TargetTest.cpp
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//===-- TargetTest.cpp -----------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "Target.h"
#include <cassert>
#include <memory>
#include "MCTargetDesc/X86MCTargetDesc.h"
#include "llvm/Support/TargetRegistry.h"
#include "llvm/Support/TargetSelect.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "llvm/MC/MCInstPrinter.h"
namespace llvm {
bool operator==(const MCOperand &a, const MCOperand &b) {
if (a.isImm() && b.isImm())
return a.getImm() == b.getImm();
if (a.isReg() && b.isReg())
return a.getReg() == b.getReg();
return false;
}
bool operator==(const MCInst &a, const MCInst &b) {
if (a.getOpcode() != b.getOpcode())
return false;
if (a.getNumOperands() != b.getNumOperands())
return false;
for (unsigned I = 0; I < a.getNumOperands(); ++I) {
if (!(a.getOperand(I) == b.getOperand(I)))
return false;
}
return true;
}
} // namespace llvm
namespace llvm {
namespace exegesis {
void InitializeX86ExegesisTarget();
namespace {
using testing::AllOf;
using testing::ElementsAre;
using testing::ElementsAreArray;
using testing::Eq;
using testing::Gt;
using testing::Matcher;
using testing::NotNull;
using testing::Property;
using testing::SizeIs;
Matcher<MCOperand> IsImm(int64_t Value) {
return AllOf(Property(&MCOperand::isImm, Eq(true)),
Property(&MCOperand::getImm, Eq(Value)));
}
Matcher<MCOperand> IsReg(unsigned Reg) {
return AllOf(Property(&MCOperand::isReg, Eq(true)),
Property(&MCOperand::getReg, Eq(Reg)));
}
Matcher<MCInst> OpcodeIs(unsigned Opcode) {
return Property(&MCInst::getOpcode, Eq(Opcode));
}
Matcher<MCInst> IsMovImmediate(unsigned Opcode, int64_t Reg, int64_t Value) {
return AllOf(OpcodeIs(Opcode), ElementsAre(IsReg(Reg), IsImm(Value)));
}
Matcher<MCInst> IsMovValueToStack(unsigned Opcode, int64_t Value,
size_t Offset) {
return AllOf(OpcodeIs(Opcode),
ElementsAre(IsReg(X86::RSP), IsImm(1), IsReg(0), IsImm(Offset),
IsReg(0), IsImm(Value)));
}
Matcher<MCInst> IsMovValueFromStack(unsigned Opcode, unsigned Reg) {
return AllOf(OpcodeIs(Opcode),
ElementsAre(IsReg(Reg), IsReg(X86::RSP), IsImm(1), IsReg(0),
IsImm(0), IsReg(0)));
}
Matcher<MCInst> IsStackAllocate(unsigned Size) {
return AllOf(OpcodeIs(X86::SUB64ri8),
ElementsAre(IsReg(X86::RSP), IsReg(X86::RSP), IsImm(Size)));
}
Matcher<MCInst> IsStackDeallocate(unsigned Size) {
return AllOf(OpcodeIs(X86::ADD64ri8),
ElementsAre(IsReg(X86::RSP), IsReg(X86::RSP), IsImm(Size)));
}
constexpr const char kTriple[] = "x86_64-unknown-linux";
class X86TargetTest : public ::testing::Test {
protected:
X86TargetTest(const char *Features) : State(kTriple, "core2", Features) {}
static void SetUpTestCase() {
LLVMInitializeX86TargetInfo();
LLVMInitializeX86Target();
LLVMInitializeX86TargetMC();
InitializeX86ExegesisTarget();
}
std::vector<MCInst> setRegTo(unsigned Reg, const APInt &Value) {
return State.getExegesisTarget().setRegTo(State.getSubtargetInfo(), Reg,
Value);
}
const Instruction &getInstr(unsigned OpCode) {
return State.getIC().getInstr(OpCode);
}
LLVMState State;
};
