I know all instances of NSString are
inmutable. If you assign a new value
to a string new memory is addressed
and the old string will be lost.
That isn't how mutability works, nor how references to NSStrings work. Nor how pointers work.
A pointer to an object --
NSString *a; declares a variable
a that is a pointer to an object -- merely holds the address in memory of the object. The actual object is [generally] an allocation on the heap of memory that contains the actual object itself.
In those terms, there is really no difference at runtime between:
Both are references to -- addresses of -- some allocation in memory. The only difference is during compile time,
b will be treated differently than
a and the compiler will not complain if, say, you use
NSMutableString methods when calling
b (but would when calling
As far as how
NSMutableString works, it contains a buffer (or several buffers -- implementation detail) internally that contain the string data. When you call one of the methods that mutate the string's contents, the mutable string will re-allocate its internal storage as necessary to contain the new data.
Objects do not move in memory. Once allocated, an allocation will never move -- the address of the object or allocation will never change. The only semi-exception is when you use something like
realloc() which might return a different address. However, that is really just a sequence of
free(); malloc(); memcpy();.
I'd suggest you revisit the Objective-C Programming Guide or, possibly, a C programming manual.