In C++, the default size for array indices is size_t which is a 64 bits unsigned 64-bits integer on most x86-64 platforms. I am in the process of building my own std::vector class for my library for High Performance Computing (One of the main reason is that I want this class to be able to take ownership of a pointer, something std::vector does not offer). For the type of the array index, I am thinking of either using:

  • size_t
  • my own index_t that would be a signed int or a long signed int depending on my program

The advantages or using a signed integer over an unsigned one are numerous, such as

for (index_t i = 0; i < v.size() - 1; ++i)

works like it is supposer to (with an unsigned integer, this loop goes crazy when v is of size 0)

for (index_t i = v.size() - 1; i >= 0; --i)

works like it is supposed to, and many other avantages. In terms of performance, it even seems to be a little bit better as

a + 1 < b + 1

can be reduced to a < b with signed integer (overflow is undefined), and not in the case of unsigned integers. The only avantage performance wise seems to be that a /= 2 can be reduced to a shift operation with unsigned integers but not with signed one.

I am wondering why the C++ committee has decided to use an unsigned integer for size_t as it seems to introduce a lot of pain and only few advantages.

  • Other than you think, unsigned types work perfectly when doing arithmetic, also when counting down indices. If you think in ranges, this turn out very well, i < v.size() would do the trick here. Otherwise, if you want a signed type for such purposes chose ptrdiff_t this is the correct type foreseen to code differences. Maybe you find this interesting, it is mainly about C, but here for once the two are much tied together. gustedt.wordpress.com/2013/07/15/…. Ah, and also voting to close, because this is primarily opinion based. – Jens Gustedt Oct 30 '14 at 12:15
  • @Gustedt: Thanks for the link which is interesting. I have tried to focus the subject on facts rather than opinions. Some folks helped me to think about using ptrdiff_t which has been useful. – InsideLoop Oct 30 '14 at 19:28

The motivation for using an unsigned type as index or size in the standard is based on constraints only relevant to 16 bit machines. The natural type for any integral type in C++ is int, and that's what should probably be used; as you've noticed, trying to use unsigned types as numerical values in C++ is fraught with problems. If you're worried about the sizes being so big that they don't fit into an int, ptrdiff_t would be appropriate; this is, after all, the type of the results of subtraction of pointers or iterators. (The fact that v.size() has a different type than v.end() - v.begin() is really a design flaw in the standard library.)

  • The fact that v.size() and v.end() - v.begin() seems really strange for me too. Thanks for the hint on historical reasons and 16 bits machines. – InsideLoop Oct 30 '14 at 10:56
  • I finally decided to use my own type called index_t which will be a signed int. I will mainly use an int or a ptrdiff_t for it. The int will be better when I want to use huge arrays of index_t if I want to go easy on the memory bandwidth, and the ptrdiff_t will be useful when I want very large arrays. – InsideLoop Oct 30 '14 at 19:32
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    But using signed types makes sign conversion and sign compare warnings fire every time I use them with standard library containers like std::vector (to index or when comparing with .size()). Do you just disable these warnings or do you static_cast every occurrence? The latter seem very tedious to me. – Baum mit Augen Mar 3 '15 at 22:08
  • Hi Baum. I just use my own vector implementation. The .size() method returns a signed integer which makes everything smooth. If you use std::vector, you are commited to use std::size_t. – InsideLoop Mar 4 '15 at 10:22
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    @BaummitAugen It depends. There's no simple rule, and the fact that std::vector<>::size returns an unsigned type is lamentable, because of the issues it creates. But since I rarely use std::vector<>::size, it's not an issue. The difference between two iterators is a signed type, and ultimately, that gets used more often. – James Kanze Mar 4 '15 at 10:31

For me, unsigned sizes always make the most sense, since you can't have -32 elements in an array it is very very scary to consider the size/length as a signed quantity all the time.

The corner cases you mention can be coded around, you can e.g. abort the loop before entering it if v is empty for the first case (which doesn't look all that common to begin with, iterating over all elements except the last?).

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    Looping over all but the last element can be useful in many examples. I am thinking of a bubble sort or going through the elements M(i, i + 1) (the diagonal just above the main one) of a matrix. I understand the "it does convey a message that the integer is nonnegative" thing but most people have used int to go through arrays in C and feel fine with int. – InsideLoop Oct 30 '14 at 10:50
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    An index is a numerical value, and unsigned integral types don't behave well as numerical values. (E.g. abs(i1 - i2) does not give the difference between the two indices.) Ideally, indices would be a range type, but C++ doesn't have ranged types. And trying to fake it with unsigned doesn't help, since it still leaves the upper range uncontrolled. Unsigned integral types in C++ are designed for a few very specific uses, like bit manipulation or when modulo arithmetic is really wanted. – James Kanze Oct 30 '14 at 11:16
  • @JamesKanze: The problem is that there are two use cases for unsigned types (natural numbers, and rings congruent mod 2^N), and they have different requirements, but rather than using separate types C makes unsigned types which are smaller than int as the first, and those which are larger than int behave the other. Adding distinct types for e.g. unumN_t and uwrapN_t, with the former guaranteeing promotion to a signed type, and the latter guaranteeing that it won't be promoted, could make things much cleaner. – supercat Oct 12 '17 at 15:41

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