compiler/optimizing/emit_swap_mips_test.cc - LeafOS-Project/android_art - Gitiles

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "base/arena_allocator.h"
 #include "code_generator_mips.h"
 #include "optimizing_unit_test.h"
 #include "parallel_move_resolver.h"
 #include "utils/assembler_test_base.h"
 #include "utils/mips/assembler_mips.h"

 #include "gtest/gtest.h"

 namespace art {

 class EmitSwapMipsTest : public OptimizingUnitTest {
  public:
   void SetUp() override {
     instruction_set_ = InstructionSet::kMips;
     instruction_set_features_ = MipsInstructionSetFeatures::FromCppDefines();
     OptimizingUnitTest::SetUp();
     graph_ = CreateGraph();
     codegen_.reset(
         new (graph_->GetAllocator()) mips::CodeGeneratorMIPS(graph_, *compiler_options_));
     moves_ = new (GetAllocator()) HParallelMove(GetAllocator());
     test_helper_.reset(
         new AssemblerTestInfrastructure(GetArchitectureString(),
                                         GetAssemblerCmdName(),
                                         GetAssemblerParameters(),
                                         GetObjdumpCmdName(),
                                         GetObjdumpParameters(),
                                         GetDisassembleCmdName(),
                                         GetDisassembleParameters(),
                                         GetAssemblyHeader()));
   }

   void TearDown() override {
     test_helper_.reset();
     codegen_.reset();
     graph_ = nullptr;
     ResetPoolAndAllocator();
     OptimizingUnitTest::TearDown();
   }

   // Get the typically used name for this architecture.
   std::string GetArchitectureString() {
     return "mips";
   }

   // Get the name of the assembler.
   std::string GetAssemblerCmdName() {
     return "as";
   }

   // Switches to the assembler command.
   std::string GetAssemblerParameters() {
     return " --no-warn -32 -march=mips32r2";
   }

   // Get the name of the objdump.
   std::string GetObjdumpCmdName() {
     return "objdump";
   }

   // Switches to the objdump command.
   std::string GetObjdumpParameters() {
     return " -h";
   }

   // Get the name of the objdump.
   std::string GetDisassembleCmdName() {
     return "objdump";
   }

   // Switches to the objdump command.
   std::string GetDisassembleParameters() {
     return " -D -bbinary -mmips:isa32r2";
   }

   // No need for assembly header here.
   const char* GetAssemblyHeader() {
     return nullptr;
   }

   void DriverWrapper(HParallelMove* move,
                      const std::string& assembly_text,
                      const std::string& test_name) {
     codegen_->GetMoveResolver()->EmitNativeCode(move);
     assembler_ = codegen_->GetAssembler();
     assembler_->FinalizeCode();
     std::unique_ptr<std::vector<uint8_t>> data(new std::vector<uint8_t>(assembler_->CodeSize()));
     MemoryRegion code(&(*data)[0], data->size());
     assembler_->FinalizeInstructions(code);
     test_helper_->Driver(*data, assembly_text, test_name);
   }

  protected:
   HGraph* graph_;
   HParallelMove* moves_;
   std::unique_ptr<mips::CodeGeneratorMIPS> codegen_;
   mips::MipsAssembler* assembler_;
   std::unique_ptr<AssemblerTestInfrastructure> test_helper_;
 };

 TEST_F(EmitSwapMipsTest, TwoRegisters) {
   moves_->AddMove(
       Location::RegisterLocation(4),
       Location::RegisterLocation(5),
       DataType::Type::kInt32,
       nullptr);
   moves_->AddMove(
       Location::RegisterLocation(5),
       Location::RegisterLocation(4),
       DataType::Type::kInt32,
       nullptr);
   const char* expected =
       "or $t8, $a1, $zero\n"
       "or $a1, $a0, $zero\n"
       "or $a0, $t8, $zero\n";
   DriverWrapper(moves_, expected, "TwoRegisters");
 }

