| /* |
| * 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 <inttypes.h> |
| #include <map> |
| #include <random> |
| |
| #include "base/bit_utils.h" |
| #include "base/macros.h" |
| #include "base/malloc_arena_pool.h" |
| #include "base/stl_util.h" |
| #include "jni_macro_assembler_x86_64.h" |
| #include "utils/assembler_test.h" |
| #include "utils/jni_macro_assembler_test.h" |
| |
| namespace art HIDDEN { |
| |
| TEST(AssemblerX86_64, CreateBuffer) { |
| MallocArenaPool pool; |
| ArenaAllocator allocator(&pool); |
| AssemblerBuffer buffer(&allocator); |
| 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()); |
| } |
| |
| #ifdef ART_TARGET_ANDROID |
| static constexpr size_t kRandomIterations = 1000; // Devices might be puny, don't stress them... |
| #else |
| static constexpr size_t kRandomIterations = 100000; // Hosts are pretty powerful. |
| #endif |
| |
| TEST(AssemblerX86_64, SignExtension) { |
| // 32bit. |
| for (int32_t i = 0; i < 128; i++) { |
| EXPECT_TRUE(IsInt<8>(i)) << i; |
| } |
| for (int32_t i = 128; i < 255; i++) { |
| EXPECT_FALSE(IsInt<8>(i)) << i; |
| } |
| // Do some higher ones randomly. |
| std::random_device rd; |
| std::default_random_engine e1(rd()); |
| std::uniform_int_distribution<int32_t> uniform_dist(256, INT32_MAX); |
| for (size_t i = 0; i < kRandomIterations; i++) { |
| int32_t value = uniform_dist(e1); |
| EXPECT_FALSE(IsInt<8>(value)) << value; |
| } |
| |
| // Negative ones. |
| for (int32_t i = -1; i >= -128; i--) { |
| EXPECT_TRUE(IsInt<8>(i)) << i; |
| } |
| |
| for (int32_t i = -129; i > -256; i--) { |
| EXPECT_FALSE(IsInt<8>(i)) << i; |
| } |
| |
| // Do some lower ones randomly. |
| std::uniform_int_distribution<int32_t> uniform_dist2(INT32_MIN, -256); |
| for (size_t i = 0; i < 100; i++) { |
| int32_t value = uniform_dist2(e1); |
| EXPECT_FALSE(IsInt<8>(value)) << value; |
| } |
| |
| // 64bit. |
| for (int64_t i = 0; i < 128; i++) { |
| EXPECT_TRUE(IsInt<8>(i)) << i; |
| } |
| for (int32_t i = 128; i < 255; i++) { |
| EXPECT_FALSE(IsInt<8>(i)) << i; |
| } |
| // Do some higher ones randomly. |
| std::uniform_int_distribution<int64_t> uniform_dist3(256, INT64_MAX); |
| for (size_t i = 0; i < 100; i++) { |
| int64_t value = uniform_dist3(e1); |
| EXPECT_FALSE(IsInt<8>(value)) << value; |
| } |
| |
| // Negative ones. |
| for (int64_t i = -1; i >= -128; i--) { |
| EXPECT_TRUE(IsInt<8>(i)) << i; |
| } |
| |
| for (int64_t i = -129; i > -256; i--) { |
| EXPECT_FALSE(IsInt<8>(i)) << i; |
| } |
| |
| // Do some lower ones randomly. |
| std::uniform_int_distribution<int64_t> uniform_dist4(INT64_MIN, -256); |
| for (size_t i = 0; i < kRandomIterations; i++) { |
| int64_t value = uniform_dist4(e1); |
| EXPECT_FALSE(IsInt<8>(value)) << value; |
| } |
| |
| int64_t value = INT64_C(0x1200000010); |
| x86_64::Immediate imm(value); |
| EXPECT_FALSE(imm.is_int8()); |
| EXPECT_FALSE(imm.is_int16()); |
| EXPECT_FALSE(imm.is_int32()); |
| value = INT64_C(0x8000000000000001); |
| x86_64::Immediate imm2(value); |
| EXPECT_FALSE(imm2.is_int8()); |
| EXPECT_FALSE(imm2.is_int16()); |
| EXPECT_FALSE(imm2.is_int32()); |
| } |
| |
| struct X86_64CpuRegisterCompare { |
| bool operator()(const x86_64::CpuRegister& a, const x86_64::CpuRegister& b) const { |
| return a.AsRegister() < b.AsRegister(); |
| } |
| }; |
| |
| // |
| // Test fixture. |
| // |
| |
| class AssemblerX86_64Test : public AssemblerTest<x86_64::X86_64Assembler, |
| x86_64::Address, |
| x86_64::CpuRegister, |
| x86_64::XmmRegister, |
| x86_64::Immediate> { |
| public: |
| using Base = AssemblerTest<x86_64::X86_64Assembler, |
| x86_64::Address, |
| x86_64::CpuRegister, |
| x86_64::XmmRegister, |
| x86_64::Immediate>; |
| |
| protected: |
| InstructionSet GetIsa() override { |
| return InstructionSet::kX86_64; |
| } |
| |
| void SetUpHelpers() override { |
| if (addresses_singleton_.size() == 0) { |
| // One addressing mode to test the repeat drivers. |
| addresses_singleton_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RAX), |
| x86_64::CpuRegister(x86_64::RBX), TIMES_1, -1)); |
| } |
| |
| if (addresses_.size() == 0) { |
| // Several addressing modes. |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::CpuRegister(x86_64::RAX), TIMES_1, 15)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::CpuRegister(x86_64::RBX), TIMES_2, 16)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::CpuRegister(x86_64::RCX), TIMES_4, 17)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::CpuRegister(x86_64::RDX), TIMES_8, 18)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RAX), -1)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RBX), 0)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RSI), 1)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RDI), 987654321)); |
| // Several addressing modes with the special ESP. |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), |
| x86_64::CpuRegister(x86_64::RAX), TIMES_1, 15)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), |
| x86_64::CpuRegister(x86_64::RBX), TIMES_2, 16)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), |
| x86_64::CpuRegister(x86_64::RCX), TIMES_4, 17)); |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), |
| x86_64::CpuRegister(x86_64::RDX), TIMES_8, 18)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RSP), -1)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RSP), 0)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RSP), 1)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::RSP), 987654321)); |
| // Several addressing modes with the higher registers. |
| addresses_.push_back( |
| x86_64::Address(x86_64::CpuRegister(x86_64::R8), |
| x86_64::CpuRegister(x86_64::R15), TIMES_2, -1)); |
| addresses_.push_back(x86_64::Address(x86_64::CpuRegister(x86_64::R15), 123456789)); |
| } |
| |
| 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)); |
| |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RAX), "eax"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBX), "ebx"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RCX), "ecx"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDX), "edx"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBP), "ebp"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSP), "esp"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSI), "esi"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDI), "edi"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R8), "r8d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R9), "r9d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R10), "r10d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R11), "r11d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R12), "r12d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R13), "r13d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R14), "r14d"); |
| secondary_register_names_.emplace(x86_64::CpuRegister(x86_64::R15), "r15d"); |
| |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RAX), "ax"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBX), "bx"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RCX), "cx"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDX), "dx"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBP), "bp"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSP), "sp"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSI), "si"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDI), "di"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R8), "r8w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R9), "r9w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R10), "r10w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R11), "r11w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R12), "r12w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R13), "r13w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R14), "r14w"); |
| tertiary_register_names_.emplace(x86_64::CpuRegister(x86_64::R15), "r15w"); |
| |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RAX), "al"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBX), "bl"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RCX), "cl"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDX), "dl"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RBP), "bpl"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSP), "spl"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RSI), "sil"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::RDI), "dil"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R8), "r8b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R9), "r9b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R10), "r10b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R11), "r11b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R12), "r12b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R13), "r13b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R14), "r14b"); |
| quaternary_register_names_.emplace(x86_64::CpuRegister(x86_64::R15), "r15b"); |
| |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM0)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM1)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM2)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM3)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM4)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM5)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM6)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM7)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM8)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM9)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM10)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM11)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM12)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM13)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM14)); |
| fp_registers_.push_back(new x86_64::XmmRegister(x86_64::XMM15)); |
| } |
| } |
| |
| void TearDown() override { |
| AssemblerTest::TearDown(); |
| STLDeleteElements(®isters_); |
| STLDeleteElements(&fp_registers_); |
| } |
| |
| std::vector<x86_64::Address> GetAddresses() override { |
| return addresses_; |
| } |
| |
| std::vector<x86_64::CpuRegister*> GetRegisters() override { |
| return registers_; |
| } |
| |
| std::vector<x86_64::XmmRegister*> GetFPRegisters() override { |
| return fp_registers_; |
| } |
| |
| x86_64::Immediate CreateImmediate(int64_t imm_value) override { |
| return x86_64::Immediate(imm_value); |
| } |
| |
| std::string GetSecondaryRegisterName(const x86_64::CpuRegister& reg) override { |
| CHECK(secondary_register_names_.find(reg) != secondary_register_names_.end()); |
| return secondary_register_names_[reg]; |
| } |
| |
| std::string GetTertiaryRegisterName(const x86_64::CpuRegister& reg) override { |
| CHECK(tertiary_register_names_.find(reg) != tertiary_register_names_.end()); |
| return tertiary_register_names_[reg]; |
| } |
| |
| std::string GetQuaternaryRegisterName(const x86_64::CpuRegister& reg) override { |
| CHECK(quaternary_register_names_.find(reg) != quaternary_register_names_.end()); |
| return quaternary_register_names_[reg]; |
| } |
| |
| std::vector<x86_64::Address> addresses_singleton_; |
| |
| private: |
| std::vector<x86_64::Address> addresses_; |
| std::vector<x86_64::CpuRegister*> registers_; |
| std::map<x86_64::CpuRegister, std::string, X86_64CpuRegisterCompare> secondary_register_names_; |
