Vector's new method data() provides a const and non-const version.
However string's data() method only provides a const version.

I think they changed the wording about std::string so that the chars are now required to be contiguous (like std::vector).

Was std::string::data just missed? Or is the a good reason to only allow const access to a string's underlying characters?

note: std::vector::data has another nice feature, it's not undefined behavior to call data() on an empty vector. Whereas &vec.front() is undefined behavior if it's empty.

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    I didn't knew std::vector::data returns null when the vector is empty. Why is that a nice feature? – R. Martinho Fernandes Sep 22 '11 at 17:16
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    personally I prefer to use 'empty' to check if a string or vector is empty, but that is just me. – Anders Sep 22 '11 at 17:19
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    @R.MartinhoFernandes As you can easily supply the vector data to a function taking a pointer and coping with null pointers itself, without checking for emptiness yourself. Not an important feature, but a nice one. – Christian Rau Sep 22 '11 at 17:21
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    Anyways, the point is moot. std::vector::data is not spec'd to return NULL. – R. Martinho Fernandes Sep 22 '11 at 17:26
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    @Anders: f(v.empty() ? NULL : &v.front()) is quite a mouthful, though, compared to f(v.data()). – sbi Sep 22 '11 at 17:28

In C++98/03 there was good reason to not have a non-const data() due to the fact that string was often implemented as COW. A non-const data() would have required a copy to be made if the refcount was greater than 1. While possible, this was not seen as desirable in C++98/03.

In Oct. 2005 the committee voted in LWG 464 which added the const and non-const data() to vector, and added const and non-const at() to map. At that time, string had not been changed so as to outlaw COW. But later, by C++11, a COW string is no longer conforming. The string spec was also tightened up in C++11 such that it is required to be contiguous, and there's always a terminating null exposed by operator[](size()). In C++03, the terminating null was only guaranteed by the const overload of operator[].

So in short a non-const data() looks a lot more reasonable for a C++11 string. To the best of my knowledge, it was never proposed.


charT* data() noexcept;

was added basic_string in the C++1z working draft N4582 by David Sankel's P0272R1 at the Jacksonville meeting in Feb. 2016.

Nice job David!

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    So it looks like the missing non-const data method was just forgotten. How does one file a Defect Report against the standard? – deft_code Sep 22 '11 at 18:53
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  • @deft_code Indeed seems so. Another oversight may be the lack of data() in std::initializer_list, which has size() and the iterators begin/end, but not data() for template genericity with vector and string (since using &(*begin()) means deferencing a potentially invalid iterator if empty container). – Dwayne Robinson Dec 6 '13 at 3:31
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    In case anyone from the future finds this useful, I've asked about this on std-discussion and will submit a defect report (unless I'm told not to). Also, an alternative link for submitting issues is here (it's not a massive page like the other link). Depending on how this goes, I may bring up std::initializer_list too. – Cornstalks Feb 12 '14 at 3:33
  • @Cornstalks I'd like to know how it turned out, can you share some follow-up? – Erbureth Jul 17 '14 at 14:40

Historically, the string data has not been const because it would prevent several common optimizations, like copy-on-write (COW). This is now, IIANM, far less common, because it behaves badly with multithreaded programs.

BTW, yes they are now required to be contiguous:

[string.require].5: The char-like objects in a basic_string object shall be stored contiguously. That is, for any basic_string object s, the identity &*(s.begin() + n) == &*s.begin() + n shall hold for all values of n such that 0 <= n < s.size().

Another reason might be to avoid code such as:

std::string ret;
strcpy(ret.data(), "whatthe...");

Or any other function that returns a preallocated char array.

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    How does this answer the question? Given that std::basic_string<>'s storage is now required to be contiguous, why wasn't a non-const overload of std::basic_string<>::data() added? – ildjarn Sep 22 '11 at 17:30
  • @rodrigo, sorry I wasn't clear. I meant, is there a good reason to only allow const access to the character data via the data() method. Thanks for the contiguous storage reference. – deft_code Sep 22 '11 at 17:43
  • I don't see how a non-const data() is any worse for COW than, say, the existing possibility get a non-const-qualified pointer from non-const &front(). In both cases the implementation would have to perform the copy before returning the address -- contiguous or not, the problem for COW is that if the user can modify the element through a pointer, then the referand must be an element of that instance alone. – Steve Jessop Sep 22 '11 at 18:00
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    @SteveJessop AFAIK, basic_string doesn't have a front() member, so the only way to access to pointers to characters are &*iterators, &s[x], c_str() and now data(). I guess that it has to be with use-cases. That is, if you use operator[], you are likely to modify the string, but if you use c_str()/data() you are likely not to modify it. YMMV. – rodrigo Sep 22 '11 at 18:27
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    I like the term "copy on fright" to describe the "copy on write and non-const blah blah blah". The string gets copied on write, or if you just frighten it by taking a reference or shouting "Boo!" at it. (I first heard that term used by Andy Sawyer). – Jonathan Wakely Dec 8 '15 at 16:48

Although I'm not that well-versed in the standard, it might be due to the fact that std::string doesn't need to contain null-terminated data, but it can and it doesn't need to contain an explicit length field, but it can. So changing the undelying data and e.g. adding a '\0' in the middle might get the strings length field out of sync with the actual char data and thus leave the object in an invalid state.

  • The spec says that data() and c_str() "shall not alter any of the values stored in the character array." I thing that means they can't add a '\0', but maybe that doesn't count because the '\0' would be outside the range [0,size()). – deft_code Sep 22 '11 at 17:36
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    No, you can have embedded '\0's in a std::string, and they should work just like any other character. Don't try to printf() them though. – rodrigo Sep 22 '11 at 18:31
  • See my answer for clarification about std::string (not enough room here) – curiousguy Oct 2 '11 at 2:39

@Christian Rau

From the time the original Plauger (around 1995 I think) string class was STL-ized by the committee (turned into a Sequence, templatified), std::string has always been std::vector plus string-related stuff (conversion from/to 0-terminated, concatenation, ...), plus some oddities, like COW that's actually "Copy on Write and on non-const begin()/end()/operator[]".

But ultimately a std::string is really a std::vector under another name, with a slightly different focus and intent. So:

  • just like std::vector, std::string has either a size data member or both start and end data members;
  • just like std::vector, std::string does not care about the value of its elements, embedded NUL or others.

std::string is not a C string with syntax sugar, utility functions and some encapsulation, just like std::vector<T> is not T[] with syntax sugar, utility functions and some encapsulation.

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