| /* |
| * 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 <dirent.h> |
| #include <fstream> |
| #include <sys/types.h> |
| #include <map> |
| |
| #include "gtest/gtest.h" |
| #include "utils/arm/assembler_thumb2.h" |
| #include "base/hex_dump.h" |
| #include "common_runtime_test.h" |
| |
| namespace art { |
| namespace arm { |
| |
| // Include results file (generated manually) |
| #include "assembler_thumb_test_expected.cc.inc" |
| |
| #ifndef HAVE_ANDROID_OS |
| // This controls whether the results are printed to the |
| // screen or compared against the expected output. |
| // To generate new expected output, set this to true and |
| // copy the output into the .cc.inc file in the form |
| // of the other results. |
| // |
| // When this is false, the results are not printed to the |
| // output, but are compared against the expected results |
| // in the .cc.inc file. |
| static constexpr bool kPrintResults = false; |
| #endif |
| |
| static const char* TOOL_PREFIX = "arm-linux-androideabi-"; |
| |
| void SetAndroidData() { |
| const char* data = getenv("ANDROID_DATA"); |
| if (data == nullptr) { |
| setenv("ANDROID_DATA", "/tmp", 1); |
| } |
| } |
| |
| int CompareIgnoringSpace(const char* s1, const char* s2) { |
| while (*s1 != '\0') { |
| while (isspace(*s1)) ++s1; |
| while (isspace(*s2)) ++s2; |
| if (*s1 == '\0' || *s1 != *s2) { |
| break; |
| } |
| ++s1; |
| ++s2; |
| } |
| return *s1 - *s2; |
| } |
| |
| std::string GetAndroidToolsDir() { |
| std::string root; |
| const char* android_build_top = getenv("ANDROID_BUILD_TOP"); |
| if (android_build_top != nullptr) { |
| root += android_build_top; |
| } else { |
| // Not set by build server, so default to current directory |
| char* cwd = getcwd(nullptr, 0); |
| setenv("ANDROID_BUILD_TOP", cwd, 1); |
| root += cwd; |
| free(cwd); |
| } |
| |
| // Look for "prebuilts" |
| std::string toolsdir = root; |
| struct stat st; |
| while (toolsdir != "") { |
| std::string prebuilts = toolsdir + "/prebuilts"; |
| if (stat(prebuilts.c_str(), &st) == 0) { |
| // Found prebuilts. |
| toolsdir += "/prebuilts/gcc/linux-x86/arm"; |
| break; |
| } |
| // Not present, move up one dir. |
| size_t slash = toolsdir.rfind('/'); |
| if (slash == std::string::npos) { |
| toolsdir = ""; |
| } else { |
| toolsdir = toolsdir.substr(0, slash-1); |
| } |
| } |
| bool statok = stat(toolsdir.c_str(), &st) == 0; |
| if (!statok) { |
| return ""; // Use path. |
| } |
| |
| DIR* dir = opendir(toolsdir.c_str()); |
| if (dir == nullptr) { |
| return ""; // Use path. |
| } |
| |
| struct dirent* entry; |
| std::string founddir; |
| double maxversion = 0; |
| |
| // Find the latest version of the arm-eabi tools (biggest version number). |
| // Suffix on toolsdir will be something like "arm-eabi-4.8" |
| while ((entry = readdir(dir)) != nullptr) { |
| std::string subdir = toolsdir + std::string("/") + std::string(entry->d_name); |
| size_t eabi = subdir.find(TOOL_PREFIX); |
| if (eabi != std::string::npos) { |
| // Check if "bin/{as,objcopy,objdump}" exist under this folder. |
| struct stat exec_st; |
| std::string exec_path; |
| exec_path = subdir + "/bin/" + TOOL_PREFIX + "as"; |
| if (stat(exec_path.c_str(), &exec_st) != 0) |
| continue; |
| exec_path = subdir + "/bin/" + TOOL_PREFIX + "objcopy"; |
| if (stat(exec_path.c_str(), &exec_st) != 0) |
| continue; |
| exec_path = subdir + "/bin/" + TOOL_PREFIX + "objdump"; |
| if (stat(exec_path.c_str(), &exec_st) != 0) |
| continue; |
| |
| std::string suffix = subdir.substr(eabi + strlen(TOOL_PREFIX)); |
| double version = strtod(suffix.c_str(), nullptr); |
| if (version > maxversion) { |
| maxversion = version; |
| founddir = subdir; |
| } |
| } |
| } |
| closedir(dir); |
| bool found = founddir != ""; |
| if (!found) { |
| return ""; // Use path. |
| } |
| |
| return founddir + "/bin/"; |
| } |
| |
| void dump(std::vector<uint8_t>& code, const char* testname) { |
| // This will only work on the host. There is no as, objcopy or objdump on the |
| // device. |
| #ifndef HAVE_ANDROID_OS |
| static bool results_ok = false; |
| static std::string toolsdir; |
| |
| if (!results_ok) { |
| setup_results(); |
| toolsdir = GetAndroidToolsDir(); |
| SetAndroidData(); |
| results_ok = true; |
| } |
| |
| ScratchFile file; |
| |
| const char* filename = file.GetFilename().c_str(); |
| |
