# Python sum, why not strings?

Python has a built in function sum, which is effectively equivalent to:

def sum2(iterable, start=0):


for all types of parameters except strings. It works for numbers and lists, for example:

 sum([1,2,3], 0) = sum2([1,2,3],0) = 6    #Note: 0 is the default value for start, but I include it for clarity
sum({888:1}, 0) = sum2({888:1},0) = 888


Why were strings specially left out?

 sum( ['foo','bar'], '') # TypeError: sum() can't sum strings [use ''.join(seq) instead]
sum2(['foo','bar'], '') = 'foobar'


I seem to remember discussions in the Python list for the reason, so an explanation or a link to a thread explaining it would be fine.

Edit: I am aware that the standard way is to do "".join. My question is why the option of using sum for strings was banned, and no banning was there for, say, lists.

Edit 2: Although I believe this is not needed given all the good answers I got, the question is: Why does sum work on an iterable containing numbers or an iterable containing lists but not an iterable containing strings?

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Because it does not make sense to "sum" strings. –  NullUserException Aug 19 '10 at 19:22
@NullUserException: it makes as much sense to "sum" strings as it is to "sum" lists. –  Muhammad Alkarouri Aug 19 '10 at 19:31
@NullUserException: It would be great if you were right, but sadly the + operation on strings is already overloaded to mean concatentation. So with + we already construct string "sums". –  u0b34a0f6ae Aug 19 '10 at 19:57
@S.Lott: I meant summing a sequence of lists compared to summing a sequence of strings. As it happens, "sum" of a list of lists concatenates the lists. You can sum two lists using + to concatenate them. You can sum two strings using + to concatenate them. So it makes as much sense to define sum as concatenation for strings as it is for lists. That is what I meant. Whether this is good or is bad is beside the question. –  Muhammad Alkarouri Aug 19 '10 at 20:12
@S.Lott: read my question again. It is quite clear there. I said: "for all types of parameters except strings. It works for numbers and lists, for example." Which means that numbers and lists are parameters in much the same way strings are. How did you understand the comparison between sum and "".join? –  Muhammad Alkarouri Aug 19 '10 at 20:57

Python tries to discourage you from "summing" strings. You're supposed to join them:

"".join(list_of_strings)


It's a lot faster, and uses much less memory.

A quick benchmark:

$python -m timeit -s 'import operator; strings = ["a"]*10000' 'r = reduce(operator.add, strings)' 100 loops, best of 3: 8.46 msec per loop$ python -m timeit -s 'import operator; strings = ["a"]*10000' 'r = "".join(strings)'
1000 loops, best of 3: 296 usec per loop


Edit (to answer OP's edit): As to why strings were apparently "singled out", I believe it's simply a matter of optimizing for a common case, as well as of enforcing best practice: you can join strings much faster with ''.join, so explicitly forbidding strings on sum will point this out to newbies.

BTW, this restriction has been in place "forever", i.e., since the sum was added as a built-in function (rev. 32347)

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The benchmark is useful. Your answer would be more complete if it compares the reduce vs sum for lists, which gives me around the same result. So the argument for strings would work only for strings. –  Muhammad Alkarouri Aug 19 '10 at 19:38
Actually, I think it's the other way around: reduce and sum are similar for lists, because they do more or less the same thing. That's why I used this benchmark: reduce, representing sum, versus join, which is an optimised way of "adding" strings. –  rbp Aug 19 '10 at 19:54
I am feeling old now. I understand "forever" in Python as before 2.0. Things done after the introduction of new style classes are not that "forever". –  Muhammad Alkarouri Aug 19 '10 at 19:55
Hehe True :) I meant in terms of sum's lifetime, r32347's commit message is "Adding new built-in function sum, with docs and tests." –  rbp Aug 19 '10 at 20:00
I think it's there because of the chronological sequence of implementations: when they implemented the sum builtin, they already had join for strings. So, to avoid people unknowingly (or knowingly, but lazily/mischievously) using sum for strings, they specifically disallowed it. Since there wasn't a specific "sum" for lists (or other types), they made the exception only for strings. Nowadays, I think they'd keep it this way, even if someone came up with a specific "sum", for backwards compatibility. –  rbp Aug 23 '10 at 0:46
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You can in fact use sum(..) to concatenate strings, if you use the appropriate starting object! Of course, if you go this far you have already understood enough to use "".join(..) anyway..

