I know it is a common issue, but looking for references and other material I don't find a clear answer to this question.

Consider the following code:

#include <string>

// ...
// in a method
std::string a = "Hello ";
std::string b = "World";
std::string c = a + b;

The compiler tells me it cannot find an overloaded operator for char[dim].

Does it mean that in the string there is not a + operator?

But in several examples there is a situation like this one. If this is not the correct way to concat more strings, what is the best way?

  • 15
    Your code should compile just fine, which means you're not showing the exact code that causes the error (on top of not posting the exact error message).
    – sbi
    Nov 29 '10 at 14:32
  • Well it does not work... Probably my fault is that I didn't provide compiler... it's g++ not vc... :)
    – Andry
    Nov 29 '10 at 14:38

Your code, as written, works. You’re probably trying to achieve something unrelated, but similar:

std::string c = "hello" + "world";

This doesn’t work because for C++ this seems like you’re trying to add two char pointers. Instead, you need to convert at least one of the char* literals to a std::string. Either you can do what you’ve already posted in the question (as I said, this code will work) or you do the following:

std::string c = std::string("hello") + "world";
  • 3
    char* is a pointer, and cannot be added simply because it requires an allocation of memory. std::strings hide allocation, this is why it is possible to provide an operator+ for them. Nov 29 '10 at 14:38
  • 12
    @Andry: The reason this doesn't work is that C++ inherits its string literals from C, which is why they are of the type const char[], rather than std::string. In C (and therefore also in C++) arrays decay to pointers very easily, which is why "a"+"b" will invoke the built-in operator that adds two pointers. The result of that (a pointer pointing somewhere into memory) is of course quite useless, but nevertheless this is what we're stuck with.
    – sbi
    Nov 29 '10 at 14:39
  • 2
    @Andry: reasonable but wrong. Allocation has got nothing to do with this. The explanation given by @sbi is the correct one (apart from the fact that the result of a pointer addition isn’t another pointer – it’s simply impossible to add two pointers, since the result would be meaningless). Nov 29 '10 at 15:37
  • 1
    Additionally, directly adjacent string literals are automatically concatenated by the compiler. std::string c = "Hello" "world";, for example, will result in c == "Helloworld".
    – Fang
    Jan 20 '15 at 12:18
  • 1
    You can also use string literals: std;:string c = "hello"s + "world"s; or just make one of them a std::string.
    – Rakete1111
    Oct 8 '16 at 18:23
std::string a = "Hello ";
a += "World";
  • 2
    Would be +1 if i had upvotes left!
    – jwueller
    Nov 29 '10 at 14:29
  • Sorry its C++ not C# i += doesn't work here, for which it is used
    – Pratik
    Dec 1 '10 at 10:30
  • 18
    @Pratik You sure?
    – Fraser
    Jul 17 '12 at 2:52

I would do this:

std::string a("Hello ");
std::string b("World");
std::string c = a + b;

Which compiles in VS2008.

  • 1
    Should also work in gcc. Nov 29 '10 at 14:56
std::string a = "Hello ";
std::string b = "World ";
std::string c = a;

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