/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "assembler_x86_64.h"
#include "base/casts.h"
#include "entrypoints/quick/quick_entrypoints.h"
#include "memory_region.h"
#include "thread.h"
namespace art {
namespace x86_64 {
std::ostream& operator<<(std::ostream& os, const CpuRegister& reg) {
return os << reg.AsRegister();
}
std::ostream& operator<<(std::ostream& os, const XmmRegister& reg) {
return os << reg.AsFloatRegister();
}
std::ostream& operator<<(std::ostream& os, const X87Register& reg) {
return os << "ST" << static_cast<int>(reg);
}
void X86_64Assembler::call(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xFF);
EmitRegisterOperand(2, reg.LowBits());
}
void X86_64Assembler::call(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0xFF);
EmitOperand(2, address);
}
void X86_64Assembler::call(Label* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xE8);
static const int kSize = 5;
// Offset by one because we already have emitted the opcode.
EmitLabel(label, kSize - 1);
}
void X86_64Assembler::pushq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0x50 + reg.LowBits());
}
void X86_64Assembler::pushq(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0xFF);
EmitOperand(6, address);
}
void X86_64Assembler::pushq(const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // pushq only supports 32b immediate.
if (imm.is_int8()) {
EmitUint8(0x6A);
EmitUint8(imm.value() & 0xFF);
} else {
EmitUint8(0x68);
EmitImmediate(imm);
}
}
void X86_64Assembler::popq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0x58 + reg.LowBits());
}
void X86_64Assembler::popq(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0x8F);
EmitOperand(0, address);
}
void X86_64Assembler::movq(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (imm.is_int32()) {
// 32 bit. Note: sign-extends.
EmitRex64(dst);
EmitUint8(0xC7);
EmitRegisterOperand(0, dst.LowBits());
EmitInt32(static_cast<int32_t>(imm.value()));
} else {
EmitRex64(dst);
EmitUint8(0xB8 + dst.LowBits());
EmitInt64(imm.value());
}
}
void X86_64Assembler::movl(CpuRegister dst, const Immediate& imm) {
CHECK(imm.is_int32());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitUint8(0xB8 + dst.LowBits());
EmitImmediate(imm);
}
void X86_64Assembler::movq(const Address& dst, const Immediate& imm) {
CHECK(imm.is_int32());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst);
EmitUint8(0xC7);
EmitOperand(0, dst);
EmitImmediate(imm);
}
void X86_64Assembler::movq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// 0x89 is movq r/m64 <- r64, with op1 in r/m and op2 in reg: so reverse EmitRex64
EmitRex64(src, dst);
EmitUint8(0x89);
EmitRegisterOperand(src.LowBits(), dst.LowBits());
}
void X86_64Assembler::movl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x8B);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x8B);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movl(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x8B);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movq(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(src, dst);
EmitUint8(0x89);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movl(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(src, dst);
EmitUint8(0x89);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movl(const Address& dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitUint8(0xC7);
EmitOperand(0, dst);
EmitImmediate(imm);
}
void X86_64Assembler::movntl(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0xC3);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movntq(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(src, dst);
EmitUint8(0x0F);
EmitUint8(0xC3);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::cmov(Condition c, CpuRegister dst, CpuRegister src) {
cmov(c, dst, src, true);
}
void X86_64Assembler::cmov(Condition c, CpuRegister dst, CpuRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex(false, is64bit, dst.NeedsRex(), false, src.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x40 + c);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::cmov(Condition c, CpuRegister dst, const Address& src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (is64bit) {
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x40 + c);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movzxb(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalByteRegNormalizingRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB6);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movzxb(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// Byte register is only in the source register form, so we don't use
// EmitOptionalByteRegNormalizingRex32(dst, src);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB6);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movsxb(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalByteRegNormalizingRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBE);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movsxb(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// Byte register is only in the source register form, so we don't use
// EmitOptionalByteRegNormalizingRex32(dst, src);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBE);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movb(CpuRegister /*dst*/, const Address& /*src*/) {
LOG(FATAL) << "Use movzxb or movsxb instead.";
}
void X86_64Assembler::movb(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalByteRegNormalizingRex32(src, dst);
EmitUint8(0x88);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movb(const Address& dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitUint8(0xC6);
EmitOperand(Register::RAX, dst);
CHECK(imm.is_int8());
EmitUint8(imm.value() & 0xFF);
}
void X86_64Assembler::movzxw(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB7);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movzxw(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB7);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movsxw(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBF);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movsxw(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBF);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movw(CpuRegister /*dst*/, const Address& /*src*/) {
LOG(FATAL) << "Use movzxw or movsxw instead.";
}
void X86_64Assembler::movw(const Address& dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOperandSizeOverride();
EmitOptionalRex32(src, dst);
EmitUint8(0x89);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movw(const Address& dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOperandSizeOverride();
EmitOptionalRex32(dst);
EmitUint8(0xC7);
EmitOperand(Register::RAX, dst);
CHECK(imm.is_uint16() || imm.is_int16());
EmitUint8(imm.value() & 0xFF);
EmitUint8(imm.value() >> 8);
}
void X86_64Assembler::leaq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x8D);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::leal(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x8D);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movaps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x28);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::movaps(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x28);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movups(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x10);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movaps(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x29);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movups(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x11);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x10);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movss(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x11);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(src, dst); // Movss is MR encoding instead of the usual RM.
