Next: Defining Predicates, Up: Predicates [Contents][Index]
These are the generic predicates available to all back ends. They are defined in recog.c. The first category of predicates allow only constant, or immediate, operands.
This predicate allows any sort of constant that fits in mode. It is an appropriate choice for instructions that take operands that must be constant.
This predicate allows any CONST_INT expression that fits in
mode. It is an appropriate choice for an immediate operand that
does not allow a symbol or label.
This predicate accepts any CONST_DOUBLE expression that has
exactly mode. If mode is VOIDmode, it will also
accept CONST_INT. It is intended for immediate floating point
constants.
The second category of predicates allow only some kind of machine register.
This predicate allows any REG or SUBREG expression that
is valid for mode. It is often suitable for arithmetic
instruction operands on a RISC machine.
This is a slight variant on register_operand which works around
a limitation in the machine-description reader.
(match_operand n "pmode_register_operand" constraint)
means exactly what
(match_operand:P n "register_operand" constraint)
would mean, if the machine-description reader accepted ‘:P’
mode suffixes. Unfortunately, it cannot, because Pmode is an
alias for some other mode, and might vary with machine-specific
options. See Misc.
This predicate allows hard registers and SCRATCH expressions,
but not pseudo-registers. It is used internally by match_scratch;
it should not be used directly.
The third category of predicates allow only some kind of memory reference.
This predicate allows any valid reference to a quantity of mode
mode in memory, as determined by the weak form of
GO_IF_LEGITIMATE_ADDRESS (see Addressing Modes).
This predicate is a little unusual; it allows any operand that is a
valid expression for the address of a quantity of mode
mode, again determined by the weak form of
GO_IF_LEGITIMATE_ADDRESS. To first order, if
‘(mem:mode (exp))’ is acceptable to
memory_operand, then exp is acceptable to
address_operand. Note that exp does not necessarily have
the mode mode.
This is a stricter form of memory_operand which allows only
memory references with a general_operand as the address
expression. New uses of this predicate are discouraged, because
general_operand is very permissive, so it’s hard to tell what
an indirect_operand does or does not allow. If a target has
different requirements for memory operands for different instructions,
it is better to define target-specific predicates which enforce the
hardware’s requirements explicitly.
This predicate allows a memory reference suitable for pushing a value
onto the stack. This will be a MEM which refers to
stack_pointer_rtx, with a side effect in its address expression
(see Incdec); which one is determined by the
STACK_PUSH_CODE macro (see Frame Layout).
This predicate allows a memory reference suitable for popping a value
off the stack. Again, this will be a MEM referring to
stack_pointer_rtx, with a side effect in its address
expression. However, this time STACK_POP_CODE is expected.
The fourth category of predicates allow some combination of the above operands.
This predicate allows any immediate or register operand valid for mode.
This predicate allows any register or memory operand valid for mode.
This predicate allows any immediate, register, or memory operand valid for mode.
Finally, there are two generic operator predicates.
This predicate matches any expression which performs an arithmetic
comparison in mode; that is, COMPARISON_P is true for the
expression code.
This predicate matches any expression which performs an arithmetic
comparison in mode and whose expression code is valid for integer
modes; that is, the expression code will be one of eq, ne,
lt, ltu, le, leu, gt, gtu,
ge, geu.
Next: Defining Predicates, Up: Predicates [Contents][Index]