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Machine-specific constraints fall into two categories: register and
non-register constraints. Within the latter category, constraints
which allow subsets of all possible memory or address operands should
be specially marked, to give reload
more information.
Machine-specific constraints can be given names of arbitrary length, but they must be entirely composed of letters, digits, underscores (‘_’), and angle brackets (‘< >’). Like C identifiers, they must begin with a letter or underscore.
In order to avoid ambiguity in operand constraint strings, no
constraint can have a name that begins with any other constraint’s
name. For example, if x
is defined as a constraint name,
xy
may not be, and vice versa. As a consequence of this rule,
no constraint may begin with one of the generic constraint letters:
‘E F V X g i m n o p r s’.
Register constraints correspond directly to register classes. See Register Classes. There is thus not much flexibility in their definitions.
All three arguments are string constants.
name is the name of the constraint, as it will appear in
match_operand
expressions. If name is a multi-letter
constraint its length shall be the same for all constraints starting
with the same letter. regclass can be either the
name of the corresponding register class (see Register Classes),
or a C expression which evaluates to the appropriate register class.
If it is an expression, it must have no side effects, and it cannot
look at the operand. The usual use of expressions is to map some
register constraints to NO_REGS
when the register class
is not available on a given subarchitecture.
docstring is a sentence documenting the meaning of the constraint. Docstrings are explained further below.
Non-register constraints are more like predicates: the constraint definition gives a Boolean expression which indicates whether the constraint matches.
The name and docstring arguments are the same as for
define_register_constraint
, but note that the docstring comes
immediately after the name for these expressions. exp is an RTL
expression, obeying the same rules as the RTL expressions in predicate
definitions. See Defining Predicates, for details. If it
evaluates true, the constraint matches; if it evaluates false, it
doesn’t. Constraint expressions should indicate which RTL codes they
might match, just like predicate expressions.
match_test
C expressions have access to the
following variables:
The RTL object defining the operand.
The machine mode of op.
‘INTVAL (op)’, if op is a const_int
.
‘CONST_DOUBLE_HIGH (op)’, if op is an integer
const_double
.
‘CONST_DOUBLE_LOW (op)’, if op is an integer
const_double
.
‘CONST_DOUBLE_REAL_VALUE (op)’, if op is a floating-point
const_double
.
The *val variables should only be used once another piece of the expression has verified that op is the appropriate kind of RTL object.
Most non-register constraints should be defined with
define_constraint
. The remaining two definition expressions
are only appropriate for constraints that should be handled specially
by reload
if they fail to match.
Use this expression for constraints that match a subset of all memory
operands: that is, reload
can make them match by converting the
operand to the form ‘(mem (reg X))’, where X is a
base register (from the register class specified by
BASE_REG_CLASS
, see Register Classes).
For example, on the S/390, some instructions do not accept arbitrary
memory references, but only those that do not make use of an index
register. The constraint letter ‘Q’ is defined to represent a
memory address of this type. If ‘Q’ is defined with
define_memory_constraint
, a ‘Q’ constraint can handle any
memory operand, because reload
knows it can simply copy the
memory address into a base register if required. This is analogous to
the way an ‘o’ constraint can handle any memory operand.
The syntax and semantics are otherwise identical to
define_constraint
.
Use this expression for constraints that match a subset of all memory
operands: that is, reload
can not make them match by reloading
the address as it is described for define_memory_constraint
or
such address reload is undesirable with the performance point of view.
For example, define_special_memory_constraint
can be useful if
specifically aligned memory is necessary or desirable for some insn
operand.
The syntax and semantics are otherwise identical to
define_constraint
.
Use this expression for constraints that match a subset of all address
operands: that is, reload
can make the constraint match by
converting the operand to the form ‘(reg X)’, again
with X a base register.
Constraints defined with define_address_constraint
can only be
used with the address_operand
predicate, or machine-specific
predicates that work the same way. They are treated analogously to
the generic ‘p’ constraint.
The syntax and semantics are otherwise identical to
define_constraint
.
For historical reasons, names beginning with the letters ‘G H’
are reserved for constraints that match only const_double
s, and
names beginning with the letters ‘I J K L M N O P’ are reserved
for constraints that match only const_int
s. This may change in
the future. For the time being, constraints with these names must be
written in a stylized form, so that genpreds
can tell you did
it correctly:
(define_constraint "[GHIJKLMNOP]…" "doc…" (and (match_code "const_int") ;const_double
for G/H condition…)) ; usually amatch_test
It is fine to use names beginning with other letters for constraints
that match const_double
s or const_int
s.
Each docstring in a constraint definition should be one or more complete
sentences, marked up in Texinfo format. They are currently unused.
In the future they will be copied into the GCC manual, in Machine Constraints, replacing the hand-maintained tables currently found in
that section. Also, in the future the compiler may use this to give
more helpful diagnostics when poor choice of asm
constraints
causes a reload failure.
If you put the pseudo-Texinfo directive ‘@internal’ at the
beginning of a docstring, then (in the future) it will appear only in
the internals manual’s version of the machine-specific constraint tables.
Use this for constraints that should not appear in asm
statements.
Next: C Constraint Interface, Previous: Disable Insn Alternatives, Up: Constraints [Contents][Index]