EmitUint8(0x0F);
EmitUint8(0x11);
EmitXmmRegisterOperand(src.LowBits(), dst);
}
void X86_64Assembler::movsxd(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x63);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::movsxd(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x63);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movd(XmmRegister dst, CpuRegister src) {
movd(dst, src, true);
}
void X86_64Assembler::movd(CpuRegister dst, XmmRegister src) {
movd(dst, src, true);
}
void X86_64Assembler::movd(XmmRegister dst, CpuRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, is64bit, dst.NeedsRex(), false, src.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x6E);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::movd(CpuRegister dst, XmmRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, is64bit, src.NeedsRex(), false, dst.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x7E);
EmitOperand(src.LowBits(), Operand(dst));
}
void X86_64Assembler::addss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::addss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::subss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::subss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::divss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::divss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::addps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::subps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::divps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::flds(const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitOperand(0, src);
}
void X86_64Assembler::fsts(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitOperand(2, dst);
}
void X86_64Assembler::fstps(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitOperand(3, dst);
}
void X86_64Assembler::movapd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x28);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::movapd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x28);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movupd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x10);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movapd(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x29);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movupd(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x11);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movsd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x10);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movsd(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x11);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(src, dst); // Movsd is MR encoding instead of the usual RM.
EmitUint8(0x0F);
EmitUint8(0x11);
EmitXmmRegisterOperand(src.LowBits(), dst);
}
void X86_64Assembler::addsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::addsd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::subsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::subsd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulsd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::divsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::divsd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::addpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x58);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::subpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::mulpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x59);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::divpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5E);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::movdqa(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x6F);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::movdqa(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x6F);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movdqu(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x6F);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::movdqa(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x7F);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::movdqu(const Address& dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(src, dst);
EmitUint8(0x0F);
EmitUint8(0x7F);
EmitOperand(src.LowBits(), dst);
}
void X86_64Assembler::paddb(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xFC);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::psubb(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xF8);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::paddw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xFD);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::psubw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xF9);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pmullw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xD5);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::paddd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xFE);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::psubd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xFA);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pmulld(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x38);
EmitUint8(0x40);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::paddq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xD4);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::psubq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xFB);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtsi2ss(XmmRegister dst, CpuRegister src) {
cvtsi2ss(dst, src, false);
}
void X86_64Assembler::cvtsi2ss(XmmRegister dst, CpuRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2A);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::cvtsi2ss(XmmRegister dst, const Address& src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2A);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtsi2sd(XmmRegister dst, CpuRegister src) {
cvtsi2sd(dst, src, false);
}
void X86_64Assembler::cvtsi2sd(XmmRegister dst, CpuRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2A);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::cvtsi2sd(XmmRegister dst, const Address& src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2A);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtss2si(CpuRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x2D);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtss2sd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5A);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtss2sd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5A);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtsd2si(CpuRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x2D);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvttss2si(CpuRegister dst, XmmRegister src) {
cvttss2si(dst, src, false);
}
void X86_64Assembler::cvttss2si(CpuRegister dst, XmmRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvttsd2si(CpuRegister dst, XmmRegister src) {
cvttsd2si(dst, src, false);
}
void X86_64Assembler::cvttsd2si(CpuRegister dst, XmmRegister src, bool is64bit) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
if (is64bit) {
// Emit a REX.W prefix if the operand size is 64 bits.
EmitRex64(dst, src);
} else {
EmitOptionalRex32(dst, src);
}
EmitUint8(0x0F);
EmitUint8(0x2C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtsd2ss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5A);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtsd2ss(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5A);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtdq2ps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x5B);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::cvtdq2pd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xE6);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::comiss(XmmRegister a, XmmRegister b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2F);
EmitXmmRegisterOperand(a.LowBits(), b);
}
void X86_64Assembler::comiss(XmmRegister a, const Address& b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2F);
EmitOperand(a.LowBits(), b);
}
void X86_64Assembler::comisd(XmmRegister a, XmmRegister b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2F);
EmitXmmRegisterOperand(a.LowBits(), b);
}
void X86_64Assembler::comisd(XmmRegister a, const Address& b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2F);
EmitOperand(a.LowBits(), b);
}
void X86_64Assembler::ucomiss(XmmRegister a, XmmRegister b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2E);
EmitXmmRegisterOperand(a.LowBits(), b);
}
void X86_64Assembler::ucomiss(XmmRegister a, const Address& b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2E);
EmitOperand(a.LowBits(), b);
}
void X86_64Assembler::ucomisd(XmmRegister a, XmmRegister b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2E);
EmitXmmRegisterOperand(a.LowBits(), b);
}
void X86_64Assembler::ucomisd(XmmRegister a, const Address& b) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(a, b);
EmitUint8(0x0F);
EmitUint8(0x2E);
EmitOperand(a.LowBits(), b);
}
void X86_64Assembler::roundsd(XmmRegister dst, XmmRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x3A);
EmitUint8(0x0B);
EmitXmmRegisterOperand(dst.LowBits(), src);
EmitUint8(imm.value());
}
void X86_64Assembler::roundss(XmmRegister dst, XmmRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x3A);
EmitUint8(0x0A);
EmitXmmRegisterOperand(dst.LowBits(), src);
EmitUint8(imm.value());
}