| std::map<x86_64::CpuRegister, std::string, X86_64CpuRegisterCompare> tertiary_register_names_; |
| std::map<x86_64::CpuRegister, std::string, X86_64CpuRegisterCompare> quaternary_register_names_; |
| std::vector<x86_64::XmmRegister*> fp_registers_; |
| }; |
| |
| class AssemblerX86_64AVXTest : public AssemblerX86_64Test { |
| public: |
| AssemblerX86_64AVXTest() |
| : instruction_set_features_(X86_64InstructionSetFeatures::FromVariant("kabylake", nullptr)) {} |
| protected: |
| x86_64::X86_64Assembler* CreateAssembler(ArenaAllocator* allocator) override { |
| return new (allocator) x86_64::X86_64Assembler(allocator, instruction_set_features_.get()); |
| } |
| private: |
| std::unique_ptr<const X86_64InstructionSetFeatures> instruction_set_features_; |
| }; |
| |
| // |
| // Test some repeat drivers used in the tests. |
| // |
| |
| TEST_F(AssemblerX86_64Test, RepeatI4) { |
| EXPECT_EQ("$0\n$-1\n$18\n$4660\n$-4660\n$305419896\n$-305419896\n", |
| RepeatI(/*f*/ nullptr, /*imm_bytes*/ 4U, "${imm}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatI8) { |
| EXPECT_EQ("$0\n$-1\n$18\n$4660\n$-4660\n$305419896\n$-305419896\n" |
| "$20015998343868\n$-20015998343868\n$1311768467463790320\n" |
| "$-1311768467463790320\n", |
| RepeatI(/*f*/ nullptr, /*imm_bytes*/ 8U, "${imm}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repeatr) { |
| EXPECT_EQ("%eax\n%ebx\n%ecx\n%edx\n%ebp\n%esp\n%esi\n%edi\n" |
| "%r8d\n%r9d\n%r10d\n%r11d\n%r12d\n%r13d\n%r14d\n%r15d\n", |
| Repeatr(/*f*/ nullptr, "%{reg}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatrI) { |
| EXPECT_NE(RepeatrI(/*f*/ nullptr, /*imm_bytes*/ 1U, "%{reg} ${imm}"). |
| find("%eax $0\n%eax $-1\n%eax $18\n%ebx $0\n%ebx $-1\n%ebx $18\n" |
| "%ecx $0\n%ecx $-1\n%ecx $18\n%edx $0\n%edx $-1\n%edx $18\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repeatrr) { |
| EXPECT_NE(Repeatrr(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%eax %eax\n%eax %ebx\n%eax %ecx\n%eax %edx\n" |
| "%eax %ebp\n%eax %esp\n%eax %esi\n%eax %edi\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repeatrb) { |
| EXPECT_NE(Repeatrb(/*f*/ nullptr, "%{reg1} %{reg2}"). |
| find("%eax %al\n%eax %bl\n%eax %cl\n%eax %dl\n%eax %bpl\n" |
| "%eax %spl\n%eax %sil\n%eax %dil\n%eax %r8b\n%eax %r9b\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatrF) { |
| EXPECT_NE(RepeatrF(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%eax %xmm0\n%eax %xmm1\n%eax %xmm2\n%eax %xmm3\n" |
| "%eax %xmm4\n%eax %xmm5\n%eax %xmm6\n%eax %xmm7\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatR) { |
| EXPECT_EQ("%rax\n%rbx\n%rcx\n%rdx\n%rbp\n%rsp\n%rsi\n%rdi\n" |
| "%r8\n%r9\n%r10\n%r11\n%r12\n%r13\n%r14\n%r15\n", |
| RepeatR(/*f*/ nullptr, "%{reg}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatRI) { |
| EXPECT_NE(RepeatRI(/*f*/ nullptr, /*imm_bytes*/ 1U, "%{reg} ${imm}") |
| .find("%rax $0\n%rax $-1\n%rax $18\n%rbx $0\n%rbx $-1\n%rbx $18\n" |
| "%rcx $0\n%rcx $-1\n%rcx $18\n%rdx $0\n%rdx $-1\n%rdx $18\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatRr) { |
| EXPECT_NE(RepeatRr(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%rax %eax\n%rax %ebx\n%rax %ecx\n%rax %edx\n%rax %ebp\n" |
| "%rax %esp\n%rax %esi\n%rax %edi\n%rax %r8d\n%rax %r9d\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatRR) { |
| EXPECT_NE(RepeatRR(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%rax %rax\n%rax %rbx\n%rax %rcx\n%rax %rdx\n%rax %rbp\n" |
| "%rax %rsp\n%rax %rsi\n%rax %rdi\n%rax %r8\n%rax %r9\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatRF) { |
| EXPECT_NE(RepeatRF(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%rax %xmm0\n%rax %xmm1\n%rax %xmm2\n%rax %xmm3\n%rax %xmm4\n" |
| "%rax %xmm5\n%rax %xmm6\n%rax %xmm7\n%rax %xmm8\n%rax %xmm9\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatFF) { |
| EXPECT_NE(RepeatFF(/*f*/ nullptr, "%{reg1} %{reg2}") |
| .find("%xmm0 %xmm0\n%xmm0 %xmm1\n%xmm0 %xmm2\n%xmm0 %xmm3\n%xmm0 %xmm4\n" |
| "%xmm0 %xmm5\n%xmm0 %xmm6\n%xmm0 %xmm7\n%xmm0 %xmm8\n%xmm0 %xmm9\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatFFI) { |
| EXPECT_NE(RepeatFFI(/*f*/ nullptr, /*imm_bytes*/ 1U, "%{reg1} %{reg2} ${imm}") |
| .find("%xmm0 %xmm0 $0\n%xmm0 %xmm0 $-1\n%xmm0 %xmm0 $18\n" |
| "%xmm0 %xmm1 $0\n%xmm0 %xmm1 $-1\n%xmm0 %xmm1 $18\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatA) { |
| EXPECT_EQ("-1(%rax,%rbx,1)\n", RepeatA(/*f*/ nullptr, addresses_singleton_, "{mem}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatAFull) { |
| EXPECT_EQ("15(%rdi,%rax,1)\n16(%rdi,%rbx,2)\n17(%rdi,%rcx,4)\n18(%rdi,%rdx,8)\n" |
| "-1(%rax)\n(%rbx)\n1(%rsi)\n987654321(%rdi)\n15(%rsp,%rax,1)\n" |
| "16(%rsp,%rbx,2)\n17(%rsp,%rcx,4)\n18(%rsp,%rdx,8)\n-1(%rsp)\n" |
| "(%rsp)\n1(%rsp)\n987654321(%rsp)\n-1(%r8,%r15,2)\n123456789(%r15)\n", |
| RepeatA(/*f*/ nullptr, "{mem}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatAI) { |
| EXPECT_EQ("-1(%rax,%rbx,1) $0\n-1(%rax,%rbx,1) $-1\n-1(%rax,%rbx,1) $18\n", |
| RepeatAI(/*f*/ nullptr, /*imm_bytes*/ 1U, addresses_singleton_, "{mem} ${imm}")); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatRA) { |
| EXPECT_NE(RepeatRA(/*f*/ nullptr, addresses_singleton_, "%{reg} {mem}") |
| .find("%rax -1(%rax,%rbx,1)\n%rbx -1(%rax,%rbx,1)\n%rcx -1(%rax,%rbx,1)\n" |
| "%rdx -1(%rax,%rbx,1)\n%rbp -1(%rax,%rbx,1)\n%rsp -1(%rax,%rbx,1)\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatrA) { |
| EXPECT_NE(RepeatrA(/*f*/ nullptr, addresses_singleton_, "%{reg} {mem}") |
| .find("%eax -1(%rax,%rbx,1)\n%ebx -1(%rax,%rbx,1)\n%ecx -1(%rax,%rbx,1)\n" |
| "%edx -1(%rax,%rbx,1)\n%ebp -1(%rax,%rbx,1)\n%esp -1(%rax,%rbx,1)\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatAR) { |
| EXPECT_NE(RepeatAR(/*f*/ nullptr, addresses_singleton_, "{mem} %{reg}") |
| .find("-1(%rax,%rbx,1) %rax\n-1(%rax,%rbx,1) %rbx\n-1(%rax,%rbx,1) %rcx\n" |
| "-1(%rax,%rbx,1) %rdx\n-1(%rax,%rbx,1) %rbp\n-1(%rax,%rbx,1) %rsp\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatAr) { |
| EXPECT_NE(RepeatAr(/*f*/ nullptr, addresses_singleton_, "{mem} %{reg}") |
| .find("-1(%rax,%rbx,1) %eax\n-1(%rax,%rbx,1) %ebx\n-1(%rax,%rbx,1) %ecx\n" |
| "-1(%rax,%rbx,1) %edx\n-1(%rax,%rbx,1) %ebp\n-1(%rax,%rbx,1) %esp\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatFA) { |
| EXPECT_NE(RepeatFA(/*f*/ nullptr, addresses_singleton_, "%{reg} {mem}"). |
| find("%xmm0 -1(%rax,%rbx,1)\n%xmm1 -1(%rax,%rbx,1)\n%xmm2 -1(%rax,%rbx,1)\n" |
| "%xmm3 -1(%rax,%rbx,1)\n%xmm4 -1(%rax,%rbx,1)\n%xmm5 -1(%rax,%rbx,1)\n"), |
| std::string::npos); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepeatAF) { |
| EXPECT_NE(RepeatAF(/*f*/ nullptr, addresses_singleton_, "{mem} %{reg}") |
| .find("-1(%rax,%rbx,1) %xmm0\n-1(%rax,%rbx,1) %xmm1\n-1(%rax,%rbx,1) %xmm2\n" |
| "-1(%rax,%rbx,1) %xmm3\n-1(%rax,%rbx,1) %xmm4\n-1(%rax,%rbx,1) %xmm5\n"), |
| std::string::npos); |
| } |
| |
| // |
| // Actual x86-64 instruction assembler tests. |
| // |
| |
| TEST_F(AssemblerX86_64Test, Toolchain) { |
| EXPECT_TRUE(CheckTools()); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PopqAllAddresses) { |
| // Make sure all addressing modes combinations are tested at least once. |
| std::vector<x86_64::Address> all_addresses; |
| for (x86_64::CpuRegister* base : GetRegisters()) { |
| // Base only. |
| all_addresses.push_back(x86_64::Address(*base, -1)); |
| all_addresses.push_back(x86_64::Address(*base, 0)); |
| all_addresses.push_back(x86_64::Address(*base, 1)); |
| all_addresses.push_back(x86_64::Address(*base, 123456789)); |
| for (x86_64::CpuRegister* index : GetRegisters()) { |
| if (index->AsRegister() == x86_64::RSP) { |
| // Index cannot be RSP. |
| continue; |
| } else if (base->AsRegister() == index->AsRegister()) { |
| // Index only. |
| all_addresses.push_back(x86_64::Address(*index, TIMES_1, -1)); |
| all_addresses.push_back(x86_64::Address(*index, TIMES_2, 0)); |
| all_addresses.push_back(x86_64::Address(*index, TIMES_4, 1)); |
| all_addresses.push_back(x86_64::Address(*index, TIMES_8, 123456789)); |
| } |
| // Base and index. |
| all_addresses.push_back(x86_64::Address(*base, *index, TIMES_1, -1)); |
| all_addresses.push_back(x86_64::Address(*base, *index, TIMES_2, 0)); |
| all_addresses.push_back(x86_64::Address(*base, *index, TIMES_4, 1)); |
| all_addresses.push_back(x86_64::Address(*base, *index, TIMES_8, 123456789)); |
| } |
| } |
| DriverStr(RepeatA(&x86_64::X86_64Assembler::popq, all_addresses, "popq {mem}"), "popq"); |
| } |
| |
| 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, /*imm_bytes*/ 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, /*imm_bytes*/ 8U, |
| "movq ${imm}, %{reg}"), "movqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovlRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::movl, "mov %{reg2}, %{reg1}"), "movl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::movl, /*imm_bytes*/ 4U, |
| "mov ${imm}, %{reg}"), "movli"); |
| } |
| |
| 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, /*imm_bytes*/ 4U, |
| "addq ${imm}, %{reg}"), "addqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AddlRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::addl, "add %{reg2}, %{reg1}"), "addl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AddlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::addl, /*imm_bytes*/ 4U, |
| "add ${imm}, %{reg}"), "addli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Addw) { |
| DriverStr( |
| RepeatAI(&x86_64::X86_64Assembler::addw, /*imm_bytes*/2U, "addw ${imm}, {mem}"), "addw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ImulqReg1) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::imulq, "imulq %{reg}"), "imulq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ImulqRegs) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::imulq, "imulq %{reg2}, %{reg1}"), "imulq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ImulqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::imulq, /*imm_bytes*/ 4U, |
| "imulq ${imm}, %{reg}, %{reg}"), |
| "imulqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ImullRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::imull, "imul %{reg2}, %{reg1}"), "imull"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ImullImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::imull, /*imm_bytes*/ 4U, |
| "imull ${imm}, %{reg}, %{reg}"), |
| "imulli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Mull) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::mull, "mull %{reg}"), "mull"); |
| } |
| |
| 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, /*imm_bytes*/ 4U, |
| "subq ${imm}, %{reg}"), "subqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SublRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::subl, "sub %{reg2}, %{reg1}"), "subl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SublImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::subl, /*imm_bytes*/ 4U, |
| "sub ${imm}, %{reg}"), "subli"); |
| } |
| |
| // Shll only allows CL as the shift count. |
| std::string shll_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->shll(*reg, shifter); |
| str << "shll %cl, %" << assembler_test->GetSecondaryRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShllReg) { |
| DriverFn(&shll_fn, "shll"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShllImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::shll, /*imm_bytes*/ 1U, |
| "shll ${imm}, %{reg}"), "shlli"); |
| } |
| |
