According to cppreference.com, when a
const std::string is constructed from an input
const char* (e.g.
const std::string("some literal");), a copy of the C string is stored in the
I'm trying to understand if (and why) the copy is required specifically in the case where the input C string is a string literal. I would think that the
std::string could simply refer to the string literal instead of creating a copy, so that the following code would only create
"some literal" once.
std::string str1("some literal"); std::string str2("some literal");
Certainly, performing a copy for C strings that aren't string literals is wise, because it allows the
std::string to manage the lifetime of the data that it refers to. However, this is not an issue for string literals because they exist for the lifetime of the program.
Also, since we are talking about
const strings, we don't need to worry about the underlying data being changed during the program and breaking the value semantics of the
std::strings. Well, at least as long as
const_cast isn't used, but using
const_cast is asking for trouble anyway, so I'm not too worried about that case.
So, is there any reason why the compiler can't optimize this case to have
const std::strings refer to
const char*s instead of creating copies? Alternatively, if the cppreference link was incorrect, and this optimization actually is implemented by some compilers, which compilers support this?
For the sake of this question, let's assume that the string literal is long enough that the small string optimization won't be a factor.