class Core2TargetTest : public X86TargetTest {
public:
Core2TargetTest() : X86TargetTest("") {}
};
class Core2AvxTargetTest : public X86TargetTest {
public:
Core2AvxTargetTest() : X86TargetTest("+avx") {}
};
class Core2Avx512TargetTest : public X86TargetTest {
public:
Core2Avx512TargetTest() : X86TargetTest("+avx512vl") {}
};
TEST_F(Core2TargetTest, NoHighByteRegs) {
EXPECT_TRUE(State.getRATC().reservedRegisters().test(X86::AH));
}
TEST_F(Core2TargetTest, SetFlags) {
const unsigned Reg = X86::EFLAGS;
EXPECT_THAT(setRegTo(Reg, APInt(64, 0x1111222233334444ULL)),
ElementsAre(IsStackAllocate(8),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 4),
OpcodeIs(X86::POPF64)));
}
TEST_F(Core2TargetTest, SetRegToGR8Value) {
const uint8_t Value = 0xFFU;
const unsigned Reg = X86::AL;
EXPECT_THAT(setRegTo(Reg, APInt(8, Value)),
ElementsAre(IsMovImmediate(X86::MOV8ri, Reg, Value)));
}
TEST_F(Core2TargetTest, SetRegToGR16Value) {
const uint16_t Value = 0xFFFFU;
const unsigned Reg = X86::BX;
EXPECT_THAT(setRegTo(Reg, APInt(16, Value)),
ElementsAre(IsMovImmediate(X86::MOV16ri, Reg, Value)));
}
TEST_F(Core2TargetTest, SetRegToGR32Value) {
const uint32_t Value = 0x7FFFFU;
const unsigned Reg = X86::ECX;
EXPECT_THAT(setRegTo(Reg, APInt(32, Value)),
ElementsAre(IsMovImmediate(X86::MOV32ri, Reg, Value)));
}
TEST_F(Core2TargetTest, SetRegToGR64Value) {
const uint64_t Value = 0x7FFFFFFFFFFFFFFFULL;
const unsigned Reg = X86::RDX;
EXPECT_THAT(setRegTo(Reg, APInt(64, Value)),
ElementsAre(IsMovImmediate(X86::MOV64ri, Reg, Value)));
}
TEST_F(Core2TargetTest, SetRegToVR64Value) {
EXPECT_THAT(setRegTo(X86::MM0, APInt(64, 0x1111222233334444ULL)),
ElementsAre(IsStackAllocate(8),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 4),
IsMovValueFromStack(X86::MMX_MOVQ64rm, X86::MM0),
IsStackDeallocate(8)));
}
TEST_F(Core2TargetTest, SetRegToVR128Value_Use_MOVDQUrm) {
EXPECT_THAT(
setRegTo(X86::XMM0, APInt(128, "11112222333344445555666677778888", 16)),
ElementsAre(IsStackAllocate(16),
IsMovValueToStack(X86::MOV32mi, 0x77778888UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x55556666UL, 4),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 8),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 12),
IsMovValueFromStack(X86::MOVDQUrm, X86::XMM0),
IsStackDeallocate(16)));
}
TEST_F(Core2AvxTargetTest, SetRegToVR128Value_Use_VMOVDQUrm) {
EXPECT_THAT(
setRegTo(X86::XMM0, APInt(128, "11112222333344445555666677778888", 16)),
ElementsAre(IsStackAllocate(16),
IsMovValueToStack(X86::MOV32mi, 0x77778888UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x55556666UL, 4),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 8),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 12),
IsMovValueFromStack(X86::VMOVDQUrm, X86::XMM0),
IsStackDeallocate(16)));
}
TEST_F(Core2Avx512TargetTest, SetRegToVR128Value_Use_VMOVDQU32Z128rm) {
EXPECT_THAT(
setRegTo(X86::XMM0, APInt(128, "11112222333344445555666677778888", 16)),
ElementsAre(IsStackAllocate(16),
