If an object is declared
const, an implementation is allowed to store it in such a way that attempts to modify it could cause hardware traps, without having any obligation to ensure any particular behavior for those traps. If one constructs a
const pointer to such an object, recipients of that pointer will not generally be allowed to write it, and would thus be in no danger of triggering those hardware traps. If code casts away the
const-ness and writes to the pointer, a compiler would be under no obligation to protect the programmer against any hardware oddities that might occur.
Further, in the event that a compiler can tell that a
const object is always going to contain a particular sequence of bytes, it could inform the linker of that, and allow the linker to see if that sequence of bytes occurs anywhere in the code and, if so, regard the address of the
const object as being the location of that sequence of bytes (complying with various restrictions about different objects having unique addresses might be a little tricky, but it would be permissible). If the compiler told the linker that a
const char was always supposed to contain a sequence of bytes that happened to appear within the compiled code for some function, a linker could assign to that variable the address within the code where that byte sequence appears. If the
const was never written, such behavior would save four bytes, but writing to the
const would arbitrarily change the meaning of the other code.
If writing to an object after casting away
const was always UB, the ability to cast away const-ness wouldn't be very useful. As it is, the ability often plays a role in situations where a piece of code holds onto pointers--some of which are
const and some of which will need to be written--for the benefit of other code. If casting away the const-ness of
const pointers to non-
const objects weren't defined behavior, the code which is holding the pointers would need to know which pointers are
const and which ones will need to be written. Because const-casting is allowed, however, it is sufficient for the code holding the pointers to declare them all as
const, and for code which knows that a pointer identifies a non-const object and wants to write it, to cast it to a non-cast pointer.
It might be helpful if C++ had forms of
volatile) qualifiers which could be used on pointers to instruct the compiler that it may (or, in the case of
volatile, should) regard the pointer as identifying a
volatile object even if the compiler knows that the object is, and knows that it isn't
const and/or isn't declared
volatile. The former would allow a compiler to assume that the object identified by a pointer wouldn't change during a pointer's lifetime, and cache data based upon that; the latter would allow for cases where a variable may need to support
volatile accesses in some rare situations (typically at program startup) but where the compiler should be able to cache its value after that. I know of no proposals to add such features, though.