I have a few questions I would like to ask about string literals and C-strings.
So if I have something like this:
char cstr = "c-string";
As I understand it, the string literal is created in memory with a terminating null byte, say for example starting at address 0xA0 and ending at 0xA9, and from there the address is returned and/or casted to type char [ ] which then points to the address.
It is then legal to perform this:
for (int i = 0; i < (sizeof(array)/sizeof(char)); ++i) cstr[i] = 97+i;
So in this sense, are string literals able to be modified as long as they are casted to the type char [ ] ?
But with regular pointers, I've come to understand that when they are pointed to a string literal in memory, they cannot modify the contents because most compilers mark that allocated memory as "Read-Only" in some lower bound address space for constants.
char * p = "const cstring"; *p = 'A'; // illegal memory write
I guess what I'm trying to understand is why aren't char * types allowed to point to string literals like arrays do and modify their constants? Why do the string literals not get casted into char *'s like they do to char [ ]'s? If I have the wrong idea here or am completely off, feel free to correct me.