| std::ofstream out(filename); |
| if (out) { |
| out << ".section \".text\"\n"; |
| out << ".syntax unified\n"; |
| out << ".arch armv7-a\n"; |
| out << ".thumb\n"; |
| out << ".thumb_func\n"; |
| out << ".type " << testname << ", #function\n"; |
| out << ".global " << testname << "\n"; |
| out << testname << ":\n"; |
| out << ".fnstart\n"; |
| |
| for (uint32_t i = 0 ; i < code.size(); ++i) { |
| out << ".byte " << (static_cast<int>(code[i]) & 0xff) << "\n"; |
| } |
| out << ".fnend\n"; |
| out << ".size " << testname << ", .-" << testname << "\n"; |
| } |
| out.close(); |
| |
| char cmd[1024]; |
| |
| // Assemble the .S |
| snprintf(cmd, sizeof(cmd), "%s%sas %s -o %s.o", toolsdir.c_str(), TOOL_PREFIX, filename, filename); |
| system(cmd); |
| |
| // Remove the $d symbols to prevent the disassembler dumping the instructions |
| // as .word |
| snprintf(cmd, sizeof(cmd), "%s%sobjcopy -N '$d' %s.o %s.oo", toolsdir.c_str(), TOOL_PREFIX, |
| filename, filename); |
| system(cmd); |
| |
| // Disassemble. |
| |
| snprintf(cmd, sizeof(cmd), "%s%sobjdump -d %s.oo | grep '^ *[0-9a-f][0-9a-f]*:'", |
| toolsdir.c_str(), TOOL_PREFIX, filename); |
| if (kPrintResults) { |
| // Print the results only, don't check. This is used to generate new output for inserting |
| // into the .inc file. |
| system(cmd); |
| } else { |
| // Check the results match the appropriate results in the .inc file. |
| FILE *fp = popen(cmd, "r"); |
| ASSERT_TRUE(fp != nullptr); |
| |
| std::map<std::string, const char**>::iterator results = test_results.find(testname); |
| ASSERT_NE(results, test_results.end()); |
| |
| uint32_t lineindex = 0; |
| |
| while (!feof(fp)) { |
| char testline[256]; |
| char *s = fgets(testline, sizeof(testline), fp); |
| if (s == nullptr) { |
| break; |
| } |
| if (CompareIgnoringSpace(results->second[lineindex], testline) != 0) { |
| LOG(FATAL) << "Output is not as expected at line: " << lineindex |
| << results->second[lineindex] << "/" << testline; |
| } |
| ++lineindex; |
| } |
| // Check that we are at the end. |
| ASSERT_TRUE(results->second[lineindex] == nullptr); |
| fclose(fp); |
| } |
| |
| char buf[FILENAME_MAX]; |
| snprintf(buf, sizeof(buf), "%s.o", filename); |
| unlink(buf); |
| |
| snprintf(buf, sizeof(buf), "%s.oo", filename); |
| unlink(buf); |
| #endif |
| } |
| |
| #define __ assembler-> |
| |
| TEST(Thumb2AssemblerTest, SimpleMov) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(R1)); |
| __ mov(R8, ShifterOperand(R9)); |
| |
| __ mov(R0, ShifterOperand(1)); |
| __ mov(R8, ShifterOperand(9)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SimpleMov"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, SimpleMov32) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| assembler->Force32Bit(); |
| |
| __ mov(R0, ShifterOperand(R1)); |
| __ mov(R8, ShifterOperand(R9)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SimpleMov32"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, SimpleMovAdd) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(R1)); |
| __ add(R0, R1, ShifterOperand(R2)); |
| __ add(R0, R1, ShifterOperand()); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SimpleMovAdd"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, DataProcessingRegister) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(R1)); |
| __ mvn(R0, ShifterOperand(R1)); |
| |
| // 32 bit variants. |
| __ add(R0, R1, ShifterOperand(R2)); |
| __ sub(R0, R1, ShifterOperand(R2)); |
| __ and_(R0, R1, ShifterOperand(R2)); |
| __ orr(R0, R1, ShifterOperand(R2)); |
| __ eor(R0, R1, ShifterOperand(R2)); |
| __ bic(R0, R1, ShifterOperand(R2)); |
| __ adc(R0, R1, ShifterOperand(R2)); |
| __ sbc(R0, R1, ShifterOperand(R2)); |
| __ rsb(R0, R1, ShifterOperand(R2)); |
| |
| // 16 bit variants. |
| __ add(R0, R1, ShifterOperand()); |
| __ sub(R0, R1, ShifterOperand()); |
| __ and_(R0, R0, ShifterOperand(R1)); |
| __ orr(R0, R0, ShifterOperand(R1)); |
| __ eor(R0, R0, ShifterOperand(R1)); |
| __ bic(R0, R0, ShifterOperand(R1)); |
| __ adc(R0, R0, ShifterOperand(R1)); |
| __ sbc(R0, R0, ShifterOperand(R1)); |
| __ rsb(R0, R0, ShifterOperand(R1)); |
| |
| __ tst(R0, ShifterOperand(R1)); |
| __ teq(R0, ShifterOperand(R1)); |
| __ cmp(R0, ShifterOperand(R1)); |
| __ cmn(R0, ShifterOperand(R1)); |
| |
| __ movs(R0, ShifterOperand(R1)); |
| __ mvns(R0, ShifterOperand(R1)); |
