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swiftshader / SwiftShader / 0a64a974755521dbb2b16332002a927fb830a0d4 / . / third_party / subzero / src / IceAssemblerX86BaseImpl.h
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//===- subzero/src/IceAssemblerX86BaseImpl.h - base x86 assembler -*- C++ -*-=//
// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
//
// Modified by the Subzero authors.
//
//===----------------------------------------------------------------------===//
//
// The Subzero Code Generator
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
/// \file
/// \brief Implements the AssemblerX86Base template class, which is the base
/// Assembler class for X86 assemblers.
//
//===----------------------------------------------------------------------===//
#include "IceAssemblerX86Base.h"
#include "IceCfg.h"
#include "IceCfgNode.h"
#include "IceOperand.h"
namespace Ice {
namespace X86NAMESPACE {
template <typename TraitsType>
AssemblerX86Base<TraitsType>::~AssemblerX86Base() {
if (BuildDefs::asserts()) {
for (const Label *Label : CfgNodeLabels) {
Label->finalCheck();
}
for (const Label *Label : LocalLabels) {
Label->finalCheck();
}
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::alignFunction() {
const SizeT Align = 1 << getBundleAlignLog2Bytes();
SizeT BytesNeeded = Utils::OffsetToAlignment(Buffer.getPosition(), Align);
constexpr SizeT HltSize = 1;
while (BytesNeeded > 0) {
hlt();
BytesNeeded -= HltSize;
}
}
template <typename TraitsType>
typename AssemblerX86Base<TraitsType>::Label *
AssemblerX86Base<TraitsType>::getOrCreateLabel(SizeT Number,
LabelVector &Labels) {
Label *L = nullptr;
if (Number == Labels.size()) {
L = new (this->allocate<Label>()) Label();
Labels.push_back(L);
return L;
}
if (Number > Labels.size()) {
Utils::reserveAndResize(Labels, Number + 1);
}
L = Labels[Number];
if (!L) {
L = new (this->allocate<Label>()) Label();
Labels[Number] = L;
}
return L;
}
template <typename TraitsType>
Ice::Label *AssemblerX86Base<TraitsType>::getCfgNodeLabel(SizeT NodeNumber) {
assert(NodeNumber < CfgNodeLabels.size());
return CfgNodeLabels[NodeNumber];
}
template <typename TraitsType>
typename AssemblerX86Base<TraitsType>::Label *
AssemblerX86Base<TraitsType>::getOrCreateCfgNodeLabel(SizeT NodeNumber) {
return getOrCreateLabel(NodeNumber, CfgNodeLabels);
}
template <typename TraitsType>
typename AssemblerX86Base<TraitsType>::Label *
AssemblerX86Base<TraitsType>::getOrCreateLocalLabel(SizeT Number) {
return getOrCreateLabel(Number, LocalLabels);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bindCfgNodeLabel(const CfgNode *Node) {
assert(!getPreliminary());
Label *L = getOrCreateCfgNodeLabel(Node->getIndex());
this->bind(L);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bindLocalLabel(SizeT Number) {
Label *L = getOrCreateLocalLabel(Number);
if (!getPreliminary())
this->bind(L);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::call(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(RexTypeIrrelevant, reg);
emitUint8(0xFF);
emitRegisterOperand(2, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::call(const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, address, RexRegIrrelevant);
emitUint8(0xFF);
emitOperand(2, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::call(const ConstantRelocatable *label) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
intptr_t call_start = Buffer.getPosition();
emitUint8(0xE8);
auto *Fixup = this->createFixup(Traits::FK_PcRel, label);
Fixup->set_addend(-4);
emitFixup(Fixup);
emitInt32(0);
assert((Buffer.getPosition() - call_start) == kCallExternalLabelSize);
(void)call_start;
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::call(const Immediate &abs_address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
intptr_t call_start = Buffer.getPosition();
emitUint8(0xE8);
auto *Fixup = this->createFixup(Traits::FK_PcRel, AssemblerFixup::NullSymbol);
Fixup->set_addend(abs_address.value() - 4);
emitFixup(Fixup);
emitInt32(0);
assert((Buffer.getPosition() - call_start) == kCallExternalLabelSize);
(void)call_start;
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pushl(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(RexTypeIrrelevant, reg);
emitUint8(0x50 + gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pushl(const Immediate &Imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x68);
emitInt32(Imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pushl(const ConstantRelocatable *Label) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x68);
emitFixup(this->createFixup(Traits::FK_Abs, Label));
// In x86-32, the emitted value is an addend to the relocation. Therefore, we
// must emit a 0 (because we're pushing an absolute relocation.)
// In x86-64, the emitted value does not matter (the addend lives in the
// relocation record as an extra field.)
emitInt32(0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::popl(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// Any type that would not force a REX prefix to be emitted can be provided
// here.
emitRexB(RexTypeIrrelevant, reg);
emitUint8(0x58 + gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::popl(const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, address, RexRegIrrelevant);
emitUint8(0x8F);
emitOperand(0, address);
}
template <typename TraitsType>
template <typename, typename>
void AssemblerX86Base<TraitsType>::pushal() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x60);
}
template <typename TraitsType>
template <typename, typename>
void AssemblerX86Base<TraitsType>::popal() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x61);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::setcc(BrCond condition, ByteRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(IceType_i8, dst);
emitUint8(0x0F);
emitUint8(0x90 + condition);
emitUint8(0xC0 + gprEncoding(dst));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::setcc(BrCond condition,
const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, address, RexRegIrrelevant);
emitUint8(0x0F);
emitUint8(0x90 + condition);
emitOperand(0, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mov(Type Ty, GPRRegister dst,
const Immediate &imm) {
assert(Ty != IceType_i64 && "i64 not supported yet.");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, dst);
if (isByteSizedType(Ty)) {
emitUint8(0xB0 + gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
} else {
// TODO(jpp): When removing the assertion above ensure that in x86-64 we
// emit a 64-bit immediate.
emitUint8(0xB8 + gprEncoding(dst));
emitImmediate(Ty, imm);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mov(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, src, dst);
if (isByteSizedType(Ty)) {
emitUint8(0x88);
} else {
emitUint8(0x89);
}
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mov(Type Ty, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, src, dst);
if (isByteSizedType(Ty)) {
emitUint8(0x8A);
} else {
emitUint8(0x8B);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mov(Type Ty, const Address &dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, dst, src);
if (isByteSizedType(Ty)) {
emitUint8(0x88);
} else {
emitUint8(0x89);
}
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mov(Type Ty, const Address &dst,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, dst, RexRegIrrelevant);
if (isByteSizedType(Ty)) {
emitUint8(0xC6);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(0, dst, OffsetFromNextInstruction);
emitUint8(imm.value() & 0xFF);
} else {
emitUint8(0xC7);
const uint8_t OffsetFromNextInstruction = Ty == IceType_i16 ? 2 : 4;
emitOperand(0, dst, OffsetFromNextInstruction);
emitImmediate(Ty, imm);
}
}
template <typename TraitsType>
template <typename T>
typename std::enable_if<T::Is64Bit, void>::type
AssemblerX86Base<TraitsType>::movabs(const GPRRegister Dst, uint64_t Imm64) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
const bool NeedsRexW = (Imm64 & ~0xFFFFFFFFull) != 0;
const Type RexType = NeedsRexW ? RexTypeForceRexW : RexTypeIrrelevant;
emitRexB(RexType, Dst);
emitUint8(0xB8 | gprEncoding(Dst));
// When emitting Imm64, we don't have to mask out the upper 32 bits for
// emitInt32 will/should only emit a 32-bit constant. In reality, we are
// paranoid, so we go ahead an mask the upper bits out anyway.
