Of course it's well-defined.
It doesn't matter when the assignment
p=arr takes place. You aren't evaluating
p, you're subscripting the result of
(p=arr), which is the pointer value which is being stored into
p. Whether or not it's been stored yet doesn't change the value, and the value is known irrespective of whether
p has been modified yet.
*--p, there's no undefined behavior. There'd only be undefined behavior if the same variable was accessed twice, including at least one write, between sequence points. But
p is only accessed once, as part of
--p. It isn't read again (
*p), the dereferencing operator is applied to the result of
--p which is a well-defined pointer value.
Now, this would be undefined behavior:
void* p = &a;
reinterpret_cast<void**>(p = &p) = 0;
int *pi = new int;
int i = **&++pi;
It should be clear that the result of a preincrement is not a read unordered with the write, because to assert that there is a race is to assert that
++p can never be used as an rvalue, in which case it must stand alone between sequence points, and post-increment could be used instead. There would be no advantage to having both pre-increment and post-increment in the language.