void X86_64Assembler::sqrtsd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x51);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::sqrtss(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x51);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::xorpd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x57);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::xorpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x57);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::xorps(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x57);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::xorps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x57);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pxor(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xEF);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::andpd(XmmRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x54);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::andpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x54);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::andps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x54);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pand(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xDB);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::andnpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x55);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::andnps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x55);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pandn(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xDF);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::orpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x56);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::orps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x56);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::por(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xEB);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pavgb(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xE0);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pavgw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xE3);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpeqb(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x74);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpeqw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x75);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpeqd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x76);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpeqq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x38);
EmitUint8(0x29);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpgtb(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x64);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpgtw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x65);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpgtd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x66);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::pcmpgtq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x38);
EmitUint8(0x37);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::shufpd(XmmRegister dst, XmmRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xC6);
EmitXmmRegisterOperand(dst.LowBits(), src);
EmitUint8(imm.value());
}
void X86_64Assembler::shufps(XmmRegister dst, XmmRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xC6);
EmitXmmRegisterOperand(dst.LowBits(), src);
EmitUint8(imm.value());
}
void X86_64Assembler::pshufd(XmmRegister dst, XmmRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x70);
EmitXmmRegisterOperand(dst.LowBits(), src);
EmitUint8(imm.value());
}
void X86_64Assembler::punpcklbw(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x60);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::punpcklwd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x61);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::punpckldq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x62);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::punpcklqdq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0x6C);
EmitXmmRegisterOperand(dst.LowBits(), src);
}
void X86_64Assembler::psllw(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x71);
EmitXmmRegisterOperand(6, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::pslld(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x72);
EmitXmmRegisterOperand(6, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psllq(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x73);
EmitXmmRegisterOperand(6, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psraw(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x71);
EmitXmmRegisterOperand(4, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psrad(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x72);
EmitXmmRegisterOperand(4, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psrlw(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x71);
EmitXmmRegisterOperand(2, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psrld(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x72);
EmitXmmRegisterOperand(2, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::psrlq(XmmRegister reg, const Immediate& shift_count) {
DCHECK(shift_count.is_uint8());
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0x73);
EmitXmmRegisterOperand(2, reg);
EmitUint8(shift_count.value());
}
void X86_64Assembler::fldl(const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDD);
EmitOperand(0, src);
}
void X86_64Assembler::fstl(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDD);
EmitOperand(2, dst);
}
void X86_64Assembler::fstpl(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDD);
EmitOperand(3, dst);
}
void X86_64Assembler::fstsw() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x9B);
EmitUint8(0xDF);
EmitUint8(0xE0);
}
void X86_64Assembler::fnstcw(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitOperand(7, dst);
}
void X86_64Assembler::fldcw(const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitOperand(5, src);
}
void X86_64Assembler::fistpl(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDF);
EmitOperand(7, dst);
}
void X86_64Assembler::fistps(const Address& dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDB);
EmitOperand(3, dst);
}
void X86_64Assembler::fildl(const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDF);
EmitOperand(5, src);
}
void X86_64Assembler::filds(const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDB);
EmitOperand(0, src);
}
void X86_64Assembler::fincstp() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitUint8(0xF7);
}
void X86_64Assembler::ffree(const Immediate& index) {
CHECK_LT(index.value(), 7);
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDD);
EmitUint8(0xC0 + index.value());
}
void X86_64Assembler::fsin() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitUint8(0xFE);
}
void X86_64Assembler::fcos() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitUint8(0xFF);
}
void X86_64Assembler::fptan() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitUint8(0xF2);
}
void X86_64Assembler::fucompp() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xDA);
EmitUint8(0xE9);
}
void X86_64Assembler::fprem() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xD9);
EmitUint8(0xF8);
}
void X86_64Assembler::xchgl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// There is a short version for rax.
// It's a bit awkward, as CpuRegister has a const field, so assignment and thus swapping doesn't
// work.
const bool src_rax = src.AsRegister() == RAX;
const bool dst_rax = dst.AsRegister() == RAX;
if (src_rax || dst_rax) {
EmitOptionalRex32(src_rax ? dst : src);
EmitUint8(0x90 + (src_rax ? dst.LowBits() : src.LowBits()));
return;
}
// General case.
EmitOptionalRex32(src, dst);
EmitUint8(0x87);
EmitRegisterOperand(src.LowBits(), dst.LowBits());
}
void X86_64Assembler::xchgq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// There is a short version for rax.
// It's a bit awkward, as CpuRegister has a const field, so assignment and thus swapping doesn't
// work.
const bool src_rax = src.AsRegister() == RAX;
const bool dst_rax = dst.AsRegister() == RAX;
if (src_rax || dst_rax) {
// If src == target, emit a nop instead.
if (src_rax && dst_rax) {
EmitUint8(0x90);
} else {
EmitRex64(src_rax ? dst : src);
EmitUint8(0x90 + (src_rax ? dst.LowBits() : src.LowBits()));
}
return;
}
// General case.
EmitRex64(src, dst);
EmitUint8(0x87);
EmitRegisterOperand(src.LowBits(), dst.LowBits());
}
void X86_64Assembler::xchgl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x87);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cmpb(const Address& address, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32());
EmitOptionalRex32(address);
EmitUint8(0x80);
EmitOperand(7, address);
EmitUint8(imm.value() & 0xFF);
}
void X86_64Assembler::cmpw(const Address& address, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32());
EmitOperandSizeOverride();
EmitOptionalRex32(address);
EmitComplex(7, address, imm);
}
void X86_64Assembler::cmpl(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32());
EmitOptionalRex32(reg);
EmitComplex(7, Operand(reg), imm);
}
void X86_64Assembler::cmpl(CpuRegister reg0, CpuRegister reg1) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg0, reg1);
EmitUint8(0x3B);
EmitOperand(reg0.LowBits(), Operand(reg1));
}
void X86_64Assembler::cmpl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x3B);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cmpl(const Address& address, CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x39);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cmpl(const Address& address, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32());
EmitOptionalRex32(address);
EmitComplex(7, address, imm);
}
void X86_64Assembler::cmpq(CpuRegister reg0, CpuRegister reg1) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg0, reg1);
EmitUint8(0x3B);
EmitOperand(reg0.LowBits(), Operand(reg1));
}
void X86_64Assembler::cmpq(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // cmpq only supports 32b immediate.