 TEST_F(EmitSwapMipsTest, TwoRegisterPairs) {
   moves_->AddMove(
       Location::RegisterPairLocation(4, 5),
       Location::RegisterPairLocation(6, 7),
       DataType::Type::kInt64,
       nullptr);
   moves_->AddMove(
       Location::RegisterPairLocation(6, 7),
       Location::RegisterPairLocation(4, 5),
       DataType::Type::kInt64,
       nullptr);
   const char* expected =
       "or $t8, $a2, $zero\n"
       "or $a2, $a0, $zero\n"
       "or $a0, $t8, $zero\n"
       "or $t8, $a3, $zero\n"
       "or $a3, $a1, $zero\n"
       "or $a1, $t8, $zero\n";
   DriverWrapper(moves_, expected, "TwoRegisterPairs");
 }

 TEST_F(EmitSwapMipsTest, TwoFpuRegistersFloat) {
   moves_->AddMove(
       Location::FpuRegisterLocation(4),
       Location::FpuRegisterLocation(2),
       DataType::Type::kFloat32,
       nullptr);
   moves_->AddMove(
       Location::FpuRegisterLocation(2),
       Location::FpuRegisterLocation(4),
       DataType::Type::kFloat32,
       nullptr);
   const char* expected =
       "mov.s $f6, $f2\n"
       "mov.s $f2, $f4\n"
       "mov.s $f4, $f6\n";
   DriverWrapper(moves_, expected, "TwoFpuRegistersFloat");
 }

 TEST_F(EmitSwapMipsTest, TwoFpuRegistersDouble) {
   moves_->AddMove(
       Location::FpuRegisterLocation(4),
       Location::FpuRegisterLocation(2),
       DataType::Type::kFloat64,
       nullptr);
   moves_->AddMove(
       Location::FpuRegisterLocation(2),
       Location::FpuRegisterLocation(4),
       DataType::Type::kFloat64,
       nullptr);
   const char* expected =
       "mov.d $f6, $f2\n"
       "mov.d $f2, $f4\n"
       "mov.d $f4, $f6\n";
   DriverWrapper(moves_, expected, "TwoFpuRegistersDouble");
 }

 TEST_F(EmitSwapMipsTest, RegisterAndFpuRegister) {
   moves_->AddMove(
       Location::RegisterLocation(4),
       Location::FpuRegisterLocation(2),
       DataType::Type::kFloat32,
       nullptr);
   moves_->AddMove(
       Location::FpuRegisterLocation(2),
       Location::RegisterLocation(4),
       DataType::Type::kFloat32,
       nullptr);
   const char* expected =
       "or $t8, $a0, $zero\n"
       "mfc1 $a0, $f2\n"
       "mtc1 $t8, $f2\n";
   DriverWrapper(moves_, expected, "RegisterAndFpuRegister");
 }

 TEST_F(EmitSwapMipsTest, RegisterPairAndFpuRegister) {
   moves_->AddMove(
       Location::RegisterPairLocation(4, 5),
       Location::FpuRegisterLocation(4),
       DataType::Type::kFloat64,
       nullptr);
   moves_->AddMove(
       Location::FpuRegisterLocation(4),
       Location::RegisterPairLocation(4, 5),
       DataType::Type::kFloat64,
       nullptr);
   const char* expected =
       "mfc1 $t8, $f4\n"
       "mfc1 $at, $f5\n"
       "mtc1 $a0, $f4\n"
       "mtc1 $a1, $f5\n"
       "or $a0, $t8, $zero\n"
       "or $a1, $at, $zero\n";
   DriverWrapper(moves_, expected, "RegisterPairAndFpuRegister");
 }

 TEST_F(EmitSwapMipsTest, TwoStackSlots) {
   moves_->AddMove(
       Location::StackSlot(52),
       Location::StackSlot(48),
       DataType::Type::kInt32,
       nullptr);
   moves_->AddMove(
       Location::StackSlot(48),
       Location::StackSlot(52),
       DataType::Type::kInt32,
       nullptr);
   const char* expected =
       "addiu $sp, $sp, -16\n"
       "sw $v0, 0($sp)\n"
       "lw $v0, 68($sp)\n"
       "lw $t8, 64($sp)\n"
       "sw $v0, 64($sp)\n"
       "sw $t8, 68($sp)\n"
       "lw $v0, 0($sp)\n"
       "addiu $sp, $sp, 16\n";
   DriverWrapper(moves_, expected, "TwoStackSlots");
 }

