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Operands of expressions are accessed using the macros XEXP
,
XINT
, XWINT
and XSTR
. Each of these macros takes
two arguments: an expression-pointer (RTX) and an operand number
(counting from zero). Thus,
XEXP (x, 2)
accesses operand 2 of expression x, as an expression.
XINT (x, 2)
accesses the same operand as an integer. XSTR
, used in the same
fashion, would access it as a string.
Any operand can be accessed as an integer, as an expression or as a string. You must choose the correct method of access for the kind of value actually stored in the operand. You would do this based on the expression code of the containing expression. That is also how you would know how many operands there are.
For example, if x is a subreg
expression, you know that it has
two operands which can be correctly accessed as XEXP (
x, 0)
and XINT (
x, 1)
. If you did XINT (
x, 0)
, you
would get the address of the expression operand but cast as an integer;
that might occasionally be useful, but it would be cleaner to write
(int) XEXP (
x, 0)
. XEXP (
x, 1)
would also
compile without error, and would return the second, integer operand cast as
an expression pointer, which would probably result in a crash when
accessed. Nothing stops you from writing XEXP (
x, 28)
either,
but this will access memory past the end of the expression with
unpredictable results.
Access to operands which are vectors is more complicated. You can use the
macro XVEC
to get the vector-pointer itself, or the macros
XVECEXP
and XVECLEN
to access the elements and length of a
vector.
XVEC (
exp,
idx)
XVECLEN (
exp,
idx)
int
.
XVECEXP (
exp,
idx,
eltnum)
It is up to you to make sure that eltnum is not negative
and is less than XVECLEN (
exp,
idx)
.
All the macros defined in this section expand into lvalues and therefore can be used to assign the operands, lengths and vector elements as well as to access them.