[binutils.git] / gas / doc / c-i860.texi

@c Copyright 2000, 2003 Free Software Foundation, Inc.
@c This is part of the GAS manual.
@c For copying conditions, see the file as.texinfo.
@ifset GENERIC
@page
@node i860-Dependent
@chapter Intel i860 Dependent Features
@end ifset
@ifclear GENERIC
@node Machine Dependencies
@chapter Intel i860 Dependent Features
@end ifclear

@ignore
@c FIXME: This is basically a stub for i860. There is tons more information
that I will add later ([email protected]).
@end ignore

@cindex i860 support
@menu
* Notes-i860::                  i860 Notes
* Options-i860::                i860 Command-line Options
* Directives-i860::             i860 Machine Directives
* Opcodes for i860::            i860 Opcodes
@end menu

@node Notes-i860
@section i860 Notes 
This is a fairly complete i860 assembler which is compatible with the
UNIX System V/860 Release 4 assembler. However, it does not currently
support SVR4 PIC (i.e., @code{@@GOT, @@GOTOFF, @@PLT}).

Like the SVR4/860 assembler, the output object format is ELF32. Currently,
this is the only supported object format. If there is sufficient interest,
other formats such as COFF may be implemented.

Both the Intel and AT&T/SVR4 syntaxes are supported, with the latter
being the default.  One difference is that AT&T syntax requires the '%'
prefix on register names while Intel syntax does not.  Another difference
is in the specification of relocatable expressions.  The Intel syntax
is @code{ha%expression} whereas the SVR4 syntax is @code{[expression]@@ha}
(and similarly for the "l" and "h" selectors).
@node Options-i860
@section i860 Command-line Options
@subsection SVR4 compatibility options 
@table @code
@item -V
Print assembler version.
@item -Qy
Ignored.
@item -Qn
Ignored.
@end table
@subsection Other options 
@table @code
@item -EL
Select little endian output (this is the default).
@item -EB
Select big endian output. Note that the i860 always reads instructions
as little endian data, so this option only effects data and not
instructions.
@item -mwarn-expand
Emit a warning message if any pseudo-instruction expansions occurred.
For example, a @code{or} instruction with an immediate larger than 16-bits
will be expanded into two instructions. This is a very undesirable feature to
rely on, so this flag can help detect any code where it happens. One
use of it, for instance, has been to find and eliminate any place
where @code{gcc} may emit these pseudo-instructions.
@item -mxp
Enable support for the i860XP instructions and control registers.  By default,
this option is disabled so that only the base instruction set (i.e., i860XR)
is supported.
@item -mintel-syntax
The i860 assembler defaults to AT&T/SVR4 syntax.  This option enables the
Intel syntax.
@end table

@node Directives-i860
@section i860 Machine Directives

@cindex machine directives, i860
@cindex i860 machine directives

@table @code
@cindex @code{dual} directive, i860
@item .dual
Enter dual instruction mode. While this directive is supported, the
preferred way to use dual instruction mode is to explicitly code
the dual bit with the @code{d.} prefix.
@end table

@table @code
@cindex @code{enddual} directive, i860
@item .enddual
Exit dual instruction mode. While this directive is supported, the
preferred way to use dual instruction mode is to explicitly code
the dual bit with the @code{d.} prefix.
@end table

@table @code
@cindex @code{atmp} directive, i860
@item .atmp
Change the temporary register used when expanding pseudo operations. The
default register is @code{r31}.
@end table

The @code{.dual}, @code{.enddual}, and @code{.atmp} directives are available only in the Intel syntax mode.

Both syntaxes allow for the standard @code{.align} directive.  However,
the Intel syntax additionally allows keywords for the alignment
parameter: "@code{.align type}", where `type' is one of @code{.short}, @code{.long},
@code{.quad}, @code{.single}, @code{.double} representing alignments of 2, 4,
16, 4, and 8, respectively.

@node Opcodes for i860
@section i860 Opcodes

@cindex opcodes, i860
@cindex i860 opcodes
All of the Intel i860XR and i860XP machine instructions are supported. Please see
either @emph{i860 Microprocessor Programmer's Reference Manual} or @emph{i860 Microprocessor Architecture} for more information.
@subsection Other instruction support (pseudo-instructions)
For compatibility with some other i860 assemblers, a number of
pseudo-instructions are supported. While these are supported, they are
a very undesirable feature that should be avoided -- in particular, when
they result in an expansion to multiple actual i860 instructions. Below
are the pseudo-instructions that result in expansions.
@itemize @bullet
@item Load large immediate into general register:

The pseudo-instruction @code{mov imm,%rn} (where the immediate does
not fit within a signed 16-bit field) will be expanded into:
@smallexample
orh large_imm@@h,%r0,%rn
or large_imm@@l,%rn,%rn
@end smallexample
@item Load/store with relocatable address expression:

For example, the pseudo-instruction @code{ld.b addr_exp(%rx),%rn} 
will be expanded into:
@smallexample
orh addr_exp@@ha,%rx,%r31
ld.l addr_exp@@l(%r31),%rn
@end smallexample

The analogous expansions apply to @code{ld.x, st.x, fld.x, pfld.x, fst.x}, and @code{pst.x} as well.
@item Signed large immediate with add/subtract:

If any of the arithmetic operations @code{adds, addu, subs, subu} are used
with an immediate larger than 16-bits (signed), then they will be expanded.
For instance, the pseudo-instruction @code{adds large_imm,%rx,%rn} expands to:
@smallexample 
orh large_imm@@h,%r0,%r31
or large_imm@@l,%r31,%r31
adds %r31,%rx,%rn
@end smallexample
@item Unsigned large immediate with logical operations:

Logical operations (@code{or, andnot, or, xor}) also result in expansions.
The pseudo-instruction @code{or large_imm,%rx,%rn} results in:
@smallexample
orh large_imm@@h,%rx,%r31
or large_imm@@l,%r31,%rn
@end smallexample

Similarly for the others, except for @code{and} which expands to:
@smallexample
andnot (-1 - large_imm)@@h,%rx,%r31
andnot (-1 - large_imm)@@l,%r31,%rn
@end smallexample
@end itemize
Commit	Line	Data
14218d5f	1	@c Copyright 2000, 2003 Free Software Foundation, Inc.
e3308d0d JE	2	@c This is part of the GAS manual.
	3	@c For copying conditions, see the file as.texinfo.
	4	@ifset GENERIC
	5	@page
	6	@node i860-Dependent
	7	@chapter Intel i860 Dependent Features
	8	@end ifset
	9	@ifclear GENERIC
	10	@node Machine Dependencies
	11	@chapter Intel i860 Dependent Features
	12	@end ifclear
	13
	14	@ignore
	15	@c FIXME: This is basically a stub for i860. There is tons more information
87505968	16	that I will add later ([email protected]).
e3308d0d JE	17	@end ignore
	18
	19	@cindex i860 support
	20	@menu
a9c99419	21	* Notes-i860:: i860 Notes
e3308d0d JE	22	* Options-i860:: i860 Command-line Options
	23	* Directives-i860:: i860 Machine Directives
	24	* Opcodes for i860:: i860 Opcodes
	25	@end menu
	26
a9c99419 JE	27	@node Notes-i860
	28	@section i860 Notes
	29	This is a fairly complete i860 assembler which is compatible with the
	30	UNIX System V/860 Release 4 assembler. However, it does not currently
	31	support SVR4 PIC (i.e., @code{@@GOT, @@GOTOFF, @@PLT}).
e3308d0d	32
a9c99419 JE	33	Like the SVR4/860 assembler, the output object format is ELF32. Currently,
	34	this is the only supported object format. If there is sufficient interest,
	35	other formats such as COFF may be implemented.
87505968 JE	36
	37	Both the Intel and AT&T/SVR4 syntaxes are supported, with the latter
	38	being the default. One difference is that AT&T syntax requires the '%'
	39	prefix on register names while Intel syntax does not. Another difference
	40	is in the specification of relocatable expressions. The Intel syntax
	41	is @code{ha%expression} whereas the SVR4 syntax is @code{[expression]@@ha}
	42	(and similarly for the "l" and "h" selectors).
a9c99419	43	@node Options-i860
e3308d0d JE	44	@section i860 Command-line Options
	45	@subsection SVR4 compatibility options
	46	@table @code
	47	@item -V
	48	Print assembler version.
	49	@item -Qy
	50	Ignored.
	51	@item -Qn
	52	Ignored.
	53	@end table
	54	@subsection Other options
	55	@table @code
	56	@item -EL
	57	Select little endian output (this is the default).
	58	@item -EB
	59	Select big endian output. Note that the i860 always reads instructions
	60	as little endian data, so this option only effects data and not
	61	instructions.
a9c99419 JE	62	@item -mwarn-expand
	63	Emit a warning message if any pseudo-instruction expansions occurred.
	64	For example, a @code{or} instruction with an immediate larger than 16-bits
	65	will be expanded into two instructions. This is a very undesirable feature to
	66	rely on, so this flag can help detect any code where it happens. One
	67	use of it, for instance, has been to find and eliminate any place
	68	where @code{gcc} may emit these pseudo-instructions.
14218d5f JE	69	@item -mxp
	70	Enable support for the i860XP instructions and control registers. By default,
	71	this option is disabled so that only the base instruction set (i.e., i860XR)
	72	is supported.
87505968 JE	73	@item -mintel-syntax
