X-Git-Url: http://drtracing.org/?a=blobdiff_plain;f=gas%2Fdoc%2Fc-i386.texi;h=ba2006743851df93654755fb29a04a419a4fbb53;hb=a0a1771e895e6606a2a795c407e20aed73f69bd9;hp=e500e7c86d14348a8a7eeeaf84d090dcce5dc8de;hpb=102e9361c88882756ad7ffceb0713a794c991e69;p=deliverable%2Fbinutils-gdb.git diff --git a/gas/doc/c-i386.texi b/gas/doc/c-i386.texi index e500e7c86d..ba20067438 100644 --- a/gas/doc/c-i386.texi +++ b/gas/doc/c-i386.texi @@ -1,4 +1,4 @@ -@c Copyright (C) 1991-2018 Free Software Foundation, Inc. +@c Copyright (C) 1991-2019 Free Software Foundation, Inc. @c This is part of the GAS manual. @c For copying conditions, see the file as.texinfo. @c man end @@ -123,6 +123,7 @@ processor names are recognized: @code{bdver3}, @code{bdver4}, @code{znver1}, +@code{znver2}, @code{btver1}, @code{btver2}, @code{generic32} and @@ -140,6 +141,10 @@ accept various extension mnemonics. For example, @code{no287}, @code{no387}, @code{no687}, +@code{cmov}, +@code{nocmov}, +@code{fxsr}, +@code{nofxsr}, @code{mmx}, @code{nommx}, @code{sse}, @@ -176,6 +181,9 @@ accept various extension mnemonics. For example, @code{clflushopt}, @code{se1}, @code{clwb}, +@code{movdiri}, +@code{movdir64b}, +@code{enqcmd}, @code{avx512f}, @code{avx512cd}, @code{avx512er}, @@ -191,6 +199,7 @@ accept various extension mnemonics. For example, @code{avx512_vbmi2}, @code{avx512_vnni}, @code{avx512_bitalg}, +@code{avx512_bf16}, @code{noavx512f}, @code{noavx512cd}, @code{noavx512er}, @@ -206,6 +215,9 @@ accept various extension mnemonics. For example, @code{noavx512_vbmi2}, @code{noavx512_vnni}, @code{noavx512_bitalg}, +@code{noavx512_vp2intersect}, +@code{noavx512_bf16}, +@code{noenqcmd}, @code{vmx}, @code{vmfunc}, @code{smx}, @@ -229,6 +241,10 @@ accept various extension mnemonics. For example, @code{clflush}, @code{mwaitx}, @code{clzero}, +@code{wbnoinvd}, +@code{pconfig}, +@code{waitpkg}, +@code{cldemote}, @code{lwp}, @code{fma4}, @code{xop}, @@ -287,6 +303,22 @@ AVX instructions with 128bit vector length, which is the default. @option{-mavxscalar=@var{256}} will encode scalar AVX instructions with 256bit vector length. +WARNING: Don't use this for production code - due to CPU errata the +resulting code may not work on certain models. + +@cindex @samp{-mvexwig=} option, i386 +@cindex @samp{-mvexwig=} option, x86-64 +@item -mvexwig=@var{0} +@itemx -mvexwig=@var{1} +These options control how the assembler should encode VEX.W-ignored (WIG) +VEX instructions. @option{-mvexwig=@var{0}} will encode WIG VEX +instructions with vex.w = 0, which is the default. +@option{-mvexwig=@var{1}} will encode WIG EVEX instructions with +vex.w = 1. + +WARNING: Don't use this for production code - due to CPU errata the +resulting code may not work on certain models. + @cindex @samp{-mevexlig=} option, i386 @cindex @samp{-mevexlig=} option, x86-64 @item -mevexlig=@var{128} @@ -389,6 +421,15 @@ R_X86_64_REX_GOTPCRELX, in 64-bit mode. relocations. The default can be controlled by a configure option @option{--enable-x86-relax-relocations}. +@cindex @samp{-mx86-used-note=} option, i386 +@cindex @samp{-mx86-used-note=} option, x86-64 +@item -mx86-used-note=@var{no} +@itemx -mx86-used-note=@var{yes} +These options control whether the assembler should generate +GNU_PROPERTY_X86_ISA_1_USED and GNU_PROPERTY_X86_FEATURE_2_USED +GNU property notes. The default can be controlled by the +@option{--enable-x86-used-note} configure option. + @cindex @samp{-mevexrcig=} option, i386 @cindex @samp{-mevexrcig=} option, x86-64 @item -mevexrcig=@var{rne} @@ -409,6 +450,36 @@ with 01, 10 and 11 RC bits, respectively. This option specifies that the assembler should accept only AMD64 or Intel64 ISA in 64-bit mode. The default is to accept both. +@cindex @samp{-O0} option, i386 +@cindex @samp{-O0} option, x86-64 +@cindex @samp{-O} option, i386 +@cindex @samp{-O} option, x86-64 +@cindex @samp{-O1} option, i386 +@cindex @samp{-O1} option, x86-64 +@cindex @samp{-O2} option, i386 +@cindex @samp{-O2} option, x86-64 +@cindex @samp{-Os} option, i386 +@cindex @samp{-Os} option, x86-64 +@item -O0 | -O | -O1 | -O2 | -Os +Optimize instruction encoding with smaller instruction size. @samp{-O} +and @samp{-O1} encode 64-bit register load instructions with 64-bit +immediate as 32-bit register load instructions with 31-bit or 32-bits +immediates, encode 64-bit register clearing instructions with 32-bit +register clearing instructions, encode 256-bit/512-bit VEX/EVEX vector +register clearing instructions with 128-bit VEX vector register +clearing instructions, encode 128-bit/256-bit EVEX vector +register load/store instructions with VEX vector register load/store +instructions, and encode 128-bit/256-bit EVEX packed integer logical +instructions with 128-bit/256-bit VEX packed