 TEST_F(EmitSwapMipsTest, TwoDoubleStackSlots) {
   moves_->AddMove(
       Location::DoubleStackSlot(56),
       Location::DoubleStackSlot(48),
       DataType::Type::kInt64,
       nullptr);
   moves_->AddMove(
       Location::DoubleStackSlot(48),
       Location::DoubleStackSlot(56),
       DataType::Type::kInt64,
       nullptr);
   const char* expected =
       "addiu $sp, $sp, -16\n"
       "sw $v0, 0($sp)\n"
       "lw $v0, 72($sp)\n"
       "lw $t8, 64($sp)\n"
       "sw $v0, 64($sp)\n"
       "sw $t8, 72($sp)\n"
       "lw $v0, 76($sp)\n"
       "lw $t8, 68($sp)\n"
       "sw $v0, 68($sp)\n"
       "sw $t8, 76($sp)\n"
       "lw $v0, 0($sp)\n"
       "addiu $sp, $sp, 16\n";
   DriverWrapper(moves_, expected, "TwoDoubleStackSlots");
 }

 TEST_F(EmitSwapMipsTest, RegisterAndStackSlot) {
   moves_->AddMove(
       Location::RegisterLocation(4),
       Location::StackSlot(48),
       DataType::Type::kInt32,
       nullptr);
   moves_->AddMove(
       Location::StackSlot(48),
       Location::RegisterLocation(4),
       DataType::Type::kInt32,
       nullptr);
   const char* expected =
       "or $t8, $a0, $zero\n"
       "lw $a0, 48($sp)\n"
       "sw $t8, 48($sp)\n";
   DriverWrapper(moves_, expected, "RegisterAndStackSlot");
 }

 TEST_F(EmitSwapMipsTest, RegisterPairAndDoubleStackSlot) {
   moves_->AddMove(
       Location::RegisterPairLocation(4, 5),
       Location::DoubleStackSlot(32),
       DataType::Type::kInt64,
       nullptr);
   moves_->AddMove(
       Location::DoubleStackSlot(32),
       Location::RegisterPairLocation(4, 5),
       DataType::Type::kInt64,
       nullptr);
   const char* expected =
       "or $t8, $a0, $zero\n"
       "lw $a0, 32($sp)\n"
       "sw $t8, 32($sp)\n"
       "or $t8, $a1, $zero\n"
       "lw $a1, 36($sp)\n"
       "sw $t8, 36($sp)\n";
   DriverWrapper(moves_, expected, "RegisterPairAndDoubleStackSlot");
 }

 TEST_F(EmitSwapMipsTest, FpuRegisterAndStackSlot) {
   moves_->AddMove(
       Location::FpuRegisterLocation(4),
       Location::StackSlot(48),
       DataType::Type::kFloat32,
       nullptr);
   moves_->AddMove(
       Location::StackSlot(48),
       Location::FpuRegisterLocation(4),
       DataType::Type::kFloat32,
       nullptr);
   const char* expected =
       "mov.s $f6, $f4\n"
       "lwc1 $f4, 48($sp)\n"
       "swc1 $f6, 48($sp)\n";
   DriverWrapper(moves_, expected, "FpuRegisterAndStackSlot");
 }

 TEST_F(EmitSwapMipsTest, FpuRegisterAndDoubleStackSlot) {
   moves_->AddMove(
       Location::FpuRegisterLocation(4),
       Location::DoubleStackSlot(48),
       DataType::Type::kFloat64,
       nullptr);
   moves_->AddMove(
       Location::DoubleStackSlot(48),
       Location::FpuRegisterLocation(4),
       DataType::Type::kFloat64,
       nullptr);
   const char* expected =
       "mov.d $f6, $f4\n"
       "ldc1 $f4, 48($sp)\n"
       "sdc1 $f6, 48($sp)\n";
   DriverWrapper(moves_, expected, "FpuRegisterAndDoubleStackSlot");
 }