emitInt32(Imm64 & 0xFFFFFFFF);
if (NeedsRexW)
emitInt32((Imm64 >> 32) & 0xFFFFFFFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movzx(Type SrcTy, GPRRegister dst,
GPRRegister src) {
if (Traits::Is64Bit && SrcTy == IceType_i32) {
// 32-bit mov clears the upper 32 bits, hence zero-extending the 32-bit
// operand to 64-bit.
mov(IceType_i32, dst, src);
return;
}
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
bool ByteSized = isByteSizedType(SrcTy);
assert(ByteSized || SrcTy == IceType_i16);
emitRexRB(RexTypeIrrelevant, dst, SrcTy, src);
emitUint8(0x0F);
emitUint8(ByteSized ? 0xB6 : 0xB7);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movzx(Type SrcTy, GPRRegister dst,
const Address &src) {
if (Traits::Is64Bit && SrcTy == IceType_i32) {
// 32-bit mov clears the upper 32 bits, hence zero-extending the 32-bit
// operand to 64-bit.
mov(IceType_i32, dst, src);
return;
}
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
bool ByteSized = isByteSizedType(SrcTy);
assert(ByteSized || SrcTy == IceType_i16);
emitAddrSizeOverridePrefix();
emitRex(SrcTy, src, RexTypeIrrelevant, dst);
emitUint8(0x0F);
emitUint8(ByteSized ? 0xB6 : 0xB7);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movsx(Type SrcTy, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
bool ByteSized = isByteSizedType(SrcTy);
emitRexRB(RexTypeForceRexW, dst, SrcTy, src);
if (ByteSized || SrcTy == IceType_i16) {
emitUint8(0x0F);
emitUint8(ByteSized ? 0xBE : 0xBF);
} else {
assert(Traits::Is64Bit && SrcTy == IceType_i32);
emitUint8(0x63);
}
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movsx(Type SrcTy, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
bool ByteSized = isByteSizedType(SrcTy);
emitAddrSizeOverridePrefix();
emitRex(SrcTy, src, RexTypeForceRexW, dst);
if (ByteSized || SrcTy == IceType_i16) {
emitUint8(0x0F);
emitUint8(ByteSized ? 0xBE : 0xBF);
} else {
assert(Traits::Is64Bit && SrcTy == IceType_i32);
emitUint8(0x63);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::lea(Type Ty, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, src, dst);
emitUint8(0x8D);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmov(Type Ty, BrCond cond, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
else
assert(Ty == IceType_i32 || (Traits::Is64Bit && Ty == IceType_i64));
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0x40 + cond);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmov(Type Ty, BrCond cond, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
else
assert(Ty == IceType_i32 || (Traits::Is64Bit && Ty == IceType_i64));
emitAddrSizeOverridePrefix();
emitRex(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0x40 + cond);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::rep_movsb() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF3);
emitUint8(0xA4);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x10);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movss(Type Ty, const Address &dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x11);
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x11);
emitXmmRegisterOperand(src, dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movd(Type SrcTy, XmmRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(SrcTy, dst, src);
emitUint8(0x0F);
emitUint8(0x6E);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movd(Type SrcTy, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(SrcTy, src, dst);
emitUint8(0x0F);
emitUint8(0x6E);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movd(Type DestTy, GPRRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(DestTy, src, dst);
emitUint8(0x0F);
emitUint8(0x7E);
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movd(Type DestTy, const Address &dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(DestTy, dst, src);
emitUint8(0x0F);
emitUint8(0x7E);
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF3);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x7E);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movq(const Address &dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xD6);
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movq(XmmRegister dst, const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF3);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x7E);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::addss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x58);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::addss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x58);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::subss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5C);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::subss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5C);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mulss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x59);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mulss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x59);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::divss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5E);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::divss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5E);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fld(Type Ty,
const typename T::Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xD9 : 0xDD);
emitOperand(0, src);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fstp(Type Ty,
const typename T::Address &dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xD9 : 0xDD);
emitOperand(3, dst);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fstp(typename T::X87STRegister st) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xDD);
emitUint8(0xD8 + st);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movaps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x28);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movups(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x10);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movups(XmmRegister dst, const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x10);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movups(const Address &dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x11);
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::padd(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xFC);
} else if (Ty == IceType_i16) {
emitUint8(0xFD);
} else {
emitUint8(0xFE);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::padd(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xFC);
} else if (Ty == IceType_i16) {
emitUint8(0xFD);
} else {
emitUint8(0xFE);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::padds(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xEC);
} else if (Ty == IceType_i16) {
emitUint8(0xED);
} else {
assert(false && "Unexpected padds operand type");
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::padds(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xEC);
} else if (Ty == IceType_i16) {
emitUint8(0xED);
} else {
assert(false && "Unexpected padds operand type");
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::paddus(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xDC);
} else if (Ty == IceType_i16) {
emitUint8(0xDD);
} else {
assert(false && "Unexpected paddus operand type");
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::paddus(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xDC);
} else if (Ty == IceType_i16) {
emitUint8(0xDD);
} else {
assert(false && "Unexpected paddus operand type");
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pand(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xDB);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pand(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xDB);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pandn(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xDF);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pandn(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xDF);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmull(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xD5);
} else {
assert(Ty == IceType_i32);
emitUint8(0x38);
emitUint8(0x40);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmull(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xD5);
} else {
assert(Ty == IceType_i32);
emitUint8(0x38);
emitUint8(0x40);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmulhw(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xE5);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmulhw(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xE5);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmulhuw(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xE4);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmulhuw(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xE4);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmaddwd(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xF5);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmaddwd(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
assert(Ty == IceType_v8i16);
(void)Ty;
emitUint8(0xF5);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmuludq(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xF4);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmuludq(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xF4);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::por(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xEB);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::por(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xEB);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psub(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xF8);
} else if (Ty == IceType_i16) {
emitUint8(0xF9);
} else {
emitUint8(0xFA);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psub(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xF8);
} else if (Ty == IceType_i16) {
emitUint8(0xF9);
} else {
emitUint8(0xFA);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psubs(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xE8);
} else if (Ty == IceType_i16) {
emitUint8(0xE9);
} else {
assert(false && "Unexpected psubs operand type");
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psubs(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xE8);
} else if (Ty == IceType_i16) {
emitUint8(0xE9);
} else {
assert(false && "Unexpected psubs operand type");
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psubus(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xD8);
} else if (Ty == IceType_i16) {
emitUint8(0xD9);
} else {
assert(false && "Unexpected psubus operand type");