EmitRex64(reg);
EmitComplex(7, Operand(reg), imm);
}
void X86_64Assembler::cmpq(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg, address);
EmitUint8(0x3B);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cmpq(const Address& address, const Immediate& imm) {
CHECK(imm.is_int32()); // cmpq only supports 32b immediate.
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(address);
EmitComplex(7, address, imm);
}
void X86_64Assembler::addl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x03);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::addl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x03);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::testl(CpuRegister reg1, CpuRegister reg2) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg1, reg2);
EmitUint8(0x85);
EmitRegisterOperand(reg1.LowBits(), reg2.LowBits());
}
void X86_64Assembler::testl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x85);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::testl(CpuRegister reg, const Immediate& immediate) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// For registers that have a byte variant (RAX, RBX, RCX, and RDX)
// we only test the byte CpuRegister to keep the encoding short.
if (immediate.is_uint8() && reg.AsRegister() < 4) {
// Use zero-extended 8-bit immediate.
if (reg.AsRegister() == RAX) {
EmitUint8(0xA8);
} else {
EmitUint8(0xF6);
EmitUint8(0xC0 + reg.AsRegister());
}
EmitUint8(immediate.value() & 0xFF);
} else if (reg.AsRegister() == RAX) {
// Use short form if the destination is RAX.
EmitUint8(0xA9);
EmitImmediate(immediate);
} else {
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitOperand(0, Operand(reg));
EmitImmediate(immediate);
}
}
void X86_64Assembler::testq(CpuRegister reg1, CpuRegister reg2) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg1, reg2);
EmitUint8(0x85);
EmitRegisterOperand(reg1.LowBits(), reg2.LowBits());
}
void X86_64Assembler::testq(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg, address);
EmitUint8(0x85);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::testb(const Address& dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitUint8(0xF6);
EmitOperand(Register::RAX, dst);
CHECK(imm.is_int8());
EmitUint8(imm.value() & 0xFF);
}
void X86_64Assembler::testl(const Address& dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitUint8(0xF7);
EmitOperand(0, dst);
EmitImmediate(imm);
}
void X86_64Assembler::andl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x23);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::andl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x23);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::andl(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitComplex(4, Operand(dst), imm);
}
void X86_64Assembler::andq(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // andq only supports 32b immediate.
EmitRex64(reg);
EmitComplex(4, Operand(reg), imm);
}
void X86_64Assembler::andq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x23);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::andq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x23);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::orl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0B);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::orl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x0B);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::orl(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitComplex(1, Operand(dst), imm);
}
void X86_64Assembler::orq(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // orq only supports 32b immediate.
EmitRex64(dst);
EmitComplex(1, Operand(dst), imm);
}
void X86_64Assembler::orq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0B);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::orq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0B);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::xorl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x33);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::xorl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x33);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::xorl(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst);
EmitComplex(6, Operand(dst), imm);
}
void X86_64Assembler::xorq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x33);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::xorq(CpuRegister dst, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // xorq only supports 32b immediate.
EmitRex64(dst);
EmitComplex(6, Operand(dst), imm);
}
void X86_64Assembler::xorq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x33);
EmitOperand(dst.LowBits(), src);
}
#if 0
void X86_64Assembler::rex(bool force, bool w, Register* r, Register* x, Register* b) {
// REX.WRXB
// W - 64-bit operand
// R - MODRM.reg
// X - SIB.index
// B - MODRM.rm/SIB.base
uint8_t rex = force ? 0x40 : 0;
if (w) {
rex |= 0x48; // REX.W000
}
if (r != nullptr && *r >= Register::R8 && *r < Register::kNumberOfCpuRegisters) {
rex |= 0x44; // REX.0R00
*r = static_cast<Register>(*r - 8);
}
if (x != nullptr && *x >= Register::R8 && *x < Register::kNumberOfCpuRegisters) {
rex |= 0x42; // REX.00X0
*x = static_cast<Register>(*x - 8);
}
if (b != nullptr && *b >= Register::R8 && *b < Register::kNumberOfCpuRegisters) {
rex |= 0x41; // REX.000B
*b = static_cast<Register>(*b - 8);
}
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::rex_reg_mem(bool force, bool w, Register* dst, const Address& mem) {
// REX.WRXB
// W - 64-bit operand
// R - MODRM.reg
// X - SIB.index
// B - MODRM.rm/SIB.base
uint8_t rex = mem->rex();
if (force) {
rex |= 0x40; // REX.0000
}
if (w) {
rex |= 0x48; // REX.W000
}
if (dst != nullptr && *dst >= Register::R8 && *dst < Register::kNumberOfCpuRegisters) {
rex |= 0x44; // REX.0R00
*dst = static_cast<Register>(*dst - 8);
}
if (rex != 0) {
EmitUint8(rex);
}
}
void rex_mem_reg(bool force, bool w, Address* mem, Register* src);
#endif
void X86_64Assembler::addl(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitComplex(0, Operand(reg), imm);
}
void X86_64Assembler::addq(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // addq only supports 32b immediate.