>>> class ZeroObject(object):
...   return other
...
>>> sum(["hi", "there"], ZeroObject())
'hithere'

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I find this very interesting. Of course it is too clever by half, but it adds to the understanding of this feature. –  Muhammad Alkarouri Aug 19 '10 at 20:39
And it’s a little faster than the reduce version. –  Debilski Aug 19 '10 at 22:06
Still it's weird that Python checks for strings, but not for lists or tuples. –  Philipp Aug 20 '10 at 6:14

From the docs:

The preferred, fast way to concatenate a sequence of strings is by calling ''.join(sequence).

By making sum refuse to operate on strings, Python has encouraged you to use the correct method.

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In the builtin_sum function we have this bit of code:

     /* reject string values for 'start' parameter */
if (PyObject_TypeCheck(result, &PyBaseString_Type)) {
PyErr_SetString(PyExc_TypeError,
"sum() can't sum strings [use ''.join(seq) instead]");
Py_DECREF(iter);
return NULL;
}
Py_INCREF(result);
}


It's explicitly checked in the code and rejected.

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It's interesting to see the code, but the question was "Why aren't strings summed", not "How did they exclude strings from summing?" ... –  Edmund Aug 20 '10 at 5:47
Well, I meant, the reason why its not working is because its explicitly banned in the code. Others seemed to answer by explaining why you shouldn't do it. –  HS. Aug 20 '10 at 7:35

Edit: Moved the parts about immutability to history.

Basically, its a question of preallocation. When you use a statement such as

sum(["a", "b", "c", ..., ])


and expect it to work similar to a reduce statement, the code generated looks something like

v1 = "" + "a" # must allocate v1 and set its size to len("") + len("a")
v2 = v1 + "b" # must allocate v2 and set its size to len("a") + len("b")
...
res = v10000 + "$" # must allocate res and set its size to len(v9999) + len("$")


In each of these steps a new string is created, which for one might give some copying overhead as the strings are getting longer and longer. But that’s maybe not the point here. What’s more important, is that every new string on each line must be allocated to it’s specific size (which. I don’t know it it must allocate in every iteration of the reduce statement, there might be some obvious heuristics to use and Python might allocate a bit more here and there for reuse – but at several points the new string will be large enough that this won’t help anymore and Python must allocate again, which is rather expensive.

A dedicated method like join, however has the job to figure out the real size of the string before it starts and would therefore in theory only allocate once, at the beginning and then just fill that new string, which is much cheaper than the other solution.

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It's true, but that's not the whole story. Integers are immutable as well. But the join operation on strings is specialised, takes the whole list into account, and, therefore, is much faster. –  rbp Aug 19 '10 at 19:30
Yeah, ok maybe immutability is not the real problem here. (Though I can imagine that register-sized integers suffer less from immutability on the Python-side than strings do.) But then I think that preallocation actually is the whole story. –  Debilski Aug 19 '10 at 19:37
@Debiliski: The preallocation was probably the missing link for me; it tells why "",join behaves so much better than a generic sum. I had to look at the code to understand. I think the immutability is a red herring. –  Muhammad Alkarouri Aug 19 '10 at 20:22
@Debiliski: Unfortunately I have accepted the other answer, else I would have suggested that you edit yours to make the preallocation and explanation more prominent. –  Muhammad Alkarouri Aug 19 '10 at 20:23

Long answer: The sum function has to create an object for each partial sum.

Assume that the amount of time required to create an object is directly proportional to the size of its data. Let N denote the number of elements in the sequence to sum.

doubles are always the same size, which makes sum's running time O(1)×N = O(N).

int (formerly known as long) is arbitary-length. Let M denote the absolute value of the largest sequence element. Then sum's worst-case running time is lg(M) + lg(2M) + lg(3M) + ... + lg(NM) = N×lg(M) + lg(N!) = O(N log N).

For str (where M = the length of the longest string), the worst-case running time is M + 2M + 3M + ... + NM = M×(1 + 2 + ... + N) = O(N²).

Thus, summing strings would be much slower than summing numbers.

str.join does not allocate any intermediate objects. It preallocates a buffer large enough to hold the joined strings, and copies the string data. It runs in O(N) time, much faster than sum.

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That argument is wrong because the same would hold for lists and tuples, which can be summed. As stated by HS, Python explicitly check for strings, and only for strings, which just doesn't make sense. –  Philipp Aug 20 '10 at 6:08