| |
| // 32 bit variants. |
| __ add(R12, R1, ShifterOperand(R0)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "DataProcessingRegister"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, DataProcessingImmediate) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(0x55)); |
| __ mvn(R0, ShifterOperand(0x55)); |
| __ add(R0, R1, ShifterOperand(0x55)); |
| __ sub(R0, R1, ShifterOperand(0x55)); |
| __ and_(R0, R1, ShifterOperand(0x55)); |
| __ orr(R0, R1, ShifterOperand(0x55)); |
| __ eor(R0, R1, ShifterOperand(0x55)); |
| __ bic(R0, R1, ShifterOperand(0x55)); |
| __ adc(R0, R1, ShifterOperand(0x55)); |
| __ sbc(R0, R1, ShifterOperand(0x55)); |
| __ rsb(R0, R1, ShifterOperand(0x55)); |
| |
| __ tst(R0, ShifterOperand(0x55)); |
| __ teq(R0, ShifterOperand(0x55)); |
| __ cmp(R0, ShifterOperand(0x55)); |
| __ cmn(R0, ShifterOperand(0x55)); |
| |
| __ add(R0, R1, ShifterOperand(5)); |
| __ sub(R0, R1, ShifterOperand(5)); |
| |
| __ movs(R0, ShifterOperand(0x55)); |
| __ mvns(R0, ShifterOperand(0x55)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "DataProcessingImmediate"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, DataProcessingModifiedImmediate) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(0x550055)); |
| __ mvn(R0, ShifterOperand(0x550055)); |
| __ add(R0, R1, ShifterOperand(0x550055)); |
| __ sub(R0, R1, ShifterOperand(0x550055)); |
| __ and_(R0, R1, ShifterOperand(0x550055)); |
| __ orr(R0, R1, ShifterOperand(0x550055)); |
| __ eor(R0, R1, ShifterOperand(0x550055)); |
| __ bic(R0, R1, ShifterOperand(0x550055)); |
| __ adc(R0, R1, ShifterOperand(0x550055)); |
| __ sbc(R0, R1, ShifterOperand(0x550055)); |
| __ rsb(R0, R1, ShifterOperand(0x550055)); |
| |
| __ tst(R0, ShifterOperand(0x550055)); |
| __ teq(R0, ShifterOperand(0x550055)); |
| __ cmp(R0, ShifterOperand(0x550055)); |
| __ cmn(R0, ShifterOperand(0x550055)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "DataProcessingModifiedImmediate"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, DataProcessingModifiedImmediates) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R0, ShifterOperand(0x550055)); |
| __ mov(R0, ShifterOperand(0x55005500)); |
| __ mov(R0, ShifterOperand(0x55555555)); |
| __ mov(R0, ShifterOperand(0xd5000000)); // rotated to first position |
| __ mov(R0, ShifterOperand(0x6a000000)); // rotated to second position |
| __ mov(R0, ShifterOperand(0x350)); // rotated to 2nd last position |
| __ mov(R0, ShifterOperand(0x1a8)); // rotated to last position |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "DataProcessingModifiedImmediates"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, DataProcessingShiftedRegister) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mov(R3, ShifterOperand(R4, LSL, 4)); |
| __ mov(R3, ShifterOperand(R4, LSR, 5)); |
| __ mov(R3, ShifterOperand(R4, ASR, 6)); |
| __ mov(R3, ShifterOperand(R4, ROR, 7)); |
| __ mov(R3, ShifterOperand(R4, ROR)); |
| |
| // 32 bit variants. |
| __ mov(R8, ShifterOperand(R4, LSL, 4)); |
| __ mov(R8, ShifterOperand(R4, LSR, 5)); |
| __ mov(R8, ShifterOperand(R4, ASR, 6)); |
| __ mov(R8, ShifterOperand(R4, ROR, 7)); |
| __ mov(R8, ShifterOperand(R4, RRX)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "DataProcessingShiftedRegister"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, BasicLoad) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ ldr(R3, Address(R4, 24)); |
| __ ldrb(R3, Address(R4, 24)); |
| __ ldrh(R3, Address(R4, 24)); |
| __ ldrsb(R3, Address(R4, 24)); |
| __ ldrsh(R3, Address(R4, 24)); |
| |
| __ ldr(R3, Address(SP, 24)); |
| |
| // 32 bit variants |
| __ ldr(R8, Address(R4, 24)); |
| __ ldrb(R8, Address(R4, 24)); |
| __ ldrh(R8, Address(R4, 24)); |
| __ ldrsb(R8, Address(R4, 24)); |
| __ ldrsh(R8, Address(R4, 24)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "BasicLoad"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, BasicStore) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ str(R3, Address(R4, 24)); |
| __ strb(R3, Address(R4, 24)); |
| __ strh(R3, Address(R4, 24)); |
| |
| __ str(R3, Address(SP, 24)); |
| |
| // 32 bit variants. |
| __ str(R8, Address(R4, 24)); |
| __ strb(R8, Address(R4, 24)); |
