What is the real difference between a C++ string and a null-terminated sequence of characters (C-string) .c_str() ?
std::string object encapsulates:
char array storing the semantic (presumably textual) value
- some implementations store short text strings directly in the
- otherwise heap memory is typically used to store the actual string content
- a pointer (possibly via some other control structure) to the character array
std::string::size_type variables recording the size and capacity of the string
- possibly other things
In practice, the
std::string's textual data - whether internally buffered or kept on the heap, is overwhelmingly likely in real-world implementations to be stored as a C-string ASCIIZ value, such that
c_str() can trivially return it's address, but that's not required by the Standard. A near-worst-case (just within the boundaries of credibility) scenario is that the string has a second pointer, and
c_str() copies the non-NUL-terminated string content into a newly allocated heap area that it NUL terminates. The only time this would seem beneficial is if the NUL itself tipped the string over some capacity boundary, such as from an short-string optimisation / internal buffer to heap, or from 1 page of heap memory to 2, 2 to 3, etc...
I think automatic type conversion should be do its job, that is, automatically convert a C++ string to .c_str(). Am I wrong?
Yes it can do it, but not safely (see linked possible-dupe questions).
Case 1 gives an error, and case 2 works fine. Is it possible to convert case 1 to case 2 over using static_cast<>?
static_cast<> can't convert a std::string object to a
const char*... remember the string object itself has all those other things in, and typically (always for all but the smallest of strings) only has a pointer to the actual textual data.