compiler/utils/x86_64/assembler_x86_64_test.cc - platform/art - Git at Google

 /*
  * Copyright (C) 2014 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 "assembler_x86_64.h"

 #include "utils/assembler_test.h"

 namespace art {

 TEST(AssemblerX86_64, CreateBuffer) {
   AssemblerBuffer buffer;
   AssemblerBuffer::EnsureCapacity ensured(&buffer);
   buffer.Emit<uint8_t>(0x42);
   ASSERT_EQ(static_cast<size_t>(1), buffer.Size());
   buffer.Emit<int32_t>(42);
   ASSERT_EQ(static_cast<size_t>(5), buffer.Size());
 }

 class AssemblerX86_64Test : public AssemblerTest<x86_64::X86_64Assembler, x86_64::CpuRegister,
                                                  x86_64::Immediate> {
  protected:
   // Get the typically used name for this architecture, e.g., aarch64, x86-64, ...
   std::string GetArchitectureString() OVERRIDE {
     return "x86_64";
   }

   std::string GetDisassembleParameters() OVERRIDE {
     return " -D -bbinary -mi386:x86-64 -Mx86-64,addr64,data32 --no-show-raw-insn";
   }

   void SetUpHelpers() OVERRIDE {
     if (registers_.size() == 0) {
       registers_.push_back(new x86_64::CpuRegister(x86_64::RAX));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RBX));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RCX));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RDX));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RBP));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RSP));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RSI));
       registers_.push_back(new x86_64::CpuRegister(x86_64::RDI));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R8));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R9));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R10));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R11));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R12));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R13));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R14));
       registers_.push_back(new x86_64::CpuRegister(x86_64::R15));
     }
   }

   std::vector<x86_64::CpuRegister*> GetRegisters() OVERRIDE {
     return registers_;
   }

   x86_64::Immediate* CreateImmediate(int64_t imm_value) OVERRIDE {
     return new x86_64::Immediate(imm_value);
   }

  private:
   std::vector<x86_64::CpuRegister*> registers_;
 };


 TEST_F(AssemblerX86_64Test, Toolchain) {
   EXPECT_TRUE(CheckTools());
 }


 TEST_F(AssemblerX86_64Test, PushqRegs) {
   DriverStr(RepeatR(&x86_64::X86_64Assembler::pushq, "pushq %{reg}"), "pushq");
 }

 TEST_F(AssemblerX86_64Test, PushqImm) {
   DriverStr(RepeatI(&x86_64::X86_64Assembler::pushq, 4U, "pushq ${imm}"), "pushqi");
 }


 TEST_F(AssemblerX86_64Test, MovqRegs) {
   DriverStr(RepeatRR(&x86_64::X86_64Assembler::movq, "movq %{reg2}, %{reg1}"), "movq");
 }

 TEST_F(AssemblerX86_64Test, MovqImm) {
   DriverStr(RepeatRI(&x86_64::X86_64Assembler::movq, 8U, "movq ${imm}, %{reg}"), "movqi");
 }


 TEST_F(AssemblerX86_64Test, AddqRegs) {
   DriverStr(RepeatRR(&x86_64::X86_64Assembler::addq, "addq %{reg2}, %{reg1}"), "addq");
 }

 TEST_F(AssemblerX86_64Test, AddqImm) {
   DriverStr(RepeatRI(&x86_64::X86_64Assembler::addq, 4U, "addq ${imm}, %{reg}"), "addqi");
 }


 TEST_F(AssemblerX86_64Test, SubqRegs) {
   DriverStr(RepeatRR(&x86_64::X86_64Assembler::subq, "subq %{reg2}, %{reg1}"), "subq");
 }

 TEST_F(AssemblerX86_64Test, SubqImm) {
   DriverStr(RepeatRI(&x86_64::X86_64Assembler::subq, 4U, "subq ${imm}, %{reg}"), "subqi");
 }


 TEST_F(AssemblerX86_64Test, CmpqRegs) {
   DriverStr(RepeatRR(&x86_64::X86_64Assembler::cmpq, "cmpq %{reg2}, %{reg1}"), "cmpq");
 }


 TEST_F(AssemblerX86_64Test, XorqImm) {
   DriverStr(RepeatRI(&x86_64::X86_64Assembler::xorq, 4U, "xorq ${imm}, %{reg}"), "xorqi");
 }


 std::string setcc_test_fn(x86_64::X86_64Assembler* assembler) {
   // From Condition
   /*
   kOverflow     =  0,
   kNoOverflow   =  1,
   kBelow        =  2,
   kAboveEqual   =  3,
   kEqual        =  4,
   kNotEqual     =  5,
   kBelowEqual   =  6,
   kAbove        =  7,
   kSign         =  8,
   kNotSign      =  9,
   kParityEven   = 10,
   kParityOdd    = 11,
   kLess         = 12,
   kGreaterEqual = 13,
   kLessEqual    = 14,
   */
   std::string suffixes[15] = { "o", "no", "b", "ae", "e", "ne", "be", "a", "s", "ns", "pe", "po",
                                "l", "ge", "le" };

