v8/test/cctest/test-disasm-x64.cc

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// Copyright 2011 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <stdlib.h>
#include "src/init/v8.h"
#include "src/codegen/code-factory.h"
#include "src/codegen/macro-assembler.h"
#include "src/debug/debug.h"
#include "src/diagnostics/disasm.h"
#include "src/diagnostics/disassembler.h"
#include "src/execution/frames-inl.h"
#include "src/utils/ostreams.h"
#include "src/objects/objects-inl.h"
#include "test/cctest/cctest.h"
namespace v8 {
namespace internal {
#define __ assm.
TEST(DisasmX64) {
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
HandleScope scope(isolate);
v8::internal::byte buffer[8192];
Assembler assm(AssemblerOptions{},
ExternalAssemblerBuffer(buffer, sizeof buffer));
// Short immediate instructions
__ addq(rax, Immediate(12345678));
__ orq(rax, Immediate(12345678));
__ subq(rax, Immediate(12345678));
__ xorq(rax, Immediate(12345678));
__ andq(rax, Immediate(12345678));
// ---- This one caused crash
__ movq(rbx, Operand(rsp, rcx, times_2, 0)); // [rsp+rcx*4]
// ---- All instructions that I can think of
__ addq(rdx, rbx);
__ addq(rdx, Operand(rbx, 0));
__ addq(rdx, Operand(rbx, 16));
__ addq(rdx, Operand(rbx, 1999));
__ addq(rdx, Operand(rbx, -4));
__ addq(rdx, Operand(rbx, -1999));
__ addq(rdx, Operand(rsp, 0));
__ addq(rdx, Operand(rsp, 16));
__ addq(rdx, Operand(rsp, 1999));
__ addq(rdx, Operand(rsp, -4));
__ addq(rdx, Operand(rsp, -1999));
__ nop();
__ addq(rsi, Operand(rcx, times_4, 0));
__ addq(rsi, Operand(rcx, times_4, 24));
__ addq(rsi, Operand(rcx, times_4, -4));
__ addq(rsi, Operand(rcx, times_4, -1999));
__ nop();
__ addq(rdi, Operand(rbp, rcx, times_4, 0));
__ addq(rdi, Operand(rbp, rcx, times_4, 12));
__ addq(rdi, Operand(rbp, rcx, times_4, -8));
__ addq(rdi, Operand(rbp, rcx, times_4, -3999));
__ addq(Operand(rbp, rcx, times_4, 12), Immediate(12));
__ bswapl(rax);
__ bswapq(rdi);
__ bsrl(rax, r15);
__ bsrl(r9, Operand(rcx, times_8, 91919));
__ nop();
__ addq(rbx, Immediate(12));
__ nop();
__ nop();
__ andq(rdx, Immediate(3));
__ andq(rdx, Operand(rsp, 4));
__ cmpq(rdx, Immediate(3));
__ cmpq(rdx, Operand(rsp, 4));
__ cmpq(Operand(rbp, rcx, times_4, 0), Immediate(1000));
__ cmpb(rbx, Operand(rbp, rcx, times_2, 0));
__ cmpb(Operand(rbp, rcx, times_2, 0), rbx);
__ orq(rdx, Immediate(3));
__ xorq(rdx, Immediate(3));
__ nop();
__ cpuid();
__ movsxbl(rdx, Operand(rcx, 0));
__ movsxbq(rdx, Operand(rcx, 0));
__ movsxwl(rdx, Operand(rcx, 0));
__ movsxwq(rdx, Operand(rcx, 0));
__ movzxbl(rdx, Operand(rcx, 0));
__ movzxwl(rdx, Operand(rcx, 0));
__ movzxbq(rdx, Operand(rcx, 0));
__ movzxwq(rdx, Operand(rcx, 0));
__ nop();
__ imulq(rdx, rcx);
__ shld(rdx, rcx);
__ shrd(rdx, rcx);
__ shlq(Operand(rdi, rax, times_4, 100), Immediate(1));
__ shlq(Operand(rdi, rax, times_4, 100), Immediate(6));
__ shlq(Operand(r15, 0), Immediate(1));
__ shlq(Operand(r15, 0), Immediate(6));
__ shlq_cl(Operand(r15, 0));
__ shlq_cl(Operand(r15, 0));
__ shlq_cl(Operand(rdi, rax, times_4, 100));
__ shlq_cl(Operand(rdi, rax, times_4, 100));
__ shlq(rdx, Immediate(1));
__ shlq(rdx, Immediate(6));
__ shll(Operand(rdi, rax, times_4, 100), Immediate(1));
__ shll(Operand(rdi, rax, times_4, 100), Immediate(6));
__ shll(Operand(r15, 0), Immediate(1));
__ shll(Operand(r15, 0), Immediate(6));
__ shll_cl(Operand(r15, 0));
__ shll_cl(Operand(r15, 0));
__ shll_cl(Operand(rdi, rax, times_4, 100));
__ shll_cl(Operand(rdi, rax, times_4, 100));
__ shll(rdx, Immediate(1));
__ shll(rdx, Immediate(6));
__ btq(Operand(rdx, 0), rcx);
__ btsq(Operand(rdx, 0), rcx);
__ btsq(Operand(rbx, rcx, times_4, 0), rcx);
__ btsq(rcx, Immediate(13));
__ btrq(rcx, Immediate(13));
__ nop();
__ pushq(Immediate(12));
__ pushq(Immediate(23456));
__ pushq(rcx);
__ pushq(rsi);
__ pushq(Operand(rbp, StandardFrameConstants::kFunctionOffset));
__ pushq(Operand(rbx, rcx, times_4, 0));
__ pushq(Operand(rbx, rcx, times_4, 0));
__ pushq(Operand(rbx, rcx, times_4, 10000));
__ popq(rdx);
__ popq(rax);
__ popq(Operand(rbx, rcx, times_4, 0));
__ nop();
__ addq(rdx, Operand(rsp, 16));
__ addq(rdx, rcx);
__ movb(rdx, Operand(rcx, 0));
__ movb(rcx, Immediate(6));
__ movb(Operand(rsp, 16), rdx);
__ movw(Operand(rsp, 16), rdx);
__ nop();
__ movsxwq(rdx, Operand(rsp, 12));
__ movsxbq(rdx, Operand(rsp, 12));
__ movsxlq(rdx, Operand(rsp, 12));
__ movzxwq(rdx, Operand(rsp, 12));
__ movzxbq(rdx, Operand(rsp, 12));
__ nop();
__ movq(rdx, Immediate(1234567));
__ movq(rdx, Operand(rsp, 12));
__ movq(Operand(rbx, rcx, times_4, 10000), Immediate(12345));
__ movq(Operand(rbx, rcx, times_4, 10000), rdx);
__ nop();
__ decb(rdx);
__ decb(Operand(rax, 10));
__ decb(Operand(rbx, rcx, times_4, 10000));
__ decq(rdx);
__ cdq();
[Liftoff] Improve initialization for many locals WebAssembly locals are specified to be zero on function entry. Liftoff implements this by just storing the constant 0 in the virtual stack for integer types, and using one floating point register initialized to zero for all floating point types. For big counts of locals this leads to problems (manifesting as huge blocks of code being generated) once we hit a merge point: All those constants (for int) and all duplicate register uses (for floats) need to be fixed up, by using separate registers for the locals or spilling to the stack if no more registers are available. All this spilling generates a lot of code, and can even happen multiple times within a function. This CL optimizes for such cases by spilling all locals to the stack initially. All merges within the function body get much smaller then. The spilled values rarely have to be loaded anyway, because the initial zero value is usually overwritten before the first use. To optimize the code size for initializing big numbers of locals on the stack, this CL also introduces the platform-specific {FillStackSlotsWithZero} method which uses a loop for bigger local counts. This often saves dozens of kilobytes for very big functions, and shows an overall code size reduction of 4-5 percent for big modules. R=jkummerow@chromium.org Bug: v8:9830 Change-Id: I23fa4145847827420f09e043a11e0e7b606e94cc Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1856004 Commit-Queue: Clemens Backes <clemensb@chromium.org> Reviewed-by: Jakob Kummerow <jkummerow@chromium.org> Cr-Commit-Position: refs/heads/master@{#64282}
2019-10-15 08:17:25 +00:00
__ repstosq();
__ nop();
__ idivq(rdx);
__ mull(rdx);
__ mulq(rdx);
__ negq(rdx);
__ notq(rdx);
__ testq(Operand(rbx, rcx, times_4, 10000), rdx);
__ imulq(rdx, rcx, Immediate(12));
__ imulq(rdx, rcx, Immediate(1000));
__ imulq(rdx, Operand(rbx, rcx, times_4, 10000));
__ imulq(rdx, Operand(rbx, rcx, times_4, 10000), Immediate(12));
__ imulq(rdx, Operand(rbx, rcx, times_4, 10000), Immediate(1000));
__ imull(r15, rcx, Immediate(12));
__ imull(r15, rcx, Immediate(1000));
__ imull(r15, Operand(rbx, rcx, times_4, 10000));
__ imull(r15, Operand(rbx, rcx, times_4, 10000), Immediate(12));
__ imull(r15, Operand(rbx, rcx, times_4, 10000), Immediate(1000));
__ incq(rdx);
__ incq(Operand(rbx, rcx, times_4, 10000));
__ pushq(Operand(rbx, rcx, times_4, 10000));
__ popq(Operand(rbx, rcx, times_4, 10000));
__ jmp(Operand(rbx, rcx, times_4, 10000));
__ leaq(rdx, Operand(rbx, rcx, times_4, 10000));
__ orq(rdx, Immediate(12345));
__ orq(rdx, Operand(rbx, rcx, times_4, 10000));
__ nop();
__ rclq(rdx, Immediate(1));
__ rclq(rdx, Immediate(7));
__ rcrq(rdx, Immediate(1));
__ rcrq(rdx, Immediate(7));
__ sarq(rdx, Immediate(1));
__ sarq(rdx, Immediate(6));
__ sarq_cl(rdx);
__ sbbq(rdx, rbx);
__ shld(rdx, rbx);
__ shlq(rdx, Immediate(1));
__ shlq(rdx, Immediate(6));
__ shlq_cl(rdx);
__ shrd(rdx, rbx);
__ shrq(rdx, Immediate(1));
__ shrq(rdx, Immediate(7));
__ shrq_cl(rdx);
// Immediates
__ addq(rbx, Immediate(12));
__ addq(Operand(rdx, rcx, times_4, 10000), Immediate(12));
__ andq(rbx, Immediate(12345));
__ cmpq(rbx, Immediate(12345));
__ cmpq(rbx, Immediate(12));
__ cmpq(Operand(rdx, rcx, times_4, 10000), Immediate(12));
__ cmpb(rax, Immediate(100));
__ orq(rbx, Immediate(12345));
__ subq(rbx, Immediate(12));
__ subq(Operand(rdx, rcx, times_4, 10000), Immediate(12));
__ xorq(rbx, Immediate(12345));
__ imulq(rdx, rcx, Immediate(12));
__ imulq(rdx, rcx, Immediate(1000));
__ cld();
__ subq(rdx, Operand(rbx, rcx, times_4, 10000));
__ subq(rdx, rbx);
__ testq(rdx, Immediate(12345));
__ testq(Operand(rbx, rcx, times_8, 10000), rdx);
__ testb(Operand(rcx, rbx, times_2, 1000), rdx);
__ testb(Operand(rax, -20), Immediate(0x9A));
__ nop();
__ xorq(rdx, Immediate(12345));
__ xorq(rdx, Operand(rbx, rcx, times_8, 10000));
__ hlt();
__ int3();
__ ret(0);
__ ret(8);
// Calls
Label L1, L2;
__ bind(&L1);
__ nop();
__ call(&L1);
__ call(&L2);
__ nop();
__ bind(&L2);
// TODO(mstarzinger): The following is protected.
