The output template is a string which specifies how to output the assembler code for an instruction pattern. Most of the template is a fixed string which is output literally. The character `%' is used to specify where to substitute an operand; it can also be used to identify places where different variants of the assembler require different syntax.
In the simplest case, a `%' followed by a digit n says to output operand n at that point in the string.
`%' followed by a letter and a digit says to output an operand in an
alternate fashion. Four letters have standard, built-in meanings described
below. The machine description macro PRINT_OPERAND
can define
additional letters with nonstandard meanings.
`%cdigit' can be used to substitute an operand that is a constant value without the syntax that normally indicates an immediate operand.
`%ndigit' is like `%cdigit' except that the value of the constant is negated before printing.
`%adigit' can be used to substitute an operand as if it were a memory reference, with the actual operand treated as the address. This may be useful when outputting a "load address" instruction, because often the assembler syntax for such an instruction requires you to write the operand as if it were a memory reference.
`%ldigit' is used to substitute a label_ref
into a jump
instruction.
`%=' outputs a number which is unique to each instruction in the entire compilation. This is useful for making local labels to be referred to more than once in a single template that generates multiple assembler instructions.
`%' followed by a punctuation character specifies a substitution that
does not use an operand. Only one case is standard: `%%' outputs a
`%' into the assembler code. Other nonstandard cases can be
defined in the PRINT_OPERAND
macro. You must also define
which punctuation characters are valid with the
PRINT_OPERAND_PUNCT_VALID_P
macro.
The template may generate multiple assembler instructions. Write the text for the instructions, with `\;' between them.
When the RTL contains two operands which are required by constraint to match each other, the output template must refer only to the lower-numbered operand. Matching operands are not always identical, and the rest of the compiler arranges to put the proper RTL expression for printing into the lower-numbered operand.
One use of nonstandard letters or punctuation following `%' is to
distinguish between different assembler languages for the same machine; for
example, Motorola syntax versus MIT syntax for the 68000. Motorola syntax
requires periods in most opcode names, while MIT syntax does not. For
example, the opcode `movel' in MIT syntax is `move.l' in Motorola
syntax. The same file of patterns is used for both kinds of output syntax,
but the character sequence `%.' is used in each place where Motorola
syntax wants a period. The PRINT_OPERAND
macro for Motorola syntax
defines the sequence to output a period; the macro for MIT syntax defines
it to do nothing.
As a special case, a template consisting of the single character #
instructs the compiler to first split the insn, and then output the
resulting instructions separately. This helps eliminate redundancy in the
output templates. If you have a define_insn
that needs to emit
multiple assembler instructions, and there is an matching define_split
already defined, then you can simply use #
as the output template
instead of writing an output template that emits the multiple assembler
instructions.
If the macro ASSEMBLER_DIALECT
is defined, you can use construct
of the form `{option0|option1|option2}' in the templates. These
describe multiple variants of assembler language syntax.
See section Output of Assembler Instructions.
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