   std::vector<x86_64::CpuRegister*> registers;
   registers.push_back(new x86_64::CpuRegister(x86_64::RAX));
   registers.push_back(new x86_64::CpuRegister(x86_64::RBX));
   registers.push_back(new x86_64::CpuRegister(x86_64::RCX));
   registers.push_back(new x86_64::CpuRegister(x86_64::RDX));
   registers.push_back(new x86_64::CpuRegister(x86_64::RBP));
   registers.push_back(new x86_64::CpuRegister(x86_64::RSP));
   registers.push_back(new x86_64::CpuRegister(x86_64::RSI));
   registers.push_back(new x86_64::CpuRegister(x86_64::RDI));
   registers.push_back(new x86_64::CpuRegister(x86_64::R8));
   registers.push_back(new x86_64::CpuRegister(x86_64::R9));
   registers.push_back(new x86_64::CpuRegister(x86_64::R10));
   registers.push_back(new x86_64::CpuRegister(x86_64::R11));
   registers.push_back(new x86_64::CpuRegister(x86_64::R12));
   registers.push_back(new x86_64::CpuRegister(x86_64::R13));
   registers.push_back(new x86_64::CpuRegister(x86_64::R14));
   registers.push_back(new x86_64::CpuRegister(x86_64::R15));

   std::string byte_regs[16];
   byte_regs[x86_64::RAX] = "al";
   byte_regs[x86_64::RBX] = "bl";
   byte_regs[x86_64::RCX] = "cl";
   byte_regs[x86_64::RDX] = "dl";
   byte_regs[x86_64::RBP] = "bpl";
   byte_regs[x86_64::RSP] = "spl";
   byte_regs[x86_64::RSI] = "sil";
   byte_regs[x86_64::RDI] = "dil";
   byte_regs[x86_64::R8] = "r8b";
   byte_regs[x86_64::R9] = "r9b";
   byte_regs[x86_64::R10] = "r10b";
   byte_regs[x86_64::R11] = "r11b";
   byte_regs[x86_64::R12] = "r12b";
   byte_regs[x86_64::R13] = "r13b";
   byte_regs[x86_64::R14] = "r14b";
   byte_regs[x86_64::R15] = "r15b";

   std::ostringstream str;

   for (auto reg : registers) {
     for (size_t i = 0; i < 15; ++i) {
       assembler->setcc(static_cast<x86_64::Condition>(i), *reg);
       str << "set" << suffixes[i] << " %" << byte_regs[reg->AsRegister()] << "\n";
     }
   }

   return str.str();
 }

 TEST_F(AssemblerX86_64Test, SetCC) {
   DriverFn(&setcc_test_fn, "setcc");
 }

 }  // namespace art
	/*
	* Copyright (C) 2014 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 "assembler_x86_64.h"

	#include "utils/assembler_test.h"

	namespace art {

	TEST(AssemblerX86_64, CreateBuffer) {
	AssemblerBuffer buffer;
	AssemblerBuffer::EnsureCapacity ensured(&buffer);
	buffer.Emit<uint8_t>(0x42);
	ASSERT_EQ(static_cast<size_t>(1), buffer.Size());
	buffer.Emit<int32_t>(42);
	ASSERT_EQ(static_cast<size_t>(5), buffer.Size());
	}

	class AssemblerX86_64Test : public AssemblerTest<x86_64::X86_64Assembler, x86_64::CpuRegister,
	x86_64::Immediate> {
	protected:
	// Get the typically used name for this architecture, e.g., aarch64, x86-64, ...
	std::string GetArchitectureString() OVERRIDE {
	return "x86_64";
	}

	std::string GetDisassembleParameters() OVERRIDE {
	return " -D -bbinary -mi386:x86-64 -Mx86-64,addr64,data32 --no-show-raw-insn";
	}

	void SetUpHelpers() OVERRIDE {
	if (registers_.size() == 0) {
	registers_.push_back(new x86_64::CpuRegister(x86_64::RAX));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RBX));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RCX));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RDX));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RBP));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RSP));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RSI));
	registers_.push_back(new x86_64::CpuRegister(x86_64::RDI));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R8));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R9));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R10));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R11));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R12));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R13));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R14));
	registers_.push_back(new x86_64::CpuRegister(x86_64::R15));
	}
	}

	std::vector<x86_64::CpuRegister*> GetRegisters() OVERRIDE {
	return registers_;
	}

	x86_64::Immediate* CreateImmediate(int64_t imm_value) OVERRIDE {
	return new x86_64::Immediate(imm_value);
	}

	private:
	std::vector<x86_64::CpuRegister*> registers_;
	};


	TEST_F(AssemblerX86_64Test, Toolchain) {
	EXPECT_TRUE(CheckTools());
	}


	TEST_F(AssemblerX86_64Test, PushqRegs) {
	DriverStr(RepeatR(&x86_64::X86_64Assembler::pushq, "pushq %{reg}"), "pushq");
	}

	TEST_F(AssemblerX86_64Test, PushqImm) {
	DriverStr(RepeatI(&x86_64::X86_64Assembler::pushq, 4U, "pushq ${imm}"), "pushqi");
	}