// __ call(Operand(rbx, rcx, times_4, 10000));
__ nop();
Revert "[builtins] Move non-JS linkage builtins code objects into RO_SPACE" This reverts commit 83f8464ffcfb2058c0434f5e7d2bb379284ecacf. Reason for revert: speculative revert for blink linux failure https://ci.chromium.org/p/v8/builders/ci/V8%20Blink%20Linux/1272 Original change's description: > [builtins] Move non-JS linkage builtins code objects into RO_SPACE > > Creates an allow-list of builtins that can still go in code_space > including all TFJ builtins and a small manual list that should be pared > down in the future. > > For builtins that go in RO_SPACE a Code object is created that contains > no code at all (shrinking its size from 96 bytes to 64 bytes on x64), > but is there to allow the runtime to continue to work since it expects > a Code object. > > This reduces code_space from ~152k to ~40k (-112k) and increases > read_only_space from 33k to 108k (+75k) in the snapshot. > > Bug: v8:7464, v8:9821, v8:9338, v8:8127 > Change-Id: Icc8bfc722bb267a2bcc17e2f1e27bef7f02f2376 > Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1795358 > Commit-Queue: Dan Elphick <delphick@chromium.org> > Reviewed-by: Jakob Gruber <jgruber@chromium.org> > Reviewed-by: Michael Starzinger <mstarzinger@chromium.org> > Cr-Commit-Position: refs/heads/master@{#64377} TBR=mstarzinger@chromium.org,jgruber@chromium.org,delphick@chromium.org Change-Id: I4cf38e9370280acdd2de718ca527776ebc509003 No-Presubmit: true No-Tree-Checks: true No-Try: true Bug: v8:7464, v8:9821, v8:9338, v8:8127 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1868621 Reviewed-by: Sathya Gunasekaran <gsathya@chromium.org> Commit-Queue: Sathya Gunasekaran <gsathya@chromium.org> Cr-Commit-Position: refs/heads/master@{#64383}
2019-10-18 14:13:52 +00:00
Handle<Code> ic = BUILTIN_CODE(isolate, LoadIC);
__ call(ic, RelocInfo::CODE_TARGET);
__ nop();
__ nop();
__ jmp(&L1);
__ jmp(Operand(rbx, rcx, times_4, 10000));
__ jmp(ic, RelocInfo::CODE_TARGET);
__ nop();
Label Ljcc;
__ nop();
// long jumps
__ j(overflow, &Ljcc);
__ j(no_overflow, &Ljcc);
__ j(below, &Ljcc);
__ j(above_equal, &Ljcc);
__ j(equal, &Ljcc);
__ j(not_equal, &Ljcc);
__ j(below_equal, &Ljcc);
__ j(above, &Ljcc);
__ j(sign, &Ljcc);
__ j(not_sign, &Ljcc);
__ j(parity_even, &Ljcc);
__ j(parity_odd, &Ljcc);
__ j(less, &Ljcc);
__ j(greater_equal, &Ljcc);
__ j(less_equal, &Ljcc);
__ j(greater, &Ljcc);
__ nop();
__ bind(&Ljcc);
// short jumps
__ j(overflow, &Ljcc);
__ j(no_overflow, &Ljcc);
__ j(below, &Ljcc);
__ j(above_equal, &Ljcc);
__ j(equal, &Ljcc);
__ j(not_equal, &Ljcc);
__ j(below_equal, &Ljcc);
__ j(above, &Ljcc);
__ j(sign, &Ljcc);
__ j(not_sign, &Ljcc);
__ j(parity_even, &Ljcc);
__ j(parity_odd, &Ljcc);
__ j(less, &Ljcc);
__ j(greater_equal, &Ljcc);
__ j(less_equal, &Ljcc);
__ j(greater, &Ljcc);
// 0xD9 instructions