IsMovValueToStack(X86::MOV32mi, 0x77778888UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x55556666UL, 4),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 8),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 12),
IsMovValueFromStack(X86::VMOVDQU32Z128rm, X86::XMM0),
IsStackDeallocate(16)));
}
TEST_F(Core2AvxTargetTest, SetRegToVR256Value_Use_VMOVDQUYrm) {
const char ValueStr[] =
"1111111122222222333333334444444455555555666666667777777788888888";
EXPECT_THAT(
setRegTo(X86::YMM0, APInt(256, ValueStr, 16)),
ElementsAreArray({IsStackAllocate(32),
IsMovValueToStack(X86::MOV32mi, 0x88888888UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x77777777UL, 4),
IsMovValueToStack(X86::MOV32mi, 0x66666666UL, 8),
IsMovValueToStack(X86::MOV32mi, 0x55555555UL, 12),
IsMovValueToStack(X86::MOV32mi, 0x44444444UL, 16),
IsMovValueToStack(X86::MOV32mi, 0x33333333UL, 20),
IsMovValueToStack(X86::MOV32mi, 0x22222222UL, 24),
IsMovValueToStack(X86::MOV32mi, 0x11111111UL, 28),
IsMovValueFromStack(X86::VMOVDQUYrm, X86::YMM0),
IsStackDeallocate(32)}));
}
TEST_F(Core2Avx512TargetTest, SetRegToVR256Value_Use_VMOVDQU32Z256rm) {
const char ValueStr[] =
"1111111122222222333333334444444455555555666666667777777788888888";
EXPECT_THAT(
setRegTo(X86::YMM0, APInt(256, ValueStr, 16)),
ElementsAreArray({IsStackAllocate(32),
IsMovValueToStack(X86::MOV32mi, 0x88888888UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x77777777UL, 4),
IsMovValueToStack(X86::MOV32mi, 0x66666666UL, 8),
IsMovValueToStack(X86::MOV32mi, 0x55555555UL, 12),
IsMovValueToStack(X86::MOV32mi, 0x44444444UL, 16),
IsMovValueToStack(X86::MOV32mi, 0x33333333UL, 20),
IsMovValueToStack(X86::MOV32mi, 0x22222222UL, 24),
IsMovValueToStack(X86::MOV32mi, 0x11111111UL, 28),
IsMovValueFromStack(X86::VMOVDQU32Z256rm, X86::YMM0),
IsStackDeallocate(32)}));
}
TEST_F(Core2Avx512TargetTest, SetRegToVR512Value) {
const char ValueStr[] =
"1111111122222222333333334444444455555555666666667777777788888888"
"99999999AAAAAAAABBBBBBBBCCCCCCCCDDDDDDDDEEEEEEEEFFFFFFFF00000000";
EXPECT_THAT(
setRegTo(X86::ZMM0, APInt(512, ValueStr, 16)),
ElementsAreArray({IsStackAllocate(64),
IsMovValueToStack(X86::MOV32mi, 0x00000000UL, 0),
IsMovValueToStack(X86::MOV32mi, 0xFFFFFFFFUL, 4),
IsMovValueToStack(X86::MOV32mi, 0xEEEEEEEEUL, 8),
IsMovValueToStack(X86::MOV32mi, 0xDDDDDDDDUL, 12),
IsMovValueToStack(X86::MOV32mi, 0xCCCCCCCCUL, 16),
IsMovValueToStack(X86::MOV32mi, 0xBBBBBBBBUL, 20),
IsMovValueToStack(X86::MOV32mi, 0xAAAAAAAAUL, 24),
IsMovValueToStack(X86::MOV32mi, 0x99999999UL, 28),
IsMovValueToStack(X86::MOV32mi, 0x88888888UL, 32),
IsMovValueToStack(X86::MOV32mi, 0x77777777UL, 36),
IsMovValueToStack(X86::MOV32mi, 0x66666666UL, 40),
IsMovValueToStack(X86::MOV32mi, 0x55555555UL, 44),
IsMovValueToStack(X86::MOV32mi, 0x44444444UL, 48),
IsMovValueToStack(X86::MOV32mi, 0x33333333UL, 52),
IsMovValueToStack(X86::MOV32mi, 0x22222222UL, 56),
IsMovValueToStack(X86::MOV32mi, 0x11111111UL, 60),
IsMovValueFromStack(X86::VMOVDQU32Zrm, X86::ZMM0),
IsStackDeallocate(64)}));
}
// Note: We always put 80 bits on the stack independently of the size of the
// value. This uses a bit more space but makes the code simpler.
