Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've been using some semi-iterators to tokenize a std::string, and I've run into a curious problem with operator[]. When constructing a new string from a position using char*, I've used something like the following:

t.begin = i;
t.end = i + 1;
t.contents = std::string(&arg.second[t.begin], &arg.second[t.end]);

where arg.second is a std::string. But, if i is the position of the last character, then arg.second[t.end] will throw a debugging assertion- even though taking a pointer of one-past-the-end is well defined behaviour and even common for primitive arrays, and since the constructor is being called using iterators I know that the end iterator will never be de-referenced. Doesn't it seem logical that arg.second[arg.second.size()] should be a valid expression, producing the equivalent of arg.second.end() as a char*?

share|improve this question
Why don't you use the more idiomatics arg.begin() + t.begin and arg.begin() + t.end ? –  Alexandre C. Dec 14 '10 at 17:05
@Alexandre: I just thought of that. –  Puppy Dec 14 '10 at 17:20
The string class has plenty of constructors, which might be more suitable, like string ( size_t n, char c ) or string ( const string& str, size_t pos, size_t n = npos ) –  UncleBens Dec 14 '10 at 17:22

5 Answers 5

up vote 4 down vote accepted

You're not taking a pointer to one past the end, you're ACCESSING one past the end and then getting the address of that. Entirely different and while the the former is well defined and well formed, the latter is not either. I suggest using the iterator constructor, which is basically what you ARE using but do so with iterators instead of char*. See Alexandre's comment.

share|improve this answer

operator[](size_type pos) const doesn't return one-past-the-end is pos == size(); it returns charT(), which is a temporary. In the non-const version of operator[], the behavior is undefined.


const_reference operator[](size_type pos) const; reference operator[](size_type pos); 1 Returns: If pos < size(), returns data()[pos]. Otherwise, if pos == size(), the const version returns charT(). Otherwise, the behavior is undefined.

share|improve this answer

What is well-defined is creating an iterator one past the end. (Pointers might be iterators, too.) However, dereferencing such an iterator will yield Undefined Behavior.

Now, what you're doing is array subscription, and that is very different from forming iterators, because it returns a reference to the referred-to object (much akin to dereferencing an iterator). You are certainly not allowed to access an array one-past-the-end.

share|improve this answer
Taking a pointer to one-past-the-end is fine, but that's not what the OP is actually doing. –  Mark B Dec 14 '10 at 17:37
@Mark: Which is what I said, no? –  sbi Dec 14 '10 at 17:45
@sbi When I read the very first sentence of your answer, I assumed it applied to the quoted text, in other words that it isn't valid to take such a pointer. –  Mark B Dec 14 '10 at 17:52
@sbi: Maybe I misunderstand you, but taking a pointer to one-past-the-end is well-defined. –  John Dibling Dec 14 '10 at 17:58
@sbi: My misnderstanding was the same as Mark's. All's well now. –  John Dibling Dec 14 '10 at 18:23

std::string is not an array. It is an object, whose interface loosely resembles an array (namely, provides operator[]). But that's when the similarity ends.

Even if we for a second assume that std::string is just a wrapper built on top of an ordinary array, then in order to obtain the one-past-the-end pointer for the stored sequence, you have to do something like &arg.second[0] + t.end, i.e. instead of going through the std::string interface first move into into the domain of ordinary pointers and use ordinary low-level pointer arithmetic.

However, even that assumption is not correct and doing something like &arg.second[0] + t.end is a recipe for disaster. std::string is not guaranteed to store its controlled sequence as an array. It is not guaranteed to be stored continuously, meaning that regardless of where your pointers point, you cannot assume that you'll be able to iterate from one to another by using pointer arithmetic.

If you want to use an std::string in some legacy pointer-based interface the only choice you have is to go through the std::string::c_str() method, which will generate a non-permanent array-based copy of the controlled sequence.

P.S. Note, BTW, that in the original C and C++ specifications it is illegal to use the &a[N] method to obtain the one-past-the-end pointer even for an ordinary built-in array. You always have to make sure that you are not using the [] operator with past-the-end index. The legal way to obtain the pointer has always been something like a + N or &a[0] + N, but not &a[N]. Recent changes legalized the &a[N] approach as well, but nevertheless originally it was not legal.

share|improve this answer
Not going to downvote you for this, but whether or not it was originally legal doesn't affect me in the slightest. My compiler is tagged in the OP - and it's a C++0x compiler. Pretty sure that I'm in the realm of recent changes. Secondly, it's my understanding that vector also used to be non-guaranteed contiguous storage, whereas it now is, along with string. –  Puppy Dec 14 '10 at 17:28
vector was guaranteed to be continuous. –  etarion Dec 14 '10 at 17:38
@DeadMG: Firstly, as long as the question is tagged [C++], it is C++03 at most, not C++0x. If you want to talk about C++0x you have to state it explicitly. Just because you compiler "can do" C++0x if asked means nothing for a question explicitly tagged [C++]. (And the issue has nothing to do with C++0x, BTW). Secondly, indeed std::vector was not originally guaranteed to be continuous, which was just an accidental omission corrected later. std::string is not continuous and was never intended to be continuous. –  AnT Dec 14 '10 at 17:59

A string is not a primitive array, so I'd say the implementation is free to add some debug diagnostics if you are doing something dangerous like accessing elements outside its range. I would guess that a release build will probably work.


For what you are trying to do, why not just use the basic_string( const basic_string& str, size_type index, size_type length ); constructor to create the sub strings?

share|improve this answer
Release build may or may not work, it is still ultimately UB. –  Crazy Eddie Dec 14 '10 at 17:15
Yep, no disagreement there... I guess I could have been more clear on that. –  Steffen Dec 14 '10 at 17:18

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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