__ nop();
__ fld(1);
__ fld1();
__ fldz();
__ fldpi();
__ fabs();
__ fchs();
__ fprem();
__ fprem1();
__ fincstp();
__ ftst();
__ fxch(3);
__ fld_s(Operand(rbx, rcx, times_4, 10000));
__ fstp_s(Operand(rbx, rcx, times_4, 10000));
__ ffree(3);
__ fld_d(Operand(rbx, rcx, times_4, 10000));
__ fstp_d(Operand(rbx, rcx, times_4, 10000));
__ nop();
__ fild_s(Operand(rbx, rcx, times_4, 10000));
__ fistp_s(Operand(rbx, rcx, times_4, 10000));
__ fild_d(Operand(rbx, rcx, times_4, 10000));
__ fistp_d(Operand(rbx, rcx, times_4, 10000));
__ fnstsw_ax();
__ nop();
__ fadd(3);
__ fsub(3);
__ fmul(3);
__ fdiv(3);
__ faddp(3);
__ fsubp(3);
__ fmulp(3);
__ fdivp(3);
__ fcompp();
__ fwait();
__ frndint();
__ fninit();
__ nop();
// SSE instruction
{
// Move operation
__ cvttss2si(rdx, Operand(rbx, rcx, times_4, 10000));
__ cvttss2si(rdx, xmm1);
__ cvtsd2ss(xmm0, xmm1);
__ cvtsd2ss(xmm0, Operand(rbx, rcx, times_4, 10000));
__ cvttps2dq(xmm0, xmm1);
__ cvttps2dq(xmm0, Operand(rbx, rcx, times_4, 10000));
__ movaps(xmm0, xmm1);
__ movdqa(xmm0, Operand(rsp, 12));
__ movdqa(Operand(rsp, 12), xmm0);
__ movdqu(xmm0, Operand(rsp, 12));
__ movdqu(Operand(rsp, 12), xmm0);
__ shufps(xmm0, xmm9, 0x0);
__ ucomiss(xmm0, xmm1);
__ ucomiss(xmm0, Operand(rbx, rcx, times_4, 10000));
#define EMIT_SSE_INSTR(instruction, notUsed1, notUsed2) \
__ instruction(xmm1, xmm0); \
__ instruction(xmm1, Operand(rbx, rcx, times_4, 10000));
SSE_INSTRUCTION_LIST(EMIT_SSE_INSTR)
#undef EMIT_SSE_INSTR
#define EMIT_SSE_INSTR(instruction, notUsed1, notUsed2, notUse3) \
__ instruction(xmm1, xmm0); \
__ instruction(xmm1, Operand(rbx, rcx, times_4, 10000));
SSE_INSTRUCTION_LIST_SS(EMIT_SSE_INSTR)
#undef EMIT_SSE_INSTR
}
// SSE2 instructions
{
__ cvttsd2si(rdx, Operand(rbx, rcx, times_4, 10000));
__ cvttsd2si(rdx, xmm1);
__ cvttsd2siq(rdx, xmm1);
__ cvttsd2siq(rdx, Operand(rbx, rcx, times_4, 10000));
__ cvtqsi2sd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ cvtqsi2sd(xmm1, rdx);
__ movsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ movsd(Operand(rbx, rcx, times_4, 10000), xmm1);
// 128 bit move instructions.
__ movupd(xmm0, Operand(rbx, rcx, times_4, 10000));
__ movupd(Operand(rbx, rcx, times_4, 10000), xmm0);
__ movdqa(xmm0, Operand(rbx, rcx, times_4, 10000));
__ movdqa(Operand(rbx, rcx, times_4, 10000), xmm0);
__ addsd(xmm1, xmm0);
__ addsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ mulsd(xmm1, xmm0);
__ mulsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ subsd(xmm1, xmm0);
__ subsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ divsd(xmm1, xmm0);
__ divsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ minsd(xmm1, xmm0);
__ minsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ maxsd(xmm1, xmm0);
__ maxsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ sqrtsd(xmm1, xmm0);
__ sqrtsd(xmm1, Operand(rbx, rcx, times_4, 10000));
__ ucomisd(xmm0, xmm1);
__ andpd(xmm0, xmm1);
__ andpd(xmm0, Operand(rbx, rcx, times_4, 10000));
__ orpd(xmm0, xmm1);
__ orpd(xmm0, Operand(rbx, rcx, times_4, 10000));
__ xorpd(xmm0, xmm1);
__ xorpd(xmm0, Operand(rbx, rcx, times_4, 10000));
__ pslld(xmm0, 6);
__ psrld(xmm0, 6);
__ psllq(xmm0, 6);
__ psrlq(xmm0, 6);
__ pcmpeqd(xmm1, xmm0);
__ punpckldq(xmm1, xmm11);
__ punpckldq(xmm5, Operand(rdx, 4));
__ punpckhdq(xmm8, xmm15);
__ pshuflw(xmm2, xmm4, 3);
__ pshufhw(xmm1, xmm9, 6);
#define EMIT_SSE2_INSTR(instruction, notUsed1, notUsed2, notUsed3) \
__ instruction(xmm5, xmm1); \
__ instruction(xmm5, Operand(rdx, 4));
SSE2_INSTRUCTION_LIST(EMIT_SSE2_INSTR)
#undef EMIT_SSE2_INSTR
}
// cmov.