EmitRex64(reg);
EmitComplex(0, Operand(reg), imm);
}
void X86_64Assembler::addq(CpuRegister dst, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, address);
EmitUint8(0x03);
EmitOperand(dst.LowBits(), address);
}
void X86_64Assembler::addq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// 0x01 is addq r/m64 <- r/m64 + r64, with op1 in r/m and op2 in reg: so reverse EmitRex64
EmitRex64(src, dst);
EmitUint8(0x01);
EmitRegisterOperand(src.LowBits(), dst.LowBits());
}
void X86_64Assembler::addl(const Address& address, CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x01);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::addl(const Address& address, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitComplex(0, address, imm);
}
void X86_64Assembler::subl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x2B);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::subl(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitComplex(5, Operand(reg), imm);
}
void X86_64Assembler::subq(CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // subq only supports 32b immediate.
EmitRex64(reg);
EmitComplex(5, Operand(reg), imm);
}
void X86_64Assembler::subq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x2B);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::subq(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg, address);
EmitUint8(0x2B);
EmitOperand(reg.LowBits() & 7, address);
}
void X86_64Assembler::subl(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x2B);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cdq() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x99);
}
void X86_64Assembler::cqo() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64();
EmitUint8(0x99);
}
void X86_64Assembler::idivl(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitUint8(0xF8 | reg.LowBits());
}
void X86_64Assembler::idivq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg);
EmitUint8(0xF7);
EmitUint8(0xF8 | reg.LowBits());
}
void X86_64Assembler::imull(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xAF);
EmitOperand(dst.LowBits(), Operand(src));
}
void X86_64Assembler::imull(CpuRegister dst, CpuRegister src, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // imull only supports 32b immediate.
EmitOptionalRex32(dst, src);
// See whether imm can be represented as a sign-extended 8bit value.
int32_t v32 = static_cast<int32_t>(imm.value());
if (IsInt<8>(v32)) {
// Sign-extension works.
EmitUint8(0x6B);
EmitOperand(dst.LowBits(), Operand(src));
EmitUint8(static_cast<uint8_t>(v32 & 0xFF));
} else {
// Not representable, use full immediate.
EmitUint8(0x69);
EmitOperand(dst.LowBits(), Operand(src));
EmitImmediate(imm);
}
}
void X86_64Assembler::imull(CpuRegister reg, const Immediate& imm) {
imull(reg, reg, imm);
}
void X86_64Assembler::imull(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x0F);
EmitUint8(0xAF);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::imulq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xAF);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::imulq(CpuRegister reg, const Immediate& imm) {
imulq(reg, reg, imm);
}
void X86_64Assembler::imulq(CpuRegister dst, CpuRegister reg, const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int32()); // imulq only supports 32b immediate.
EmitRex64(dst, reg);
// See whether imm can be represented as a sign-extended 8bit value.
int64_t v64 = imm.value();
if (IsInt<8>(v64)) {
// Sign-extension works.
EmitUint8(0x6B);
EmitOperand(dst.LowBits(), Operand(reg));
EmitUint8(static_cast<uint8_t>(v64 & 0xFF));
} else {
// Not representable, use full immediate.
EmitUint8(0x69);
EmitOperand(dst.LowBits(), Operand(reg));
EmitImmediate(imm);
}
}
void X86_64Assembler::imulq(CpuRegister reg, const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg, address);
EmitUint8(0x0F);
EmitUint8(0xAF);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::imull(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitOperand(5, Operand(reg));
}
void X86_64Assembler::imulq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg);
EmitUint8(0xF7);
EmitOperand(5, Operand(reg));
}
void X86_64Assembler::imull(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0xF7);
EmitOperand(5, address);
}
void X86_64Assembler::mull(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitOperand(4, Operand(reg));
}
void X86_64Assembler::mull(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0xF7);
EmitOperand(4, address);
}
void X86_64Assembler::shll(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(false, 4, reg, imm);
}
void X86_64Assembler::shlq(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(true, 4, reg, imm);
}
void X86_64Assembler::shll(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(false, 4, operand, shifter);
}
void X86_64Assembler::shlq(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(true, 4, operand, shifter);
}
void X86_64Assembler::shrl(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(false, 5, reg, imm);
}
void X86_64Assembler::shrq(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(true, 5, reg, imm);
}
void X86_64Assembler::shrl(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(false, 5, operand, shifter);
}
void X86_64Assembler::shrq(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(true, 5, operand, shifter);
}
void X86_64Assembler::sarl(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(false, 7, reg, imm);
}
void X86_64Assembler::sarl(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(false, 7, operand, shifter);
}
void X86_64Assembler::sarq(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(true, 7, reg, imm);
}
void X86_64Assembler::sarq(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(true, 7, operand, shifter);
}
void X86_64Assembler::roll(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(false, 0, reg, imm);
}
void X86_64Assembler::roll(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(false, 0, operand, shifter);
}
void X86_64Assembler::rorl(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(false, 1, reg, imm);
}
void X86_64Assembler::rorl(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(false, 1, operand, shifter);
}
void X86_64Assembler::rolq(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(true, 0, reg, imm);
}
void X86_64Assembler::rolq(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(true, 0, operand, shifter);
}
void X86_64Assembler::rorq(CpuRegister reg, const Immediate& imm) {
EmitGenericShift(true, 1, reg, imm);
}
void X86_64Assembler::rorq(CpuRegister operand, CpuRegister shifter) {
EmitGenericShift(true, 1, operand, shifter);
}
void X86_64Assembler::negl(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitOperand(3, Operand(reg));
}
void X86_64Assembler::negq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg);
EmitUint8(0xF7);
EmitOperand(3, Operand(reg));
}
void X86_64Assembler::notl(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xF7);
EmitUint8(0xD0 | reg.LowBits());
}
void X86_64Assembler::notq(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg);
EmitUint8(0xF7);
EmitOperand(2, Operand(reg));
}
void X86_64Assembler::enter(const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xC8);
CHECK(imm.is_uint16()) << imm.value();