 }  // namespace art
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "base/arena_allocator.h"
	#include "code_generator_mips.h"
	#include "optimizing_unit_test.h"
	#include "parallel_move_resolver.h"
	#include "utils/assembler_test_base.h"
	#include "utils/mips/assembler_mips.h"

	#include "gtest/gtest.h"

	namespace art {

	class EmitSwapMipsTest : public OptimizingUnitTest {
	public:
	void SetUp() override {
	instruction_set_ = InstructionSet::kMips;
	instruction_set_features_ = MipsInstructionSetFeatures::FromCppDefines();
	OptimizingUnitTest::SetUp();
	graph_ = CreateGraph();
	codegen_.reset(
	new (graph_->GetAllocator()) mips::CodeGeneratorMIPS(graph_, *compiler_options_));
	moves_ = new (GetAllocator()) HParallelMove(GetAllocator());
	test_helper_.reset(
	new AssemblerTestInfrastructure(GetArchitectureString(),
	GetAssemblerCmdName(),
	GetAssemblerParameters(),
	GetObjdumpCmdName(),
	GetObjdumpParameters(),
	GetDisassembleCmdName(),
	GetDisassembleParameters(),
	GetAssemblyHeader()));
	}

	void TearDown() override {
	test_helper_.reset();
	codegen_.reset();
	graph_ = nullptr;
	ResetPoolAndAllocator();
	OptimizingUnitTest::TearDown();
	}

	// Get the typically used name for this architecture.
	std::string GetArchitectureString() {
	return "mips";
	}

	// Get the name of the assembler.
	std::string GetAssemblerCmdName() {
	return "as";
	}

	// Switches to the assembler command.
	std::string GetAssemblerParameters() {
	return " --no-warn -32 -march=mips32r2";
	}

	// Get the name of the objdump.
	std::string GetObjdumpCmdName() {
	return "objdump";
	}

	// Switches to the objdump command.
	std::string GetObjdumpParameters() {
	return " -h";
	}

	// Get the name of the objdump.
	std::string GetDisassembleCmdName() {
	return "objdump";
	}

	// Switches to the objdump command.
	std::string GetDisassembleParameters() {
	return " -D -bbinary -mmips:isa32r2";
	}

	// No need for assembly header here.
	const char* GetAssemblyHeader() {
	return nullptr;
	}

	void DriverWrapper(HParallelMove* move,
	const std::string& assembly_text,
	const std::string& test_name) {
	codegen_->GetMoveResolver()->EmitNativeCode(move);
	assembler_ = codegen_->GetAssembler();
	assembler_->FinalizeCode();
	std::unique_ptr<std::vector<uint8_t>> data(new std::vector<uint8_t>(assembler_->CodeSize()));
	MemoryRegion code(&(*data)[0], data->size());
	assembler_->FinalizeInstructions(code);
	test_helper_->Driver(*data, assembly_text, test_name);
	}

	protected:
	HGraph* graph_;
	HParallelMove* moves_;
	std::unique_ptr<mips::CodeGeneratorMIPS> codegen_;
	mips::MipsAssembler* assembler_;
	std::unique_ptr<AssemblerTestInfrastructure> test_helper_;
	};

	TEST_F(EmitSwapMipsTest, TwoRegisters) {
	moves_->AddMove(
	Location::RegisterLocation(4),
	Location::RegisterLocation(5),
	DataType::Type::kInt32,
	nullptr);
	moves_->AddMove(
	Location::RegisterLocation(5),
	Location::RegisterLocation(4),
	DataType::Type::kInt32,
	nullptr);
	const char* expected =
	"or $t8, $a1, $zero\n"
	"or $a1, $a0, $zero\n"
	"or $a0, $t8, $zero\n";
	DriverWrapper(moves_, expected, "TwoRegisters");
	}

