-@c Copyright (C) 1991-2014 Free Software Foundation, Inc.
+@c Copyright (C) 1991-2016 Free Software Foundation, Inc.
@c This is part of the GAS manual.
@c For copying conditions, see the file as.texinfo.
@c man end
@code{corei7},
@code{l1om},
@code{k1om},
+@code{iamcu},
@code{k6},
@code{k6_2},
@code{athlon},
@code{bdver2},
@code{bdver3},
@code{bdver4},
+@code{znver1},
@code{btver1},
@code{btver2},
@code{generic32} and
@code{prefetchwt1},
@code{clflushopt},
@code{se1},
+@code{clwb},
+@code{pcommit},
@code{avx512f},
@code{avx512cd},
@code{avx512er},
@code{avx512vl},
@code{avx512bw},
@code{avx512dq},
+@code{avx512ifma},
+@code{avx512vbmi},
@code{noavx},
@code{vmx},
@code{vmfunc},
@code{rtm},
@code{invpcid},
@code{clflush},
+@code{mwaitx},
+@code{clzero},
@code{lwp},
@code{fma4},
@code{xop},
This option forces the assembler to add BND prefix to all branches, even
if such prefix was not explicitly specified in the source code.
+@cindex @samp{-mshared} option, i386
+@cindex @samp{-mshared} option, x86-64
+@item -mno-shared
+On ELF target, the assembler normally optimizes out non-PLT relocations
+against defined non-weak global branch targets with default visibility.
+The @samp{-mshared} option tells the assembler to generate code which
+may go into a shared library where all non-weak global branch targets
+with default visibility can be preempted. The resulting code is
+slightly bigger. This option only affects the handling of branch
+instructions.
+
@cindex @samp{-mbig-obj} option, x86-64
@item -mbig-obj
On x86-64 PE/COFF target this option forces the use of big object file
@option{-momit-lock-prefix=@var{no}} will encode lock prefix as usual,
which is the default.
+@cindex @samp{-mfence-as-lock-add=} option, i386
+@cindex @samp{-mfence-as-lock-add=} option, x86-64
+@item -mfence-as-lock-add=@var{no}
+@itemx -mfence-as-lock-add=@var{yes}
+These options control how the assembler should encode lfence, mfence and
+sfence.
+@option{-mfence-as-lock-add=@var{yes}} will encode lfence, mfence and
+sfence as @samp{lock addl $0x0, (%rsp)} in 64-bit mode and
+@samp{lock addl $0x0, (%esp)} in 32-bit mode.
+@option{-mfence-as-lock-add=@var{no}} will encode lfence, mfence and
+sfence as usual, which is the default.
+
+@cindex @samp{-mrelax-relocations=} option, i386
+@cindex @samp{-mrelax-relocations=} option, x86-64
+@item -mrelax-relocations=@var{no}
+@itemx -mrelax-relocations=@var{yes}
+These options control whether the assembler should generate relax
+relocations, R_386_GOT32X, in 32-bit mode, or R_X86_64_GOTPCRELX and
+R_X86_64_REX_GOTPCRELX, in 64-bit mode.
+@option{-mrelax-relocations=@var{yes}} will generate relax relocations.
+@option{-mrelax-relocations=@var{no}} will not generate relax
+relocations. The default can be controlled by a configure option
+@option{--enable-x86-relax-relocations}.
+
@cindex @samp{-mevexrcig=} option, i386
@cindex @samp{-mevexrcig=} option, x86-64
@item -mevexrcig=@var{rne}
and @option{-mevexrcig=@var{rz}} will encode SAE-only EVEX instructions
with 01, 10 and 11 RC bits, respectively.
+@cindex @samp{-mamd64} option, x86-64
+@cindex @samp{-mintel64} option, x86-64
+@item -mamd64
+@itemx -mintel64
+This option specifies that the assembler should accept only AMD64 or
+Intel64 ISA in 64-bit mode. The default is to accept both.
+
@end table
@c man end
line.
@node i386-Mnemonics
-@section Instruction Naming
+@section i386-Mnemonics
+@subsection Instruction Naming
@cindex i386 instruction naming
@cindex instruction naming, i386
AT&T syntax, but are @samp{call far} and @samp{jump far} in Intel
convention.
-@section AT&T Mnemonic versus Intel Mnemonic
+@subsection AT&T Mnemonic versus Intel Mnemonic
@cindex i386 mnemonic compatibility
@cindex mnemonic compatibility, i386
is correct since the processor default operand size is assumed to be 16
bits in a 16-bit code section.