EmitUint8(imm.value() & 0xFF);
EmitUint8((imm.value() >> 8) & 0xFF);
EmitUint8(0x00);
}
void X86_64Assembler::leave() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xC9);
}
void X86_64Assembler::ret() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xC3);
}
void X86_64Assembler::ret(const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xC2);
CHECK(imm.is_uint16());
EmitUint8(imm.value() & 0xFF);
EmitUint8((imm.value() >> 8) & 0xFF);
}
void X86_64Assembler::nop() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x90);
}
void X86_64Assembler::int3() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xCC);
}
void X86_64Assembler::hlt() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF4);
}
void X86_64Assembler::j(Condition condition, Label* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (label->IsBound()) {
static const int kShortSize = 2;
static const int kLongSize = 6;
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
if (IsInt<8>(offset - kShortSize)) {
EmitUint8(0x70 + condition);
EmitUint8((offset - kShortSize) & 0xFF);
} else {
EmitUint8(0x0F);
EmitUint8(0x80 + condition);
EmitInt32(offset - kLongSize);
}
} else {
EmitUint8(0x0F);
EmitUint8(0x80 + condition);
EmitLabelLink(label);
}
}
void X86_64Assembler::j(Condition condition, NearLabel* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (label->IsBound()) {
static const int kShortSize = 2;
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
CHECK(IsInt<8>(offset - kShortSize));
EmitUint8(0x70 + condition);
EmitUint8((offset - kShortSize) & 0xFF);
} else {
EmitUint8(0x70 + condition);
EmitLabelLink(label);
}
}
void X86_64Assembler::jrcxz(NearLabel* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (label->IsBound()) {
static const int kShortSize = 2;
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
CHECK(IsInt<8>(offset - kShortSize));
EmitUint8(0xE3);
EmitUint8((offset - kShortSize) & 0xFF);
} else {
EmitUint8(0xE3);
EmitLabelLink(label);
}
}
void X86_64Assembler::jmp(CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg);
EmitUint8(0xFF);
EmitRegisterOperand(4, reg.LowBits());
}
void X86_64Assembler::jmp(const Address& address) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(address);
EmitUint8(0xFF);
EmitOperand(4, address);
}
void X86_64Assembler::jmp(Label* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (label->IsBound()) {
static const int kShortSize = 2;
static const int kLongSize = 5;
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
if (IsInt<8>(offset - kShortSize)) {
EmitUint8(0xEB);
EmitUint8((offset - kShortSize) & 0xFF);
} else {
EmitUint8(0xE9);
EmitInt32(offset - kLongSize);
}
} else {
EmitUint8(0xE9);
EmitLabelLink(label);
}
}
void X86_64Assembler::jmp(NearLabel* label) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
if (label->IsBound()) {
static const int kShortSize = 2;
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
CHECK(IsInt<8>(offset - kShortSize));
EmitUint8(0xEB);
EmitUint8((offset - kShortSize) & 0xFF);
} else {
EmitUint8(0xEB);
EmitLabelLink(label);
}
}
void X86_64Assembler::rep_movsw() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitUint8(0xF3);
EmitUint8(0xA5);
}
X86_64Assembler* X86_64Assembler::lock() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF0);
return this;
}
void X86_64Assembler::cmpxchgl(const Address& address, CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(reg, address);
EmitUint8(0x0F);
EmitUint8(0xB1);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::cmpxchgq(const Address& address, CpuRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(reg, address);
EmitUint8(0x0F);
EmitUint8(0xB1);
EmitOperand(reg.LowBits(), address);
}
void X86_64Assembler::mfence() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x0F);
EmitUint8(0xAE);
EmitUint8(0xF0);
}
X86_64Assembler* X86_64Assembler::gs() {
// TODO: gs is a prefix and not an instruction
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x65);
return this;
}
void X86_64Assembler::AddImmediate(CpuRegister reg, const Immediate& imm) {
int value = imm.value();
if (value != 0) {
if (value > 0) {
addl(reg, imm);
} else {
subl(reg, Immediate(value));
}
}
}
void X86_64Assembler::setcc(Condition condition, CpuRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
// RSP, RBP, RDI, RSI need rex prefix (else the pattern encodes ah/bh/ch/dh).
if (dst.NeedsRex() || dst.AsRegister() > 3) {
EmitOptionalRex(true, false, false, false, dst.NeedsRex());
}
EmitUint8(0x0F);
EmitUint8(0x90 + condition);
EmitUint8(0xC0 + dst.LowBits());
}
void X86_64Assembler::bswapl(CpuRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex(false, false, false, false, dst.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0xC8 + dst.LowBits());
}
void X86_64Assembler::bswapq(CpuRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex(false, true, false, false, dst.NeedsRex());
EmitUint8(0x0F);
EmitUint8(0xC8 + dst.LowBits());
}
void X86_64Assembler::bsfl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBC);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::bsfl(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBC);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::bsfq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBC);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::bsfq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBC);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::bsrl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBD);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::bsrl(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBD);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::bsrq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBD);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::bsrq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xBD);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::popcntl(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB8);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::popcntl(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitOptionalRex32(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB8);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::popcntq(CpuRegister dst, CpuRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB8);
EmitRegisterOperand(dst.LowBits(), src.LowBits());
}
void X86_64Assembler::popcntq(CpuRegister dst, const Address& src) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitRex64(dst, src);
EmitUint8(0x0F);
EmitUint8(0xB8);
EmitOperand(dst.LowBits(), src);
}
void X86_64Assembler::repne_scasb() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF2);
EmitUint8(0xAE);
}
void X86_64Assembler::repne_scasw() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitUint8(0xF2);
EmitUint8(0xAF);
}
void X86_64Assembler::repe_cmpsw() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0x66);
EmitUint8(0xF3);
EmitUint8(0xA7);
}
void X86_64Assembler::repe_cmpsl() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitUint8(0xA7);
}
void X86_64Assembler::repe_cmpsq() {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitUint8(0xF3);
EmitRex64();
EmitUint8(0xA7);
}
void X86_64Assembler::LoadDoubleConstant(XmmRegister dst, double value) {
// TODO: Need to have a code constants table.