	TEST_F(EmitSwapMipsTest, TwoRegisterPairs) {
	moves_->AddMove(
	Location::RegisterPairLocation(4, 5),
	Location::RegisterPairLocation(6, 7),
	DataType::Type::kInt64,
	nullptr);
	moves_->AddMove(
	Location::RegisterPairLocation(6, 7),
	Location::RegisterPairLocation(4, 5),
	DataType::Type::kInt64,
	nullptr);
	const char* expected =
	"or $t8, $a2, $zero\n"
	"or $a2, $a0, $zero\n"
	"or $a0, $t8, $zero\n"
	"or $t8, $a3, $zero\n"
	"or $a3, $a1, $zero\n"
	"or $a1, $t8, $zero\n";
	DriverWrapper(moves_, expected, "TwoRegisterPairs");
	}

	TEST_F(EmitSwapMipsTest, TwoFpuRegistersFloat) {
	moves_->AddMove(
	Location::FpuRegisterLocation(4),
	Location::FpuRegisterLocation(2),
	DataType::Type::kFloat32,
	nullptr);
	moves_->AddMove(
	Location::FpuRegisterLocation(2),
	Location::FpuRegisterLocation(4),
	DataType::Type::kFloat32,
	nullptr);
	const char* expected =
	"mov.s $f6, $f2\n"
	"mov.s $f2, $f4\n"
	"mov.s $f4, $f6\n";
	DriverWrapper(moves_, expected, "TwoFpuRegistersFloat");
	}

	TEST_F(EmitSwapMipsTest, TwoFpuRegistersDouble) {
	moves_->AddMove(
	Location::FpuRegisterLocation(4),
	Location::FpuRegisterLocation(2),
	DataType::Type::kFloat64,
	nullptr);
	moves_->AddMove(
	Location::FpuRegisterLocation(2),
	Location::FpuRegisterLocation(4),
	DataType::Type::kFloat64,
	nullptr);
	const char* expected =
	"mov.d $f6, $f2\n"
	"mov.d $f2, $f4\n"
	"mov.d $f4, $f6\n";
	DriverWrapper(moves_, expected, "TwoFpuRegistersDouble");
	}

	TEST_F(EmitSwapMipsTest, RegisterAndFpuRegister) {
	moves_->AddMove(
	Location::RegisterLocation(4),
	Location::FpuRegisterLocation(2),
	DataType::Type::kFloat32,
	nullptr);
	moves_->AddMove(
	Location::FpuRegisterLocation(2),
	Location::RegisterLocation(4),
	DataType::Type::kFloat32,
	nullptr);
	const char* expected =
	"or $t8, $a0, $zero\n"
	"mfc1 $a0, $f2\n"
	"mtc1 $t8, $f2\n";
	DriverWrapper(moves_, expected, "RegisterAndFpuRegister");
	}

	TEST_F(EmitSwapMipsTest, RegisterPairAndFpuRegister) {
	moves_->AddMove(
	Location::RegisterPairLocation(4, 5),
	Location::FpuRegisterLocation(4),
	DataType::Type::kFloat64,
	nullptr);
	moves_->AddMove(
	Location::FpuRegisterLocation(4),
	Location::RegisterPairLocation(4, 5),
	DataType::Type::kFloat64,
	nullptr);
	const char* expected =
	"mfc1 $t8, $f4\n"
	"mfc1 $at, $f5\n"
	"mtc1 $a0, $f4\n"
	"mtc1 $a1, $f5\n"
	"or $a0, $t8, $zero\n"
	"or $a1, $at, $zero\n";
	DriverWrapper(moves_, expected, "RegisterPairAndFpuRegister");
	}

	TEST_F(EmitSwapMipsTest, TwoStackSlots) {
	moves_->AddMove(
	Location::StackSlot(52),
	Location::StackSlot(48),
	DataType::Type::kInt32,
	nullptr);
	moves_->AddMove(
	Location::StackSlot(48),
	Location::StackSlot(52),
	DataType::Type::kInt32,
	nullptr);
	const char* expected =
	"addiu $sp, $sp, -16\n"
	"sw $v0, 0($sp)\n"
	"lw $v0, 68($sp)\n"
	"lw $t8, 64($sp)\n"
	"sw $v0, 64($sp)\n"
	"sw $t8, 68($sp)\n"
	"lw $v0, 0($sp)\n"
	"addiu $sp, $sp, 16\n";
	DriverWrapper(moves_, expected, "TwoStackSlots");
	}

