Insns that call subroutines have the RTL expression code call_insn.
These insns must satisfy special rules, and their bodies must use a special
RTL expression code, call.
A call expression has two operands, as follows:
(call (mem:fm addr) nbytes)
Here nbytes is an operand that represents the number of bytes of
argument data being passed to the subroutine, fm is a machine mode
(which must equal as the definition of the FUNCTION_MODE macro in
the machine description) and addr represents the address of the
subroutine.
For a subroutine that returns no value, the call expression as
shown above is the entire body of the insn, except that the insn might
also contain use or clobber expressions.
For a subroutine that returns a value whose mode is not BLKmode,
the value is returned in a hard register. If this register's number is
r, then the body of the call insn looks like this:
(set (reg:m r)
(call (mem:fm addr) nbytes))
This RTL expression makes it clear (to the optimizer passes) that the appropriate register receives a useful value in this insn.
When a subroutine returns a BLKmode value, it is handled by
passing to the subroutine the address of a place to store the value.
So the call insn itself does not “return” any value, and it has the
same RTL form as a call that returns nothing.
On some machines, the call instruction itself clobbers some register,
for example to contain the return address. call_insn insns
on these machines should have a body which is a parallel
that contains both the call expression and clobber
expressions that indicate which registers are destroyed. Similarly,
if the call instruction requires some register other than the stack
pointer that is not explicitly mentioned in its RTL, a use
subexpression should mention that register.
Functions that are called are assumed to modify all registers listed in
the configuration macro CALL_USED_REGISTERS (see Register Basics) and, with the exception of const functions and library
calls, to modify all of memory.
Insns containing just use expressions directly precede the
call_insn insn to indicate which registers contain inputs to the
function. Similarly, if registers other than those in
CALL_USED_REGISTERS are clobbered by the called function, insns
containing a single clobber follow immediately after the call to
indicate which registers.