{
__ cmovq(overflow, rax, Operand(rax, 0));
__ cmovq(no_overflow, rax, Operand(rax, 1));
__ cmovq(below, rax, Operand(rax, 2));
__ cmovq(above_equal, rax, Operand(rax, 3));
__ cmovq(equal, rax, Operand(rbx, 0));
__ cmovq(not_equal, rax, Operand(rbx, 1));
__ cmovq(below_equal, rax, Operand(rbx, 2));
__ cmovq(above, rax, Operand(rbx, 3));
__ cmovq(sign, rax, Operand(rcx, 0));
__ cmovq(not_sign, rax, Operand(rcx, 1));
__ cmovq(parity_even, rax, Operand(rcx, 2));
__ cmovq(parity_odd, rax, Operand(rcx, 3));
__ cmovq(less, rax, Operand(rdx, 0));
__ cmovq(greater_equal, rax, Operand(rdx, 1));
__ cmovq(less_equal, rax, Operand(rdx, 2));
__ cmovq(greater, rax, Operand(rdx, 3));
}
{
if (CpuFeatures::IsSupported(SSE3)) {
CpuFeatureScope scope(&assm, SSE3);
__ haddps(xmm1, xmm0);
__ haddps(xmm1, Operand(rbx, rcx, times_4, 10000));
__ lddqu(xmm1, Operand(rdx, 4));
__ movddup(xmm1, Operand(rax, 5));
__ movddup(xmm1, xmm2);
}
}
#define EMIT_SSE34_INSTR(instruction, notUsed1, notUsed2, notUsed3, notUsed4) \
__ instruction(xmm5, xmm1); \
__ instruction(xmm5, Operand(rdx, 4));
#define EMIT_SSE34_IMM_INSTR(instruction, notUsed1, notUsed2, notUsed3, \
notUsed4) \
__ instruction(rbx, xmm15, 0); \
__ instruction(Operand(rax, 10), xmm0, 1);
{
if (CpuFeatures::IsSupported(SSSE3)) {
CpuFeatureScope scope(&assm, SSSE3);
__ palignr(xmm5, xmm1, 5);
__ palignr(xmm5, Operand(rdx, 4), 5);
SSSE3_INSTRUCTION_LIST(EMIT_SSE34_INSTR)
}
}
{
if (CpuFeatures::IsSupported(SSE4_1)) {
CpuFeatureScope scope(&assm, SSE4_1);
__ insertps(xmm5, xmm1, 123);
__ pinsrw(xmm2, rcx, 1);
__ pextrq(r12, xmm0, 1);
__ pinsrd(xmm9, r9, 0);
__ pinsrd(xmm5, Operand(rax, 4), 1);
__ pinsrq(xmm9, r9, 0);
__ pinsrq(xmm5, Operand(rax, 4), 1);
__ pblendw(xmm5, xmm1, 1);
__ pblendw(xmm9, Operand(rax, 4), 1);
__ cmpps(xmm5, xmm1, 1);
__ cmpps(xmm5, Operand(rbx, rcx, times_4, 10000), 1);
__ cmpeqps(xmm5, xmm1);
__ cmpeqps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpltps(xmm5, xmm1);
__ cmpltps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpleps(xmm5, xmm1);
__ cmpleps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpneqps(xmm5, xmm1);
__ cmpneqps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpnltps(xmm5, xmm1);
__ cmpnltps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpnleps(xmm5, xmm1);
__ cmpnleps(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmppd(xmm5, xmm1, 1);
__ cmppd(xmm5, Operand(rbx, rcx, times_4, 10000), 1);
__ cmpeqpd(xmm5, xmm1);
__ cmpeqpd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpltpd(xmm5, xmm1);
__ cmpltpd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmplepd(xmm5, xmm1);
__ cmplepd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpneqpd(xmm5, xmm1);
__ cmpneqpd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpnltpd(xmm5, xmm1);
__ cmpnltpd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ cmpnlepd(xmm5, xmm1);
__ cmpnlepd(xmm5, Operand(rbx, rcx, times_4, 10000));
__ rcpps(xmm5, xmm1);
__ rcpps(xmm5, Operand(rdx, 4));
__ sqrtps(xmm5, xmm1);
__ sqrtps(xmm5, Operand(rdx, 4));
__ movups(xmm5, xmm1);
__ movups(xmm5, Operand(rdx, 4));
__ movups(Operand(rdx, 4), xmm5);
__ movlhps(xmm5, xmm1);
__ pmulld(xmm5, xmm1);
__ pmulld(xmm5, Operand(rdx, 4));
__ pmullw(xmm5, xmm1);
__ pmullw(xmm5, Operand(rdx, 4));
__ pmuludq(xmm5, xmm1);
__ pmuludq(xmm5, Operand(rdx, 4));
__ psrldq(xmm5, 123);
__ pshufd(xmm5, xmm1, 3);
__ cvtps2dq(xmm5, xmm1);
__ cvtps2dq(xmm5, Operand(rdx, 4));
__ cvtdq2ps(xmm5, xmm1);
__ cvtdq2ps(xmm5, Operand(rdx, 4));
SSE4_INSTRUCTION_LIST(EMIT_SSE34_INSTR)
SSE4_EXTRACT_INSTRUCTION_LIST(EMIT_SSE34_IMM_INSTR)
}
}
{
if (CpuFeatures::IsSupported(SSE4_2)) {
CpuFeatureScope scope(&assm, SSE4_2);
SSE4_2_INSTRUCTION_LIST(EMIT_SSE34_INSTR)
}
}
#undef EMIT_SSE34_INSTR
#undef EMIT_SSE34_IMM_INSTR
// AVX instruction
{
if (CpuFeatures::IsSupported(AVX)) {
CpuFeatureScope scope(&assm, AVX);
