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I'm trying to make boost::string_ref working as I want to, but I'm facing a problem right now - following code does not compile:

 #include <boost/utility/string_ref.hpp> 
 #include <iostream> 
 #include <string> 

 using namespace std;

int main() {
   string test = "test";
   boost::string_ref rtest(test);
   cout << (rtest == "test")<<endl;
}

and the gcc throws 30kB error log, starting with

source.cpp: In function 'int main()':
source.cpp:10:19: error: no match for 'operator==' (operand types are 'boost::string_ref {aka boost::basic_string_ref<char, std::char_traits<char> >}' and 'const char [5]')
    cout << (rtest == "test")<<endl;
                   ^

How to compare boost::string_ref to std::string?

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2 Answers 2

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Honestly, I'd just avoid using string_ref entirely until it matures. The fact that you can't compare a string_ref to a std::string or a const char * out of the box should set alarm bells ringing (looks like they forgot to write a bunch of comparison operators), and worse, it doesn't look like the library received sufficient testing (e.g. bug 8067!).

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  • 6
    It looks like the upcoming Boost 1.54 will resolve this, which should make boost::string_ref much more useful. Jun 6, 2013 at 10:55
  • string_ref is mature now in Boost 1.60, comparison works out of the box. As for the reason to use string_ref check this out.
    – rustyx
    May 27, 2016 at 13:51
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Just make a string_ref out of the string. They are very cheap to construct. Though against a string literal, you may want to include the length. Otherwise it's going to iterate once to find the end of the string, and then iterate again to compare them. Just make sure that if you change the string, you keep the count up to date.

cout << (rtest == boost::string_ref("test",4)) << endl;

With a std::string, you don't need to worry about the count, because string_ref will just call the size() member function, which is also very cheap.

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    I don't see how the original comparison fails to compile. There's already an equality operator defined for string_refs and a string_ref constructor that takes a charT*, but apparently the compiler is not picking it since template parameter deduction fails. Do you know why is that happening? BTW, I didn't downvote.
    – mfontanini
    Apr 16, 2013 at 0:02
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    "Though against a string literal, you may want to include the length." Wow, that's sad. String literals are const char[N]s already; the size is provided. There's no reason why string_ref shouldn't have a template constructor that takes the size. Apr 16, 2013 at 0:05
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    @NicolBolas: It would still need to search for the null terminator. A const char[N] may hold a c-string that terminates at any point before N. Apr 16, 2013 at 0:07
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    @BenjaminLindley: "A const char[N] may hold a c-string that terminates at any point before N." And it might not. In the absence of the ability to detect whether a parameter is a string literal or not, I would go with the preponderance of the evidence. And 9 times out of 10, a const char[N] is a string literal. Let the 1 in 10 use the explicit sizing. Apr 16, 2013 at 0:45
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    @BenjaminLindley metaparse should be able to find the null terminator at compile-time.
    – gnzlbg
    Aug 6, 2013 at 11:29

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