	TEST_F(AssemblerX86_64Test, MovqRegs) {
	DriverStr(RepeatRR(&x86_64::X86_64Assembler::movq, "movq %{reg2}, %{reg1}"), "movq");
	}

	TEST_F(AssemblerX86_64Test, MovqImm) {
	DriverStr(RepeatRI(&x86_64::X86_64Assembler::movq, 8U, "movq ${imm}, %{reg}"), "movqi");
	}


	TEST_F(AssemblerX86_64Test, AddqRegs) {
	DriverStr(RepeatRR(&x86_64::X86_64Assembler::addq, "addq %{reg2}, %{reg1}"), "addq");
	}

	TEST_F(AssemblerX86_64Test, AddqImm) {
	DriverStr(RepeatRI(&x86_64::X86_64Assembler::addq, 4U, "addq ${imm}, %{reg}"), "addqi");
	}


	TEST_F(AssemblerX86_64Test, SubqRegs) {
	DriverStr(RepeatRR(&x86_64::X86_64Assembler::subq, "subq %{reg2}, %{reg1}"), "subq");
	}

	TEST_F(AssemblerX86_64Test, SubqImm) {
	DriverStr(RepeatRI(&x86_64::X86_64Assembler::subq, 4U, "subq ${imm}, %{reg}"), "subqi");
	}


	TEST_F(AssemblerX86_64Test, CmpqRegs) {
	DriverStr(RepeatRR(&x86_64::X86_64Assembler::cmpq, "cmpq %{reg2}, %{reg1}"), "cmpq");
	}


	TEST_F(AssemblerX86_64Test, XorqImm) {
	DriverStr(RepeatRI(&x86_64::X86_64Assembler::xorq, 4U, "xorq ${imm}, %{reg}"), "xorqi");
	}


	std::string setcc_test_fn(x86_64::X86_64Assembler* assembler) {
	// From Condition
	/*
	kOverflow = 0,
	kNoOverflow = 1,
	kBelow = 2,
	kAboveEqual = 3,
	kEqual = 4,
	kNotEqual = 5,
	kBelowEqual = 6,
	kAbove = 7,
	kSign = 8,
	kNotSign = 9,
	kParityEven = 10,
	kParityOdd = 11,
	kLess = 12,
	kGreaterEqual = 13,
	kLessEqual = 14,
	*/
	std::string suffixes[15] = { "o", "no", "b", "ae", "e", "ne", "be", "a", "s", "ns", "pe", "po",
	"l", "ge", "le" };

	std::vector<x86_64::CpuRegister*> registers;
	registers.push_back(new x86_64::CpuRegister(x86_64::RAX));
	registers.push_back(new x86_64::CpuRegister(x86_64::RBX));
	registers.push_back(new x86_64::CpuRegister(x86_64::RCX));
	registers.push_back(new x86_64::CpuRegister(x86_64::RDX));
	registers.push_back(new x86_64::CpuRegister(x86_64::RBP));
	registers.push_back(new x86_64::CpuRegister(x86_64::RSP));
	registers.push_back(new x86_64::CpuRegister(x86_64::RSI));
	registers.push_back(new x86_64::CpuRegister(x86_64::RDI));
	registers.push_back(new x86_64::CpuRegister(x86_64::R8));
	registers.push_back(new x86_64::CpuRegister(x86_64::R9));
	registers.push_back(new x86_64::CpuRegister(x86_64::R10));
	registers.push_back(new x86_64::CpuRegister(x86_64::R11));
	registers.push_back(new x86_64::CpuRegister(x86_64::R12));
	registers.push_back(new x86_64::CpuRegister(x86_64::R13));
	registers.push_back(new x86_64::CpuRegister(x86_64::R14));
	registers.push_back(new x86_64::CpuRegister(x86_64::R15));

	std::string byte_regs[16];
	byte_regs[x86_64::RAX] = "al";
	byte_regs[x86_64::RBX] = "bl";
	byte_regs[x86_64::RCX] = "cl";
	byte_regs[x86_64::RDX] = "dl";
	byte_regs[x86_64::RBP] = "bpl";
	byte_regs[x86_64::RSP] = "spl";
	byte_regs[x86_64::RSI] = "sil";
	byte_regs[x86_64::RDI] = "dil";
	byte_regs[x86_64::R8] = "r8b";
	byte_regs[x86_64::R9] = "r9b";
	byte_regs[x86_64::R10] = "r10b";
	byte_regs[x86_64::R11] = "r11b";
	byte_regs[x86_64::R12] = "r12b";
	byte_regs[x86_64::R13] = "r13b";
	byte_regs[x86_64::R14] = "r14b";
	byte_regs[x86_64::R15] = "r15b";

	std::ostringstream str;

	for (auto reg : registers) {
	for (size_t i = 0; i < 15; ++i) {
	assembler->setcc(static_cast<x86_64::Condition>(i), *reg);
	str << "set" << suffixes[i] << " %" << byte_regs[reg->AsRegister()] << "\n";
	}
	}

	return str.str();
	}

	TEST_F(AssemblerX86_64Test, SetCC) {
	DriverFn(&setcc_test_fn, "setcc");
	}

	} // namespace art