integer logical. + +@samp{-O2} includes @samp{-O1} optimization plus encodes +256-bit/512-bit EVEX vector register clearing instructions with 128-bit +EVEX vector register clearing instructions. + +@samp{-Os} includes @samp{-O2} optimization plus encodes 16-bit, 32-bit +and 64-bit register tests with immediate as 8-bit register test with +immediate. @samp{-O0} turns off this optimization. + @end table @c man end @@ -523,11 +594,16 @@ instruction, do @emph{not} have reversed order. @ref{i386-Bugs}. In AT&T syntax the size of memory operands is determined from the last character of the instruction mnemonic. Mnemonic suffixes of @samp{b}, @samp{w}, @samp{l} and @samp{q} specify byte (8-bit), word (16-bit), long -(32-bit) and quadruple word (64-bit) memory references. Intel syntax accomplishes -this by prefixing memory operands (@emph{not} the instruction mnemonics) with -@samp{byte ptr}, @samp{word ptr}, @samp{dword ptr} and @samp{qword ptr}. Thus, -Intel @samp{mov al, byte ptr @var{foo}} is @samp{movb @var{foo}, %al} in AT&T -syntax. +(32-bit) and quadruple word (64-bit) memory references. Mnemonic suffixes +of @samp{x}, @samp{y} and @samp{z} specify xmm (128-bit vector), ymm +(256-bit vector) and zmm (512-bit vector) memory references, only when there's +no other way to disambiguate an instruction. Intel syntax accomplishes this by +prefixing memory operands (@emph{not} the instruction mnemonics) with +@samp{byte ptr}, @samp{word ptr}, @samp{dword ptr}, @samp{qword ptr}, +@samp{xmmword ptr}, @samp{ymmword ptr} and @samp{zmmword ptr}. Thus, Intel +syntax @samp{mov al, byte ptr @var{foo}} is @samp{movb @var{foo}, %al} in AT&T +syntax. In Intel syntax, @samp{fword ptr}, @samp{tbyte ptr} and +@samp{oword ptr} specify 48-bit, 80-bit and 128-bit memory references. In 64-bit code, @samp{movabs} can be used to encode the @samp{mov} instruction with the 64-bit displacement or immediate operand. @@ -567,7 +643,7 @@ line is treated as a comment, but in this case the line can also be a logical line number directive (@pxref{Comments}) or a preprocessor control command (@pxref{Preprocessing}). -If the @option{--divide} command line option has not been specified +If the @option{--divide} command-line option has not been specified then the @samp{/} character appearing anywhere on a line also introduces a line comment. @@ -640,6 +716,14 @@ Different encoding options can be specified via pseudo prefixes: @item @samp{@{evex@}} -- encode with EVEX prefix. + +@item +@samp{@{rex@}} -- prefer REX prefix for integer and legacy vector +instructions (x86-64 only). Note that this differs from the @samp{rex} +prefix which generates REX prefix unconditionally. + +@item +@samp{@{nooptimize@}} -- disable instruction size optimization. @end itemize @cindex conversion instructions, i386 @@ -1219,12 +1303,13 @@ supported on the CPU specified. The choices for @var{cpu_type} are: @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} @samp{iamcu} +@item @samp{corei7} @tab @samp{l1om} @tab @samp{k1om} @tab @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{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{bdver4} @tab @samp{znver1} @tab @samp{znver2} @tab @samp{btver1} +@item @samp{btver2} @tab @samp{generic32} @tab @samp{generic64} +@item @samp{.cmov} @tab @samp{.fxsr} @tab @samp{.mmx} +@item @samp{.sse} @tab @samp{.sse2} @tab @samp{.sse3} @item @samp{.ssse3} @tab @samp{.sse4.1} @tab @samp{.sse4.2} @tab @samp{.sse4} @item @samp{.avx} @tab @samp{.vmx} @tab @samp{.smx} @tab @samp{.ept} @item @samp{.clflush} @tab @samp{.movbe} @tab @samp{.xsave} @tab @samp{.xsaveopt} @@ -1238,13 +1323,15 @@ supported on the CPU specified. The choices for @var{cpu_type} are: @item @samp{.avx512vl} @tab @samp{.avx512bw} @tab @samp{.avx512dq} @tab @samp{.avx512ifma} @item @samp{.avx512vbmi} @tab @samp{.avx512_4fmaps} @tab @samp{.avx512_4vnniw} @item @samp{.avx512_vpopcntdq} @tab @samp{.avx512_vbmi2} @tab @samp{.avx512_vnni} -@item @samp{.avx512_bitalg} -@item @samp{.clwb} @tab @samp{.rdpid} @tab @samp{.ptwrite} @tab @item @samp{.cet} +@item @samp{.avx512_bitalg} @tab @samp{.avx512_bf16} @tab @samp{.avx512_vp2intersect} +@item @samp{.clwb} @tab @samp{.rdpid} @tab @samp{.ptwrite} @tab @item @samp{.ibt} +@item @samp{.wbnoinvd} @tab @samp{.pconfig} @tab @samp{.waitpkg} @tab @samp{.cldemote} +@item @samp{.shstk} @tab @samp{.gfni} @tab @samp{.vaes} @tab @samp{.vpclmulqdq} +@item @samp{.movdiri} @tab @samp{.movdir64b} @tab @samp{.enqcmd} @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} @tab @samp{.clzero} @tab @samp{.mwaitx} @tab @samp{.gfni} -@item @samp{.vaes} @tab @samp{.vpclmulqdq} +@item @samp{.padlock} @tab @samp{.clzero} @tab @samp{.mwaitx} @end multitable Apart from the warning, there are only two other effects on