	TEST_F(EmitSwapMipsTest, TwoDoubleStackSlots) {
	moves_->AddMove(
	Location::DoubleStackSlot(56),
	Location::DoubleStackSlot(48),
	DataType::Type::kInt64,
	nullptr);
	moves_->AddMove(
	Location::DoubleStackSlot(48),
	Location::DoubleStackSlot(56),
	DataType::Type::kInt64,
	nullptr);
	const char* expected =
	"addiu $sp, $sp, -16\n"
	"sw $v0, 0($sp)\n"
	"lw $v0, 72($sp)\n"
	"lw $t8, 64($sp)\n"
	"sw $v0, 64($sp)\n"
	"sw $t8, 72($sp)\n"
	"lw $v0, 76($sp)\n"
	"lw $t8, 68($sp)\n"
	"sw $v0, 68($sp)\n"
	"sw $t8, 76($sp)\n"
	"lw $v0, 0($sp)\n"
	"addiu $sp, $sp, 16\n";
	DriverWrapper(moves_, expected, "TwoDoubleStackSlots");
	}

	TEST_F(EmitSwapMipsTest, RegisterAndStackSlot) {
	moves_->AddMove(
	Location::RegisterLocation(4),
	Location::StackSlot(48),
	DataType::Type::kInt32,
	nullptr);
	moves_->AddMove(
	Location::StackSlot(48),
	Location::RegisterLocation(4),
	DataType::Type::kInt32,
	nullptr);
	const char* expected =
	"or $t8, $a0, $zero\n"
	"lw $a0, 48($sp)\n"
	"sw $t8, 48($sp)\n";
	DriverWrapper(moves_, expected, "RegisterAndStackSlot");
	}

	TEST_F(EmitSwapMipsTest, RegisterPairAndDoubleStackSlot) {
	moves_->AddMove(
	Location::RegisterPairLocation(4, 5),
	Location::DoubleStackSlot(32),
	DataType::Type::kInt64,
	nullptr);
	moves_->AddMove(
	Location::DoubleStackSlot(32),
	Location::RegisterPairLocation(4, 5),
	DataType::Type::kInt64,
	nullptr);
	const char* expected =
	"or $t8, $a0, $zero\n"
	"lw $a0, 32($sp)\n"
	"sw $t8, 32($sp)\n"
	"or $t8, $a1, $zero\n"
	"lw $a1, 36($sp)\n"
	"sw $t8, 36($sp)\n";
	DriverWrapper(moves_, expected, "RegisterPairAndDoubleStackSlot");
	}

	TEST_F(EmitSwapMipsTest, FpuRegisterAndStackSlot) {
	moves_->AddMove(
	Location::FpuRegisterLocation(4),
	Location::StackSlot(48),
	DataType::Type::kFloat32,
	nullptr);
	moves_->AddMove(
	Location::StackSlot(48),
	Location::FpuRegisterLocation(4),
	DataType::Type::kFloat32,
	nullptr);
	const char* expected =
	"mov.s $f6, $f4\n"
	"lwc1 $f4, 48($sp)\n"
	"swc1 $f6, 48($sp)\n";
	DriverWrapper(moves_, expected, "FpuRegisterAndStackSlot");
	}

	TEST_F(EmitSwapMipsTest, FpuRegisterAndDoubleStackSlot) {
	moves_->AddMove(
	Location::FpuRegisterLocation(4),
	Location::DoubleStackSlot(48),
	DataType::Type::kFloat64,
	nullptr);
	moves_->AddMove(
	Location::DoubleStackSlot(48),
	Location::FpuRegisterLocation(4),
	DataType::Type::kFloat64,
	nullptr);
	const char* expected =
	"mov.d $f6, $f4\n"
	"ldc1 $f4, 48($sp)\n"
	"sdc1 $f6, 48($sp)\n";
	DriverWrapper(moves_, expected, "FpuRegisterAndDoubleStackSlot");
	}

	} // namespace art