| __ strh(R8, Address(R4, 24)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "BasicStore"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, ComplexLoad) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ ldr(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ ldr(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ ldr(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ ldr(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ ldr(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ ldr(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ ldrb(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ ldrb(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ ldrb(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ ldrb(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ ldrb(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ ldrb(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ ldrh(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ ldrh(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ ldrh(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ ldrh(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ ldrh(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ ldrh(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ ldrsb(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ ldrsh(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "ComplexLoad"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, ComplexStore) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ str(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ str(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ str(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ str(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ str(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ str(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ strb(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ strb(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ strb(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ strb(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ strb(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ strb(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| __ strh(R3, Address(R4, 24, Address::Mode::Offset)); |
| __ strh(R3, Address(R4, 24, Address::Mode::PreIndex)); |
| __ strh(R3, Address(R4, 24, Address::Mode::PostIndex)); |
| __ strh(R3, Address(R4, 24, Address::Mode::NegOffset)); |
| __ strh(R3, Address(R4, 24, Address::Mode::NegPreIndex)); |
| __ strh(R3, Address(R4, 24, Address::Mode::NegPostIndex)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "ComplexStore"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, NegativeLoadStore) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ ldr(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ ldr(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ ldr(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ ldr(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ ldr(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ ldr(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ ldrb(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ ldrb(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ ldrb(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ ldrb(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ ldrb(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ ldrb(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ ldrh(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ ldrh(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ ldrh(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ ldrh(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ ldrh(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ ldrh(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ ldrsb(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ ldrsh(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ str(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ str(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ str(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ str(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ str(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ str(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ strb(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ strb(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ strb(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ strb(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ strb(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ strb(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| __ strh(R3, Address(R4, -24, Address::Mode::Offset)); |