__ vmovss(xmm6, xmm14, xmm2);
__ vmovss(xmm9, Operand(rbx, rcx, times_4, 10000));
__ vmovss(Operand(rbx, rcx, times_4, 10000), xmm0);
__ vaddss(xmm0, xmm1, xmm2);
__ vaddss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vmulss(xmm0, xmm1, xmm2);
__ vmulss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vsubss(xmm0, xmm1, xmm2);
__ vsubss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vdivss(xmm0, xmm1, xmm2);
__ vdivss(xmm0, xmm1, Operand(rbx, rcx, times_2, 10000));
__ vminss(xmm8, xmm1, xmm2);
__ vminss(xmm9, xmm1, Operand(rbx, rcx, times_8, 10000));
__ vmaxss(xmm8, xmm1, xmm2);
__ vmaxss(xmm9, xmm1, Operand(rbx, rcx, times_1, 10000));
__ vsqrtss(xmm8, xmm1, xmm2);
__ vsqrtss(xmm9, xmm1, Operand(rbx, rcx, times_1, 10000));
__ vmovss(xmm9, Operand(r11, rcx, times_8, -10000));
__ vmovss(Operand(rbx, r9, times_4, 10000), xmm1);
__ vucomiss(xmm9, xmm1);
__ vucomiss(xmm8, Operand(rbx, rdx, times_2, 10981));
__ vmovd(xmm5, rdi);
__ vmovd(xmm9, Operand(rbx, rcx, times_4, 10000));
__ vmovd(r9, xmm6);
__ vmovq(xmm5, rdi);
__ vmovq(xmm9, Operand(rbx, rcx, times_4, 10000));
__ vmovq(r9, xmm6);
__ vmovsd(xmm6, xmm14, xmm2);
__ vmovsd(xmm9, Operand(rbx, rcx, times_4, 10000));
__ vmovsd(Operand(rbx, rcx, times_4, 10000), xmm0);
__ vmovdqu(xmm9, Operand(rbx, rcx, times_4, 10000));
__ vmovdqu(Operand(rbx, rcx, times_4, 10000), xmm0);
__ vaddsd(xmm0, xmm1, xmm2);
__ vaddsd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vmulsd(xmm0, xmm1, xmm2);
__ vmulsd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vsubsd(xmm0, xmm1, xmm2);
__ vsubsd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vdivsd(xmm0, xmm1, xmm2);
__ vdivsd(xmm0, xmm1, Operand(rbx, rcx, times_2, 10000));
__ vminsd(xmm8, xmm1, xmm2);
__ vminsd(xmm9, xmm1, Operand(rbx, rcx, times_8, 10000));
__ vmaxsd(xmm8, xmm1, xmm2);
__ vmaxsd(xmm9, xmm1, Operand(rbx, rcx, times_1, 10000));
__ vroundsd(xmm8, xmm3, xmm0, kRoundDown);
__ vsqrtsd(xmm8, xmm1, xmm2);
__ vsqrtsd(xmm9, xmm1, Operand(rbx, rcx, times_1, 10000));
__ vucomisd(xmm9, xmm1);
__ vucomisd(xmm8, Operand(rbx, rdx, times_2, 10981));
__ vcvtss2sd(xmm4, xmm9, xmm11);
__ vcvtsd2ss(xmm9, xmm3, xmm2);
__ vcvtss2sd(xmm4, xmm9, Operand(rbx, rcx, times_1, 10000));
__ vcvtsd2ss(xmm9, xmm3, Operand(rbx, rcx, times_1, 10000));
__ vcvtlsi2sd(xmm5, xmm9, rcx);
__ vcvtlsi2sd(xmm9, xmm3, Operand(rbx, r9, times_4, 10000));
__ vcvtqsi2sd(xmm5, xmm9, r11);
__ vcvttsd2si(r9, xmm6);
__ vcvttsd2si(rax, Operand(rbx, r9, times_4, 10000));
__ vcvttsd2siq(rdi, xmm9);
__ vcvttsd2siq(r8, Operand(r9, rbx, times_4, 10000));
__ vcvtsd2si(rdi, xmm9);
__ vmovaps(xmm10, xmm11);
__ vmovapd(xmm7, xmm0);
__ vmovupd(xmm0, Operand(rbx, rcx, times_4, 10000));
__ vmovupd(Operand(rbx, rcx, times_4, 10000), xmm0);
__ vmovmskpd(r9, xmm4);
__ vmovups(xmm5, xmm1);
__ vmovups(xmm5, Operand(rdx, 4));
__ vmovups(Operand(rdx, 4), xmm5);
__ vandps(xmm0, xmm9, xmm2);
__ vandps(xmm9, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vandnps(xmm0, xmm9, xmm2);
__ vandnps(xmm9, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vxorps(xmm0, xmm1, xmm9);
__ vxorps(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vhaddps(xmm0, xmm1, xmm9);
__ vhaddps(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vandpd(xmm0, xmm9, xmm2);
__ vandpd(xmm9, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vorpd(xmm0, xmm1, xmm9);
__ vorpd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vxorpd(xmm0, xmm1, xmm9);
__ vxorpd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vpcmpeqd(xmm0, xmm15, xmm5);
__ vpcmpeqd(xmm15, xmm0, Operand(rbx, rcx, times_4, 10000));
__ vpsllq(xmm0, xmm15, 21);
__ vpsrlq(xmm15, xmm0, 21);
__ vcmpps(xmm5, xmm4, xmm1, 1);
__ vcmpps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000), 1);
__ vcmpeqps(xmm5, xmm4, xmm1);
__ vcmpeqps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpltps(xmm5, xmm4, xmm1);
__ vcmpltps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpleps(xmm5, xmm4, xmm1);
__ vcmpleps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpneqps(xmm5, xmm4, xmm1);
__ vcmpneqps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpnltps(xmm5, xmm4, xmm1);
__ vcmpnltps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpnleps(xmm5, xmm4, xmm1);
__ vcmpnleps(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmppd(xmm5, xmm4, xmm1, 1);
__ vcmppd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000), 1);
__ vcmpeqpd(xmm5, xmm4, xmm1);
__ vcmpeqpd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpltpd(xmm5, xmm4, xmm1);
__ vcmpltpd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmplepd(xmm5, xmm4, xmm1);
__ vcmplepd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpneqpd(xmm5, xmm4, xmm1);
__ vcmpneqpd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpnltpd(xmm5, xmm4, xmm1);
__ vcmpnltpd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
__ vcmpnlepd(xmm5, xmm4, xmm1);
__ vcmpnlepd(xmm5, xmm4, Operand(rbx, rcx, times_4, 10000));
#define EMIT_SSE2_AVXINSTR(instruction, notUsed1, notUsed2, notUsed3) \