	74	The i860 assembler defaults to AT&T/SVR4 syntax. This option enables the
	75	Intel syntax.
e3308d0d JE	76	@end table
	77
	78	@node Directives-i860
	79	@section i860 Machine Directives
	80
	81	@cindex machine directives, i860
	82	@cindex i860 machine directives
	83
	84	@table @code
	85	@cindex @code{dual} directive, i860
	86	@item .dual
	87	Enter dual instruction mode. While this directive is supported, the
	88	preferred way to use dual instruction mode is to explicitly code
	89	the dual bit with the @code{d.} prefix.
	90	@end table
	91
	92	@table @code
	93	@cindex @code{enddual} directive, i860
	94	@item .enddual
	95	Exit dual instruction mode. While this directive is supported, the
	96	preferred way to use dual instruction mode is to explicitly code
	97	the dual bit with the @code{d.} prefix.
	98	@end table
	99
	100	@table @code
	101	@cindex @code{atmp} directive, i860
	102	@item .atmp
	103	Change the temporary register used when expanding pseudo operations. The
	104	default register is @code{r31}.
	105	@end table
	106
5eb0723a JE	107	The @code{.dual}, @code{.enddual}, and @code{.atmp} directives are available only in the Intel syntax mode.
5eb0723a JE	108
820aff55 JE	109	Both syntaxes allow for the standard @code{.align} directive. However,
	110	the Intel syntax additionally allows keywords for the alignment
	111	parameter: "@code{.align type}", where `type' is one of @code{.short}, @code{.long},
	112	@code{.quad}, @code{.single}, @code{.double} representing alignments of 2, 4,
	113	16, 4, and 8, respectively.
	114
e3308d0d JE	115	@node Opcodes for i860
	116	@section i860 Opcodes
	117
	118	@cindex opcodes, i860
	119	@cindex i860 opcodes
14218d5f	120	All of the Intel i860XR and i860XP machine instructions are supported. Please see
a9c99419 JE	121	either @emph{i860 Microprocessor Programmer's Reference Manual} or @emph{i860 Microprocessor Architecture} for more information.
	122	@subsection Other instruction support (pseudo-instructions)
	123	For compatibility with some other i860 assemblers, a number of
	124	pseudo-instructions are supported. While these are supported, they are
	125	a very undesirable feature that should be avoided -- in particular, when
	126	they result in an expansion to multiple actual i860 instructions. Below
	127	are the pseudo-instructions that result in expansions.
	128	@itemize @bullet
9fc2dda2	129	@item Load large immediate into general register:
a9c99419 JE	130
	131	The pseudo-instruction @code{mov imm,%rn} (where the immediate does
	132	not fit within a signed 16-bit field) will be expanded into:
	133	@smallexample
	134	orh large_imm@@h,%r0,%rn
	135	or large_imm@@l,%rn,%rn
	136	@end smallexample
9fc2dda2	137	@item Load/store with relocatable address expression:
a9c99419	138
0dee3be0	139	For example, the pseudo-instruction @code{ld.b addr_exp(%rx),%rn}
a9c99419 JE	140	will be expanded into:
a9c99419 JE	141	@smallexample
0dee3be0	142	orh addr_exp@@ha,%rx,%r31
a9c99419 JE	143	ld.l addr_exp@@l(%r31),%rn
	144	@end smallexample
	145
	146	The analogous expansions apply to @code{ld.x, st.x, fld.x, pfld.x, fst.x}, and @code{pst.x} as well.
9fc2dda2 JE	147	@item Signed large immediate with add/subtract:
9fc2dda2 JE	148
a9c99419 JE	149	If any of the arithmetic operations @code{adds, addu, subs, subu} are used
	150	with an immediate larger than 16-bits (signed), then they will be expanded.
	151	For instance, the pseudo-instruction @code{adds large_imm,%rx,%rn} expands to:
	152	@smallexample
	153	orh large_imm@@h,%r0,%r31
	154	or large_imm@@l,%r31,%r31
	155	adds %r31,%rx,%rn
	156	@end smallexample
9fc2dda2 JE	157	@item Unsigned large immediate with logical operations:
9fc2dda2 JE	158
a9c99419 JE	159	Logical operations (@code{or, andnot, or, xor}) also result in expansions.
	160	The pseudo-instruction @code{or large_imm,%rx,%rn} results in:
	161	@smallexample
	162	orh large_imm@@h,%rx,%r31
	163	or large_imm@@l,%r31,%rn
	164	@end smallexample
e3308d0d	165
a9c99419 JE	166	Similarly for the others, except for @code{and} which expands to:
	167	@smallexample
	168	andnot (-1 - large_imm)@@h,%rx,%r31
	169	andnot (-1 - large_imm)@@l,%r31,%rn
	170	@end smallexample
	171	@end itemize
e3308d0d	172