| __ strh(R3, Address(R4, -24, Address::Mode::PreIndex)); |
| __ strh(R3, Address(R4, -24, Address::Mode::PostIndex)); |
| __ strh(R3, Address(R4, -24, Address::Mode::NegOffset)); |
| __ strh(R3, Address(R4, -24, Address::Mode::NegPreIndex)); |
| __ strh(R3, Address(R4, -24, Address::Mode::NegPostIndex)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "NegativeLoadStore"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, SimpleLoadStoreDual) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ strd(R2, Address(R0, 24, Address::Mode::Offset)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::Offset)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SimpleLoadStoreDual"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, ComplexLoadStoreDual) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ strd(R2, Address(R0, 24, Address::Mode::Offset)); |
| __ strd(R2, Address(R0, 24, Address::Mode::PreIndex)); |
| __ strd(R2, Address(R0, 24, Address::Mode::PostIndex)); |
| __ strd(R2, Address(R0, 24, Address::Mode::NegOffset)); |
| __ strd(R2, Address(R0, 24, Address::Mode::NegPreIndex)); |
| __ strd(R2, Address(R0, 24, Address::Mode::NegPostIndex)); |
| |
| __ ldrd(R2, Address(R0, 24, Address::Mode::Offset)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::PreIndex)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::PostIndex)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::NegOffset)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::NegPreIndex)); |
| __ ldrd(R2, Address(R0, 24, Address::Mode::NegPostIndex)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "ComplexLoadStoreDual"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, NegativeLoadStoreDual) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ strd(R2, Address(R0, -24, Address::Mode::Offset)); |
| __ strd(R2, Address(R0, -24, Address::Mode::PreIndex)); |
| __ strd(R2, Address(R0, -24, Address::Mode::PostIndex)); |
| __ strd(R2, Address(R0, -24, Address::Mode::NegOffset)); |
| __ strd(R2, Address(R0, -24, Address::Mode::NegPreIndex)); |
| __ strd(R2, Address(R0, -24, Address::Mode::NegPostIndex)); |
| |
| __ ldrd(R2, Address(R0, -24, Address::Mode::Offset)); |
| __ ldrd(R2, Address(R0, -24, Address::Mode::PreIndex)); |
| __ ldrd(R2, Address(R0, -24, Address::Mode::PostIndex)); |
| __ ldrd(R2, Address(R0, -24, Address::Mode::NegOffset)); |
| __ ldrd(R2, Address(R0, -24, Address::Mode::NegPreIndex)); |
| __ ldrd(R2, Address(R0, -24, Address::Mode::NegPostIndex)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "NegativeLoadStoreDual"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, SimpleBranch) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ mov(R0, ShifterOperand(2)); |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(1)); |
| __ b(&l1); |
| Label l2; |
| __ b(&l2); |
| __ mov(R1, ShifterOperand(2)); |
| __ Bind(&l2); |
| __ mov(R0, ShifterOperand(3)); |
| |
| Label l3; |
| __ mov(R0, ShifterOperand(2)); |
| __ Bind(&l3); |
| __ mov(R1, ShifterOperand(1)); |
| __ b(&l3, EQ); |
| |
| Label l4; |
| __ b(&l4, EQ); |
| __ mov(R1, ShifterOperand(2)); |
| __ Bind(&l4); |
| __ mov(R0, ShifterOperand(3)); |
| |
| // 2 linked labels. |
| Label l5; |
| __ b(&l5); |
| __ mov(R1, ShifterOperand(4)); |
| __ b(&l5); |
| __ mov(R1, ShifterOperand(5)); |
| __ Bind(&l5); |
| __ mov(R0, ShifterOperand(6)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SimpleBranch"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, LongBranch) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| assembler->Force32Bit(); |
| // 32 bit branches. |
| Label l1; |
| __ mov(R0, ShifterOperand(2)); |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(1)); |
| __ b(&l1); |
| |
| Label l2; |
| __ b(&l2); |
| __ mov(R1, ShifterOperand(2)); |
| __ Bind(&l2); |
| __ mov(R0, ShifterOperand(3)); |
| |
| Label l3; |
| __ mov(R0, ShifterOperand(2)); |
| __ Bind(&l3); |
| __ mov(R1, ShifterOperand(1)); |
| __ b(&l3, EQ); |
| |
| Label l4; |
| __ b(&l4, EQ); |
| __ mov(R1, ShifterOperand(2)); |
| __ Bind(&l4); |
| __ mov(R0, ShifterOperand(3)); |
| |