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psubus(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0xD8);
} else if (Ty == IceType_i16) {
emitUint8(0xD9);
} else {
assert(false && "Unexpected psubus operand type");
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pxor(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xEF);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pxor(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xEF);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psll(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xF1);
} else {
assert(Ty == IceType_i32);
emitUint8(0xF2);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psll(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xF1);
} else {
assert(Ty == IceType_i32);
emitUint8(0xF2);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psll(Type Ty, XmmRegister dst,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_int8());
emitUint8(0x66);
emitRexB(RexTypeIrrelevant, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0x71);
} else {
assert(Ty == IceType_i32);
emitUint8(0x72);
}
emitRegisterOperand(6, gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psra(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xE1);
} else {
assert(Ty == IceType_i32);
emitUint8(0xE2);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psra(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xE1);
} else {
assert(Ty == IceType_i32);
emitUint8(0xE2);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psra(Type Ty, XmmRegister dst,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_int8());
emitUint8(0x66);
emitRexB(RexTypeIrrelevant, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0x71);
} else {
assert(Ty == IceType_i32);
emitUint8(0x72);
}
emitRegisterOperand(4, gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psrl(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xD1);
} else if (Ty == IceType_f64) {
emitUint8(0xD3);
} else {
assert(Ty == IceType_i32 || Ty == IceType_f32 || Ty == IceType_v4f32);
emitUint8(0xD2);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psrl(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xD1);
} else if (Ty == IceType_f64) {
emitUint8(0xD3);
} else {
assert(Ty == IceType_i32 || Ty == IceType_f32 || Ty == IceType_v4f32);
emitUint8(0xD2);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::psrl(Type Ty, XmmRegister dst,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_int8());
emitUint8(0x66);
emitRexB(RexTypeIrrelevant, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0x71);
} else if (Ty == IceType_f64) {
emitUint8(0x73);
} else {
assert(Ty == IceType_i32 || Ty == IceType_f32 || Ty == IceType_v4f32);
emitUint8(0x72);
}
emitRegisterOperand(2, gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
}
// {add,sub,mul,div}ps are given a Ty parameter for consistency with
// {add,sub,mul,div}ss. In the future, when the PNaCl ABI allows addpd, etc.,
// we can use the Ty parameter to decide on adding a 0x66 prefix.
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::addps(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x58);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::addps(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x58);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::subps(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5C);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::subps(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5C);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::divps(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5E);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::divps(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5E);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mulps(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x59);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mulps(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x59);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::minps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5D);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::minps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5D);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::minss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5D);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::minss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5D);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::maxps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5F);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::maxps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5F);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::maxss(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5F);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::maxss(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5F);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::andnps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x55);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::andnps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x55);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::andps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x54);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::andps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x54);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::orps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x56);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::orps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x56);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::blendvps(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x14);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::blendvps(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x14);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pblendvb(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x10);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pblendvb(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x10);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmpps(Type Ty, XmmRegister dst,
XmmRegister src,
CmppsCond CmpCondition) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_f64)
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xC2);
emitXmmRegisterOperand(dst, src);
emitUint8(CmpCondition);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmpps(Type Ty, XmmRegister dst,
const Address &src,
CmppsCond CmpCondition) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_f64)
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xC2);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), src, OffsetFromNextInstruction);
emitUint8(CmpCondition);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sqrtps(XmmRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, dst);
emitUint8(0x0F);
emitUint8(0x51);
emitXmmRegisterOperand(dst, dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::rsqrtps(XmmRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, dst);
emitUint8(0x0F);
emitUint8(0x52);
emitXmmRegisterOperand(dst, dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::reciprocalps(XmmRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, dst);
emitUint8(0x0F);
emitUint8(0x53);
emitXmmRegisterOperand(dst, dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movhlps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x12);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movlhps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x16);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::unpcklps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x14);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::unpckhps(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x15);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::unpcklpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x14);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::unpckhpd(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x15);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::set1ps(XmmRegister dst, GPRRegister tmp1,
const Immediate &imm) {
// Load 32-bit immediate value into tmp1.
mov(IceType_i32, tmp1, imm);
// Move value from tmp1 into dst.
movd(IceType_i32, dst, tmp1);
// Broadcast low lane into other three lanes.
shufps(RexTypeIrrelevant, dst, dst, Immediate(0x0));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pshufb(Type /* Ty */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x00);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pshufb(Type /* Ty */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x00);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pshufd(Type /* Ty */, XmmRegister dst,
XmmRegister src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x70);
emitXmmRegisterOperand(dst, src);
assert(imm.is_uint8());
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pshufd(Type /* Ty */, XmmRegister dst,
const Address &src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x70);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), src, OffsetFromNextInstruction);
assert(imm.is_uint8());
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::punpckl(Type Ty, XmmRegister Dst,
XmmRegister Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, Dst, Src);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x62);
} else if (Ty == IceType_v8i16) {
emitUint8(0x61);
} else if (Ty == IceType_v16i8) {
emitUint8(0x60);
} else {
assert(false && "Unexpected vector unpack operand type");
}
emitXmmRegisterOperand(Dst, Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::punpckl(Type Ty, XmmRegister Dst,
const Address &Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, Src, Dst);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x62);
} else if (Ty == IceType_v8i16) {
emitUint8(0x61);
} else if (Ty == IceType_v16i8) {
emitUint8(0x60);
} else {
assert(false && "Unexpected vector unpack operand type");
}
emitOperand(gprEncoding(Dst), Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::punpckh(Type Ty, XmmRegister Dst,
XmmRegister Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, Dst, Src);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x6A);
} else if (Ty == IceType_v8i16) {
emitUint8(0x69);
} else if (Ty == IceType_v16i8) {
emitUint8(0x68);
} else {
assert(false && "Unexpected vector unpack operand type");
}
emitXmmRegisterOperand(Dst, Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::punpckh(Type Ty, XmmRegister Dst,
const Address &Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, Src, Dst);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x6A);
} else if (Ty == IceType_v8i16) {
emitUint8(0x69);
