For example,

#include <iostream>

int main() {
  unsigned n{};
  std::cin >> n;
  std::cout << n << ' ' << (bool)std::cin << std::endl;

When input -1, clang 6.0.0 outputs 0 0 while gcc 7.2.0 outputs 4294967295 1. I'm wondering who is correct. Or maybe both are correct for the standard does not specify this? By fail, I take to mean (bool)std::cin be evaluated false. clang 6.0.0 fails input -0 too.

As of Clang 9.0.0 and GCC 9.2.0, both compilers, using either libstdc++ or libc++ in the case of Clang, agree on the result of the program above, independent of the C++ version (>= C++11) used, and print

4294967295 1

i.e. they set the value to ULLONG_MAX and do not set the failbit on the stream.

  • 4
    What does "fail" mean here? You can't get -1, that's for sure. Apr 19, 2018 at 12:39
  • Have been trying to answer this ... it's a rabbit hole. At a minimum could you add what C++ standard you are compiling against there are so many "up to", "after" etc changes that not knowing this is going to make it almost impossible to give a definitive answer. Apr 19, 2018 at 12:42
  • 4
    @ArndtJonasson I would assume that 'fail' means that failbit of the input stream was set - and therefore the second output would be 0 rather than 1.
    – eerorika
    Apr 19, 2018 at 12:48
  • @RichardCritten Added C++17 tag.
    – Lingxi
    Apr 19, 2018 at 12:50
  • Additional references: libc++ bug resulting in the changed behavior and LWG issue resulting in C++17 change. From neither of those it is clear to me whether failbit should be set.
    – walnut
    Oct 25, 2019 at 1:06

3 Answers 3


I think that both are wrong in C++171 and that the expected output should be:

4294967295 0

While the returned value is correct for the latest versions of both compilers, I think that the ios_­base​::​failbit should be set, but I also think there is a confusion about the notion of field to be converted in the standard which may account for the current behaviors.

The standard says — [facet.num.get.virtuals#3.3]:

The sequence of chars accumulated in stage 2 (the field) is converted to a numeric value by the rules of one of the functions declared in the header <cstdlib>:

  • For a signed integer value, the function strtoll.

  • For an unsigned integer value, the function strtoull.

  • For a floating-point value, the function strtold.

So we fall back to std::strtoull, which must return2 ULLONG_MAX and not set errno in this case (which is what both compilers do).

But in the same block (emphasis is mine):

The numeric value to be stored can be one of:

  • zero, if the conversion function does not convert the entire field.

  • the most positive (or negative) representable value, if the field to be converted to a signed integer type represents a value too large positive (or negative) to be represented in val.

  • the most positive representable value, if the field to be converted to an unsigned integer type represents a value that cannot be represented in val.

  • the converted value, otherwise.

The resultant numeric value is stored in val. If the conversion function does not convert the entire field, or if the field represents a value outside the range of representable values, ios_­base​::​failbit is assigned to err.

Notice that all these talks about the "field to be converted" and not the actual value returned by std::strtoull. The field here is actually the widened sequence of character '-', '1'.

Since the field represents a value (-1) that cannot be represented by an unsigned, the returned value should be UINT_MAX and the failbit should be set on std::cin.

1clang was actually right prior to C++17 because the third bullet in the above quote was:

- the most negative representable value or zero for an unsigned integer type, if the field represents a value too large negative to be represented in val. ios_base::failbit is assigned to err.

2 std::strtoull returns ULLONG_MAX because (thanks @NathanOliver) — C/

If the subject sequence has the expected form and the value of base is zero, the sequence of characters starting with the first digit is interpreted as an integer constant according to the rules of [...] If the subject sequence begins with a minus sign, the value resulting from the conversion is negated (in the return type).

