14

This is more of a policy or a historical question. Why was it decided not to provide a const char * conversion for std::string? Were there a fear someone might do printf("%s", s) and believe it would automatically convert? Are there any open discussions on this issue?

28

Automatic casts are almost always evil. If there were a cast to const char *, a std::string could be also automatically cast to other pointer types and that could lead to hard to find bugs. There is the c_str() method that returns const char * so you can still achieve what you need. Also, the typecast is not logically correct - std::string is not equivalent to const char *.

8
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    +1: Agreed. There are examples of horrific cast overloading, even in the standard library. For example, consider std::ios::operator void*. – Oliver Charlesworth Nov 4 '10 at 11:38
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    +1, Also what would the pointer point to, if the string gets destroyed? – BЈовић Nov 4 '10 at 12:03
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    @dark_charlie - If the cast can cause problems then so can one .c_str() too many, as I would expect them to be equivalent. In any case, you are saying it is the less of two evils... I have for years been using a derived class with auto casting and I have yet to have had any bugs because of it. But perhaps this is because I'm not using generic template meta-programming with agile Boost classes. :-) – Dov Grobgeld Nov 4 '10 at 12:15
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    @dov: If you know what you are doing and coded the derived string class yourself, then it's probably not a problem. But having this in a standard would mean everyone having this casting functionality - and not everyone is aware of automatic cast pitfalls, not noting the performance problems that could arise as described by @edA-qa mort-ora-y. – Karel Petranek Nov 4 '10 at 12:21
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    @Oli: Though that particular example dates back to before the safe-bool idiom was understood and that type of use is replaced in 0x with an explicit operator bool. – Roger Pate Nov 4 '10 at 14:23
11

The string class internally need not store the string with a terminating 0. In fact it doesn't even have to store them in contiguous memory if it didn't want to. Therefore an implicit cast doesn't make sense, since it may be a costly operation.

The c_str() function then gives you the c-string. Depending on how the library stores it internally this function may have to create a temporary. This temporary is only valid until you modify the string.

It is unfortunately however since a string could just been specified to be a c-string internally. This wouldn't lead to any loss of functionality and would allow an implicit conversion.

Edit The standard does basically imply the memory is contiguous (if accessed through data() or the [] operator), though it need not be internally, and certainly not null terminated. Likely all implementations store the 0 as well. If this were standardized then the implicit conversion could be safely defined.

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    Actually, I think the string class, as the vector, have to store it as continues memory. – Viktor Sehr Nov 4 '10 at 12:16
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    +1. This is better than dark_charlie's answer. The creation of a temporary object, with non-trivial lifetime issues is more important than a somewhat suprising cast. – MSalters Nov 4 '10 at 12:17
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    @Viktor: No. Unlike std::vector (where the requirement was introduced for C++03), std::string does not have to use contiguous storage until you call c_str(). Then of course the pointer returned from that must point to contiguous storage. I vaguely remember a report (perhaps from Herb Sutter?) that the C++0x WG conducted a straw poll, and nobody present knew of an active implementation which doesn't use contiguous storage always. – Steve Jessop Nov 4 '10 at 13:24
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    The rationale behind allowing a non-contiguous internal storage dates back to when strings used shared COW buffers. This was intended to be efficient in that it reduced the number of memory copies, but thread-contention issues made it often less-efficient in reality as well as harder to implement. With COW buffers, if you add two strings together you can have an "rope" implementation temporarily until someone calls c_str() on it or writes to it. If a user is doing a lot of + operations most will be temporary and they will never perform either of these and there will be 1 ultimate copy. – CashCow Nov 4 '10 at 13:51
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    @Roger, reading the standard again I'd agree that it must be contiguous: str[n] is defined as str.data()[n]. Also, a few of the constructors require that data() is contiguous. – edA-qa mort-ora-y Nov 4 '10 at 14:38
5

Regarding your previous comments:

If they are equivalent then there is no difference (except for convenience) to use cast instead of the c_str() call

There is one very important difference: one is implicit whereas the other is explicit.

C++0x introduces the notion of explicit cast operators, but until then they are implicit, meaning that it is never clear (when looking at the code) whether they will be used or not.

Implicit cast are bad, especially since they can be cascaded, leading to extremely obscure code.

Moreover, as already stated, there is here a problem of correctness. Because the pointer returned by c_str is only valid as long as the string object does not change, then you could find yourself with hard to find bugs. Consider:

void function()
{
  std::map<int, char const*> map;

  map[1] = boost::lexical_cast<std::string>(47);

  std::cout << map[1] << std::endl; // CRASH here, if lucky...
}
1

My feeling is that C++ is a strongly typed language and implicit type conversions break type-safety.

It can often bite you where the conversion happens at a point where you do not expect it and can make your code hard to debug.

Non-explicit constructors can have a similar effect and std::string itself does have an implicit constructor from const char *. In this case it is not necessarily a bad thing although it can lead to inefficient code.

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