} else if (Ty == IceType_v16i8) {
emitUint8(0x68);
} else {
assert(false && "Unexpected vector unpack operand type");
}
emitOperand(gprEncoding(Dst), Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::packss(Type Ty, XmmRegister Dst,
XmmRegister Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, Dst, Src);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x6B);
} else if (Ty == IceType_v8i16) {
emitUint8(0x63);
} else {
assert(false && "Unexpected vector pack operand type");
}
emitXmmRegisterOperand(Dst, Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::packss(Type Ty, XmmRegister Dst,
const Address &Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, Src, Dst);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x6B);
} else if (Ty == IceType_v8i16) {
emitUint8(0x63);
} else {
assert(false && "Unexpected vector pack operand type");
}
emitOperand(gprEncoding(Dst), Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::packus(Type Ty, XmmRegister Dst,
XmmRegister Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, Dst, Src);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x38);
emitUint8(0x2B);
} else if (Ty == IceType_v8i16) {
emitUint8(0x67);
} else {
assert(false && "Unexpected vector pack operand type");
}
emitXmmRegisterOperand(Dst, Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::packus(Type Ty, XmmRegister Dst,
const Address &Src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, Src, Dst);
emitUint8(0x0F);
if (Ty == IceType_v4i32 || Ty == IceType_v4f32) {
emitUint8(0x38);
emitUint8(0x2B);
} else if (Ty == IceType_v8i16) {
emitUint8(0x67);
} else {
assert(false && "Unexpected vector pack operand type");
}
emitOperand(gprEncoding(Dst), Src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shufps(Type /* Ty */, XmmRegister dst,
XmmRegister src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0xC6);
emitXmmRegisterOperand(dst, src);
assert(imm.is_uint8());
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shufps(Type /* Ty */, XmmRegister dst,
const Address &src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0xC6);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), src, OffsetFromNextInstruction);
assert(imm.is_uint8());
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sqrtpd(XmmRegister dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, dst);
emitUint8(0x0F);
emitUint8(0x51);
emitXmmRegisterOperand(dst, dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtdq2ps(Type /* Ignore */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5B);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtdq2ps(Type /* Ignore */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5B);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvttps2dq(Type /* Ignore */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF3);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5B);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvttps2dq(Type /* Ignore */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF3);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5B);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtps2dq(Type /* Ignore */, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5B);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtps2dq(Type /* Ignore */, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5B);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtsi2ss(Type DestTy, XmmRegister dst,
Type SrcTy, GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(DestTy) ? 0xF3 : 0xF2);
emitRexRB(SrcTy, dst, src);
emitUint8(0x0F);
emitUint8(0x2A);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtsi2ss(Type DestTy, XmmRegister dst,
Type SrcTy, const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(DestTy) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(SrcTy, src, dst);
emitUint8(0x0F);
emitUint8(0x2A);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtfloat2float(Type SrcTy, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// ss2sd or sd2ss
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x5A);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtfloat2float(Type SrcTy, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x5A);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvttss2si(Type DestTy, GPRRegister dst,
Type SrcTy, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitRexRB(DestTy, dst, src);
emitUint8(0x0F);
emitUint8(0x2C);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvttss2si(Type DestTy, GPRRegister dst,
Type SrcTy, const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(DestTy, src, dst);
emitUint8(0x0F);
emitUint8(0x2C);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtss2si(Type DestTy, GPRRegister dst,
Type SrcTy, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitRexRB(DestTy, dst, src);
emitUint8(0x0F);
emitUint8(0x2D);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cvtss2si(Type DestTy, GPRRegister dst,
Type SrcTy, const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(isFloat32Asserting32Or64(SrcTy) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(DestTy, src, dst);
emitUint8(0x0F);
emitUint8(0x2D);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::ucomiss(Type Ty, XmmRegister a,
XmmRegister b) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_f64)
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, a, b);
emitUint8(0x0F);
emitUint8(0x2E);
emitXmmRegisterOperand(a, b);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::ucomiss(Type Ty, XmmRegister a,
const Address &b) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_f64)
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, b, a);
emitUint8(0x0F);
emitUint8(0x2E);
emitOperand(gprEncoding(a), b);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::movmsk(Type Ty, GPRRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_v16i8) {
emitUint8(0x66);
} else if (Ty == IceType_v4f32 || Ty == IceType_v4i32) {
// No operand size prefix
} else {
assert(false && "Unexpected movmsk operand type");
}
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (Ty == IceType_v16i8) {
emitUint8(0xD7);
} else if (Ty == IceType_v4f32 || Ty == IceType_v4i32) {
emitUint8(0x50);
} else {
assert(false && "Unexpected movmsk operand type");
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sqrt(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (isScalarFloatingType(Ty))
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x51);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sqrt(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (isScalarFloatingType(Ty))
emitUint8(isFloat32Asserting32Or64(Ty) ? 0xF3 : 0xF2);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x51);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::xorps(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x57);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::xorps(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (!isFloat32Asserting32Or64(Ty))
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x57);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::insertps(Type Ty, XmmRegister dst,
XmmRegister src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_uint8());
assert(isVectorFloatingType(Ty));
(void)Ty;
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x3A);
emitUint8(0x21);
emitXmmRegisterOperand(dst, src);
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::insertps(Type Ty, XmmRegister dst,
const Address &src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_uint8());
assert(isVectorFloatingType(Ty));
(void)Ty;
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x3A);
emitUint8(0x21);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), src, OffsetFromNextInstruction);
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pinsr(Type Ty, XmmRegister dst,
GPRRegister src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_uint8());
emitUint8(0x66);
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xC4);
} else {
emitUint8(0x3A);
emitUint8(isByteSizedType(Ty) ? 0x20 : 0x22);
}
emitXmmRegisterOperand(dst, src);
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pinsr(Type Ty, XmmRegister dst,
const Address &src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_uint8());
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (Ty == IceType_i16) {
emitUint8(0xC4);
} else {
emitUint8(0x3A);
emitUint8(isByteSizedType(Ty) ? 0x20 : 0x22);
}
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), src, OffsetFromNextInstruction);
emitUint8(imm.value());
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pextr(Type Ty, GPRRegister dst,
XmmRegister src,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(imm.is_uint8());
if (Ty == IceType_i16) {
emitUint8(0x66);
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0xC5);
emitXmmRegisterOperand(dst, src);
emitUint8(imm.value());
} else {
emitUint8(0x66);
emitRexRB(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0x3A);
emitUint8(isByteSizedType(Ty) ? 0x14 : 0x16);
// SSE 4.1 versions are "MRI" because dst can be mem, while pextrw (SSE2)
// is RMI because dst must be reg.
emitXmmRegisterOperand(src, dst);
emitUint8(imm.value());
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pmovsxdq(XmmRegister dst, XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x38);
emitUint8(0x25);
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pcmpeq(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0x74);
} else if (Ty == IceType_i16) {
emitUint8(0x75);
} else {
emitUint8(0x76);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pcmpeq(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0x74);
} else if (Ty == IceType_i16) {
emitUint8(0x75);
} else {
emitUint8(0x76);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pcmpgt(Type Ty, XmmRegister dst,
XmmRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0x64);
} else if (Ty == IceType_i16) {
emitUint8(0x65);
} else {
emitUint8(0x66);
}
emitXmmRegisterOperand(dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::pcmpgt(Type Ty, XmmRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
if (isByteSizedArithType(Ty)) {
emitUint8(0x64);
} else if (Ty == IceType_i16) {
emitUint8(0x65);
} else {
emitUint8(0x66);
}
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::round(Type Ty, XmmRegister dst,
XmmRegister src,
const Immediate &mode) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitRexRB(RexTypeIrrelevant, dst, src);
emitUint8(0x0F);
emitUint8(0x3A);
switch (Ty) {
case IceType_v4f32:
emitUint8(0x08);
break;
case IceType_f32:
emitUint8(0x0A);
break;
case IceType_f64:
emitUint8(0x0B);
break;
default:
assert(false && "Unsupported round operand type");
}
emitXmmRegisterOperand(dst, src);
// Mask precision exeption.