-@node i386-Bugs
-@section AT&T Syntax bugs
-
-The UnixWare assembler, and probably other AT&T derived ix86 Unix
-assemblers, generate floating point instructions with reversed source
-and destination registers in certain cases. Unfortunately, gcc and
-possibly many other programs use this reversed syntax, so we're stuck
-with it.
-
-For example
-
-@smallexample
- fsub %st,%st(3)
-@end smallexample
-@noindent
-results in @samp{%st(3)} being updated to @samp{%st - %st(3)} rather
-than the expected @samp{%st(3) - %st}. This happens with all the
-non-commutative arithmetic floating point operations with two register
-operands where the source register is @samp{%st} and the destination
-register is @samp{%st(i)}.
-
@node i386-Arch
@section Specifying CPU Architecture
@item @samp{i486} @tab @samp{i586} @tab @samp{i686} @tab @samp{pentium}
@item @samp{pentiumpro} @tab @samp{pentiumii} @tab @samp{pentiumiii} @tab @samp{pentium4}
@item @samp{prescott} @tab @samp{nocona} @tab @samp{core} @tab @samp{core2}
-@item @samp{corei7} @tab @samp{l1om} @tab @samp{k1om}
+@item @samp{corei7} @tab @samp{l1om} @tab @samp{k1om} @samp{iamcu}
@item @samp{k6} @tab @samp{k6_2} @tab @samp{athlon} @tab @samp{k8}
@item @samp{amdfam10} @tab @samp{bdver1} @tab @samp{bdver2} @tab @samp{bdver3}
-@item @samp{bdver4} @tab @samp{btver1} @tab @samp{btver2}
+@item @samp{bdver4} @tab @samp{znver1} @tab @samp{btver1} @tab @samp{btver2}
@item @samp{generic32} @tab @samp{generic64}
@item @samp{.mmx} @tab @samp{.sse} @tab @samp{.sse2} @tab @samp{.sse3}
@item @samp{.ssse3} @tab @samp{.sse4.1} @tab @samp{.sse4.2} @tab @samp{.sse4}
@item @samp{.smap} @tab @samp{.mpx} @tab @samp{.sha} @tab @samp{.prefetchwt1}
@item @samp{.clflushopt} @tab @samp{.xsavec} @tab @samp{.xsaves} @tab @samp{.se1}
@item @samp{.avx512f} @tab @samp{.avx512cd} @tab @samp{.avx512er} @tab @samp{.avx512pf}
-@item @samp{.avx512vl} @tab @samp{.avx512bw} @tab @samp{.avx512dq}
+@item @samp{.avx512vl} @tab @samp{.avx512bw} @tab @samp{.avx512dq} @tab @samp{.avx512ifma}
+@item @samp{.avx512vbmi} @tab @samp{.clwb} @tab @samp{.pcommit}
@item @samp{.3dnow} @tab @samp{.3dnowa} @tab @samp{.sse4a} @tab @samp{.sse5}
@item @samp{.syscall} @tab @samp{.rdtscp} @tab @samp{.svme} @tab @samp{.abm}
@item @samp{.lwp} @tab @samp{.fma4} @tab @samp{.xop} @tab @samp{.cx16}
-@item @samp{.padlock}
+@item @samp{.padlock} @tab @samp{.clzero} @tab @samp{.mwaitx}
@end multitable
Apart from the warning, there are only two other effects on
.arch i8086,nojumps
@end smallexample
+@node i386-Bugs
+@section AT&T Syntax bugs
+
+The UnixWare assembler, and probably other AT&T derived ix86 Unix
+assemblers, generate floating point instructions with reversed source
+and destination registers in certain cases. Unfortunately, gcc and
+possibly many other programs use this reversed syntax, so we're stuck
+with it.
+
+For example
+
+@smallexample
+ fsub %st,%st(3)
+@end smallexample
+@noindent
+results in @samp{%st(3)} being updated to @samp{%st - %st(3)} rather
+than the expected @samp{%st(3) - %st}. This happens with all the
+non-commutative arithmetic floating point operations with two register
+operands where the source register is @samp{%st} and the destination
+register is @samp{%st(i)}.
+
@node i386-Notes
@section Notes
projects / deliverable / binutils-gdb.git / blobdiff