//===-- 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 #include #include "MCTargetDesc/MipsMCTargetDesc.h" #include "TestBase.h" #include "llvm/Support/TargetRegistry.h" #include "llvm/Support/TargetSelect.h" #include "gmock/gmock.h" #include "gtest/gtest.h" namespace llvm { namespace exegesis { namespace { using testing::AllOf; using testing::ElementsAre; using testing::Eq; using testing::Matcher; using testing::Property; Matcher IsImm(int64_t Value) { return AllOf(Property(&MCOperand::isImm, Eq(true)), Property(&MCOperand::getImm, Eq(Value))); } Matcher IsReg(unsigned Reg) { return AllOf(Property(&MCOperand::isReg, Eq(true)), Property(&MCOperand::getReg, Eq(Reg))); } Matcher OpcodeIs(unsigned Opcode) { return Property(&MCInst::getOpcode, Eq(Opcode)); } Matcher IsLoadLow16BitImm(unsigned Reg, int64_t Value, bool IsGPR32) { const unsigned ZeroReg = IsGPR32 ? Mips::ZERO : Mips::ZERO_64; const unsigned ORi = IsGPR32 ? Mips::ORi : Mips::ORi64; return AllOf(OpcodeIs(ORi), ElementsAre(IsReg(Reg), IsReg(ZeroReg), IsImm(Value))); } Matcher IsLoadHigh16BitImm(unsigned Reg, int64_t Value, bool IsGPR32) { const unsigned LUi = IsGPR32 ? Mips::LUi : Mips::LUi64; return AllOf(OpcodeIs(LUi), ElementsAre(IsReg(Reg), IsImm(Value))); } Matcher IsShift(unsigned Reg, uint16_t Amount, bool IsGPR32) { const unsigned SLL = IsGPR32 ? Mips::SLL : Mips::SLL64_64; return AllOf(OpcodeIs(SLL), ElementsAre(IsReg(Reg), IsReg(Reg), IsImm(Amount))); } class MipsTargetTest : public MipsTestBase { protected: std::vector setRegTo(unsigned Reg, const APInt &Value) { return State.getExegesisTarget().setRegTo(State.getSubtargetInfo(), Reg, Value); } }; TEST_F(MipsTargetTest, SetGPR32RegTo16BitValue) { const uint16_t Value = 0xFFFFU; const unsigned Reg = Mips::T0; EXPECT_THAT(setRegTo(Reg, APInt(16, Value)), ElementsAre(IsLoadLow16BitImm(Reg, Value, true))); } TEST_F(MipsTargetTest, SetGPR64RegTo16BitValue) { const uint16_t Value = 0xFFFFU; const unsigned Reg = Mips::T0_64; EXPECT_THAT(setRegTo(Reg, APInt(16, Value)), ElementsAre(IsLoadLow16BitImm(Reg, Value, false))); } TEST_F(MipsTargetTest, SetGPR32RegTo32BitValue) { const uint32_t Value0 = 0xFFFF0000UL; const unsigned Reg0 = Mips::T0; EXPECT_THAT(setRegTo(Reg0, APInt(32, Value0)), ElementsAre(IsLoadHigh16BitImm(Reg0, 0xFFFFU, true))); const uint32_t Value1 = 0xFFFFFFFFUL; const unsigned Reg1 = Mips::T1; EXPECT_THAT(setRegTo(Reg1, APInt(32, Value1)), ElementsAre(IsLoadHigh16BitImm(Reg1, 0xFFFFU, true), IsLoadLow16BitImm(Reg1, 0xFFFFU, true))); } TEST_F(MipsTargetTest, SetGPR64RegTo32BitValue) { const uint32_t Value0 = 0x7FFF0000UL; const unsigned Reg0 = Mips::T0_64; EXPECT_THAT(setRegTo(Reg0, APInt(32, Value0)), ElementsAre(IsLoadHigh16BitImm(Reg0, 0x7FFFU, false))); const uint32_t Value1 = 0x7FFFFFFFUL; const unsigned Reg1 = Mips::T1_64; EXPECT_THAT(setRegTo(Reg1, APInt(32, Value1)), ElementsAre(IsLoadHigh16BitImm(Reg1, 0x7FFFU, false), IsLoadLow16BitImm(Reg1, 0xFFFFU, false))); const uint32_t Value2 = 0xFFFF0000UL; const unsigned Reg2 = Mips::T2_64; EXPECT_THAT(setRegTo(Reg2, APInt(32, Value2)), ElementsAre(IsLoadLow16BitImm(Reg2, 0xFFFFU, false), IsShift(Reg2, 16, false))); const uint32_t Value3 = 0xFFFFFFFFUL; const unsigned Reg3 = Mips::T3_64; EXPECT_THAT(setRegTo(Reg3, APInt(32, Value3)), ElementsAre(IsLoadLow16BitImm(Reg3, 0xFFFFU, false), IsShift(Reg3, 16, false), IsLoadLow16BitImm(Reg3, 0xFFFFU, false))); } TEST_F(MipsTargetTest, DefaultPfmCounters) { const std::string Expected = "CYCLES"; EXPECT_EQ(State.getExegesisTarget().getPfmCounters("").CycleCounter, Expected); EXPECT_EQ( State.getExegesisTarget().getPfmCounters("unknown_cpu").CycleCounter, Expected); } } // namespace } // namespace exegesis } // namespace llvm