not only strings. The main Python implementation may not intern immutable types, but the fact Python has immutable types makes interning an option.
    – outis
    Feb 1, 2010 at 23:07

Sometimes we like to use objects as dictionary keys

For what it's worth, tuples recently (2.6+) grew index() and count() methods

  • 5
    +1: A mutable list (or mutable set or mutable dictionary) as a dictionary key can't work. So we need immutable lists ("tuples"), frozen sets, and ... well ... a frozen dictionary, I suppose.
    – S.Lott
    Feb 1, 2010 at 1:23

I've always found having two completely separate types for the same basic data structure (arrays) to be an awkward design, but not a real problem in practice. (Every language has its warts, Python included, but this isn't an important one.)

Why does anyone care if a variable lives at a different place in memory than when it was originally allocated? This whole business of immutability in Python seems to be over emphasized.

These are different things. Mutability isn't related to the place it's stored in memory; it means the stuff it points to can't change.

Python objects can't change location after they're created, mutable or not. (More accurately, the value of id() can't change--same thing, in practice.) The internal storage of mutable objects can change, but that's a hidden implementation detail.

>>> x='hello'
>>> id(x)
>>> x='good bye'
>>> id(x)

This isn't modifying ("mutating") the variable; it's creating a new variable with the same name, and discarding the old one. Compare to a mutating operation:

>>> a = [1,2,3]
>>> id(a)
>>> a[1] = 5
>>> a
[1, 5, 3]
>>> id(a)

As others have pointed out, this allows using arrays as keys to dictionaries, and other data structures that need immutability.

Note that keys for dictionaries do not have to be completely immutable. Only the part of it used as a key needs to be immutable; for some uses, this is an important distinction. For example, you could have a class representing a user, which compares equality and a hash by the unique username. You could then hang other mutable data on the class--"user is logged in", etc. Since this doesn't affect equality or the hash, it's possible and perfectly valid to use this as a key in a dictionary. This isn't too commonly needed in Python; I just point it out since several people have claimed that keys need to be "immutable", which is only partially correct. I've used this many times with C++ maps and sets, though.

  • >>> a = [1,2,3] >>> id(a) 3084599212L >>> a[1] = 5 >>> a [1, 5, 3] >>> id(a) 3084599212L You've just modified a mutable data type, so it doesn't make sense- related to the original question. x='hello" id(x) 12345 x="goodbye" id(x) 65432 Who cares if it is a new object or not. As long as x points to the data I've assigned, that's all that matters.
    – pyNewGuy
    Feb 1, 2010 at 2:25
  • 5
    You're confused well beyond my ability to help you. Feb 1, 2010 at 3:03
  • +1 for pointing out confusion in the sub-questions, which seem to be the main source of difficulty in perceiving the value of tuples.
    – outis
    Feb 1, 2010 at 4:07
  • 1
    If I could, another +1 for pointing out that the true rubric for keys is whether or not the object is hashable (docs.python.org/glossary.html#term-hashable).
    – outis
    Feb 1, 2010 at 4:14

As gnibbler offered in a comment, Guido had an opinion that is not fully accepted/appreciated: “lists are for homogeneous data, tuples are for heterogeneous data”. Of course, many of the opposers interpreted this as meaning that all elements of a list should be of the same type.

I like to see it differently, not unlike others also have in the past:

blue= 0, 0, 255
alist= ["red", "green", blue]

Note that I consider alist to be homogeneous, even if type(alist[1]) != type(alist[2]).

If I can change the order of the elements and I won't have issues in my code (apart from assumptions, e.g. “it should be sorted”), then a list should be used. If not (like in the tuple blue above), then I should use a tuple.

  • If I could I would vote this answer up 15 times. This is exactly how I feel about tuples.
    – Grant Paul
    Feb 4, 2010 at 5:01

They are important since they guarantee the caller that the object they pass won't be mutated. If you do this:

a = [1,1,1]

The caller has no guarantee of the value of a after the call. However,

a = (1,1,1)

Now you as the caller or as a reader of this code know that a is the same. You could always for this scenario make a copy of the list and pass that but now you are wasting cycles instead of using a language construct that makes more semantic sense.

  • 2
    This is a very secondary property of tuples. There are too many cases where you have a mutable object you want to pass to a function and not have it modified, whether it's a preexisting list or some other class. There's just no concept of "const parameters by reference" in Python (eg. const foo & in C++). Tuples happen to give you this if it happens to be convenient to use a tuple at all, but if you've received a list from your caller, are you really going to convert it to a tuple before passing it somewhere else? Feb 1, 2010 at 2:08
  • I agree with you on that. A tuple isn't the same as slapping on a const keyword. My point is that the immutability of a tuple carries added meaning to the reader of the code. Given a situation where both would work and your expectation is that it shouldn't change using the tuple will add that extra meaning for the reader (while ensuring it as well) Feb 1, 2010 at 2:15
  • a = [1,1,1] doWork(a) if dowork() is defined as def dowork(arg): arg=[0,0,0] calling dowork() on a list or tuple has the same result
    – pyNewGuy
    Feb 1, 2010 at 2:29

you can see here for some discussion on this


Your question (and follow-up comments) focus on whether the id() changes during an assignment. Focusing on this follow-on effect of the difference between immutable object replacement and mutable object modification rather than the difference itself is perhaps not the best approach.

Before we continue, make sure that the behavior demonstrated below is what you expect from Python.

>>> a1 = [1]
>>> a2 = a1
>>> print a2[0]
>>> a1[0] = 2
>>> print a2[0]

In this case, the contents of a2 was changed, even though only a1 had a new value assigned. Contrast to the following:

>>> a1 = (1,)
>>> a2 = a1
>>> print a2[0]
>>> a1 = (2,)
>>> print a2[0]

In this latter case, we replaced the entire list, rather than updating its contents. With immutable types such as tuples, this is the only behavior allowed.

Why does this matter? Let's say you have a dict:

>>> t1 = (1,2)
>>> d1 = { t1 : 'three' }
>>> print d1
{(1,2): 'three'}
>>> t1[0] = 0  ## results in a TypeError, as tuples cannot be modified
>>> t1 = (2,3) ## creates a new tuple, does not modify the old one
>>> print d1   ## as seen here, the dict is still intact
{(1,2): 'three'}

Using a tuple, the dictionary is safe from having its keys changed "out from under it" to items which hash to a different value. This is critical to allow efficient implementation.

  • As others have pointed out, immutability != hashability. Not all tuples can be used as dictionary keys: { ([1], [2]) : 'value' } fails because the mutable lists in the tuple can be altered, but { ((1), (2)) : 'value' } is OK.
    – Ned Deily
    Feb 1, 2010 at 7:39
  • Ned, that's true, but I'm not sure that the distinction is germane to the question being asked. Feb 2, 2010 at 9:30
  • @K.Nicholas, the edit you approved here changed the code in such a way as to be assigning an integer, not a tuple, at all -- making the later index operations fail, so they couldn't possibly have tested that the new transcript was actually possible. Correctly-identified problem, sure; invalid solution. Oct 19, 2018 at 13:30
  • @MichaelPuckettII, likewise, see above. Oct 19, 2018 at 13:31

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