| // Shlq only allows CL as the shift count. |
| std::string shlq_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->shlq(*reg, shifter); |
| str << "shlq %cl, %" << assembler_test->GetRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShlqReg) { |
| DriverFn(&shlq_fn, "shlq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShlqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::shlq, /*imm_bytes*/ 1U, |
| "shlq ${imm}, %{reg}"), "shlqi"); |
| } |
| |
| // Shrl only allows CL as the shift count. |
| std::string shrl_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->shrl(*reg, shifter); |
| str << "shrl %cl, %" << assembler_test->GetSecondaryRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShrlReg) { |
| DriverFn(&shrl_fn, "shrl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShrlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::shrl, /*imm_bytes*/ 1U, "shrl ${imm}, %{reg}"), "shrli"); |
| } |
| |
| // Shrq only allows CL as the shift count. |
| std::string shrq_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->shrq(*reg, shifter); |
| str << "shrq %cl, %" << assembler_test->GetRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShrqReg) { |
| DriverFn(&shrq_fn, "shrq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ShrqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::shrq, /*imm_bytes*/ 1U, "shrq ${imm}, %{reg}"), "shrqi"); |
| } |
| |
| // Sarl only allows CL as the shift count. |
| std::string sarl_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->sarl(*reg, shifter); |
| str << "sarl %cl, %" << assembler_test->GetSecondaryRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SarlReg) { |
| DriverFn(&sarl_fn, "sarl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SarlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::sarl, /*imm_bytes*/ 1U, "sarl ${imm}, %{reg}"), "sarli"); |
| } |
| |
| // Sarq only allows CL as the shift count. |
| std::string sarq_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->sarq(*reg, shifter); |
| str << "sarq %cl, %" << assembler_test->GetRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SarqReg) { |
| DriverFn(&sarq_fn, "sarq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SarqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::sarq, /*imm_bytes*/ 1U, "sarq ${imm}, %{reg}"), "sarqi"); |
| } |
| |
| // Rorl only allows CL as the shift count. |
| std::string rorl_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->rorl(*reg, shifter); |
| str << "rorl %cl, %" << assembler_test->GetSecondaryRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RorlReg) { |
| DriverFn(&rorl_fn, "rorl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RorlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::rorl, /*imm_bytes*/ 1U, "rorl ${imm}, %{reg}"), "rorli"); |
| } |
| |
| // Roll only allows CL as the shift count. |
| std::string roll_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->roll(*reg, shifter); |
| str << "roll %cl, %" << assembler_test->GetSecondaryRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RollReg) { |
| DriverFn(&roll_fn, "roll"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RollImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::roll, /*imm_bytes*/ 1U, "roll ${imm}, %{reg}"), "rolli"); |
| } |
| |
| // Rorq only allows CL as the shift count. |
| std::string rorq_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->rorq(*reg, shifter); |
| str << "rorq %cl, %" << assembler_test->GetRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RorqReg) { |
| DriverFn(&rorq_fn, "rorq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RorqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::rorq, /*imm_bytes*/ 1U, "rorq ${imm}, %{reg}"), "rorqi"); |
| } |
| |
| // Rolq only allows CL as the shift count. |
| std::string rolq_fn(AssemblerX86_64Test::Base* assembler_test, x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| std::vector<x86_64::CpuRegister*> registers = assembler_test->GetRegisters(); |
| x86_64::CpuRegister shifter(x86_64::RCX); |
| for (auto reg : registers) { |
| assembler->rolq(*reg, shifter); |
| str << "rolq %cl, %" << assembler_test->GetRegisterName(*reg) << "\n"; |
| } |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RolqReg) { |
| DriverFn(&rolq_fn, "rolq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RolqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::rolq, /*imm_bytes*/ 1U, "rolq ${imm}, %{reg}"), "rolqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmpqRegs) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::cmpq, "cmpq %{reg2}, %{reg1}"), "cmpq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmpqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::cmpq, |
| /*imm_bytes*/ 4U, |
| "cmpq ${imm}, %{reg}"), "cmpqi"); // only imm32 |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmplRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::cmpl, "cmp %{reg2}, %{reg1}"), "cmpl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmplImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::cmpl, /*imm_bytes*/ 4U, "cmpl ${imm}, %{reg}"), "cmpli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Testl) { |
| // Note: uses different order for GCC than usual. This makes GCC happy, and doesn't have an |
| // impact on functional correctness. |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::testl, "testl %{reg1}, %{reg2}"), "testl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Idivq) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::idivq, "idivq %{reg}"), "idivq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Idivl) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::idivl, "idivl %{reg}"), "idivl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divq) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::divq, "divq %{reg}"), "divq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divl) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::divl, "divl %{reg}"), "divl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Negq) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::negq, "negq %{reg}"), "negq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Negl) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::negl, "negl %{reg}"), "negl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Notq) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::notq, "notq %{reg}"), "notq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Notl) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::notl, "notl %{reg}"), "notl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AndqRegs) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::andq, "andq %{reg2}, %{reg1}"), "andq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AndqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::andq, |
| /*imm_bytes*/ 4U, |
| "andq ${imm}, %{reg}"), "andqi"); // only imm32 |
| } |
| |
| TEST_F(AssemblerX86_64Test, AndlRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::andl, "andl %{reg2}, %{reg1}"), "andl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AndlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::andl, |
| /*imm_bytes*/ 4U, |
| "andl ${imm}, %{reg}"), "andli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Andw) { |
| DriverStr( |
| RepeatAI(&x86_64::X86_64Assembler::andw, /*imm_bytes*/2U, "andw ${imm}, {mem}"), "andw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, OrqRegs) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::orq, "orq %{reg2}, %{reg1}"), "orq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, OrlRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::orl, "orl %{reg2}, %{reg1}"), "orl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, OrlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::orl, |
| /*imm_bytes*/ 4U, "orl ${imm}, %{reg}"), "orli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XorqRegs) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::xorq, "xorq %{reg2}, %{reg1}"), "xorq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XorqImm) { |
| DriverStr(RepeatRI(&x86_64::X86_64Assembler::xorq, |
| /*imm_bytes*/ 4U, "xorq ${imm}, %{reg}"), "xorqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XorlRegs) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::xorl, "xor %{reg2}, %{reg1}"), "xorl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XorlImm) { |
| DriverStr(RepeatrI(&x86_64::X86_64Assembler::xorl, |
| /*imm_bytes*/ 4U, "xor ${imm}, %{reg}"), "xorli"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgqReg) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::xchgq, "xchgq %{reg2}, %{reg1}"), "xchgq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgqMem) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::xchgq, "xchgq %{reg}, {mem}"), "xchgq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchglReg) { |
| // Exclude `xcghl eax, eax` because the reference implementation generates 0x87 0xC0 (contrary to |
| // the intel manual saying that this should be a `nop` 0x90). All other cases are the same. |
| static const std::vector<std::pair<x86_64::CpuRegister, x86_64::CpuRegister>> except = { |
| std::make_pair(x86_64::CpuRegister(x86_64::RAX), x86_64::CpuRegister(x86_64::RAX)) |
| }; |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::xchgl, "xchgl %{reg2}, %{reg1}", &except), "xchgl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchglMem) { |
| DriverStr(RepeatrA(&x86_64::X86_64Assembler::xchgl, "xchgl %{reg}, {mem}"), "xchgl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgwReg) { |
| DriverStr(Repeatww(&x86_64::X86_64Assembler::xchgw, "xchgw %{reg2}, %{reg1}"), "xchgw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgwMem) { |
| DriverStr(RepeatwA(&x86_64::X86_64Assembler::xchgw, "xchgw %{reg}, {mem}"), "xchgw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgbReg) { |
| DriverStr(Repeatbb(&x86_64::X86_64Assembler::xchgb, "xchgb %{reg2}, %{reg1}"), "xchgb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XchgbMem) { |
| DriverStr(RepeatbA(&x86_64::X86_64Assembler::xchgb, "xchgb %{reg}, {mem}"), "xchgb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddqReg) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::xaddq, "xaddq %{reg2}, %{reg1}"), "xaddq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddqMem) { |
| DriverStr(RepeatAR(&x86_64::X86_64Assembler::xaddq, "xaddq %{reg}, {mem}"), "xaddq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddlReg) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::xaddl, "xaddl %{reg2}, %{reg1}"), "xaddl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddlMem) { |
| DriverStr(RepeatAr(&x86_64::X86_64Assembler::xaddl, "xaddl %{reg}, {mem}"), "xaddl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddwReg) { |
| DriverStr(Repeatww(&x86_64::X86_64Assembler::xaddw, "xaddw %{reg2}, %{reg1}"), "xaddw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddwMem) { |
| DriverStr(RepeatAw(&x86_64::X86_64Assembler::xaddw, "xaddw %{reg}, {mem}"), "xaddw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddbReg) { |
| DriverStr(Repeatbb(&x86_64::X86_64Assembler::xaddb, "xaddb %{reg2}, %{reg1}"), "xaddb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, XaddbMem) { |
| DriverStr(RepeatAb(&x86_64::X86_64Assembler::xaddb, "xaddb %{reg}, {mem}"), "xaddb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockXaddq) { |
| DriverStr( |