int64_t constant = bit_cast<int64_t, double>(value);
pushq(Immediate(High32Bits(constant)));
pushq(Immediate(Low32Bits(constant)));
movsd(dst, Address(CpuRegister(RSP), 0));
addq(CpuRegister(RSP), Immediate(2 * sizeof(intptr_t)));
}
void X86_64Assembler::Align(int alignment, int offset) {
CHECK(IsPowerOfTwo(alignment));
// Emit nop instruction until the real position is aligned.
while (((offset + buffer_.GetPosition()) & (alignment-1)) != 0) {
nop();
}
}
void X86_64Assembler::Bind(Label* label) {
int bound = buffer_.Size();
CHECK(!label->IsBound()); // Labels can only be bound once.
while (label->IsLinked()) {
int position = label->LinkPosition();
int next = buffer_.Load<int32_t>(position);
buffer_.Store<int32_t>(position, bound - (position + 4));
label->position_ = next;
}
label->BindTo(bound);
}
void X86_64Assembler::Bind(NearLabel* label) {
int bound = buffer_.Size();
CHECK(!label->IsBound()); // Labels can only be bound once.
while (label->IsLinked()) {
int position = label->LinkPosition();
uint8_t delta = buffer_.Load<uint8_t>(position);
int offset = bound - (position + 1);
CHECK(IsInt<8>(offset));
buffer_.Store<int8_t>(position, offset);
label->position_ = delta != 0u ? label->position_ - delta : 0;
}
label->BindTo(bound);
}
void X86_64Assembler::EmitOperand(uint8_t reg_or_opcode, const Operand& operand) {
CHECK_GE(reg_or_opcode, 0);
CHECK_LT(reg_or_opcode, 8);
const int length = operand.length_;
CHECK_GT(length, 0);
// Emit the ModRM byte updated with the given reg value.
CHECK_EQ(operand.encoding_[0] & 0x38, 0);
EmitUint8(operand.encoding_[0] + (reg_or_opcode << 3));
// Emit the rest of the encoded operand.
for (int i = 1; i < length; i++) {
EmitUint8(operand.encoding_[i]);
}
AssemblerFixup* fixup = operand.GetFixup();
if (fixup != nullptr) {
EmitFixup(fixup);
}
}
void X86_64Assembler::EmitImmediate(const Immediate& imm) {
if (imm.is_int32()) {
EmitInt32(static_cast<int32_t>(imm.value()));
} else {
EmitInt64(imm.value());
}
}
void X86_64Assembler::EmitComplex(uint8_t reg_or_opcode,
const Operand& operand,
const Immediate& immediate) {
CHECK_GE(reg_or_opcode, 0);
CHECK_LT(reg_or_opcode, 8);
if (immediate.is_int8()) {
// Use sign-extended 8-bit immediate.
EmitUint8(0x83);
EmitOperand(reg_or_opcode, operand);
EmitUint8(immediate.value() & 0xFF);
} else if (operand.IsRegister(CpuRegister(RAX))) {
// Use short form if the destination is eax.
EmitUint8(0x05 + (reg_or_opcode << 3));
EmitImmediate(immediate);
} else {
EmitUint8(0x81);
EmitOperand(reg_or_opcode, operand);
EmitImmediate(immediate);
}
}
void X86_64Assembler::EmitLabel(Label* label, int instruction_size) {
if (label->IsBound()) {
int offset = label->Position() - buffer_.Size();
CHECK_LE(offset, 0);
EmitInt32(offset - instruction_size);
} else {
EmitLabelLink(label);
}
}
void X86_64Assembler::EmitLabelLink(Label* label) {
CHECK(!label->IsBound());
int position = buffer_.Size();
EmitInt32(label->position_);
label->LinkTo(position);
}
void X86_64Assembler::EmitLabelLink(NearLabel* label) {
CHECK(!label->IsBound());
int position = buffer_.Size();
if (label->IsLinked()) {
// Save the delta in the byte that we have to play with.