| // 2 linked labels. |
| Label l5; |
| __ b(&l5); |
| __ mov(R1, ShifterOperand(4)); |
| __ b(&l5); |
| __ mov(R1, ShifterOperand(5)); |
| __ Bind(&l5); |
| __ mov(R0, ShifterOperand(6)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "LongBranch"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, LoadMultiple) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| // 16 bit. |
| __ ldm(DB_W, R4, (1 << R0 | 1 << R3)); |
| |
| // 32 bit. |
| __ ldm(DB_W, R4, (1 << LR | 1 << R11)); |
| __ ldm(DB, R4, (1 << LR | 1 << R11)); |
| |
| // Single reg is converted to ldr |
| __ ldm(DB_W, R4, (1 << R5)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "LoadMultiple"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, StoreMultiple) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| // 16 bit. |
| __ stm(IA_W, R4, (1 << R0 | 1 << R3)); |
| |
| // 32 bit. |
| __ stm(IA_W, R4, (1 << LR | 1 << R11)); |
| __ stm(IA, R4, (1 << LR | 1 << R11)); |
| |
| // Single reg is converted to str |
| __ stm(IA_W, R4, (1 << R5)); |
| __ stm(IA, R4, (1 << R5)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "StoreMultiple"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, MovWMovT) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ movw(R4, 0); // 16 bit. |
| __ movw(R4, 0x34); // 16 bit. |
| __ movw(R9, 0x34); // 32 bit due to high register. |
| __ movw(R3, 0x1234); // 32 bit due to large value. |
| __ movw(R9, 0xffff); // 32 bit due to large value and high register. |
| |
| // Always 32 bit. |
| __ movt(R0, 0); |
| __ movt(R0, 0x1234); |
| __ movt(R1, 0xffff); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "MovWMovT"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, SpecialAddSub) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ add(R2, SP, ShifterOperand(0x50)); // 16 bit. |
| __ add(SP, SP, ShifterOperand(0x50)); // 16 bit. |
| __ add(R8, SP, ShifterOperand(0x50)); // 32 bit. |
| |
| __ add(R2, SP, ShifterOperand(0xf00)); // 32 bit due to imm size. |
| __ add(SP, SP, ShifterOperand(0xf00)); // 32 bit due to imm size. |
| |
| __ sub(SP, SP, ShifterOperand(0x50)); // 16 bit |
| __ sub(R0, SP, ShifterOperand(0x50)); // 32 bit |
| __ sub(R8, SP, ShifterOperand(0x50)); // 32 bit. |
| |
| __ sub(SP, SP, ShifterOperand(0xf00)); // 32 bit due to imm size |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "SpecialAddSub"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, StoreToOffset) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ StoreToOffset(kStoreWord, R2, R4, 12); // Simple |
| __ StoreToOffset(kStoreWord, R2, R4, 0x2000); // Offset too big. |
| __ StoreToOffset(kStoreWord, R0, R12, 12); |
| __ StoreToOffset(kStoreHalfword, R0, R12, 12); |
| __ StoreToOffset(kStoreByte, R2, R12, 12); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "StoreToOffset"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, IfThen) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ it(EQ); |
| __ mov(R1, ShifterOperand(1), EQ); |
| |
| __ it(EQ, kItThen); |
| __ mov(R1, ShifterOperand(1), EQ); |
| __ mov(R2, ShifterOperand(2), EQ); |
| |
| __ it(EQ, kItElse); |
| __ mov(R1, ShifterOperand(1), EQ); |
| __ mov(R2, ShifterOperand(2), NE); |
| |
| __ it(EQ, kItThen, kItElse); |
| __ mov(R1, ShifterOperand(1), EQ); |
| __ mov(R2, ShifterOperand(2), EQ); |
| __ mov(R3, ShifterOperand(3), NE); |
| |
| __ it(EQ, kItElse, kItElse); |
| __ mov(R1, ShifterOperand(1), EQ); |
| __ mov(R2, ShifterOperand(2), NE); |
| __ mov(R3, ShifterOperand(3), NE); |
| |
| __ it(EQ, kItThen, kItThen, kItElse); |
| __ mov(R1, ShifterOperand(1), EQ); |
| __ mov(R2, ShifterOperand(2), EQ); |
| __ mov(R3, ShifterOperand(3), EQ); |
| __ mov(R4, ShifterOperand(4), NE); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "IfThen"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, CbzCbnz) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ cbz(R2, &l1); |
| __ mov(R1, ShifterOperand(3)); |
| __ mov(R2, ShifterOperand(3)); |
| __ Bind(&l1); |
| __ mov(R2, ShifterOperand(4)); |
| |
| Label l2; |
| __ cbnz(R2, &l2); |
| __ mov(R8, ShifterOperand(3)); |
| __ mov(R2, ShifterOperand(3)); |
| __ Bind(&l2); |
| __ mov(R2, ShifterOperand(4)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "CbzCbnz"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Multiply) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ mul(R0, R1, R0); |