| RepeatAR(&x86_64::X86_64Assembler::LockXaddq, "lock xaddq %{reg}, {mem}"), "lock_xaddq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockXaddl) { |
| DriverStr( |
| RepeatAr(&x86_64::X86_64Assembler::LockXaddl, "lock xaddl %{reg}, {mem}"), "lock_xaddl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockXaddw) { |
| DriverStr( |
| RepeatAw(&x86_64::X86_64Assembler::LockXaddw, "lock xaddw %{reg}, {mem}"), "lock_xaddw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockXaddb) { |
| DriverStr( |
| RepeatAb(&x86_64::X86_64Assembler::LockXaddb, "lock xaddb %{reg}, {mem}"), "lock_xaddb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpxchgb) { |
| DriverStr(RepeatAb(&x86_64::X86_64Assembler::cmpxchgb, "cmpxchgb %{reg}, {mem}"), "cmpxchgb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpxchgw) { |
| DriverStr(RepeatAw(&x86_64::X86_64Assembler::cmpxchgw, "cmpxchgw %{reg}, {mem}"), "cmpxchgw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpxchgl) { |
| DriverStr(RepeatAr(&x86_64::X86_64Assembler::cmpxchgl, "cmpxchgl %{reg}, {mem}"), "cmpxchgl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpxchgq) { |
| DriverStr(RepeatAR(&x86_64::X86_64Assembler::cmpxchgq, "cmpxchg %{reg}, {mem}"), "cmpxchg"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockCmpxchgb) { |
| DriverStr(RepeatAb(&x86_64::X86_64Assembler::LockCmpxchgb, |
| "lock cmpxchgb %{reg}, {mem}"), "lock_cmpxchgb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockCmpxchgw) { |
| DriverStr(RepeatAw(&x86_64::X86_64Assembler::LockCmpxchgw, |
| "lock cmpxchgw %{reg}, {mem}"), "lock_cmpxchgw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockCmpxchgl) { |
| DriverStr(RepeatAr(&x86_64::X86_64Assembler::LockCmpxchgl, |
| "lock cmpxchgl %{reg}, {mem}"), "lock_cmpxchgl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, LockCmpxchgq) { |
| DriverStr(RepeatAR(&x86_64::X86_64Assembler::LockCmpxchgq, |
| "lock cmpxchg %{reg}, {mem}"), "lock_cmpxchg"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovqStore) { |
| DriverStr(RepeatAR(&x86_64::X86_64Assembler::movq, "movq %{reg}, {mem}"), "movq_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovqLoad) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::movq, "movq {mem}, %{reg}"), "movq_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovlStore) { |
| DriverStr(RepeatAr(&x86_64::X86_64Assembler::movl, "movl %{reg}, {mem}"), "movl_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovlLoad) { |
| DriverStr(RepeatrA(&x86_64::X86_64Assembler::movl, "movl {mem}, %{reg}"), "movl_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovwStore) { |
| DriverStr(RepeatAw(&x86_64::X86_64Assembler::movw, "movw %{reg}, {mem}"), "movw_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovbStore) { |
| DriverStr(RepeatAb(&x86_64::X86_64Assembler::movb, "movb %{reg}, {mem}"), "movb_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpw) { |
| DriverStr( |
| RepeatAI(&x86_64::X86_64Assembler::cmpw, /*imm_bytes*/ 2U, "cmpw ${imm}, {mem}"), "cmpw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovqAddrImm) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::movq, |
| /*imm_bytes*/ 4U, |
| "movq ${imm}, {mem}"), "movq"); // only imm32 |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovlAddrImm) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::movl, |
| /*imm_bytes*/ 4U, "movl ${imm}, {mem}"), "movl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovwAddrImm) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::movw, |
| /*imm_bytes*/ 2U, "movw ${imm}, {mem}"), "movw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovbAddrImm) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::movb, |
| /*imm_bytes*/ 1U, "movb ${imm}, {mem}"), "movb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movntl) { |
| DriverStr(RepeatAr(&x86_64::X86_64Assembler::movntl, "movntil %{reg}, {mem}"), "movntl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movntq) { |
| DriverStr(RepeatAR(&x86_64::X86_64Assembler::movntq, "movntiq %{reg}, {mem}"), "movntq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsi2ssAddr) { |
| GetAssembler()->cvtsi2ss(x86_64::XmmRegister(x86_64::XMM0), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RAX), 0), |
| /*is64bit*/ false); |
| GetAssembler()->cvtsi2ss(x86_64::XmmRegister(x86_64::XMM0), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RAX), 0), |
| /*is64bit*/ true); |
| const char* expected = "cvtsi2ss 0(%RAX), %xmm0\n" |
| "cvtsi2ssq 0(%RAX), %xmm0\n"; |
| DriverStr(expected, "cvtsi2ss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsi2sdAddr) { |
| GetAssembler()->cvtsi2sd(x86_64::XmmRegister(x86_64::XMM0), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RAX), 0), |
| /*is64bit*/ false); |
| GetAssembler()->cvtsi2sd(x86_64::XmmRegister(x86_64::XMM0), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RAX), 0), |
| /*is64bit*/ true); |
| const char* expected = "cvtsi2sd 0(%RAX), %xmm0\n" |
| "cvtsi2sdq 0(%RAX), %xmm0\n"; |
| DriverStr(expected, "cvtsi2sd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmpqAddr) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::cmpq, "cmpq {mem}, %{reg}"), "cmpq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovsxdAddr) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::movsxd, "movslq {mem}, %{reg}"), "movsxd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, TestqAddr) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::testq, "testq {mem}, %{reg}"), "testq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, AddqAddr) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::addq, "addq {mem}, %{reg}"), "addq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SubqAddr) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::subq, "subq {mem}, %{reg}"), "subq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtss2sdAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::cvtss2sd, "cvtss2sd {mem}, %{reg}"), "cvtss2sd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsd2ssAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::cvtsd2ss, "cvtsd2ss {mem}, %{reg}"), "cvtsd2ss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ComissAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::comiss, "comiss {mem}, %{reg}"), "comiss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, ComisdAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::comisd, "comisd {mem}, %{reg}"), "comisd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, UComissAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::ucomiss, "ucomiss {mem}, %{reg}"), "ucomiss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, UComisdAddr) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::ucomisd, "ucomisd {mem}, %{reg}"), "ucomisd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Andq) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::andq, "andq {mem}, %{reg}"), "andq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Orq) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::orq, "orq {mem}, %{reg}"), "orq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Xorq) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::xorq, "xorq {mem}, %{reg}"), "xorq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepneScasb) { |
| GetAssembler()->repne_scasb(); |
| const char* expected = "repne scasb\n"; |
| DriverStr(expected, "repne_scasb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepneScasw) { |
| GetAssembler()->repne_scasw(); |
| const char* expected = "repne scasw\n"; |
| DriverStr(expected, "repne_scasw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepMovsb) { |
| GetAssembler()->rep_movsb(); |
| const char* expected = "rep movsb\n"; |
| DriverStr(expected, "rep_movsb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepMovsw) { |
| GetAssembler()->rep_movsw(); |
| const char* expected = "rep movsw\n"; |
| DriverStr(expected, "rep_movsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RepMovsl) { |
| GetAssembler()->rep_movsl(); |
| const char* expected = "rep movsl\n"; |
| DriverStr(expected, "rep_movsl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movsxd) { |
| DriverStr(RepeatRr(&x86_64::X86_64Assembler::movsxd, "movslq %{reg2}, %{reg1}"), "movsxd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movaps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movaps, "movaps %{reg2}, %{reg1}"), "movaps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovaps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::vmovaps, "vmovaps %{reg2}, %{reg1}"), "vmovaps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, Movaps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movaps, "vmovaps %{reg2}, %{reg1}"), "avx_movaps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovapsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movaps, "movaps %{reg}, {mem}"), "movaps_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovapsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovaps, "vmovaps %{reg}, {mem}"), "vmovaps_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovapsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movaps, "vmovaps %{reg}, {mem}"), "avx_movaps_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovapsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movaps, "movaps {mem}, %{reg}"), "movaps_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovapsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovaps, "vmovaps {mem}, %{reg}"), "vmovaps_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovapsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movaps, "vmovaps {mem}, %{reg}"), "avx_movaps_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovupsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movups, "movups %{reg}, {mem}"), "movups_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovupsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovups, "vmovups %{reg}, {mem}"), "vmovups_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovupsStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movups, "vmovups %{reg}, {mem}"), "avx_movups_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovupsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movups, "movups {mem}, %{reg}"), "movups_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovupsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovups, "vmovups {mem}, %{reg}"), "vmovups_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovupsLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movups, "vmovups {mem}, %{reg}"), "avx_movups_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movss, "movss %{reg2}, %{reg1}"), "movss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movapd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movapd, "movapd %{reg2}, %{reg1}"), "movapd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovapd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::vmovapd, "vmovapd %{reg2}, %{reg1}"), "vmovapd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, Movapd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movapd, "vmovapd %{reg2}, %{reg1}"), "avx_movapd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovapdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movapd, "movapd %{reg}, {mem}"), "movapd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovapdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovapd, "vmovapd %{reg}, {mem}"), "vmovapd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovapdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movapd, "vmovapd %{reg}, {mem}"), "avx_movapd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovapdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movapd, "movapd {mem}, %{reg}"), "movapd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovapdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovapd, "vmovapd {mem}, %{reg}"), "vmovapd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovapdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movapd, "vmovapd {mem}, %{reg}"), "avx_movapd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovupdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movupd, "movupd %{reg}, {mem}"), "movupd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovupdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovupd, "vmovupd %{reg}, {mem}"), "vmovupd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovupdStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movupd, "vmovupd %{reg}, {mem}"), "avx_movupd_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovupdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movupd, "movupd {mem}, %{reg}"), "movupd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovupdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovupd, "vmovupd {mem}, %{reg}"), "vmovupd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovupdLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movupd, "vmovupd {mem}, %{reg}"), "avx_movupd_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movsd, "movsd %{reg2}, %{reg1}"), "movsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movdqa) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movdqa, "movdqa %{reg2}, %{reg1}"), "movdqa"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovdqa) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::vmovdqa, "vmovdqa %{reg2}, %{reg1}"), "vmovdqa"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, Movdqa) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::movdqa, "vmovdqa %{reg2}, %{reg1}"), "avx_movdqa"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovdqaStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movdqa, "movdqa %{reg}, {mem}"), "movdqa_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovdqaStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovdqa, "vmovdqa %{reg}, {mem}"), "vmovdqa_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovdqaStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movdqa, "vmovdqa %{reg}, {mem}"), "avx_movdqa_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovdqaLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movdqa, "movdqa {mem}, %{reg}"), "movdqa_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovdqaLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovdqa, "vmovdqa {mem}, %{reg}"), "vmovdqa_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovdqaLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movdqa, "vmovdqa {mem}, %{reg}"), "avx_movdqa_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovdquStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movdqu, "movdqu %{reg}, {mem}"), "movdqu_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovdquStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::vmovdqu, "vmovdqu %{reg}, {mem}"), "vmovdqu_s"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovdquStore) { |
| DriverStr(RepeatAF(&x86_64::X86_64Assembler::movdqu, "vmovdqu %{reg}, {mem}"), "avx_movdqu_s"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovdquLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movdqu, "movdqu {mem}, %{reg}"), "movdqu_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMovdquLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::vmovdqu, "vmovdqu {mem}, %{reg}"), "vmovdqu_l"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, MovdquLoad) { |
| DriverStr(RepeatFA(&x86_64::X86_64Assembler::movdqu, "vmovdqu {mem}, %{reg}"), "avx_movdqu_l"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movd1) { |
| DriverStr(RepeatFR(&x86_64::X86_64Assembler::movd, "movd %{reg2}, %{reg1}"), "movd.1"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Movd2) { |
| DriverStr(RepeatRF(&x86_64::X86_64Assembler::movd, "movd %{reg2}, %{reg1}"), "movd.2"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Addss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::addss, "addss %{reg2}, %{reg1}"), "addss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Addsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::addsd, "addsd %{reg2}, %{reg1}"), "addsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Addps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::addps, "addps %{reg2}, %{reg1}"), "addps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAddps) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vaddps, "vaddps %{reg3}, %{reg2}, %{reg1}"), "vaddps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Addpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::addpd, "addpd %{reg2}, %{reg1}"), "addpd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAddpd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vaddpd, "vaddpd %{reg3}, %{reg2}, %{reg1}"), "vaddpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Subss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::subss, "subss %{reg2}, %{reg1}"), "subss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Subsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::subsd, "subsd %{reg2}, %{reg1}"), "subsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Subps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::subps, "subps %{reg2}, %{reg1}"), "subps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VSubps) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vsubps, "vsubps %{reg3},%{reg2}, %{reg1}"), "vsubps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Subpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::subpd, "subpd %{reg2}, %{reg1}"), "subpd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VSubpd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vsubpd, "vsubpd %{reg3}, %{reg2}, %{reg1}"), "vsubpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Mulss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::mulss, "mulss %{reg2}, %{reg1}"), "mulss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Mulsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::mulsd, "mulsd %{reg2}, %{reg1}"), "mulsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Mulps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::mulps, "mulps %{reg2}, %{reg1}"), "mulps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMulps) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vmulps, "vmulps %{reg3}, %{reg2}, %{reg1}"), "vmulps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Mulpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::mulpd, "mulpd %{reg2}, %{reg1}"), "mulpd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VMulpd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vmulpd, "vmulpd %{reg3}, %{reg2}, %{reg1}"), "vmulpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::divss, "divss %{reg2}, %{reg1}"), "divss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::divsd, "divsd %{reg2}, %{reg1}"), "divsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::divps, "divps %{reg2}, %{reg1}"), "divps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VDivps) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vdivps, "vdivps %{reg3}, %{reg2}, %{reg1}"), "vdivps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Divpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::divpd, "divpd %{reg2}, %{reg1}"), "divpd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VDivpd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vdivpd, "vdivpd %{reg3}, %{reg2}, %{reg1}"), "vdivpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddb, "paddb %{reg2}, %{reg1}"), "paddb"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPaddb) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpaddb, "vpaddb %{reg3}, %{reg2}, %{reg1}"), "vpaddb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubb, "psubb %{reg2}, %{reg1}"), "psubb"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPsubb) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpsubb, "vpsubb %{reg3},%{reg2}, %{reg1}"), "vpsubb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddw, "paddw %{reg2}, %{reg1}"), "paddw"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPsubw) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpsubw, "vpsubw %{reg3}, %{reg2}, %{reg1}"), "vpsubw"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPaddw) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpaddw, "vpaddw %{reg3}, %{reg2}, %{reg1}"), "vpaddw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubw, "psubw %{reg2}, %{reg1}"), "psubw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmullw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmullw, "pmullw %{reg2}, %{reg1}"), "pmullw"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPmullw) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpmullw, "vpmullw %{reg3}, %{reg2}, %{reg1}"), "vpmullw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddd, "paddd %{reg2}, %{reg1}"), "paddd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPaddd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpaddd, "vpaddd %{reg3}, %{reg2}, %{reg1}"), "vpaddd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubd, "psubd %{reg2}, %{reg1}"), "psubd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPsubd) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpsubd, "vpsubd %{reg3}, %{reg2}, %{reg1}"), "vpsubd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmulld) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmulld, "pmulld %{reg2}, %{reg1}"), "pmulld"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPmulld) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpmulld, "vpmulld %{reg3}, %{reg2}, %{reg1}"), "vpmulld"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddq, "paddq %{reg2}, %{reg1}"), "paddq"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPaddq) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpaddq, "vpaddq %{reg3}, %{reg2}, %{reg1}"), "vpaddq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubq, "psubq %{reg2}, %{reg1}"), "psubq"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPsubq) { |
| DriverStr( |
| RepeatFFF(&x86_64::X86_64Assembler::vpsubq, "vpsubq %{reg3}, %{reg2}, %{reg1}"), "vpsubq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddusb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddusb, "paddusb %{reg2}, %{reg1}"), "paddusb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddsb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddsb, "paddsb %{reg2}, %{reg1}"), "paddsb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddusw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddusw, "paddusw %{reg2}, %{reg1}"), "paddusw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Paddsw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::paddsw, "paddsw %{reg2}, %{reg1}"), "paddsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubusb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubusb, "psubusb %{reg2}, %{reg1}"), "psubusb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubsb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubsb, "psubsb %{reg2}, %{reg1}"), "psubsb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubusw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubusw, "psubusw %{reg2}, %{reg1}"), "psubusw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psubsw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psubsw, "psubsw %{reg2}, %{reg1}"), "psubsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsi2ss) { |