uint32_t delta = position - label->LinkPosition();
CHECK(IsUint<8>(delta));
EmitUint8(delta & 0xFF);
} else {
EmitUint8(0);
}
label->LinkTo(position);
}
void X86_64Assembler::EmitGenericShift(bool wide,
int reg_or_opcode,
CpuRegister reg,
const Immediate& imm) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK(imm.is_int8());
if (wide) {
EmitRex64(reg);
} else {
EmitOptionalRex32(reg);
}
if (imm.value() == 1) {
EmitUint8(0xD1);
EmitOperand(reg_or_opcode, Operand(reg));
} else {
EmitUint8(0xC1);
EmitOperand(reg_or_opcode, Operand(reg));
EmitUint8(imm.value() & 0xFF);
}
}
void X86_64Assembler::EmitGenericShift(bool wide,
int reg_or_opcode,
CpuRegister operand,
CpuRegister shifter) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
CHECK_EQ(shifter.AsRegister(), RCX);
if (wide) {
EmitRex64(operand);
} else {
EmitOptionalRex32(operand);
}
EmitUint8(0xD3);
EmitOperand(reg_or_opcode, Operand(operand));
}
void X86_64Assembler::EmitOptionalRex(bool force, bool w, bool r, bool x, bool b) {
// REX.WRXB
// W - 64-bit operand
// R - MODRM.reg
// X - SIB.index
// B - MODRM.rm/SIB.base
uint8_t rex = force ? 0x40 : 0;
if (w) {
rex |= 0x48; // REX.W000
}
if (r) {
rex |= 0x44; // REX.0R00
}
if (x) {
rex |= 0x42; // REX.00X0
}
if (b) {
rex |= 0x41; // REX.000B
}
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::EmitOptionalRex32(CpuRegister reg) {
EmitOptionalRex(false, false, false, false, reg.NeedsRex());
}
void X86_64Assembler::EmitOptionalRex32(CpuRegister dst, CpuRegister src) {
EmitOptionalRex(false, false, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitOptionalRex32(XmmRegister dst, XmmRegister src) {
EmitOptionalRex(false, false, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitOptionalRex32(CpuRegister dst, XmmRegister src) {
EmitOptionalRex(false, false, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitOptionalRex32(XmmRegister dst, CpuRegister src) {
EmitOptionalRex(false, false, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitOptionalRex32(const Operand& operand) {
uint8_t rex = operand.rex();
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::EmitOptionalRex32(CpuRegister dst, const Operand& operand) {
uint8_t rex = operand.rex();
if (dst.NeedsRex()) {
rex |= 0x44; // REX.0R00
}
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::EmitOptionalRex32(XmmRegister dst, const Operand& operand) {
uint8_t rex = operand.rex();
if (dst.NeedsRex()) {
rex |= 0x44; // REX.0R00
}
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::EmitRex64() {
EmitOptionalRex(false, true, false, false, false);
}
void X86_64Assembler::EmitRex64(CpuRegister reg) {
EmitOptionalRex(false, true, false, false, reg.NeedsRex());
}
void X86_64Assembler::EmitRex64(const Operand& operand) {
uint8_t rex = operand.rex();
rex |= 0x48; // REX.W000
EmitUint8(rex);
}
void X86_64Assembler::EmitRex64(CpuRegister dst, CpuRegister src) {
EmitOptionalRex(false, true, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitRex64(XmmRegister dst, CpuRegister src) {
EmitOptionalRex(false, true, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitRex64(CpuRegister dst, XmmRegister src) {
EmitOptionalRex(false, true, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitRex64(CpuRegister dst, const Operand& operand) {
uint8_t rex = 0x48 | operand.rex(); // REX.W000
if (dst.NeedsRex()) {
rex |= 0x44; // REX.0R00
}
EmitUint8(rex);
}
void X86_64Assembler::EmitRex64(XmmRegister dst, const Operand& operand) {
uint8_t rex = 0x48 | operand.rex(); // REX.W000
if (dst.NeedsRex()) {
rex |= 0x44; // REX.0R00
}
EmitUint8(rex);
}
void X86_64Assembler::EmitOptionalByteRegNormalizingRex32(CpuRegister dst, CpuRegister src) {
// For src, SPL, BPL, SIL, DIL need the rex prefix.
bool force = src.AsRegister() > 3;
EmitOptionalRex(force, false, dst.NeedsRex(), false, src.NeedsRex());
}
void X86_64Assembler::EmitOptionalByteRegNormalizingRex32(CpuRegister dst, const Operand& operand) {
uint8_t rex = operand.rex();
// For dst, SPL, BPL, SIL, DIL need the rex prefix.
bool force = dst.AsRegister() > 3;
if (force) {
rex |= 0x40; // REX.0000
}
if (dst.NeedsRex()) {
rex |= 0x44; // REX.0R00
}
if (rex != 0) {
EmitUint8(rex);
}
}
void X86_64Assembler::AddConstantArea() {
ArrayRef<const int32_t> area = constant_area_.GetBuffer();
for (size_t i = 0, e = area.size(); i < e; i++) {
AssemblerBuffer::EnsureCapacity ensured(&buffer_);
EmitInt32(area[i]);
}
}
size_t ConstantArea::AppendInt32(int32_t v) {
size_t result = buffer_.size() * elem_size_;
buffer_.push_back(v);
return result;
}
size_t ConstantArea::AddInt32(int32_t v) {
// Look for an existing match.
for (size_t i = 0, e = buffer_.size(); i < e; i++) {
if (v == buffer_[i]) {
return i * elem_size_;
}
}
// Didn't match anything.
return AppendInt32(v);
}
size_t ConstantArea::AddInt64(int64_t v) {
int32_t v_low = v;
int32_t v_high = v >> 32;
if (buffer_.size() > 1) {
// Ensure we don't pass the end of the buffer.
for (size_t i = 0, e = buffer_.size() - 1; i < e; i++) {
if (v_low == buffer_[i] && v_high == buffer_[i + 1]) {
return i * elem_size_;
}
}
}
// Didn't match anything.
size_t result = buffer_.size() * elem_size_;
buffer_.push_back(v_low);
buffer_.push_back(v_high);
return result;
}
size_t ConstantArea::AddDouble(double v) {
// Treat the value as a 64-bit integer value.
return AddInt64(bit_cast<int64_t, double>(v));
}
size_t ConstantArea::AddFloat(float v) {
// Treat the value as a 32-bit integer value.
return AddInt32(bit_cast<int32_t, float>(v));
}
} // namespace x86_64
} // namespace art