TEST_F(Core2TargetTest, SetRegToST0_32Bits) {
EXPECT_THAT(setRegTo(X86::ST0, APInt(32, 0x11112222ULL)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x00000000UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x0000UL, 8),
OpcodeIs(X86::LD_F80m), IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToST1_32Bits) {
const MCInst CopySt0ToSt1 = MCInstBuilder(X86::ST_Frr).addReg(X86::ST1);
EXPECT_THAT(setRegTo(X86::ST1, APInt(32, 0x11112222ULL)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x00000000UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x0000UL, 8),
OpcodeIs(X86::LD_F80m), CopySt0ToSt1,
IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToST0_64Bits) {
EXPECT_THAT(setRegTo(X86::ST0, APInt(64, 0x1111222233334444ULL)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x33334444UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x0000UL, 8),
OpcodeIs(X86::LD_F80m), IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToST0_80Bits) {
EXPECT_THAT(setRegTo(X86::ST0, APInt(80, "11112222333344445555", 16)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x44445555UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x22223333UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x1111UL, 8),
OpcodeIs(X86::LD_F80m), IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToFP0_80Bits) {
EXPECT_THAT(setRegTo(X86::FP0, APInt(80, "11112222333344445555", 16)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x44445555UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x22223333UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x1111UL, 8),
OpcodeIs(X86::LD_Fp80m), IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToFP1_32Bits) {
EXPECT_THAT(setRegTo(X86::FP1, APInt(32, 0x11112222ULL)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x11112222UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x00000000UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x0000UL, 8),
OpcodeIs(X86::LD_Fp80m), IsStackDeallocate(10)));
}
TEST_F(Core2TargetTest, SetRegToFP1_4Bits) {
EXPECT_THAT(setRegTo(X86::FP1, APInt(4, 0x1ULL)),
ElementsAre(IsStackAllocate(10),
IsMovValueToStack(X86::MOV32mi, 0x00000001UL, 0),
IsMovValueToStack(X86::MOV32mi, 0x00000000UL, 4),
IsMovValueToStack(X86::MOV16mi, 0x0000UL, 8),
OpcodeIs(X86::LD_Fp80m), IsStackDeallocate(10)));
}
TEST_F(Core2Avx512TargetTest, FillMemoryOperands_ADD64rm) {
const Instruction &I = getInstr(X86::ADD64rm);
InstructionTemplate IT(&I);
constexpr const int kOffset = 42;
State.getExegesisTarget().fillMemoryOperands(IT, X86::RDI, kOffset);
// Memory is operands 2-6.
EXPECT_THAT(IT.getValueFor(I.Operands[2]), IsReg(X86::RDI));
EXPECT_THAT(IT.getValueFor(I.Operands[3]), IsImm(1));
EXPECT_THAT(IT.getValueFor(I.Operands[4]), IsReg(0));
EXPECT_THAT(IT.getValueFor(I.Operands[5]), IsImm(kOffset));
EXPECT_THAT(IT.getValueFor(I.Operands[6]), IsReg(0));
}
TEST_F(Core2Avx512TargetTest, FillMemoryOperands_VGATHERDPSZ128rm) {
const Instruction &I = getInstr(X86::VGATHERDPSZ128rm);
InstructionTemplate IT(&I);
constexpr const int kOffset = 42;
State.getExegesisTarget().fillMemoryOperands(IT, X86::RDI, kOffset);
// Memory is operands 4-8.
EXPECT_THAT(IT.getValueFor(I.Operands[4]), IsReg(X86::RDI));
EXPECT_THAT(IT.getValueFor(I.Operands[5]), IsImm(1));
EXPECT_THAT(IT.getValueFor(I.Operands[6]), IsReg(0));
EXPECT_THAT(IT.getValueFor(I.Operands[7]), IsImm(kOffset));
EXPECT_THAT(IT.getValueFor(I.Operands[8]), IsReg(0));
}
TEST_F(Core2TargetTest, AllowAsBackToBack) {
EXPECT_TRUE(
State.getExegesisTarget().allowAsBackToBack(getInstr(X86::ADD64rr)));
EXPECT_FALSE(
State.getExegesisTarget().allowAsBackToBack(getInstr(X86::LEA64r)));
}
} // namespace
} // namespace exegesis
} // namespace llvm