| DriverStr(RepeatFr(&x86_64::X86_64Assembler::cvtsi2ss, "cvtsi2ss %{reg2}, %{reg1}"), "cvtsi2ss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsi2sd) { |
| DriverStr(RepeatFr(&x86_64::X86_64Assembler::cvtsi2sd, "cvtsi2sd %{reg2}, %{reg1}"), "cvtsi2sd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtss2si) { |
| DriverStr(RepeatrF(&x86_64::X86_64Assembler::cvtss2si, "cvtss2si %{reg2}, %{reg1}"), "cvtss2si"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtss2sd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::cvtss2sd, "cvtss2sd %{reg2}, %{reg1}"), "cvtss2sd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsd2si) { |
| DriverStr(RepeatrF(&x86_64::X86_64Assembler::cvtsd2si, "cvtsd2si %{reg2}, %{reg1}"), "cvtsd2si"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvttss2si) { |
| DriverStr(RepeatrF(&x86_64::X86_64Assembler::cvttss2si, "cvttss2si %{reg2}, %{reg1}"), |
| "cvttss2si"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvttsd2si) { |
| DriverStr(RepeatrF(&x86_64::X86_64Assembler::cvttsd2si, "cvttsd2si %{reg2}, %{reg1}"), |
| "cvttsd2si"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtsd2ss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::cvtsd2ss, "cvtsd2ss %{reg2}, %{reg1}"), "cvtsd2ss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtdq2ps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::cvtdq2ps, "cvtdq2ps %{reg2}, %{reg1}"), "cvtdq2ps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cvtdq2pd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::cvtdq2pd, "cvtdq2pd %{reg2}, %{reg1}"), "cvtdq2pd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Comiss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::comiss, "comiss %{reg2}, %{reg1}"), "comiss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Comisd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::comisd, "comisd %{reg2}, %{reg1}"), "comisd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Ucomiss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::ucomiss, "ucomiss %{reg2}, %{reg1}"), "ucomiss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Ucomisd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::ucomisd, "ucomisd %{reg2}, %{reg1}"), "ucomisd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Sqrtss) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::sqrtss, "sqrtss %{reg2}, %{reg1}"), "sqrtss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Sqrtsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::sqrtsd, "sqrtsd %{reg2}, %{reg1}"), "sqrtsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Roundss) { |
| DriverStr(RepeatFFI(&x86_64::X86_64Assembler::roundss, /*imm_bytes*/ 1U, |
| "roundss ${imm}, %{reg2}, %{reg1}"), "roundss"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Roundsd) { |
| DriverStr(RepeatFFI(&x86_64::X86_64Assembler::roundsd, /*imm_bytes*/ 1U, |
| "roundsd ${imm}, %{reg2}, %{reg1}"), "roundsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Xorps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::xorps, "xorps %{reg2}, %{reg1}"), "xorps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Xorpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::xorpd, "xorpd %{reg2}, %{reg1}"), "xorpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pxor) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pxor, "pxor %{reg2}, %{reg1}"), "pxor"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPXor) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vpxor, |
| "vpxor %{reg3}, %{reg2}, %{reg1}"), "vpxor"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VXorps) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vxorps, |
| "vxorps %{reg3}, %{reg2}, %{reg1}"), "vxorps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VXorpd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vxorpd, |
| "vxorpd %{reg3}, %{reg2}, %{reg1}"), "vxorpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Andps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::andps, "andps %{reg2}, %{reg1}"), "andps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Andpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::andpd, "andpd %{reg2}, %{reg1}"), "andpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pand) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pand, "pand %{reg2}, %{reg1}"), "pand"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPAnd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vpand, |
| "vpand %{reg3}, %{reg2}, %{reg1}"), "vpand"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAndps) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vandps, |
| "vandps %{reg3}, %{reg2}, %{reg1}"), "vandps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAndpd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vandpd, |
| "vandpd %{reg3}, %{reg2}, %{reg1}"), "vandpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Andn) { |
| DriverStr(RepeatRRR(&x86_64::X86_64Assembler::andn, "andn %{reg3}, %{reg2}, %{reg1}"), "andn"); |
| } |
| TEST_F(AssemblerX86_64Test, andnpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::andnpd, "andnpd %{reg2}, %{reg1}"), "andnpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, andnps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::andnps, "andnps %{reg2}, %{reg1}"), "andnps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pandn) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pandn, "pandn %{reg2}, %{reg1}"), "pandn"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPAndn) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vpandn, |
| "vpandn %{reg3}, %{reg2}, %{reg1}"), "vpandn"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAndnps) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vandnps, |
| "vandnps %{reg3}, %{reg2}, %{reg1}"), "vandnps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VAndnpd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vandnpd, |
| "vandnpd %{reg3}, %{reg2}, %{reg1}"), "vandnpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Orps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::orps, "orps %{reg2}, %{reg1}"), "orps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Orpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::orpd, "orpd %{reg2}, %{reg1}"), "orpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Por) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::por, "por %{reg2}, %{reg1}"), "por"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPor) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vpor, |
| "vpor %{reg3}, %{reg2}, %{reg1}"), "vpor"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, Vorps) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vorps, |
| "vorps %{reg3}, %{reg2}, %{reg1}"), "vorps"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, Vorpd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vorpd, |
| "vorpd %{reg3}, %{reg2}, %{reg1}"), "vorpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pavgb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pavgb, "pavgb %{reg2}, %{reg1}"), "pavgb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pavgw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pavgw, "pavgw %{reg2}, %{reg1}"), "pavgw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psadbw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::psadbw, "psadbw %{reg2}, %{reg1}"), "psadbw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaddwd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaddwd, "pmaddwd %{reg2}, %{reg1}"), "pmadwd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VPmaddwd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vpmaddwd, |
| "vpmaddwd %{reg3}, %{reg2}, %{reg1}"), "vpmaddwd"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VFmadd213ss) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vfmadd213ss, |
| "vfmadd213ss %{reg3}, %{reg2}, %{reg1}"), "vfmadd213ss"); |
| } |
| |
| TEST_F(AssemblerX86_64AVXTest, VFmadd213sd) { |
| DriverStr(RepeatFFF(&x86_64::X86_64Assembler::vfmadd213sd, |
| "vfmadd213sd %{reg3}, %{reg2}, %{reg1}"), "vfmadd213sd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Phaddw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::phaddw, "phaddw %{reg2}, %{reg1}"), "phaddw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Phaddd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::phaddd, "phaddd %{reg2}, %{reg1}"), "phaddd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Haddps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::haddps, "haddps %{reg2}, %{reg1}"), "haddps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Haddpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::haddpd, "haddpd %{reg2}, %{reg1}"), "haddpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Phsubw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::phsubw, "phsubw %{reg2}, %{reg1}"), "phsubw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Phsubd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::phsubd, "phsubd %{reg2}, %{reg1}"), "phsubd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Hsubps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::hsubps, "hsubps %{reg2}, %{reg1}"), "hsubps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Hsubpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::hsubpd, "hsubpd %{reg2}, %{reg1}"), "hsubpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminsb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminsb, "pminsb %{reg2}, %{reg1}"), "pminsb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxsb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxsb, "pmaxsb %{reg2}, %{reg1}"), "pmaxsb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminsw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminsw, "pminsw %{reg2}, %{reg1}"), "pminsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxsw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxsw, "pmaxsw %{reg2}, %{reg1}"), "pmaxsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminsd, "pminsd %{reg2}, %{reg1}"), "pminsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxsd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxsd, "pmaxsd %{reg2}, %{reg1}"), "pmaxsd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminub) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminub, "pminub %{reg2}, %{reg1}"), "pminub"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxub) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxub, "pmaxub %{reg2}, %{reg1}"), "pmaxub"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminuw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminuw, "pminuw %{reg2}, %{reg1}"), "pminuw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxuw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxuw, "pmaxuw %{reg2}, %{reg1}"), "pmaxuw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pminud) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pminud, "pminud %{reg2}, %{reg1}"), "pminud"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pmaxud) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pmaxud, "pmaxud %{reg2}, %{reg1}"), "pmaxud"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Minps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::minps, "minps %{reg2}, %{reg1}"), "minps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Maxps) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::maxps, "maxps %{reg2}, %{reg1}"), "maxps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Minpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::minpd, "minpd %{reg2}, %{reg1}"), "minpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Maxpd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::maxpd, "maxpd %{reg2}, %{reg1}"), "maxpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpeqb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpeqb, "pcmpeqb %{reg2}, %{reg1}"), "pcmpeqb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpeqw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpeqw, "pcmpeqw %{reg2}, %{reg1}"), "pcmpeqw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpeqd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpeqd, "pcmpeqd %{reg2}, %{reg1}"), "pcmpeqd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpeqq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpeqq, "pcmpeqq %{reg2}, %{reg1}"), "pcmpeqq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpgtb) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpgtb, "pcmpgtb %{reg2}, %{reg1}"), "pcmpgtb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpgtw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpgtw, "pcmpgtw %{reg2}, %{reg1}"), "pcmpgtw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpgtd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpgtd, "pcmpgtd %{reg2}, %{reg1}"), "pcmpgtd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PCmpgtq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::pcmpgtq, "pcmpgtq %{reg2}, %{reg1}"), "pcmpgtq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Shufps) { |
| DriverStr(RepeatFFI(&x86_64::X86_64Assembler::shufps, /*imm_bytes*/ 1U, |
| "shufps ${imm}, %{reg2}, %{reg1}"), "shufps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Shufpd) { |
| DriverStr(RepeatFFI(&x86_64::X86_64Assembler::shufpd, /*imm_bytes*/ 1U, |
| "shufpd ${imm}, %{reg2}, %{reg1}"), "shufpd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PShufd) { |
| DriverStr(RepeatFFI(&x86_64::X86_64Assembler::pshufd, /*imm_bytes*/ 1U, |
| "pshufd ${imm}, %{reg2}, %{reg1}"), "pshufd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpcklbw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpcklbw, |
| "punpcklbw %{reg2}, %{reg1}"), "punpcklbw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpcklwd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpcklwd, |
| "punpcklwd %{reg2}, %{reg1}"), "punpcklwd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpckldq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpckldq, |
| "punpckldq %{reg2}, %{reg1}"), "punpckldq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpcklqdq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpcklqdq, |
| "punpcklqdq %{reg2}, %{reg1}"), "punpcklqdq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpckhbw) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpckhbw, |
| "punpckhbw %{reg2}, %{reg1}"), "punpckhbw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpckhwd) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpckhwd, |
| "punpckhwd %{reg2}, %{reg1}"), "punpckhwd"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpckhdq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpckhdq, |
| "punpckhdq %{reg2}, %{reg1}"), "punpckhdq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Punpckhqdq) { |
| DriverStr(RepeatFF(&x86_64::X86_64Assembler::punpckhqdq, |
| "punpckhqdq %{reg2}, %{reg1}"), "punpckhqdq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psllw) { |
| GetAssembler()->psllw(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psllw(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psllw $1, %xmm0\n" |
| "psllw $2, %xmm15\n", "psllwi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Pslld) { |
| GetAssembler()->pslld(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->pslld(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("pslld $1, %xmm0\n" |
| "pslld $2, %xmm15\n", "pslldi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psllq) { |
| GetAssembler()->psllq(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psllq(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psllq $1, %xmm0\n" |
| "psllq $2, %xmm15\n", "psllqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psraw) { |
| GetAssembler()->psraw(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psraw(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psraw $1, %xmm0\n" |
| "psraw $2, %xmm15\n", "psrawi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psrad) { |
| GetAssembler()->psrad(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psrad(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psrad $1, %xmm0\n" |
| "psrad $2, %xmm15\n", "psradi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psrlw) { |
| GetAssembler()->psrlw(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psrlw(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psrlw $1, %xmm0\n" |
| "psrlw $2, %xmm15\n", "psrlwi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psrld) { |
| GetAssembler()->psrld(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psrld(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psrld $1, %xmm0\n" |
| "psrld $2, %xmm15\n", "psrldi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psrlq) { |
| GetAssembler()->psrlq(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psrlq(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psrlq $1, %xmm0\n" |
| "psrlq $2, %xmm15\n", "psrlqi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Psrldq) { |
| GetAssembler()->psrldq(x86_64::XmmRegister(x86_64::XMM0), x86_64::Immediate(1)); |
| GetAssembler()->psrldq(x86_64::XmmRegister(x86_64::XMM15), x86_64::Immediate(2)); |
| DriverStr("psrldq $1, %xmm0\n" |
| "psrldq $2, %xmm15\n", "psrldqi"); |
| } |
| |
| std::string x87_fn([[maybe_unused]] AssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| |
| assembler->fincstp(); |
| str << "fincstp\n"; |
| |
| assembler->fsin(); |
| str << "fsin\n"; |
| |
| assembler->fcos(); |
| str << "fcos\n"; |
| |
| assembler->fptan(); |
| str << "fptan\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, X87) { |
| DriverFn(&x87_fn, "x87"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, FPUIntegerLoads) { |
| DriverStr(RepeatA(&x86_64::X86_64Assembler::filds, |
| addresses_singleton_, // no ext addressing |
| "fildl {mem}"), "filds"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, FPUIntegerLoadl) { |
| DriverStr(RepeatA(&x86_64::X86_64Assembler::fildl, |
| addresses_singleton_, // no ext addressing |
| "fildll {mem}"), "fildl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, FPUIntegerStores) { |
| DriverStr(RepeatA(&x86_64::X86_64Assembler::fistps, |
| addresses_singleton_, // no ext addressing |
| "fistpl {mem}"), "fistps"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, FPUIntegerStorel) { |
| DriverStr(RepeatA(&x86_64::X86_64Assembler::fistpl, |
| addresses_singleton_, // no ext addressing |
| "fistpll {mem}"), "fistpl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Call) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::call, "call *%{reg}"), "call"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Jmp) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::jmp, "jmp *%{reg}"), "jmp"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Enter) { |
| DriverStr(RepeatI(&x86_64::X86_64Assembler::enter, |
| /*imm_bytes*/ 2U, |
| "enter ${imm}, $0", /*non-negative*/ true), "enter"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RetImm) { |
| DriverStr(RepeatI(&x86_64::X86_64Assembler::ret, |
| /*imm_bytes*/ 2U, |
| "ret ${imm}", /*non-negative*/ true), "ret"); |
| } |
| |
| std::string ret_and_leave_fn([[maybe_unused]] AssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64Assembler* assembler) { |
| std::ostringstream str; |
| |
| assembler->ret(); |
| str << "ret\n"; |
| |
| assembler->leave(); |
| str << "leave\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, RetAndLeave) { |
| DriverFn(&ret_and_leave_fn, "retleave"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Blsmask) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::blsmsk, "blsmsk %{reg2}, %{reg1}"), "blsmsk"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Blsi) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::blsi, "blsi %{reg2}, %{reg1}"), "blsi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Blsr) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::blsr, "blsr %{reg2}, %{reg1}"), "blsr"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bswapl) { |
| DriverStr(Repeatr(&x86_64::X86_64Assembler::bswapl, "bswap %{reg}"), "bswapl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bswapq) { |
| DriverStr(RepeatR(&x86_64::X86_64Assembler::bswapq, "bswap %{reg}"), "bswapq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bsfl) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::bsfl, "bsfl %{reg2}, %{reg1}"), "bsfl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, BsflAddress) { |
| DriverStr(RepeatrA(&x86_64::X86_64Assembler::bsfl, "bsfl {mem}, %{reg}"), "bsfl_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bsfq) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::bsfq, "bsfq %{reg2}, %{reg1}"), "bsfq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, BsfqAddress) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::bsfq, "bsfq {mem}, %{reg}"), "bsfq_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bsrl) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::bsrl, "bsrl %{reg2}, %{reg1}"), "bsrl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, BsrlAddress) { |
| DriverStr(RepeatrA(&x86_64::X86_64Assembler::bsrl, "bsrl {mem}, %{reg}"), "bsrl_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Bsrq) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::bsrq, "bsrq %{reg2}, %{reg1}"), "bsrq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, BsrqAddress) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::bsrq, "bsrq {mem}, %{reg}"), "bsrq_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Popcntl) { |
| DriverStr(Repeatrr(&x86_64::X86_64Assembler::popcntl, "popcntl %{reg2}, %{reg1}"), "popcntl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PopcntlAddress) { |
| DriverStr(RepeatrA(&x86_64::X86_64Assembler::popcntl, "popcntl {mem}, %{reg}"), "popcntl_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Popcntq) { |
| DriverStr(RepeatRR(&x86_64::X86_64Assembler::popcntq, "popcntq %{reg2}, %{reg1}"), "popcntq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, PopcntqAddress) { |
| DriverStr(RepeatRA(&x86_64::X86_64Assembler::popcntq, "popcntq {mem}, %{reg}"), "popcntq_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmovlAddress) { |
| GetAssembler()->cmov(x86_64::kEqual, x86_64::CpuRegister(x86_64::R10), x86_64::Address( |
| x86_64::CpuRegister(x86_64::RDI), x86_64::CpuRegister(x86_64::RBX), TIMES_4, 12), false); |
| GetAssembler()->cmov(x86_64::kNotEqual, x86_64::CpuRegister(x86_64::RDI), x86_64::Address( |