__ v##instruction(xmm10, xmm5, xmm1); \
__ v##instruction(xmm10, xmm5, Operand(rdx, 4));
#define EMIT_SSE34_AVXINSTR(instruction, notUsed1, notUsed2, notUsed3, \
notUsed4) \
__ v##instruction(xmm10, xmm5, xmm1); \
__ v##instruction(xmm10, xmm5, Operand(rdx, 4));
SSE2_INSTRUCTION_LIST(EMIT_SSE2_AVXINSTR)
SSSE3_INSTRUCTION_LIST(EMIT_SSE34_AVXINSTR)
SSE4_INSTRUCTION_LIST(EMIT_SSE34_AVXINSTR)
#undef EMIT_SSE2_AVXINSTR
#undef EMIT_SSE34_AVXINSTR
__ vinsertps(xmm1, xmm2, xmm3, 1);
__ vinsertps(xmm1, xmm2, Operand(rbx, rcx, times_4, 10000), 1);
__ vextractps(rax, xmm1, 1);
__ vlddqu(xmm1, Operand(rbx, rcx, times_4, 10000));
__ vpsllw(xmm0, xmm15, 21);
__ vpsrlw(xmm0, xmm15, 21);
__ vpsraw(xmm0, xmm15, 21);
__ vpsrad(xmm0, xmm15, 21);
__ vpextrb(rax, xmm2, 12);
__ vpextrb(Operand(rbx, rcx, times_4, 10000), xmm2, 12);
__ vpextrw(rax, xmm2, 5);
__ vpextrw(Operand(rbx, rcx, times_4, 10000), xmm2, 5);
__ vpextrd(rax, xmm2, 2);
__ vpextrd(Operand(rbx, rcx, times_4, 10000), xmm2, 2);
__ vpinsrb(xmm1, xmm2, rax, 12);
__ vpinsrb(xmm1, xmm2, Operand(rbx, rcx, times_4, 10000), 12);
__ vpinsrw(xmm1, xmm2, rax, 5);
__ vpinsrw(xmm1, xmm2, Operand(rbx, rcx, times_4, 10000), 5);
__ vpinsrd(xmm1, xmm2, rax, 2);
__ vpinsrd(xmm1, xmm2, Operand(rbx, rcx, times_4, 10000), 2);
__ vpshufd(xmm1, xmm2, 85);
__ vshufps(xmm3, xmm2, xmm3, 3);
__ vcvtdq2ps(xmm5, xmm1);
__ vcvtdq2ps(xmm5, Operand(rdx, 4));
}
}
// FMA3 instruction
{
if (CpuFeatures::IsSupported(FMA3)) {
CpuFeatureScope scope(&assm, FMA3);
__ vfmadd132sd(xmm0, xmm1, xmm2);
__ vfmadd132sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd213sd(xmm0, xmm1, xmm2);
__ vfmadd213sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd231sd(xmm0, xmm1, xmm2);
__ vfmadd231sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd132sd(xmm9, xmm10, xmm11);
__ vfmadd132sd(xmm9, xmm10, Operand(r9, r11, times_4, 10000));
__ vfmadd213sd(xmm9, xmm10, xmm11);
__ vfmadd213sd(xmm9, xmm10, Operand(r9, r11, times_4, 10000));
__ vfmadd231sd(xmm9, xmm10, xmm11);
__ vfmadd231sd(xmm9, xmm10, Operand(r9, r11, times_4, 10000));
__ vfmsub132sd(xmm0, xmm1, xmm2);
__ vfmsub132sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmsub213sd(xmm0, xmm1, xmm2);
__ vfmsub213sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmsub231sd(xmm0, xmm1, xmm2);
__ vfmsub231sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd132sd(xmm0, xmm1, xmm2);
__ vfnmadd132sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd213sd(xmm0, xmm1, xmm2);
__ vfnmadd213sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd231sd(xmm0, xmm1, xmm2);
__ vfnmadd231sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub132sd(xmm0, xmm1, xmm2);
__ vfnmsub132sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub213sd(xmm0, xmm1, xmm2);
__ vfnmsub213sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub231sd(xmm0, xmm1, xmm2);
__ vfnmsub231sd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd132ss(xmm0, xmm1, xmm2);
__ vfmadd132ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd213ss(xmm0, xmm1, xmm2);
__ vfmadd213ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd231ss(xmm0, xmm1, xmm2);
__ vfmadd231ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmsub132ss(xmm0, xmm1, xmm2);
__ vfmsub132ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmsub213ss(xmm0, xmm1, xmm2);
__ vfmsub213ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmsub231ss(xmm0, xmm1, xmm2);
__ vfmsub231ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd132ss(xmm0, xmm1, xmm2);
__ vfnmadd132ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd213ss(xmm0, xmm1, xmm2);
__ vfnmadd213ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd231ss(xmm0, xmm1, xmm2);
__ vfnmadd231ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub132ss(xmm0, xmm1, xmm2);
__ vfnmsub132ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub213ss(xmm0, xmm1, xmm2);
__ vfnmsub213ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmsub231ss(xmm0, xmm1, xmm2);
__ vfnmsub231ss(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd231ps(xmm0, xmm1, xmm2);
__ vfmadd231ps(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd231ps(xmm0, xmm1, xmm2);
__ vfnmadd231ps(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfmadd231pd(xmm0, xmm1, xmm2);
__ vfmadd231pd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
__ vfnmadd231pd(xmm0, xmm1, xmm2);
__ vfnmadd231pd(xmm0, xmm1, Operand(rbx, rcx, times_4, 10000));
}