  • 1
    @NathanOliver I did add this but I am actually rewriting the answer because I found some other evidences in the standard - I am deleting it while I edit it. Thanks for the quote anyway!
    – Holt
    Apr 19, 2018 at 13:05
  • 3
    I'm not sure where you got your second quote but it doesn't match what I have for C++17: timsong-cpp.github.io/cppwp/facet.num.get.virtuals#3.3. According to that it should be the most positive value. Apr 19, 2018 at 13:24
  • 2
    Ah, looked at my C++11 draft and that is the language in there. Looks like there was a change somewhere along the line. Apr 19, 2018 at 13:26
  • 1
    @Holt This came up in another question and I noticed that recent versions of GCC and Clang are in agreement on this, but disagree with your answer. Could you revisit it?
    – walnut
    Oct 20, 2019 at 20:26
  • 1
    @Holt Here is a comment in the bug report that caused the change in libc++'s behavior discussing whether the failbit should be set. I don't know whether this adds anything new to this thread.
    – walnut
    Oct 25, 2019 at 1:21

The question is about differences between the library implementations and - and not so much about differences between the compilers(, ).

cppreference clears these inconsistencies up pretty well:

The result of converting a negative number string into an unsigned integer was specified to produce zero until , although some implementations followed the protocol of std::strtoull which negates in the target type, giving ULLONG_MAX for "-1", and so produce the largest value of the target type instead. As of , strictly following std::strtoull is the correct behavior.

This summarises to:

  • ULLONG_MAX (4294967295) is correct going forward, since (both compilers do it correct now)
  • Previously it should have been 0 with a strict reading of the standard ()
  • Some implementations (notably ) followed std::strtoull protocol instead (which now is considered the correct behavior)

The failbit set and why it was set, might be a more interesting question (at least from the perspective). In () version 7 it now does the same as - this seems to suggest that it was chosen to be same as going forward (even though this goes against the letter of standard, that it should be zero before ) - but so far I've been unable to find changelog or documentation for this change.

The interesting block of text reads (assuming pre-c++17):

If the conversion function results in a negative value too large to fit in the type of v, the most negative representable value is stored in v, or zero for unsigned integer types.

According to this, the value is specified to be 0. Additionally, no where is it indicated that this should result in setting the failbit.

  • The top answer does say the same about the value set. However it additionally asserts that the failbit should be set in both cases, which is not what the current compilers do. The cppreference page is not explicitly mentioning whether it should be set. Is this supposed to mean that it should not be set in either case? Then the old Clang behavior would be wrong as well. I think this is what needs to be explained explicitly.
    – walnut
    Oct 21, 2019 at 22:15
  • @uneven_mark i have updated my answer - it turns out clang did the same as gcc
    – darune
    Oct 22, 2019 at 7:37
  • This is a library issue, so you really instead of gcc vs clang we should be talking about libstdc++ vs libc++. Godbolt uses by default libstdc++ for both. You need to specify -stdlib=libc++, then you will observe OP's results. I think there needs to be a more detailed explanation for why the failbit shouldn't be set, given that this is a language-lawyer question and the highly upvoted answer is contradicting for both C++17 and before.
    – walnut
    Oct 22, 2019 at 8:27
  • @uneven_mark im pretty sure this is a bug in libc++ (don't you think ?) - language-lawyer or not
    – darune
    Oct 22, 2019 at 11:38
  • I don't know whether it is. As you can see in the top answer there was discussion about what the standard actually means, as it says "If the conversion function does not convert the entire field, or if the field represents a value outside the range of representable values, ios_­base​::​failbit is assigned to err.". Standard libraries seem to agree now that this does not mean that the failbit should be set in this situation, but again the top answer argues differently. I don't know what the correct answer is myself.
    – walnut
    Oct 22, 2019 at 12:00

The intended semantics of your std::cin >> n command are described here (as, apparently, std::num_get::get() is called for this operation). There have been some semantics changes in this function, specifically w.r.t. the choice of whether to place 0 or not, in C++11 and then again in C++17.

I'm not entirely sure, but I believe these differences may account for the different behavior you're seeing.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.