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When it comes to constructors, adding the keyword explicit prevents an enthusiastic compiler from creating an object when it was not the programmer’s first intention. Is such mechanism available for casting operators too?

struct Foo
    operator std::string() const;

Here, for instance, I would like to be able to cast Foo into a std::string, but I don’t want such cast to happen implicitly.

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1 Answer 1

up vote 77 down vote accepted

Yes and No.

It depends on which version of C++, you're using.

  • C++98 and C++03 do not support explicit type conversion operators
  • But C++11 does.


struct A
    //implicit conversion to int
    operator int() { return 100; }

    //explicit conversion to std::string
    explicit operator std::string() { return "explicit"; } 

int main() 
   A a;
   int i = a;  //ok - implicit conversion 
   std::string s = a; //error - requires explicit conversion 

Compile it with g++ -std=c++0x, you will get this error:

prog.cpp:13:20: error: conversion from 'A' to non-scalar type 'std::string' requested

Online demo :

But as soon as you write:

std::string s = static_cast<std::string>(a); //ok - explicit conversion 

The error goes away :

BTW, in C++11, the explicit conversion operator is referred to as "contextual conversion operator" if it converts to boolean.

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+1. Could post an example of the C++11 code please? – FailedDev Nov 23 '11 at 8:57
@FailedDev: Done. :-) – Nawaz Nov 23 '11 at 9:06
Very nice thanks! – FailedDev Nov 23 '11 at 9:08
Even in C++03, it's easy to avoid the implicit conversion. Just call the function toString, rather than operator std::string. Of course, this may cause problems with some templates. I've always used toString, and it's never caused me any problems, but I imagine that this could depend on your coding style. – James Kanze Nov 23 '11 at 9:15
I use to_string instead. It helps that it's what C++11 calls it, so it helps write forwards-compatible code and it helps with templates. – Luis Machuca Aug 4 '12 at 6:43

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