}
// BMI1 instructions
{
if (CpuFeatures::IsSupported(BMI1)) {
CpuFeatureScope scope(&assm, BMI1);
__ andnq(rax, rbx, rcx);
__ andnq(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ andnl(rax, rbx, rcx);
__ andnl(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ bextrq(rax, rbx, rcx);
__ bextrq(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ bextrl(rax, rbx, rcx);
__ bextrl(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ blsiq(rax, rbx);
__ blsiq(rax, Operand(rbx, rcx, times_4, 10000));
__ blsil(rax, rbx);
__ blsil(rax, Operand(rbx, rcx, times_4, 10000));
__ blsmskq(rax, rbx);
__ blsmskq(rax, Operand(rbx, rcx, times_4, 10000));
__ blsmskl(rax, rbx);
__ blsmskl(rax, Operand(rbx, rcx, times_4, 10000));
__ blsrq(rax, rbx);
__ blsrq(rax, Operand(rbx, rcx, times_4, 10000));
__ blsrl(rax, rbx);
__ blsrl(rax, Operand(rbx, rcx, times_4, 10000));
__ tzcntq(rax, rbx);
__ tzcntq(rax, Operand(rbx, rcx, times_4, 10000));
__ tzcntl(rax, rbx);
__ tzcntl(rax, Operand(rbx, rcx, times_4, 10000));
}
}
// LZCNT instructions
{
if (CpuFeatures::IsSupported(LZCNT)) {
CpuFeatureScope scope(&assm, LZCNT);
__ lzcntq(rax, rbx);
__ lzcntq(rax, Operand(rbx, rcx, times_4, 10000));
__ lzcntl(rax, rbx);
__ lzcntl(rax, Operand(rbx, rcx, times_4, 10000));
}
}
// POPCNT instructions
{
if (CpuFeatures::IsSupported(POPCNT)) {
CpuFeatureScope scope(&assm, POPCNT);
__ popcntq(rax, rbx);
__ popcntq(rax, Operand(rbx, rcx, times_4, 10000));
__ popcntl(rax, rbx);
__ popcntl(rax, Operand(rbx, rcx, times_4, 10000));
}
}
// BMI2 instructions
{
if (CpuFeatures::IsSupported(BMI2)) {
CpuFeatureScope scope(&assm, BMI2);
__ bzhiq(rax, rbx, rcx);
__ bzhiq(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ bzhil(rax, rbx, rcx);
__ bzhil(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ mulxq(rax, rbx, rcx);
__ mulxq(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ mulxl(rax, rbx, rcx);
__ mulxl(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ pdepq(rax, rbx, rcx);
__ pdepq(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ pdepl(rax, rbx, rcx);
__ pdepl(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ pextq(rax, rbx, rcx);
__ pextq(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ pextl(rax, rbx, rcx);
__ pextl(rax, rbx, Operand(rbx, rcx, times_4, 10000));
__ sarxq(rax, rbx, rcx);
__ sarxq(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ sarxl(rax, rbx, rcx);
__ sarxl(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ shlxq(rax, rbx, rcx);
__ shlxq(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ shlxl(rax, rbx, rcx);
__ shlxl(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ shrxq(rax, rbx, rcx);
__ shrxq(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ shrxl(rax, rbx, rcx);
__ shrxl(rax, Operand(rbx, rcx, times_4, 10000), rbx);
__ rorxq(rax, rbx, 63);
__ rorxq(rax, Operand(rbx, rcx, times_4, 10000), 63);
__ rorxl(rax, rbx, 31);
__ rorxl(rax, Operand(rbx, rcx, times_4, 10000), 31);
}
}
// xchg.
{
__ xchgb(rax, Operand(rax, 8));
__ xchgw(rax, Operand(rbx, 8));
__ xchgq(rax, rax);
__ xchgq(rax, rbx);
__ xchgq(rbx, rbx);
__ xchgq(rbx, Operand(rsp, 12));
}
// cmpxchg.
{
__ cmpxchgb(Operand(rsp, 12), rax);
__ cmpxchgw(Operand(rbx, rcx, times_4, 10000), rax);
__ cmpxchgl(Operand(rbx, rcx, times_4, 10000), rax);
__ cmpxchgq(Operand(rbx, rcx, times_4, 10000), rax);
}
// lock prefix.
{
__ lock();
__ cmpxchgl(Operand(rsp, 12), rbx);
__ lock();
__ xchgw(rax, Operand(rcx, 8));
}
// Nop instructions
for (int i = 0; i < 16; i++) {
__ Nop(i);
}
__ mfence();
__ lfence();
__ pause();
__ ret(0);
CodeDesc desc;
assm.GetCode(isolate, &desc);
Handle<Code> code = Factory::CodeBuilder(isolate, desc, Code::STUB).Build();
USE(code);
#ifdef OBJECT_PRINT
StdoutStream os;
code->Print(os);
Address begin = code->raw_instruction_start();
Address end = code->raw_instruction_end();
disasm::Disassembler::Disassemble(stdout, reinterpret_cast<byte*>(begin),
reinterpret_cast<byte*>(end));
#endif
}
#undef __
} // namespace internal
} // namespace v8