emitUint8(static_cast<uint8_t>(mode.value()) | 0x8);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::round(Type Ty, XmmRegister dst,
const Address &src,
const Immediate &mode) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x66);
emitAddrSizeOverridePrefix();
emitRex(RexTypeIrrelevant, src, dst);
emitUint8(0x0F);
emitUint8(0x3A);
switch (Ty) {
case IceType_v4f32:
emitUint8(0x08);
break;
case IceType_f32:
emitUint8(0x0A);
break;
case IceType_f64:
emitUint8(0x0B);
break;
default:
assert(false && "Unsupported round operand type");
}
emitOperand(gprEncoding(dst), src);
// Mask precision exeption.
emitUint8(static_cast<uint8_t>(mode.value()) | 0x8);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fnstcw(const typename T::Address &dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xD9);
emitOperand(7, dst);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fldcw(const typename T::Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xD9);
emitOperand(5, src);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fistpl(const typename T::Address &dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xDF);
emitOperand(7, dst);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fistps(const typename T::Address &dst) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xDB);
emitOperand(3, dst);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::fildl(const typename T::Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xDF);
emitOperand(5, src);
}
template <typename TraitsType>
template <typename T, typename>
void AssemblerX86Base<TraitsType>::filds(const typename T::Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitUint8(0xDB);
emitOperand(0, src);
}
template <typename TraitsType>
template <typename, typename>
void AssemblerX86Base<TraitsType>::fincstp() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xD9);
emitUint8(0xF7);
}
template <typename TraitsType>
template <uint32_t Tag>
void AssemblerX86Base<TraitsType>::arith_int(Type Ty, GPRRegister reg,
const Immediate &imm) {
static_assert(Tag < 8, "Tag must be between 0..7");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedType(Ty)) {
emitComplexI8(Tag, Operand(reg), imm);
} else {
emitComplex(Ty, Tag, Operand(reg), imm);
}
}
template <typename TraitsType>
template <uint32_t Tag>
void AssemblerX86Base<TraitsType>::arith_int(Type Ty, GPRRegister reg0,
GPRRegister reg1) {
static_assert(Tag < 8, "Tag must be between 0..7");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, reg0, reg1);
if (isByteSizedType(Ty))
emitUint8(Tag * 8 + 2);
else
emitUint8(Tag * 8 + 3);
emitRegisterOperand(gprEncoding(reg0), gprEncoding(reg1));
}
template <typename TraitsType>
template <uint32_t Tag>
void AssemblerX86Base<TraitsType>::arith_int(Type Ty, GPRRegister reg,
const Address &address) {
static_assert(Tag < 8, "Tag must be between 0..7");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, reg);
if (isByteSizedType(Ty))
emitUint8(Tag * 8 + 2);
else
emitUint8(Tag * 8 + 3);
emitOperand(gprEncoding(reg), address);
}
template <typename TraitsType>
template <uint32_t Tag>
void AssemblerX86Base<TraitsType>::arith_int(Type Ty, const Address &address,
GPRRegister reg) {
static_assert(Tag < 8, "Tag must be between 0..7");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, reg);
if (isByteSizedType(Ty))
emitUint8(Tag * 8 + 0);
else
emitUint8(Tag * 8 + 1);
emitOperand(gprEncoding(reg), address);
}
template <typename TraitsType>
template <uint32_t Tag>
void AssemblerX86Base<TraitsType>::arith_int(Type Ty, const Address &address,
const Immediate &imm) {
static_assert(Tag < 8, "Tag must be between 0..7");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, RexRegIrrelevant);
if (isByteSizedType(Ty)) {
emitComplexI8(Tag, address, imm);
} else {
emitComplex(Ty, Tag, address, imm);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmp(Type Ty, GPRRegister reg,
const Immediate &imm) {
arith_int<7>(Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmp(Type Ty, GPRRegister reg0,
GPRRegister reg1) {
arith_int<7>(Ty, reg0, reg1);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmp(Type Ty, GPRRegister reg,
const Address &address) {
arith_int<7>(Ty, reg, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmp(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<7>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmp(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<7>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::test(Type Ty, GPRRegister reg1,
GPRRegister reg2) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, reg1, reg2);
if (isByteSizedType(Ty))
emitUint8(0x84);
else
emitUint8(0x85);
emitRegisterOperand(gprEncoding(reg1), gprEncoding(reg2));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::test(Type Ty, const Address &addr,
GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, reg);
if (isByteSizedType(Ty))
emitUint8(0x84);
else
emitUint8(0x85);
emitOperand(gprEncoding(reg), addr);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::test(Type Ty, GPRRegister reg,
const Immediate &immediate) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// For registers that have a byte variant (EAX, EBX, ECX, and EDX) we only
// test the byte register to keep the encoding short. This is legal even if
// the register had high bits set since this only sets flags registers based
// on the "AND" of the two operands, and the immediate had zeros at those
// high bits.
if (immediate.is_uint8() && reg <= Traits::Last8BitGPR) {
// Use zero-extended 8-bit immediate.
emitRexB(Ty, reg);
if (reg == Traits::Encoded_Reg_Accumulator) {
emitUint8(0xA8);
} else {
emitUint8(0xF6);
emitUint8(0xC0 + gprEncoding(reg));
}
emitUint8(immediate.value() & 0xFF);
} else if (reg == Traits::Encoded_Reg_Accumulator) {
// Use short form if the destination is EAX.
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitUint8(0xA9);
emitImmediate(Ty, immediate);
} else {
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
emitUint8(0xF7);
emitRegisterOperand(0, gprEncoding(reg));
emitImmediate(Ty, immediate);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::test(Type Ty, const Address &addr,
const Immediate &immediate) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// If the immediate is short, we only test the byte addr to keep the encoding
// short.
if (immediate.is_uint8()) {
// Use zero-extended 8-bit immediate.
