In C the type of a string literal is a
char - it's not
const according to the type, but it is undefined behavior to modify the contents. Also, 2 different string literals that have the same content (or enough of the same content) might or might not share the same array elements.
From the C99 standard 6.4.5/5 "String Literals - Semantics":
In translation phase 7, a byte or code of value zero is appended to each multibyte character sequence that results from a string literal or literals. The multibyte character sequence is then used to initialize an array of static storage duration and length just sufficient to contain the sequence. For character string literals, the array elements have type
char, and are initialized with the individual bytes of the multibyte character sequence; for wide string literals, the array elements have type
wchar_t, and are initialized with the sequence of wide characters...
It is unspecified whether these arrays are distinct provided their elements have the appropriate values. If the program attempts to modify such an array, the behavior is undefined.
In C++, "An ordinary string literal has type 'array of n
const char'" (from 2.13.4/1 "String literals"). But there's a special case in the C++ standard that makes pointer to string literals convert easily to non-const-qualified pointers (4.2/2 "Array-to-pointer conversion"):
A string literal (2.13.4) that is not a wide string literal can be converted to an rvalue of type “pointer to char”; a wide string literal can be converted to an rvalue of type “pointer to wchar_t”.
As a side note - because arrays in C/C++ convert so readily to pointers, a string literal can often be used in a pointer context, much as any array in C/C++.
Additional editorializing: what follows is really mostly speculation on my part about the rationale for the choices the C and C++ standards made regarding string literal types. So take it with a grain of salt (but please comment if you have corrections or additional details):
I think that the C standard chose to make string literal non-const types because there was (and is) so much code that expects to be able to use non-const-qualified
char pointers that point to literals. When the
const qualifier got added (which if I'm not mistaken was done around ANSI standardization time, but long after K&R C had been around to accumulate a ton of existing code) if they made pointers to string literals only able to be be assigned to
char const* types without a cast nearly every program in existence would have required changing. Not a good way to get a standard accepted...
I believe the change to C++ that string literals are
const qualified was done mainly to support allowing a literal string to more appropriately match an overload that takes a "
char const*" argument. I think that there was also a desire to close a perceived hole in the type system, but the hole was largely opened back up by the special case in array-to-pointer conversions.
Annex D of the standard indicates that the "implicit conversion from const to non-const qualification for string literals (4.2) is deprecated", but I think so much code would still break that it'll be a long time before compiler implementers or the standards committee are willing to actually pull the plug (unless some other clever technique can be devised - but then the hole would be back, wouldn't it?).