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I would like a macro like this

STR_ITERATORS("My string")

which produces

 pBegin, pEnd

You could use this to search a vector for example...

std::vector<char> str1;

std::search(str1.begin(), str1.end(), STR_ITERATORS("Look for this"));

Note that search takes two pairs of iterators, and the macro provides the second pair.

The macro can be written twice - once for normal chars, once for wide chars. It doesn't have to solve it all in one.

Note: I don't have the option to use the very latest compilers. (That makes it a bit boring doesn't it? :-)

share|improve this question
    
vector of what? – tadman Sep 19 '12 at 0:03
3  
Is this just to save on keystrokes? Why not just make a search_for_string() helper function? – In silico Sep 19 '12 at 0:04
    
"search" is but one example. – bluedog Sep 19 '12 at 0:11
2  
@bluedog: Sure, but macros are frowned upon in C++ for several reasons: 1) It's very hard or impossible to write a robust macro, depending on context, 2) There's no type safety guarantee, 3) Does not respect scope nor namespace rules, 4) There's almost always a superior solution, such as templates and functions. – In silico Sep 19 '12 at 0:14
    
Show another example then to make your proposed design viable. You should ask about real life problems you're actually facing. The design you're proposing is inferior to using inline helper functions. – tenfour Sep 19 '12 at 0:14

In C++11, making your own search functions for this is easy.

template<class iter1, class iter2>
iter1 search(iter1 stackbegin, iter1 stackend, iter2 needlebegin, iter2 needleend)
{return std::search(stackbegin, stackend, needlebegin, needleend);}

template<class iter1, class needlecontainer>
iter1 search(iter1 stackbegin, iter1 stackend, const needlecontainer& needle)
{return std::search(stackbegin, stackend, std::begin(needle), std::end(needle));}

template<class stackcontainer, class needlecontainer>
decltype(std::begin(std::declval<stackcontainer>()))
search(const stackcontainer& stack, const needlecontainer& needle)
{return std::search(std::begin(stack), std::end(stack), std::begin(needle), std::end(needle));}

template<class stackcontainer, class needlecontainer>
decltype(std::begin(std::declval<stackcontainer>()))
search(stackcontainer& stack, const needlecontainer& needle)
{return std::search(std::begin(stack), std::end(stack), std::begin(needle), std::end(needle));}

and use them:

int main() {
    std::vector<char> str1;
    auto it = search(str1, "Look for this");
}

Proof of compilation: http://ideone.com/cO1rz (this version of gcc didn't have std::begin and std::end so I had to define them myself) and a C++03 version: http://ideone.com/gt1Do

If you really really really want a short macro, and you can guarantee that literals share the same space:

template<int N>
const char* end(const char(&s)[N]) {return s+N;}
#define STR_ITERATORS(X) X, end(X) //BE WARNED, HIGHLY UNSAFE, NOT PORTABLE
share|improve this answer
    
This looks good, but unfortunately my project is across many platforms and some of the compilers are slightly older (but not too old). – bluedog Sep 19 '12 at 0:32
1  
@bluedog: Here's a version that compiles even in older compilers: ideone.com/gt1Do – Mooing Duck Sep 19 '12 at 0:41
    
seems like a good answer, but I was hoping for a more compact, miracle solution. – bluedog Sep 19 '12 at 1:13
    
@bluedog: Since string literals are not guaranteed to be the same as each other, this is going to be the safest and most compact portable solution. I can make a macro version, but it would be more code, not less. It would also be less safe. or you can ignore portability, and do this easy in Visual Studio. – Mooing Duck Sep 19 '12 at 17:18
    
it's only the size that's off-putting. i don't have an issue with templates, and i agree with everyone here that macros are not ideal. i guess i was just wondering if there was a really short solution to mixing string literals with STL. – bluedog Sep 19 '12 at 23:33

boost range provides overloads of algorithms to use ranges, and will automatically handle most STL-like collections. Specifically, strings can automatically convert to ranges as well. There are also the free functions begin and end.

share|improve this answer
    
This is my favorite answer so far because it's most generally useful. I wouldn't be able to utilise boost on this project unfortunately. – bluedog Sep 19 '12 at 1:16
template<int N>
int GetLengthOfLiteral(const wchar_t (&literal)[N]) { return N - 1; }

template<int N>
int GetLengthOfLiteral(const char (&literal)[N]) { return N - 1; }

#define LITERAL_ITERATORS(literal) (literal), ((literal) + GetLengthOfLiteral(literal)
share|improve this answer
    
Is it guaranteed that two different string literals containing the same characters are the same object? – James McNellis Sep 19 '12 at 0:08
    
Which two different string literals? – user1610015 Sep 19 '12 at 0:09
1  
LITERAL_ITERATORS("x") will expand to ("x"), (("x") + GetLengthOfLiteral("x")). There are three different "x"'s in the replacement. Is it guaranteed that all three of those are the same object? – James McNellis Sep 19 '12 at 0:10
    
Oops, yeah, I forgot about that. – user1610015 Sep 19 '12 at 0:12

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