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, RexRegIrrelevant);
emitUint8(0xF6);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(0, addr, OffsetFromNextInstruction);
emitUint8(immediate.value() & 0xFF);
} else {
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, RexRegIrrelevant);
emitUint8(0xF7);
const uint8_t OffsetFromNextInstruction = Ty == IceType_i16 ? 2 : 4;
emitOperand(0, addr, OffsetFromNextInstruction);
emitImmediate(Ty, immediate);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::And(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<4>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::And(Type Ty, GPRRegister dst,
const Address &address) {
arith_int<4>(Ty, dst, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::And(Type Ty, GPRRegister dst,
const Immediate &imm) {
arith_int<4>(Ty, dst, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::And(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<4>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::And(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<4>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Or(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<1>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Or(Type Ty, GPRRegister dst,
const Address &address) {
arith_int<1>(Ty, dst, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Or(Type Ty, GPRRegister dst,
const Immediate &imm) {
arith_int<1>(Ty, dst, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Or(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<1>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Or(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<1>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Xor(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<6>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Xor(Type Ty, GPRRegister dst,
const Address &address) {
arith_int<6>(Ty, dst, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Xor(Type Ty, GPRRegister dst,
const Immediate &imm) {
arith_int<6>(Ty, dst, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Xor(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<6>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::Xor(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<6>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::add(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<0>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::add(Type Ty, GPRRegister reg,
const Address &address) {
arith_int<0>(Ty, reg, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::add(Type Ty, GPRRegister reg,
const Immediate &imm) {
arith_int<0>(Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::add(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<0>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::add(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<0>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::adc(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<2>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::adc(Type Ty, GPRRegister dst,
const Address &address) {
arith_int<2>(Ty, dst, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::adc(Type Ty, GPRRegister reg,
const Immediate &imm) {
arith_int<2>(Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::adc(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<2>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::adc(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<2>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sub(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<5>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sub(Type Ty, GPRRegister reg,
const Address &address) {
arith_int<5>(Ty, reg, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sub(Type Ty, GPRRegister reg,
const Immediate &imm) {
arith_int<5>(Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sub(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<5>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sub(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<5>(Ty, address, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sbb(Type Ty, GPRRegister dst,
GPRRegister src) {
arith_int<3>(Ty, dst, src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sbb(Type Ty, GPRRegister dst,
const Address &address) {
arith_int<3>(Ty, dst, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sbb(Type Ty, GPRRegister reg,
const Immediate &imm) {
arith_int<3>(Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sbb(Type Ty, const Address &address,
GPRRegister reg) {
arith_int<3>(Ty, address, reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sbb(Type Ty, const Address &address,
const Immediate &imm) {
arith_int<3>(Ty, address, imm);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::cbw() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitOperandSizeOverride();
emitUint8(0x98);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::cwd() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitOperandSizeOverride();
emitUint8(0x99);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::cdq() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x99);
}
template <typename TraitsType>
template <typename T>
typename std::enable_if<T::Is64Bit, void>::type
AssemblerX86Base<TraitsType>::cqo() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(RexTypeForceRexW, RexRegIrrelevant);
emitUint8(0x99);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::div(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitRegisterOperand(6, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::div(Type Ty, const Address &addr) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, RexRegIrrelevant);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitOperand(6, addr);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::idiv(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitRegisterOperand(7, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::idiv(Type Ty, const Address &addr) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, RexRegIrrelevant);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitOperand(7, addr);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0xAF);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister reg,
const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, reg);
emitUint8(0x0F);
emitUint8(0xAF);
emitOperand(gprEncoding(reg), address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister reg,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 || Ty == IceType_i64);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, reg, reg);
if (imm.is_int8()) {
emitUint8(0x6B);
emitRegisterOperand(gprEncoding(reg), gprEncoding(reg));
emitUint8(imm.value() & 0xFF);
} else {
emitUint8(0x69);
emitRegisterOperand(gprEncoding(reg), gprEncoding(reg));
emitImmediate(Ty, imm);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitRegisterOperand(5, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, RexRegIrrelevant);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitOperand(5, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister dst,
GPRRegister src, const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, dst, src);
if (imm.is_int8()) {
emitUint8(0x6B);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
emitUint8(imm.value() & 0xFF);
} else {
emitUint8(0x69);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
emitImmediate(Ty, imm);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::imul(Type Ty, GPRRegister dst,
const Address &address,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, dst);
if (imm.is_int8()) {
emitUint8(0x6B);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(gprEncoding(dst), address, OffsetFromNextInstruction);
emitUint8(imm.value() & 0xFF);
} else {
emitUint8(0x69);
const uint8_t OffsetFromNextInstruction = Ty == IceType_i16 ? 2 : 4;
emitOperand(gprEncoding(dst), address, OffsetFromNextInstruction);
emitImmediate(Ty, imm);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mul(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitRegisterOperand(4, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::mul(Type Ty, const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, address, RexRegIrrelevant);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitOperand(4, address);
}
template <typename TraitsType>
template <typename, typename>
void AssemblerX86Base<TraitsType>::incl(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x40 + reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::incl(const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(IceType_i32, address, RexRegIrrelevant);
emitUint8(0xFF);
emitOperand(0, address);
}
template <typename TraitsType>
template <typename, typename>
void AssemblerX86Base<TraitsType>::decl(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x48 + reg);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::decl(const Address &address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitAddrSizeOverridePrefix();
emitRex(IceType_i32, address, RexRegIrrelevant);
emitUint8(0xFF);
emitOperand(1, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::rol(Type Ty, GPRRegister reg,
const Immediate &imm) {
emitGenericShift(0, Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::rol(Type Ty, GPRRegister operand,
GPRRegister shifter) {
emitGenericShift(0, Ty, Operand(operand), shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::rol(Type Ty, const Address &operand,
GPRRegister shifter) {
emitGenericShift(0, Ty, operand, shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shl(Type Ty, GPRRegister reg,
const Immediate &imm) {
emitGenericShift(4, Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shl(Type Ty, GPRRegister operand,
GPRRegister shifter) {
emitGenericShift(4, Ty, Operand(operand), shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shl(Type Ty, const Address &operand,
GPRRegister shifter) {
emitGenericShift(4, Ty, operand, shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shr(Type Ty, GPRRegister reg,
const Immediate &imm) {
emitGenericShift(5, Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shr(Type Ty, GPRRegister operand,
GPRRegister shifter) {
emitGenericShift(5, Ty, Operand(operand), shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shr(Type Ty, const Address &operand,
GPRRegister shifter) {
emitGenericShift(5, Ty, operand, shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sar(Type Ty, GPRRegister reg,
const Immediate &imm) {
emitGenericShift(7, Ty, reg, imm);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sar(Type Ty, GPRRegister operand,
GPRRegister shifter) {
emitGenericShift(7, Ty, Operand(operand), shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::sar(Type Ty, const Address &address,
GPRRegister shifter) {
emitGenericShift(7, Ty, address, shifter);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shld(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xA5);
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shld(Type Ty, GPRRegister dst,
GPRRegister src, const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
assert(imm.is_int8());
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xA4);
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shld(Type Ty, const Address &operand,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, operand, src);
emitUint8(0x0F);
emitUint8(0xA5);
emitOperand(gprEncoding(src), operand);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shrd(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xAD);
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shrd(Type Ty, GPRRegister dst,
GPRRegister src, const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
assert(imm.is_int8());
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xAC);
emitRegisterOperand(gprEncoding(src), gprEncoding(dst));
emitUint8(imm.value() & 0xFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::shrd(Type Ty, const Address &dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0xAD);
emitOperand(gprEncoding(src), dst);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::neg(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitRegisterOperand(3, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::neg(Type Ty, const Address &addr) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, RexRegIrrelevant);
if (isByteSizedArithType(Ty))
emitUint8(0xF6);
else
emitUint8(0xF7);
emitOperand(3, addr);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::notl(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(IceType_i32, reg);
emitUint8(0xF7);
emitUint8(0xD0 | gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bswap(Type Ty, GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i32 || (Traits::Is64Bit && Ty == IceType_i64));
emitRexB(Ty, reg);
emitUint8(0x0F);
emitUint8(0xC8 | gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bsf(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0xBC);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bsf(Type Ty, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xBC);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bsr(Type Ty, GPRRegister dst,
GPRRegister src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexRB(Ty, dst, src);
emitUint8(0x0F);
emitUint8(0xBD);
emitRegisterOperand(gprEncoding(dst), gprEncoding(src));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bsr(Type Ty, GPRRegister dst,
const Address &src) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(Ty == IceType_i16 || Ty == IceType_i32 ||
(Traits::Is64Bit && Ty == IceType_i64));
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, src, dst);
emitUint8(0x0F);
emitUint8(0xBD);
emitOperand(gprEncoding(dst), src);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bt(GPRRegister base, GPRRegister offset) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexRB(IceType_i32, offset, base);
emitUint8(0x0F);
emitUint8(0xA3);
emitRegisterOperand(gprEncoding(offset), gprEncoding(base));
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::ret() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xC3);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::ret(const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xC2);
assert(imm.is_uint16());
emitUint8(imm.value() & 0xFF);
emitUint8((imm.value() >> 8) & 0xFF);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::nop(int size) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// There are nops up to size 15, but for now just provide up to size 8.