| x86_64::CpuRegister(x86_64::R10), x86_64::CpuRegister(x86_64::RBX), TIMES_4, 12), false); |
| GetAssembler()->cmov(x86_64::kEqual, x86_64::CpuRegister(x86_64::RDI), x86_64::Address( |
| x86_64::CpuRegister(x86_64::RDI), x86_64::CpuRegister(x86_64::R9), TIMES_4, 12), false); |
| const char* expected = |
| "cmovzl 0xc(%RDI,%RBX,4), %R10d\n" |
| "cmovnzl 0xc(%R10,%RBX,4), %edi\n" |
| "cmovzl 0xc(%RDI,%R9,4), %edi\n"; |
| DriverStr(expected, "cmovl_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, CmovqAddress) { |
| GetAssembler()->cmov(x86_64::kEqual, x86_64::CpuRegister(x86_64::R10), x86_64::Address( |
| x86_64::CpuRegister(x86_64::RDI), x86_64::CpuRegister(x86_64::RBX), TIMES_4, 12), true); |
| GetAssembler()->cmov(x86_64::kNotEqual, x86_64::CpuRegister(x86_64::RDI), x86_64::Address( |
| x86_64::CpuRegister(x86_64::R10), x86_64::CpuRegister(x86_64::RBX), TIMES_4, 12), true); |
| GetAssembler()->cmov(x86_64::kEqual, x86_64::CpuRegister(x86_64::RDI), x86_64::Address( |
| x86_64::CpuRegister(x86_64::RDI), x86_64::CpuRegister(x86_64::R9), TIMES_4, 12), true); |
| const char* expected = |
| "cmovzq 0xc(%RDI,%RBX,4), %R10\n" |
| "cmovnzq 0xc(%R10,%RBX,4), %rdi\n" |
| "cmovzq 0xc(%RDI,%R9,4), %rdi\n"; |
| DriverStr(expected, "cmovq_address"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Jrcxz) { |
| x86_64::NearLabel target; |
| GetAssembler()->jrcxz(&target); |
| GetAssembler()->addl(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), 4)); |
| GetAssembler()->Bind(&target); |
| const char* expected = |
| "jrcxz 1f\n" |
| "addl 4(%RSP),%EDI\n" |
| "1:\n"; |
| |
| DriverStr(expected, "jrcxz"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, NearLabel) { |
| // Test both forward and backward branches. |
| x86_64::NearLabel start, target; |
| GetAssembler()->Bind(&start); |
| GetAssembler()->j(x86_64::kEqual, &target); |
| GetAssembler()->jmp(&target); |
| GetAssembler()->jrcxz(&target); |
| GetAssembler()->addl(x86_64::CpuRegister(x86_64::RDI), |
| x86_64::Address(x86_64::CpuRegister(x86_64::RSP), 4)); |
| GetAssembler()->Bind(&target); |
| GetAssembler()->j(x86_64::kNotEqual, &start); |
| GetAssembler()->jmp(&start); |
| const char* expected = |
| "1: je 2f\n" |
| "jmp 2f\n" |
| "jrcxz 2f\n" |
| "addl 4(%RSP),%EDI\n" |
| "2: jne 1b\n" |
| "jmp 1b\n"; |
| |
| DriverStr(expected, "near_label"); |
| } |
| |
| std::string setcc_test_fn(AssemblerX86_64Test::Base* assembler_test, |
| 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 = assembler_test->GetRegisters(); |
| 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] << " %" << assembler_test->GetQuaternaryRegisterName(*reg) << "\n"; |
| } |
| } |
| |
| return str.str(); |
| } |
| |
| TEST_F(AssemblerX86_64Test, SetCC) { |
| DriverFn(&setcc_test_fn, "setcc"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovzxbRegs) { |
| DriverStr(Repeatrb(&x86_64::X86_64Assembler::movzxb, "movzbl %{reg2}, %{reg1}"), "movzxb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, MovsxbRegs) { |
| DriverStr(Repeatrb(&x86_64::X86_64Assembler::movsxb, "movsbl %{reg2}, %{reg1}"), "movsxb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repnescasw) { |
| GetAssembler()->repne_scasw(); |
| const char* expected = "repne scasw\n"; |
| DriverStr(expected, "Repnescasw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repecmpsw) { |
| GetAssembler()->repe_cmpsw(); |
| const char* expected = "repe cmpsw\n"; |
| DriverStr(expected, "Repecmpsw"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repecmpsl) { |
| GetAssembler()->repe_cmpsl(); |
| const char* expected = "repe cmpsl\n"; |
| DriverStr(expected, "Repecmpsl"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Repecmpsq) { |
| GetAssembler()->repe_cmpsq(); |
| const char* expected = "repe cmpsq\n"; |
| DriverStr(expected, "Repecmpsq"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Ud2) { |
| GetAssembler()->ud2(); |
| const char* expected = "ud2\n"; |
| DriverStr(expected, "Ud2"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, Cmpb) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::cmpb, |
| /*imm_bytes*/ 1U, |
| "cmpb ${imm}, {mem}"), "cmpb"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, TestbAddressImmediate) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::testb, |
| /*imm_bytes*/ 1U, |
| "testb ${imm}, {mem}"), "testbi"); |
| } |
| |
| TEST_F(AssemblerX86_64Test, TestlAddressImmediate) { |
| DriverStr(RepeatAI(&x86_64::X86_64Assembler::testl, |
| /*imm_bytes*/ 4U, |
| "testl ${imm}, {mem}"), "testli"); |
| } |
| |
| // Test that displacing an existing address is the same as constructing a new one with the same |
| // initial displacement. |
| TEST_F(AssemblerX86_64Test, AddressDisplaceBy) { |
| // Test different displacements, including some 8-bit and 32-bit ones, so that changing |
| // displacement may require a different addressing mode. |
| static const std::vector<int32_t> displacements = {0, 42, -42, 140, -140}; |
| // Test with all scale factors. |
| static const std::vector<ScaleFactor> scales = {TIMES_1, TIMES_2, TIMES_4, TIMES_8}; |
| |
| for (int32_t disp0 : displacements) { // initial displacement |
| for (int32_t disp : displacements) { // extra displacement |
| for (const x86_64::CpuRegister* reg : GetRegisters()) { |
| // Test non-SIB addressing. |
| EXPECT_EQ(x86_64::Address::displace(x86_64::Address(*reg, disp0), disp), |
| x86_64::Address(*reg, disp0 + disp)); |
| |
| // Test SIB addressing with RBP base. |
| if (reg->AsRegister() != x86_64::RSP) { |
| for (ScaleFactor scale : scales) { |
| EXPECT_EQ(x86_64::Address::displace(x86_64::Address(*reg, scale, disp0), disp), |
| x86_64::Address(*reg, scale, disp0 + disp)); |
| } |
| } |
| |
| // Test SIB addressing with different base. |
| for (const x86_64::CpuRegister* index : GetRegisters()) { |
| if (index->AsRegister() == x86_64::RSP) { |
| continue; // Skip RSP as it cannot be used with this address constructor. |
| } |
| for (ScaleFactor scale : scales) { |
| EXPECT_EQ(x86_64::Address::displace(x86_64::Address(*reg, *index, scale, disp0), disp), |
| x86_64::Address(*reg, *index, scale, disp0 + disp)); |
| } |
| } |
| |
| // Test absolute and RIP-relative addressing. |
| EXPECT_EQ(x86_64::Address::displace(x86_64::Address::Absolute(disp0, false), disp), |
| x86_64::Address::Absolute(disp0 + disp, false)); |
| EXPECT_EQ(x86_64::Address::displace(x86_64::Address::Absolute(disp0, true), disp), |
| x86_64::Address::Absolute(disp0 + disp, true)); |
| } |
| } |
| } |
| } |
| |
| class JNIMacroAssemblerX86_64Test : public JNIMacroAssemblerTest<x86_64::X86_64JNIMacroAssembler> { |
| public: |
| using Base = JNIMacroAssemblerTest<x86_64::X86_64JNIMacroAssembler>; |
| |
| protected: |
| InstructionSet GetIsa() override { |
| return InstructionSet::kX86_64; |
| } |
| |
| private: |
| }; |
| |
| static x86_64::X86_64ManagedRegister ManagedFromCpu(x86_64::Register r) { |
| return x86_64::X86_64ManagedRegister::FromCpuRegister(r); |
| } |
| |
| static x86_64::X86_64ManagedRegister ManagedFromFpu(x86_64::FloatRegister r) { |
| return x86_64::X86_64ManagedRegister::FromXmmRegister(r); |
| } |
| |
| std::string buildframe_test_fn([[maybe_unused]] JNIMacroAssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64JNIMacroAssembler* assembler) { |
| // TODO: more interesting spill registers / entry spills. |
| |
| // Two random spill regs. |
| const ManagedRegister raw_spill_regs[] = { |
| ManagedFromCpu(x86_64::R10), |
| ManagedFromCpu(x86_64::RSI) |
| }; |
| ArrayRef<const ManagedRegister> spill_regs(raw_spill_regs); |
| |
| x86_64::X86_64ManagedRegister method_reg = ManagedFromCpu(x86_64::RDI); |
| |
| size_t frame_size = 10 * kStackAlignment; |
| assembler->BuildFrame(frame_size, method_reg, spill_regs); |
| |
| // Three random entry spills. |
| assembler->Store(FrameOffset(frame_size + 0u), ManagedFromCpu(x86_64::RAX), /* size= */ 8u); |
| assembler->Store(FrameOffset(frame_size + 8u), ManagedFromCpu(x86_64::RBX), /* size= */ 8u); |
| assembler->Store(FrameOffset(frame_size + 16u), ManagedFromFpu(x86_64::XMM1), /* size= */ 8u); |
| |
| // Construct assembly text counterpart. |
| std::ostringstream str; |
| // (1) Push the spill_regs. |
| str << "pushq %rsi\n"; |
| str << "pushq %r10\n"; |
| // (2) Move down the stack pointer. |
| ssize_t displacement = static_cast<ssize_t>(frame_size) - (spill_regs.size() * 8 + 8); |
| str << "subq $" << displacement << ", %rsp\n"; |
| // (3) Store method reference. |
| str << "movq %rdi, (%rsp)\n"; |
| // (4) Entry spills. |
| str << "movq %rax, " << frame_size + 0 << "(%rsp)\n"; |
| str << "movq %rbx, " << frame_size + 8 << "(%rsp)\n"; |
| str << "movsd %xmm1, " << frame_size + 16 << "(%rsp)\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(JNIMacroAssemblerX86_64Test, BuildFrame) { |
| DriverFn(&buildframe_test_fn, "BuildFrame"); |
| } |
| |
| std::string removeframe_test_fn([[maybe_unused]] JNIMacroAssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64JNIMacroAssembler* assembler) { |
| // TODO: more interesting spill registers / entry spills. |
| |
| // Two random spill regs. |
| const ManagedRegister raw_spill_regs[] = { |
| ManagedFromCpu(x86_64::R10), |
| ManagedFromCpu(x86_64::RSI) |
| }; |
| ArrayRef<const ManagedRegister> spill_regs(raw_spill_regs); |
| |
| size_t frame_size = 10 * kStackAlignment; |
| assembler->RemoveFrame(frame_size, spill_regs, /* may_suspend= */ true); |
| |
| // Construct assembly text counterpart. |
| std::ostringstream str; |
| // (1) Move up the stack pointer. |
| ssize_t displacement = static_cast<ssize_t>(frame_size) - spill_regs.size() * 8 - 8; |
| str << "addq $" << displacement << ", %rsp\n"; |
| // (2) Pop spill regs. |
| str << "popq %r10\n"; |
| str << "popq %rsi\n"; |
| str << "ret\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(JNIMacroAssemblerX86_64Test, RemoveFrame) { |
| DriverFn(&removeframe_test_fn, "RemoveFrame"); |
| } |
| |
| std::string increaseframe_test_fn( |
| [[maybe_unused]] JNIMacroAssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64JNIMacroAssembler* assembler) { |
| assembler->IncreaseFrameSize(0U); |
| assembler->IncreaseFrameSize(kStackAlignment); |
| assembler->IncreaseFrameSize(10 * kStackAlignment); |
| |
| // Construct assembly text counterpart. |
| std::ostringstream str; |
| // Increase by 0 is a NO-OP and ignored by the assembler. |
| str << "addq $-" << kStackAlignment << ", %rsp\n"; |
| str << "addq $-" << 10 * kStackAlignment << ", %rsp\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(JNIMacroAssemblerX86_64Test, IncreaseFrame) { |
| DriverFn(&increaseframe_test_fn, "IncreaseFrame"); |
| } |
| |
| std::string decreaseframe_test_fn( |
| [[maybe_unused]] JNIMacroAssemblerX86_64Test::Base* assembler_test, |
| x86_64::X86_64JNIMacroAssembler* assembler) { |
| assembler->DecreaseFrameSize(0U); |
| assembler->DecreaseFrameSize(kStackAlignment); |
| assembler->DecreaseFrameSize(10 * kStackAlignment); |
| |
| // Construct assembly text counterpart. |
| std::ostringstream str; |
| // Decrease by 0 is a NO-OP and ignored by the assembler. |
| str << "addq $" << kStackAlignment << ", %rsp\n"; |
| str << "addq $" << 10 * kStackAlignment << ", %rsp\n"; |
| |
| return str.str(); |
| } |
| |
| TEST_F(JNIMacroAssemblerX86_64Test, DecreaseFrame) { |
| DriverFn(&decreaseframe_test_fn, "DecreaseFrame"); |
| } |
| |
| } // namespace art |