| __ mul(R0, R1, R2); |
| __ mul(R8, R9, R8); |
| __ mul(R8, R9, R10); |
| |
| __ mla(R0, R1, R2, R3); |
| __ mla(R8, R9, R8, R9); |
| |
| __ mls(R0, R1, R2, R3); |
| __ mls(R8, R9, R8, R9); |
| |
| __ umull(R0, R1, R2, R3); |
| __ umull(R8, R9, R10, R11); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Multiply"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Divide) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ sdiv(R0, R1, R2); |
| __ sdiv(R8, R9, R10); |
| |
| __ udiv(R0, R1, R2); |
| __ udiv(R8, R9, R10); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Divide"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, VMov) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ vmovs(S1, 1.0); |
| __ vmovd(D1, 1.0); |
| |
| __ vmovs(S1, S2); |
| __ vmovd(D1, D2); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "VMov"); |
| delete assembler; |
| } |
| |
| |
| TEST(Thumb2AssemblerTest, BasicFloatingPoint) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ vadds(S0, S1, S2); |
| __ vsubs(S0, S1, S2); |
| __ vmuls(S0, S1, S2); |
| __ vmlas(S0, S1, S2); |
| __ vmlss(S0, S1, S2); |
| __ vdivs(S0, S1, S2); |
| __ vabss(S0, S1); |
| __ vnegs(S0, S1); |
| __ vsqrts(S0, S1); |
| |
| __ vaddd(D0, D1, D2); |
| __ vsubd(D0, D1, D2); |
| __ vmuld(D0, D1, D2); |
| __ vmlad(D0, D1, D2); |
| __ vmlsd(D0, D1, D2); |
| __ vdivd(D0, D1, D2); |
| __ vabsd(D0, D1); |
| __ vnegd(D0, D1); |
| __ vsqrtd(D0, D1); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "BasicFloatingPoint"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, FloatingPointConversions) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ vcvtsd(S2, D2); |
| __ vcvtds(D2, S2); |
| |
| __ vcvtis(S1, S2); |
| __ vcvtsi(S1, S2); |
| |
| __ vcvtid(S1, D2); |
| __ vcvtdi(D1, S2); |
| |
| __ vcvtus(S1, S2); |
| __ vcvtsu(S1, S2); |
| |
| __ vcvtud(S1, D2); |
| __ vcvtdu(D1, S2); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "FloatingPointConversions"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, FloatingPointComparisons) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ vcmps(S0, S1); |
| __ vcmpd(D0, D1); |
| |
| __ vcmpsz(S2); |
| __ vcmpdz(D2); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "FloatingPointComparisons"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Calls) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ blx(LR); |
| __ bx(LR); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Calls"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Breakpoint) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ bkpt(0); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Breakpoint"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, StrR1) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ str(R1, Address(SP, 68)); |
| __ str(R1, Address(SP, 1068)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "StrR1"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, VPushPop) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ vpushs(S2, 4); |
| __ vpushd(D2, 4); |
| |
| __ vpops(S2, 4); |
| __ vpopd(D2, 4); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "VPushPop"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Max16BitBranch) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ b(&l1); |
| for (int i = 0 ; i < (1 << 11) ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Max16BitBranch"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Branch32) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ b(&l1); |
| for (int i = 0 ; i < (1 << 11) + 2 ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Branch32"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, CompareAndBranchMax) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ cbz(R4, &l1); |
| for (int i = 0 ; i < (1 << 7) ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "CompareAndBranchMax"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, CompareAndBranchRelocation16) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ cbz(R4, &l1); |
| for (int i = 0 ; i < (1 << 7) + 2 ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "CompareAndBranchRelocation16"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, CompareAndBranchRelocation32) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| __ cbz(R4, &l1); |