assert(0 < size && size <= MAX_NOP_SIZE);
switch (size) {
case 1:
emitUint8(0x90);
break;
case 2:
emitUint8(0x66);
emitUint8(0x90);
break;
case 3:
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x00);
break;
case 4:
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x40);
emitUint8(0x00);
break;
case 5:
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x44);
emitUint8(0x00);
emitUint8(0x00);
break;
case 6:
emitUint8(0x66);
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x44);
emitUint8(0x00);
emitUint8(0x00);
break;
case 7:
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x80);
emitUint8(0x00);
emitUint8(0x00);
emitUint8(0x00);
emitUint8(0x00);
break;
case 8:
emitUint8(0x0F);
emitUint8(0x1F);
emitUint8(0x84);
emitUint8(0x00);
emitUint8(0x00);
emitUint8(0x00);
emitUint8(0x00);
emitUint8(0x00);
break;
default:
llvm_unreachable("Unimplemented");
}
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::int3() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xCC);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::hlt() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF4);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::ud2() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x0F);
emitUint8(0x0B);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::j(BrCond condition, Label *label,
bool near) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (label->isBound()) {
static const int kShortSize = 2;
static const int kLongSize = 6;
intptr_t offset = label->getPosition() - Buffer.size();
assert(offset <= 0);
if (Utils::IsInt(8, offset - kShortSize)) {
// TODO(stichnot): Here and in jmp(), we may need to be more
// conservative about the backward branch distance if the branch
// instruction is within a bundle_lock sequence, because the
// distance may increase when padding is added. This isn't an issue for
// branches outside a bundle_lock, because if padding is added, the retry
// may change it to a long backward branch without affecting any of the
// bookkeeping.
emitUint8(0x70 + condition);
emitUint8((offset - kShortSize) & 0xFF);
} else {
emitUint8(0x0F);
emitUint8(0x80 + condition);
emitInt32(offset - kLongSize);
}
} else if (near) {
emitUint8(0x70 + condition);
emitNearLabelLink(label);
} else {
emitUint8(0x0F);
emitUint8(0x80 + condition);
emitLabelLink(label);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::j(BrCond condition,
const ConstantRelocatable *label) {
llvm::report_fatal_error("Untested - please verify and then reenable.");
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x0F);
emitUint8(0x80 + condition);
auto *Fixup = this->createFixup(Traits::FK_PcRel, label);
Fixup->set_addend(-4);
emitFixup(Fixup);
emitInt32(0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::jmp(GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitRexB(RexTypeIrrelevant, reg);
emitUint8(0xFF);
emitRegisterOperand(4, gprEncoding(reg));
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::jmp(Label *label, bool near) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (label->isBound()) {
static const int kShortSize = 2;
static const int kLongSize = 5;
intptr_t offset = label->getPosition() - Buffer.size();
assert(offset <= 0);
if (Utils::IsInt(8, offset - kShortSize)) {
emitUint8(0xEB);
emitUint8((offset - kShortSize) & 0xFF);
} else {
emitUint8(0xE9);
emitInt32(offset - kLongSize);
}
} else if (near) {
emitUint8(0xEB);
emitNearLabelLink(label);
} else {
emitUint8(0xE9);
emitLabelLink(label);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::jmp(const ConstantRelocatable *label) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xE9);
auto *Fixup = this->createFixup(Traits::FK_PcRel, label);
Fixup->set_addend(-4);
emitFixup(Fixup);
emitInt32(0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::jmp(const Immediate &abs_address) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xE9);
AssemblerFixup *Fixup =
createFixup(Traits::FK_PcRel, AssemblerFixup::NullSymbol);
Fixup->set_addend(abs_address.value() - 4);
emitFixup(Fixup);
emitInt32(0);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::mfence() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x0F);
emitUint8(0xAE);
emitUint8(0xF0);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::lock() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0xF0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmpxchg(Type Ty, const Address &address,
GPRRegister reg, bool Locked) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
if (Locked)
emitUint8(0xF0);
emitAddrSizeOverridePrefix();
emitRex(Ty, address, reg);
emitUint8(0x0F);
if (isByteSizedArithType(Ty))
emitUint8(0xB0);
else
emitUint8(0xB1);
emitOperand(gprEncoding(reg), address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::cmpxchg8b(const Address &address,
bool Locked) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Locked)
emitUint8(0xF0);
emitAddrSizeOverridePrefix();
emitRex(IceType_i32, address, RexRegIrrelevant);
emitUint8(0x0F);
emitUint8(0xC7);
emitOperand(1, address);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::xadd(Type Ty, const Address &addr,
GPRRegister reg, bool Locked) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
if (Locked)
emitUint8(0xF0);
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, reg);
emitUint8(0x0F);
if (isByteSizedArithType(Ty))
emitUint8(0xC0);
else
emitUint8(0xC1);
emitOperand(gprEncoding(reg), addr);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::xchg(Type Ty, GPRRegister reg0,
GPRRegister reg1) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
// Use short form if either register is EAX.
if (reg0 == Traits::Encoded_Reg_Accumulator) {
emitRexB(Ty, reg1);
emitUint8(0x90 + gprEncoding(reg1));
} else if (reg1 == Traits::Encoded_Reg_Accumulator) {
emitRexB(Ty, reg0);
emitUint8(0x90 + gprEncoding(reg0));
} else {
emitRexRB(Ty, reg0, reg1);
if (isByteSizedArithType(Ty))
emitUint8(0x86);
else
emitUint8(0x87);
emitRegisterOperand(gprEncoding(reg0), gprEncoding(reg1));
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::xchg(Type Ty, const Address &addr,
GPRRegister reg) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitAddrSizeOverridePrefix();
emitRex(Ty, addr, reg);
if (isByteSizedArithType(Ty))
emitUint8(0x86);
else
emitUint8(0x87);
emitOperand(gprEncoding(reg), addr);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::iaca_start() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(0x0F);
emitUint8(0x0B);
// mov $111, ebx
constexpr GPRRegister dst = Traits::GPRRegister::Encoded_Reg_ebx;
constexpr Type Ty = IceType_i32;
emitRexB(Ty, dst);
emitUint8(0xB8 + gprEncoding(dst));
emitImmediate(Ty, Immediate(111));
emitUint8(0x64);
emitUint8(0x67);
emitUint8(0x90);
}
template <typename TraitsType> void AssemblerX86Base<TraitsType>::iaca_end() {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// mov $222, ebx
constexpr GPRRegister dst = Traits::GPRRegister::Encoded_Reg_ebx;
constexpr Type Ty = IceType_i32;
emitRexB(Ty, dst);
emitUint8(0xB8 + gprEncoding(dst));
emitImmediate(Ty, Immediate(222));
emitUint8(0x64);
emitUint8(0x67);
emitUint8(0x90);
emitUint8(0x0F);
emitUint8(0x0B);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitSegmentOverride(uint8_t prefix) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
emitUint8(prefix);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::align(intptr_t alignment, intptr_t offset) {
assert(llvm::isPowerOf2_32(alignment));
intptr_t pos = offset + Buffer.getPosition();
intptr_t mod = pos & (alignment - 1);
if (mod == 0) {
return;
}
intptr_t bytes_needed = alignment - mod;
while (bytes_needed > MAX_NOP_SIZE) {
nop(MAX_NOP_SIZE);
bytes_needed -= MAX_NOP_SIZE;
}
if (bytes_needed) {
nop(bytes_needed);
}
assert(((offset + Buffer.getPosition()) & (alignment - 1)) == 0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::bind(Label *L) {
const intptr_t Bound = Buffer.size();
assert(!L->isBound()); // Labels can only be bound once.
