m no longer exists when you return from the function, and any reference to it is invalid once the function exits.
Physically, the picture is a bit more complicated. The memory cells that
m occupied are certainly still there, and if you access those cells before anything else has a chance to write to them, they'll contain the value that was written to them in the function, so under the right circumstances it's possible for you to read what was stored in
abc has returned. Do not rely on this behavior being repeatable; it is a coding error.
From the language standard (C99):
6.2.4 Storage durations of objects
2 The lifetime of an object is the portion of program execution during which storage is
guaranteed to be reserved for it. An object exists, has a constant address,25) and retains
its last-stored value throughout its lifetime.26) If an object is referred to outside of its
lifetime, the behavior is undefined. The value of a pointer becomes indeterminate when
the object it points to reaches the end of its lifetime.
25) The term ‘‘constant address’’ means that two pointers to the object constructed at possibly different
times will compare equal. The address may be different during two different executions of the same
26) In the case of a volatile object, the last store need not be explicit in the program.
Emphasis mine. Basically, you're doing something that the language definition explicitly calls out as undefined behavior, meaning the compiler is free to handle that situation any way it wants to. It can issue a diagnostic (which your compiler is doing), it can translate the code without issuing a diagnostic, it can halt translation at that point, etc.