//===-- SnippetGeneratorTest.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 "../Common/AssemblerUtils.h" #include "Latency.h" #include "LlvmState.h" #include "MCInstrDescView.h" #include "RegisterAliasing.h" #include "MipsInstrInfo.h" #include namespace llvm { namespace exegesis { void InitializeMipsExegesisTarget(); namespace { using testing::AnyOf; using testing::ElementsAre; using testing::SizeIs; MATCHER(IsInvalid, "") { return !arg.isValid(); } MATCHER(IsReg, "") { return arg.isReg(); } class MipsSnippetGeneratorTest : public ::testing::Test { protected: MipsSnippetGeneratorTest() : State("mips-unknown-linux", "mips32"), InstrInfo(State.getInstrInfo()) {} static void SetUpTestCase() { LLVMInitializeMipsTargetInfo(); LLVMInitializeMipsTarget(); LLVMInitializeMipsTargetMC(); InitializeMipsExegesisTarget(); } LLVMState State; const MCInstrInfo &InstrInfo; }; template class SnippetGeneratorTest : public MipsSnippetGeneratorTest { protected: SnippetGeneratorTest() : Generator(State, SnippetGenerator::Options()) {} std::vector checkAndGetCodeTemplates(unsigned Opcode) { randomGenerator().seed(0); // Initialize seed. const Instruction &Instr = State.getIC().getInstr(Opcode); auto CodeTemplateOrError = Generator.generateCodeTemplates( Instr, State.getRATC().emptyRegisters()); EXPECT_FALSE(CodeTemplateOrError.takeError()); // Valid configuration. return std::move(CodeTemplateOrError.get()); } SnippetGeneratorT Generator; }; using LatencySnippetGeneratorTest = SnippetGeneratorTest; TEST_F(LatencySnippetGeneratorTest, ImplicitSelfDependencyThroughExplicitRegs) { // - ADD // - Op0 Explicit Def RegClass(GPR32) // - Op1 Explicit Use RegClass(GPR32) // - Op2 Explicit Use RegClass(GPR32) // - Var0 [Op0] // - Var1 [Op1] // - Var2 [Op2] const unsigned Opcode = Mips::ADD; const auto CodeTemplates = checkAndGetCodeTemplates(Opcode); ASSERT_THAT(CodeTemplates, SizeIs(1)); const auto &CT = CodeTemplates[0]; EXPECT_THAT(CT.Execution, ExecutionMode::SERIAL_VIA_EXPLICIT_REGS); ASSERT_THAT(CT.Instructions, SizeIs(1)); const InstructionTemplate &IT = CT.Instructions[0]; EXPECT_THAT(IT.getOpcode(), Opcode); ASSERT_THAT(IT.getVariableValues(), SizeIs(3)); EXPECT_THAT(IT.getVariableValues(), AnyOf(ElementsAre(IsReg(), IsInvalid(), IsReg()), ElementsAre(IsReg(), IsReg(), IsInvalid()))) << "Op0 is either set to Op1 or to Op2"; } TEST_F(LatencySnippetGeneratorTest, ImplicitSelfDependencyThroughExplicitRegsForbidAll) { // - XOR // - Op0 Explicit Def RegClass(GPR32) // - Op1 Explicit Use RegClass(GPR32) // - Op2 Explicit Use RegClass(GPR32) // - Var0 [Op0] // - Var1 [Op1] // - Var2 [Op2] randomGenerator().seed(0); // Initialize seed. const Instruction &Instr = State.getIC().getInstr(Mips::XOR); auto AllRegisters = State.getRATC().emptyRegisters(); AllRegisters.flip(); auto Error = Generator.generateCodeTemplates(Instr, AllRegisters).takeError(); EXPECT_TRUE((bool)Error); consumeError(std::move(Error)); } } // namespace } // namespace exegesis } // namespace llvm