while (L->isLinked()) {
const intptr_t Position = L->getLinkPosition();
const intptr_t Next = Buffer.load<int32_t>(Position);
const intptr_t Offset = Bound - (Position + 4);
Buffer.store<int32_t>(Position, Offset);
L->Position = Next;
}
while (L->hasNear()) {
intptr_t Position = L->getNearPosition();
const intptr_t Offset = Bound - (Position + 1);
assert(Utils::IsInt(8, Offset));
Buffer.store<int8_t>(Position, Offset);
}
L->bindTo(Bound);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitOperand(int rm, const Operand &operand,
RelocOffsetT Addend) {
assert(rm >= 0 && rm < 8);
const intptr_t length = operand.length_;
assert(length > 0);
intptr_t displacement_start = 1;
// Emit the ModRM byte updated with the given RM value.
assert((operand.encoding_[0] & 0x38) == 0);
emitUint8(operand.encoding_[0] + (rm << 3));
// Whenever the addressing mode is not register indirect, using esp == 0x4
// as the register operation indicates an SIB byte follows.
if (((operand.encoding_[0] & 0xc0) != 0xc0) &&
((operand.encoding_[0] & 0x07) == 0x04)) {
emitUint8(operand.encoding_[1]);
displacement_start = 2;
}
AssemblerFixup *Fixup = operand.fixup();
if (Fixup == nullptr) {
for (intptr_t i = displacement_start; i < length; i++) {
emitUint8(operand.encoding_[i]);
}
return;
}
// Emit the fixup, and a dummy 4-byte immediate. Note that the Disp32 in
// operand.encoding_[i, i+1, i+2, i+3] is part of the constant relocatable
// used to create the fixup, so there's no need to add it to the addend.
assert(length - displacement_start == 4);
if (fixupIsPCRel(Fixup->kind())) {
Fixup->set_addend(Fixup->get_addend() - Addend);
} else {
Fixup->set_addend(Fixup->get_addend());
}
emitFixup(Fixup);
emitInt32(0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitImmediate(Type Ty,
const Immediate &imm) {
auto *const Fixup = imm.fixup();
if (Ty == IceType_i16) {
assert(Fixup == nullptr);
emitInt16(imm.value());
return;
}
if (Fixup == nullptr) {
emitInt32(imm.value());
return;
}
Fixup->set_addend(Fixup->get_addend() + imm.value());
emitFixup(Fixup);
emitInt32(0);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitComplexI8(int rm, const Operand &operand,
const Immediate &immediate) {
assert(rm >= 0 && rm < 8);
assert(immediate.is_int8());
if (operand.IsRegister(Traits::Encoded_Reg_Accumulator)) {
// Use short form if the destination is al.
emitUint8(0x04 + (rm << 3));
emitUint8(immediate.value() & 0xFF);
} else {
// Use sign-extended 8-bit immediate.
emitUint8(0x80);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(rm, operand, OffsetFromNextInstruction);
emitUint8(immediate.value() & 0xFF);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitComplex(Type Ty, int rm,
const Operand &operand,
const Immediate &immediate) {
assert(rm >= 0 && rm < 8);
if (immediate.is_int8()) {
// Use sign-extended 8-bit immediate.
emitUint8(0x83);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(rm, operand, OffsetFromNextInstruction);
emitUint8(immediate.value() & 0xFF);
} else if (operand.IsRegister(Traits::Encoded_Reg_Accumulator)) {
// Use short form if the destination is eax.
emitUint8(0x05 + (rm << 3));
emitImmediate(Ty, immediate);
} else {
emitUint8(0x81);
const uint8_t OffsetFromNextInstruction = Ty == IceType_i16 ? 2 : 4;
emitOperand(rm, operand, OffsetFromNextInstruction);
emitImmediate(Ty, immediate);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitLabel(Label *label,
intptr_t instruction_size) {
if (label->isBound()) {
intptr_t offset = label->getPosition() - Buffer.size();
assert(offset <= 0);
emitInt32(offset - instruction_size);
} else {
emitLabelLink(label);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitLabelLink(Label *Label) {
assert(!Label->isBound());
intptr_t Position = Buffer.size();
emitInt32(Label->Position);
Label->linkTo(*this, Position);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitNearLabelLink(Label *Label) {
assert(!Label->isBound());
intptr_t Position = Buffer.size();
emitUint8(0);
Label->nearLinkTo(*this, Position);
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitGenericShift(int rm, Type Ty,
GPRRegister reg,
const Immediate &imm) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
// We don't assert that imm fits into 8 bits; instead, it gets masked below.
// Note that we don't mask it further (e.g. to 5 bits) because we want the
// same processor behavior regardless of whether it's an immediate (masked to
// 8 bits) or in register cl (essentially ecx masked to 8 bits).
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, reg);
if (imm.value() == 1) {
emitUint8(isByteSizedArithType(Ty) ? 0xD0 : 0xD1);
emitOperand(rm, Operand(reg));
} else {
emitUint8(isByteSizedArithType(Ty) ? 0xC0 : 0xC1);
static constexpr RelocOffsetT OffsetFromNextInstruction = 1;
emitOperand(rm, Operand(reg), OffsetFromNextInstruction);
emitUint8(imm.value() & 0xFF);
}
}
template <typename TraitsType>
void AssemblerX86Base<TraitsType>::emitGenericShift(int rm, Type Ty,
const Operand &operand,
GPRRegister shifter) {
AssemblerBuffer::EnsureCapacity ensured(&Buffer);
assert(shifter == Traits::Encoded_Reg_Counter);
(void)shifter;
if (Ty == IceType_i16)
emitOperandSizeOverride();
emitRexB(Ty, operand.rm());
emitUint8(isByteSizedArithType(Ty) ? 0xD2 : 0xD3);
emitOperand(rm, operand);
}
} // end of namespace X86NAMESPACE
} // end of namespace Ice