110

C++20 introduced the std::ssize() free function as below:

template <class C>
    constexpr auto ssize(const C& c)
        -> std::common_type_t<std::ptrdiff_t,
                              std::make_signed_t<decltype(c.size())>>;

A possible implementation seems using static_cast, to convert the return value of the size() member function of class C into its signed counterpart.

Since the size() member function of C always returns non-negative values, why would anyone want to store them in signed variables? In case one really wants to, it is a matter of simple static_cast.

Why is std::ssize() introduced in C++20?

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  • 4
    @Jarod42 Isn't it implementation defined instead of undefined? (signed overflow is undefined. but signed conversion is implementation defined)
    – phön
    May 20, 2019 at 9:37
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    If only they add ssizeof operator as well.
    – geza
    May 20, 2019 at 10:19
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    @JohnZ.Li At the risk of sounding too unconsructive: I think that the whole type system of C++ regarding the integer types is broken. Sure, one can argue that some quirks (like not knowing how many bits a char has) are inherited from C and at least somewhat alleviated by (u)intX_t, but it's still an endless source of equally subtle and critical bugs. Things like ssize are only patches, and it will take a while (maybe "forever") until this sinks into the common "best practices guides" that people (can) follow rigorously.
    – Marco13
    May 20, 2019 at 14:47
  • 6
    @Marco13: On the other hand, the C/C++ type system (as opposed to e.g. Java's fixed types system), aside from allowing C/C++ code to work on architectures where most other languages croak, does allow competent instructors to get some important lessons into a student's head. Like, not all the world is 64bit. And no, not all the world uses 8-bit chars. It is dead easy to cope with these things, and it makes you a better developer, if only instructors would teach this from the beginning. (And, just to make sure, you do know that the (u)intX_t types are optional, do you?)
    – DevSolar
    May 21, 2019 at 11:13
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    @DevSolar I hestiate to walk too far along the "language bashing" road here, but frankly: Having roughly 70 different integer types, some of them optional, and not knowing the size of most of them can not be justified with "teaching students a lesson". It is an excess on the level of the definition and specification of the language (and I wouldn't take too much pride in knowing all the quirks here). Again, I'm aware of some of the historical reasons, but there's no point in sugarcoating that: It's legacy, makes the life of application developers difficult, and causes bugs.
    – Marco13
    May 21, 2019 at 12:11

2 Answers 2

82

The rationale is described in this paper. A quote:

When span was adopted into C++17, it used a signed integer both as an index and a size. Partly this was to allow for the use of "-1" as a sentinel value to indicate a type whose size was not known at compile time. But having an STL container whose size() function returned a signed value was problematic, so P1089 was introduced to "fix" the problem. It received majority support, but not the 2-to-1 margin needed for consensus.

This paper, P1227, was a proposal to add non-member std::ssize and member ssize() functions. The inclusion of these would make certain code much more straightforward and allow for the avoidance of unwanted unsigned-ness in size computations. The idea was that the resistance to P1089 would decrease if ssize() were made available for all containers, both through std::ssize() and as member functions.

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  • 34
    The for(int i = 0; i < container.ssize() - 1; ++i) example is also fairly compelling
    – Caleth
    May 20, 2019 at 8:53
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    @John it seems to me indeed that they could do the same thing as string::npos and just use size_t(-1) as a special value.
    – rubenvb
    May 20, 2019 at 9:02
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    @JohnZ.Li It is long considered a mistake that STL size types are unsigned. Now unfortunately it's too late to reform it. Providing a free function is the best we can do as of now.
    – L. F.
    May 20, 2019 at 9:53
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    @L.F.: It was Herb Sutter in a conference (maybe Bjarne said this as well). But, he is a little bit wrong. Now, with 32-bit/64-bit computers, signed size would be better (So he's right). But in the old days (16-bit sizes), signed size would have been bad (for example, we could have allocated 32k byte arrays only).
    – geza
    May 20, 2019 at 10:24
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    @L.F.: I've found Herb's mentioning this: youtube.com/watch?v=Puio5dly9N8&t=2667. When he says that "does not come up in practice very much", it is true nowadays. But it wasn't true >20 years ago (16-bit systems) at all. So, it was not that much of a mistake to use unsigned, when the STL was designed.
    – geza
    May 20, 2019 at 10:47
56

Gratuitously stolen from Eric Niebler:

'Unsigned types signal that a negative index/size is not sane' was the prevailing wisdom when the STL was first designed. But logically, a count of things need not be positive. I may want to keep a count in a signed integer to denote the number of elements either added to or removed from a collection. Then I would want to combine that with the size of the collection. If the size of the collection is unsigned, now I'm forced to mix signed and unsigned arithmetic, which is a bug farm. Compilers warn about this, but because the design of the STL pretty much forces programmers into this situation, the warning is so common that most people turn it off. That's a shame because this hides real bugs.

Use of unsigned ints in interfaces isn't the boon many people think it is. If by accident a user passes a slightly negative number to the API, it suddenly becomes a huge positive number. Had the API taken the number as signed, then it can detect the situation by asserting the number is greater than or equal to zero.

If we restrict our use of unsigned ints to bit twiddling (e.g., masks) and use signed ints everywhere else, bugs are less likely to occur, and easier to detect when they do occur.

3
  • 7
    Swift takes this approach, even though it doesn't have the concern about negative signed numbers being reinterpreted as massive unsigned numbers (since there are no implicit casts, which are what really get you into this crazy fun house to begin with). They just take the approach the (machine word sized) Int should be the common currency types of whole numbers, even where only positive numbers make sense (such as indexing an array). Any deviation from it should be well founded. It's nice to not need to worry about casts everywhere.
    – Alexander
    May 20, 2019 at 14:38
  • 4
    @JohnZ.Li Indeed, "unsigned int considered harmful for Java"
    – Nayuki
    May 21, 2019 at 13:54
  • 1
    Rust (most modern system programming language) also uses unsigned types for indexes (because it makes sense). C++ is simply unrepairable. It is old technology, poorly designed with almost all default behaviour incorrect/unintuitive. All it happens to C++ in last couple of releases is poor patching poorly designed features. Sep 22, 2021 at 14:24

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