binutils-gdb/gas/doc/c-ia64.texi
Kazu Hirata 6049379740 * doc/c-alpha.texi: Fix typos.
* doc/c-ia64.texi: Likewise.
	* doc/c-mmix.texi: Likewise.
	* doc/c-sh64.texi: Likewise.
	* doc/c-xtensa.texi: Likewise.
	* doc/internals.texi: Likewise.
2003-10-26 18:12:03 +00:00

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@c Copyright 2002
@c Free Software Foundation, Inc.
@c Contributed by David Mosberger-Tang <davidm@hpl.hp.com>
@c This is part of the GAS manual.
@c For copying conditions, see the file as.texinfo.
@ifset GENERIC
@page
@node IA-64-Dependent
@chapter IA-64 Dependent Features
@end ifset
@ifclear GENERIC
@node Machine Dependencies
@chapter IA-64 Dependent Features
@end ifclear
@cindex IA-64 support
@menu
* IA-64 Options:: Options
* IA-64 Syntax:: Syntax
@c * IA-64 Floating Point:: Floating Point // to be written
@c * IA-64 Directives:: IA-64 Machine Directives // to be written
* IA-64 Opcodes:: Opcodes
@end menu
@node IA-64 Options
@section Options
@cindex IA-64 options
@cindex options for IA-64
@table @option
@cindex @code{-mconstant-gp} command line option, IA-64
@item -mconstant-gp
This option instructs the assembler to mark the resulting object file
as using the ``constant GP'' model. With this model, it is assumed
that the entire program uses a single global pointer (GP) value. Note
that this option does not in any fashion affect the machine code
emitted by the assembler. All it does is turn on the EF_IA_64_CONS_GP
flag in the ELF file header.
@item -mauto-pic
This option instructs the assembler to mark the resulting object file
as using the ``constant GP without function descriptor'' data model.
This model is like the ``constant GP'' model, except that it
additionally does away with function descriptors. What this means is
that the address of a function refers directly to the function's code
entry-point. Normally, such an address would refer to a function
descriptor, which contains both the code entry-point and the GP-value
needed by the function. Note that this option does not in any fashion
affect the machine code emitted by the assembler. All it does is
turn on the EF_IA_64_NOFUNCDESC_CONS_GP flag in the ELF file header.
@item -milp32
@item -milp64
@item -mlp64
@item -mp64
These options select the data model. The assembler defaults to @code{-mlp64}
(LP64 data model).
@item -mle
@item -mbe
These options select the byte order. The @code{-mle} option selects little-endian
byte order (default) and @code{-mbe} selects big-endian byte order. Note that
IA-64 machine code always uses little-endian byte order.
@item -x
@item -xexplicit
These options turn on dependency violation checking. This checking is turned on by
default.
@item -xauto
This option instructs the assembler to automatically insert stop bits where necessary
to remove dependency violations.
@item -xdebug
This turns on debug output intended to help tracking down bugs in the dependency
violation checker.
@end table
@cindex IA-64 Syntax
@node IA-64 Syntax
@section Syntax
The assembler syntax closely follows the IA-64 Assembly Language
Reference Guide.
@menu
* IA-64-Chars:: Special Characters
* IA-64-Regs:: Register Names
* IA-64-Bits:: Bit Names
* IA-64-Relocs:: Relocations
@end menu
@node IA-64-Chars
@subsection Special Characters
@cindex line comment character, IA-64
@cindex IA-64 line comment character
@samp{//} is the line comment token.
@cindex line separator, IA-64
@cindex statement separator, IA-64
@cindex IA-64 line separator
@samp{;} can be used instead of a newline to separate statements.
@node IA-64-Regs
@subsection Register Names
@cindex IA-64 registers
@cindex register names, IA-64
The 128 integer registers are referred to as @samp{r@var{n}}.
The 128 floating-point registers are referred to as @samp{f@var{n}}.
The 128 application registers are referred to as @samp{ar@var{n}}.
The 128 control registers are referred to as @samp{cr@var{n}}.
The 64 one-bit predicate registers are referred to as @samp{p@var{n}}.
The 8 branch registers are referred to as @samp{b@var{n}}.
In addition, the assembler defines a number of aliases:
@samp{gp} (@samp{r1}), @samp{sp} (@samp{r12}), @samp{rp} (@samp{b0}),
@samp{ret0} (@samp{r8}), @samp{ret1} (@samp{r9}), @samp{ret2} (@samp{r10}),
@samp{ret3} (@samp{r9}), @samp{farg@var{n}} (@samp{f8+@var{n}}), and
@samp{fret@var{n}} (@samp{f8+@var{n}}).
For convenience, the assembler also defines aliases for all named application
and control registers. For example, @samp{ar.bsp} refers to the register
backing store pointer (@samp{ar17}). Similarly, @samp{cr.eoi} refers to
the end-of-interrupt register (@samp{cr67}).
@node IA-64-Bits
@subsection IA-64 Processor-Status-Register (PSR) Bit Names
@cindex IA-64 Processor-status-Register bit names
@cindex PSR bits
@cindex bit names, IA-64
The assembler defines bit masks for each of the bits in the IA-64
processor status register. For example, @samp{psr.ic} corresponds to
a value of 0x2000. These masks are primarily intended for use with
the @sample{ssm}/@sample{sum} and @sample{rsm}/@sample{rum}
instructions, but they can be used anywhere else where an integer
constant is expected.
@node IA-64 Opcodes
@section Opcodes
For detailed information on the IA-64 machine instruction set, see the
@c Attempt to work around a very overfull hbox.
@iftex
IA-64 Assembly Language Reference Guide available at
@smallfonts
@example
http://developer.intel.com/design/itanium/arch_spec.htm
@end example
@textfonts
@end iftex
@ifnottex
@uref{http://developer.intel.com/design/itanium/arch_spec.htm,IA-64 Architecture Handbook}.
@end ifnottex