37

I tried two different ways to append an int to a std::string, and to my surprise, I got different results:

#include <string>

int main()
{
    std::string s;
    s += 2;     // compiles correctly
    s = s + 2;  // compiler error

    return 0;
}

Why does it compile and work correctly when I use the += operator, but fail when I use the + operator?

I don't think the question is like How to concatenate a std::string and an int?

In that question,no answer uses += operator.And the difference between += and + operator of std::string is the key to solve my doubt.

Frankly,the question is a good example for explaining why c++ is so difficult to master.

  • 7
    You are not adding a string representation of the integer 2 in either case. You want to use std::to_string. – Jesper Juhl Aug 4 '17 at 11:23
  • 1
    I'm not sure but I think the operator+ is expecting a string not an int – Bo Halim Aug 4 '17 at 11:25
  • 12
    You cannot append an int to a string. What you can do is append the text that represents an integer value to a string. Don't lose sight of that conversion step. – Pete Becker Aug 4 '17 at 11:32
  • 3
    Possible duplicate of How to concatenate a std::string and an int? – Cole Johnson Aug 6 '17 at 6:34
47

TL;DR operator+= is a class member function in class string, while operator+ is a template function.

The standard class template<typename CharT> basic_string<CharT> has overloaded function basic_string& operator+=(CharT), and string is just basic_string<char>.

As values that fits in a lower type can be automatically cast into that type, in expression s += 2, the 2 is not treated as int, but char instead. It has exactly the same effect as s += '\x02'. A char with ASCII code 2 (STX) is appended, not the character '2' (with ASCII value 50, or 0x32).

However, string does not have an overloaded member function like string operator+(int), s + 2 is not a valid expression, thus throws an error during compilation. (More below)

You can use operator+ function in string in these ways:

s = s + char(2); // or (char)2
s = s + std::string(2);
s = s + std::to_string(2); // C++11 and above only

For people concerned about why 2 isn't automatically cast to char with operator+,

template <typename CharT>
  basic_string<CharT>
  operator+(const basic_string<CharT>& lhs, CharT rhs);

The above is the prototype[note] for the plus operator in s + 2, and because it's a template function, it is requiring an implementation of both operator+<char> and operator+<int>, which is conflicting. For details, see Why isn't automatic downcasting applied to template functions?

Meanwhile, the prototype of operator+= is:

template <typename CharT>
class basic_string{
    basic_string&
      operator+=(CharT _c);
};

You see, no template here (it's a class member function), so the compiler deduces that type CharT is char from class implementation, and int(2) is automatically cast into char(2).


Note: Unnecessary code is stripped when copying from C++ standard include source. That includes typename 2 and 3 (Traits and Allocator) for template class "basic_string", and unnecessary underscores, in order to improve readability.

  • And why the 2 in the expression s + 2 is not treatet as a char but in s += 2? – Andre Kampling Aug 4 '17 at 11:38
  • 1
    @AndreKampling: It's to do with the fact that += is a non-template function but + is a template function. – Bathsheba Aug 4 '17 at 11:45
43

s += 2; is not doing what you think it's doing. It calls the overloaded += operator to a char. It does not append the character '2', but rather the character with value 2, and the result will depend on the encoding used on your platform.

There is no operator overload defined to allow s + 2 to compile1. Hence the error.

The solution in both cases is to use std::to_string(2) rather than the int literal 2.


1 Essentially the reason is because operator+= is not a template function, but std::operator+ is, and overload resolution will favour a non-template function over a template one.

  • 2
    But I didn't see why the compiler call string& operator+= (char c); but not string operator+ (const string& lhs, char rhs);? – Andre Kampling Aug 4 '17 at 11:32
  • 1
    Methinks that's a (good) question in itself (it's to do with the fact that the compiler must try to convert 2 to a std::string, which it can't). Why not ask it? – Bathsheba Aug 4 '17 at 11:32
  • 1
    @AndreKampling: I capitulated and added more detail. – Bathsheba Aug 4 '17 at 11:44
  • 2
    The fact that s += 2 compiles really feels like a defect – Tristan Brindle Aug 4 '17 at 12:02
  • 2
    See also this question that refers to this one about Why isn't automatic downcasting applied to template functions?. – Andre Kampling Aug 4 '17 at 12:35
12

The correct way to add to your string would be

std::string s;
s += std::to_string(2);
s = s + std::to_string(2);
  • 3
    Note that std::to_string is only available on C++11 and higher. – Andre Kampling Aug 4 '17 at 11:23
  • 4
    @AndreKampling It's 2017. Unless a question is specifically tagged or otherwise mentions C++03, it's fair to assume C++11 support is available. – aschepler Aug 5 '17 at 11:31
  • 1
    The generally recommend way to output an object to a string, is to use an std::ostringstream, stream the object to that, and then use the .str() function to get the std::string from the std::ostringstream. This should work for all C++ dialects, and all objects which have an insertion operator. – CSM Aug 5 '17 at 19:21
  • 4
    @CSM "generally recommended"? And why would that be? The function std::to_string is perfectly reasonable in this context, and was created for just this purpose. – CoryKramer Aug 5 '17 at 19:50
2

While @CoryKramer answer gives you the correct way to add an integer to a string, it doesn't explain why the instruction s = s + 2 does not compile.

The difference between the two instruction is that in the first one you use the std::string 's += operator while in the second instruction, the compiler tries to cast 2 to a string.

There is no implicit conversion between int and std::string. however, you can cast an int to char, so this is why s += 2works.

  • s = s + 2 doesn't crash. It fails to compile. – Bathsheba Aug 4 '17 at 11:29
  • @Bathsheba thanks, fixed it ;) – Xatyrian Aug 4 '17 at 11:29
  • s + 2 does not compile, but s + '\x02' does. How do you explain? – iBug Aug 4 '17 at 12:15

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