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In C++11, we know that std::string is guaranteed to be both contiguous and null-terminated (or more pedantically, terminated by charT(), which in the case of char is the null character 0).

There is this C API I need to use that fills in a string by pointer. It writes the whole string + null terminator. In C++03, I was always forced to use a vector<char>, because I couldn't assume that string was contiguous or null-terminated. But in C++11 (assuming a properly conforming basic_string class, which is still iffy in some standard libraries), I can.

Or can I? When I do this:

std::string str(length);

The string will allocate length+1 bytes, with the last filled in by the null-terminator. That's good. But when I pass this off to the C API, it's going to write length+1 characters. It's going to overwrite the null-terminator.

Admittedly, it's going to overwrite the null-terminator with a null character. Odds are good that this will work (indeed, I can't imagine how it couldn't work).

But I don't care about what "works". I want to know, according to the spec, whether it's OK to overwrite the null-terminator with a null character?

share|improve this question
Right, but @NicolBolas's question is not "does it cause a problem", but "does the spec allow for it". – nneonneo Oct 5 '12 at 6:22
@texasbruce In other words, who cares what the spec allows, if it works on your system use it? Luckily, not everyone has that attitude. – hvd Oct 5 '12 at 7:02
It should be possible to avoid the problem by using a std::string with an extra null character at the end, with length length + 1, unless I'm missing something? – hvd Oct 5 '12 at 7:06
@texasbruce That is utterly irrelevant. The point is that nothing in the standard guarantees that the null termination is at a writeable memory location at all. It’s entirely possible (if unlikely) that it’s in read-only memory, for instance. Then any attempt to write to it will crash the program. Any competent C programmer will tell you that you are stark raving mad if you attempt to write portable programs that ignore these effects. It is not “perfectly normal” at all. – Konrad Rudolph Oct 5 '12 at 8:31
@FrerichRaabe Agreed. But that’s a completely different discussion. And even then it doesn’t pay to ignore what the spec says: you may still consciously decide to break the spec – but you should know it first. – Konrad Rudolph Oct 5 '12 at 8:44
up vote 24 down vote accepted

Unfortunately, this is UB, if I interpret the wording correct (in any case, it's not allowed):

§21.4.5 [string.access] p2

Returns: *(begin() + pos) if pos < size(), otherwise a reference to an object of type T with value charT(); the referenced value shall not be modified.

(Editorial error that it says T not charT.)

.data() and .c_str() basically point back to operator[] (§ [string.accessors] p1):

Returns: A pointer p such that p + i == &operator[](i) for each i in [0,size()].

share|improve this answer
Does writing '\0' into something which is already '\0' actually count as modifying it? – Michael Anderson Oct 5 '12 at 6:57
@MichaelAnderson, yes, definitely. It writes to memory. – Jonathan Wakely Oct 5 '12 at 7:43
@KonradRudolph Well, data and c_str return const pointers, so they are out of the question for modifying, anyway. And from 21.4.5 p2 it doesn't really follow that *(&str[0] + str.size()) is even allowed, since [] is only equal to *(begin()+pos) for pos < size(). I think an implementation is perfectly allowed to hold the string data in a length array together with an additional static const charT member for the null (of course this means it would have to maintain an additional buffer to return by data and c_str, but why not?). – Christian Rau Oct 5 '12 at 8:44
@KonradRudolph: It has to. The buffer is contiguous. Therefore, &str[str.size() - 1] == &str[str.size()] - 1 must be true (assuming length() is at least 1). If it weren't, then the buffer wouldn't be contiguous. – Nicol Bolas Oct 5 '12 at 8:58
@NicolBolas No. size() is an invalid argument for operator[] so nothing guarantees that its return value will point to the buffer. For instance (far-fetched), operator[] could contain the following logic: static CharT terminator{}; if (index == size()) return terminator; else return _data[i];. – Konrad Rudolph Oct 5 '12 at 9:02

According to the spec, overwriting the terminating NUL should be undefined behavior. So, the right thing to do would be to allocate length+1 characters in the string, pass the string buffer to the C API, and then resize() back to length:

// "+ 1" to make room for the terminating NUL for the C API
std::string str(length + 1);

// Call the C API passing &str[0] to safely write to the string buffer

// Resize back to length

(FWIW, I tried the "overwriting NUL" approach on MSVC10, and it works fine.)

share|improve this answer
I’d go with this solution as well. But it’s unsatisfying that this requires a totally needless allocation of an extra character. Why didn’t the spec just make the null termination writeable? – Konrad Rudolph Oct 5 '12 at 9:12
Because that would mean more typing? 'You must not overwrite the null, except with another null'. Perhaps their fingers were getting tired, or it was the end of the day and the bars were open. – Martin James Oct 5 '12 at 9:21
@KonradRudolph: I agree that the standard should be changed, making it possible to overwrite a NUL with another NUL. I see no reason why it shouldn't be possible or should trigger undefined behavior, and I don't like the needless allocation of an extra character either. – Mr.C64 Oct 5 '12 at 11:28

I suppose n3092 isn't current any more but that's what I have. Section 21.4.5 allows access to a single element. It requires pos <= size(). If pos < size() then you get the actual element, otherwise (i.e. if pos == size()) then you get a non-modifiable reference.

I think that as far as the programming language is concerned, a kind of access which could modify the value is considered a modification even if the new value is the same as the old value.

Does g++ have a pedantic library that you can link to?

share|improve this answer
libstdc++ has a debug mode but there are limits to what it will diagnose. It validates iterator operations, but can't notice writes of individual bytes through pointers. – Jonathan Wakely Oct 5 '12 at 7:45

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