First, the C Standard prohibits taking the address of a variable that is declared register
, just as it does for bit fields in struct
s.
For non-register ("auto") variables, the short answer is yes. The simplest strategy of an optimizer is to immediately spill variables whose addresses are taken.
"Spill" is just a term from the literature of register allocation meaning "decide to place in memory rather than a register."
A sophisticated optimizer can do an alias analysis and still hold a value in a register, even though its address has been taken. This is possible wherever it can be proven that the resulting pointer can't possibly be used to change the value.
Another relevant optimization is live range splitting. This allows a variable to be stored in a register for part of the range of instructions where it's holding a useful value (its "live range") and to be spilled in other parts. In this case the spilled parts would correspond to places where the pointer might be used to change the variable's value. For example:
x = 3;
... lots of computations involving x
if T {
// SPILL HERE, so store register holding x to memory
int *p = &x;
... lots of computations, perhaps using p to change x
*p = 2;
// DONE SPILL HERE, so reload register
... more code here not using p to change x.
}
else {
... lots of computations involving x.
}
An aggressive optimizer of this code might allocate a stack position for x, but load it into a register at the top of the code, maintaining it there except for the region marked as a SPILL. This region would be surrounded by a store of the register to memory and a matching register load.