| for (int i = 0 ; i < (1 << 11) + 2 ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "CompareAndBranchRelocation32"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, MixedBranch32) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| Label l1; |
| Label l2; |
| __ b(&l1); // Forwards. |
| __ Bind(&l2); |
| |
| // Space to force relocation. |
| for (int i = 0 ; i < (1 << 11) + 2 ; i += 2) { |
| __ mov(R3, ShifterOperand(i & 0xff)); |
| } |
| __ b(&l2); // Backwards. |
| __ Bind(&l1); |
| __ mov(R1, ShifterOperand(R2)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "MixedBranch32"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, Shifts) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| // 16 bit |
| __ Lsl(R0, R1, 5); |
| __ Lsr(R0, R1, 5); |
| __ Asr(R0, R1, 5); |
| |
| __ Lsl(R0, R0, R1); |
| __ Lsr(R0, R0, R1); |
| __ Asr(R0, R0, R1); |
| |
| // 32 bit due to high registers. |
| __ Lsl(R8, R1, 5); |
| __ Lsr(R0, R8, 5); |
| __ Asr(R8, R1, 5); |
| __ Ror(R0, R8, 5); |
| |
| // 32 bit due to different Rd and Rn. |
| __ Lsl(R0, R1, R2); |
| __ Lsr(R0, R1, R2); |
| __ Asr(R0, R1, R2); |
| __ Ror(R0, R1, R2); |
| |
| // 32 bit due to use of high registers. |
| __ Lsl(R8, R1, R2); |
| __ Lsr(R0, R8, R2); |
| __ Asr(R0, R1, R8); |
| |
| // S bit (all 32 bit) |
| |
| // 32 bit due to high registers. |
| __ Lsl(R8, R1, 5, true); |
| __ Lsr(R0, R8, 5, true); |
| __ Asr(R8, R1, 5, true); |
| __ Ror(R0, R8, 5, true); |
| |
| // 32 bit due to different Rd and Rn. |
| __ Lsl(R0, R1, R2, true); |
| __ Lsr(R0, R1, R2, true); |
| __ Asr(R0, R1, R2, true); |
| __ Ror(R0, R1, R2, true); |
| |
| // 32 bit due to use of high registers. |
| __ Lsl(R8, R1, R2, true); |
| __ Lsr(R0, R8, R2, true); |
| __ Asr(R0, R1, R8, true); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "Shifts"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, LoadStoreRegOffset) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| // 16 bit. |
| __ ldr(R0, Address(R1, R2)); |
| __ str(R0, Address(R1, R2)); |
| |
| // 32 bit due to shift. |
| __ ldr(R0, Address(R1, R2, LSL, 1)); |
| __ str(R0, Address(R1, R2, LSL, 1)); |
| |
| __ ldr(R0, Address(R1, R2, LSL, 3)); |
| __ str(R0, Address(R1, R2, LSL, 3)); |
| |
| // 32 bit due to high register use. |
| __ ldr(R8, Address(R1, R2)); |
| __ str(R8, Address(R1, R2)); |
| |
| __ ldr(R1, Address(R8, R2)); |
| __ str(R2, Address(R8, R2)); |
| |
| __ ldr(R0, Address(R1, R8)); |
| __ str(R0, Address(R1, R8)); |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "LoadStoreRegOffset"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, LoadStoreLiteral) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ ldr(R0, Address(4)); |
| __ str(R0, Address(4)); |
| |
| __ ldr(R0, Address(-8)); |
| __ str(R0, Address(-8)); |
| |
| // Limits. |
| __ ldr(R0, Address(0x3ff)); // 10 bits (16 bit). |
| __ ldr(R0, Address(0x7ff)); // 11 bits (32 bit). |
| __ str(R0, Address(0x3ff)); // 32 bit (no 16 bit str(literal)). |
| __ str(R0, Address(0x7ff)); // 11 bits (32 bit). |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "LoadStoreLiteral"); |
| delete assembler; |
| } |
| |
| TEST(Thumb2AssemblerTest, LoadStoreLimits) { |
| arm::Thumb2Assembler* assembler = static_cast<arm::Thumb2Assembler*>(Assembler::Create(kThumb2)); |
| |
| __ ldr(R0, Address(R4, 124)); // 16 bit. |
| __ ldr(R0, Address(R4, 128)); // 32 bit. |
| |
| __ ldrb(R0, Address(R4, 31)); // 16 bit. |
| __ ldrb(R0, Address(R4, 32)); // 32 bit. |
| |
| __ ldrh(R0, Address(R4, 62)); // 16 bit. |
| __ ldrh(R0, Address(R4, 64)); // 32 bit. |
| |
| __ ldrsb(R0, Address(R4, 31)); // 32 bit. |
| __ ldrsb(R0, Address(R4, 32)); // 32 bit. |
| |
| __ ldrsh(R0, Address(R4, 62)); // 32 bit. |
| __ ldrsh(R0, Address(R4, 64)); // 32 bit. |
| |
| __ str(R0, Address(R4, 124)); // 16 bit. |
| __ str(R0, Address(R4, 128)); // 32 bit. |
| |
| __ strb(R0, Address(R4, 31)); // 16 bit. |
| __ strb(R0, Address(R4, 32)); // 32 bit. |
| |
| __ strh(R0, Address(R4, 62)); // 16 bit. |
| __ strh(R0, Address(R4, 64)); // 32 bit. |
| |
| size_t cs = __ CodeSize(); |
| std::vector<uint8_t> managed_code(cs); |
| MemoryRegion code(&managed_code[0], managed_code.size()); |
| __ FinalizeInstructions(code); |
| dump(managed_code, "LoadStoreLimits"); |
| delete assembler; |
| } |
| |
| #undef __ |
| } // namespace arm |
| } // namespace art |