/art/tools/dexfuzz/src/dexfuzz/executors/ |
Architecture.java | 24 ARM64("arm64"),
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Arm64InterpreterExecutor.java | 24 super("ARM64 Interpreter", 30, listener, Architecture.ARM64, device, false);
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Arm64OptimizingBackendExecutor.java | 24 super("ARM64 Optimizing Backend", 5, listener, Architecture.ARM64, device, true);
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Arm64QuickBackendExecutor.java | 24 super("ARM64 Quick Backend", 5, listener, Architecture.ARM64, device, true);
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/device/generic/qemu/ |
qemu_arm64.mk | 22 PRODUCT_MODEL := Minimal Android for QEMU/ARM64
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/ndk/tests/device/test-cpufeatures/jni/ |
test_cpufeatures.c | 36 printf("CPU family is ARM64\n"); 78 CHECK(ARM64, FP) 79 CHECK(ARM64, ASIMD) 80 CHECK(ARM64, AES) 81 CHECK(ARM64, PMULL) 82 CHECK(ARM64, SHA1) 83 CHECK(ARM64, SHA2) 84 CHECK(ARM64, CRC32)
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/ndk/tests/build/flto/jni/ |
Android.mk | 9 # Clang LTO is only supported with gold. ARM64 still uses bfd by default, so
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/ndk/tests/build/issue36131-flto-c++11/jni/ |
Android.mk | 10 # Clang LTO is only supported with gold. ARM64 still uses bfd by default, so
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/external/llvm/test/MC/AArch64/ |
arm64-separator.s | 1 ; RUN: llvm-mc -triple arm64-apple-darwin -show-encoding < %s | FileCheck %s 3 ; ARM64 uses a multi-character statement separator, "%%". Check that we lex
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/external/valgrind/coregrind/ |
pub_core_basics.h | 84 } ARM64;
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m_libcassert.c | 160 (srP)->misc.ARM64.x29 = block[2]; \ 161 (srP)->misc.ARM64.x30 = block[3]; \
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m_machine.c | 102 regs->misc.ARM64.x29 = VG_(threads)[tid].arch.vex.guest_X29; 103 regs->misc.ARM64.x30 = VG_(threads)[tid].arch.vex.guest_X30; [all...] |
m_stacktrace.c | [all...] |
m_signals.c | 397 (srP)->misc.ARM64.x29 = (uc)->uc_mcontext.regs[29]; \ 398 (srP)->misc.ARM64.x30 = (uc)->uc_mcontext.regs[30]; \ [all...] |
/external/compiler-rt/lib/builtins/ |
Makefile.mk | 16 # Add ARM64 dir. 17 SubDirs += arm64
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/external/valgrind/VEX/auxprogs/ |
genoffsets.c | 164 // arm64 165 GENOFFSET(ARM64,arm64,X0); 166 GENOFFSET(ARM64,arm64,X1); 167 GENOFFSET(ARM64,arm64,X2); 168 GENOFFSET(ARM64,arm64,X3); 169 GENOFFSET(ARM64,arm64,X4) [all...] |
/external/google-breakpad/src/common/ |
dwarf_cfi_to_module.h | 112 // ARM64, aka AARCH64. 113 static vector<string> ARM64();
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dwarf_cfi_to_module.cc | 109 vector<string> DwarfCFIToModule::RegisterNames::ARM64() {
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/art/compiler/optimizing/ |
intrinsics_arm64.cc | 19 #include "arch/arm64/instruction_set_features_arm64.h" 28 #include "utils/arm64/assembler_arm64.h" 29 #include "utils/arm64/constants_arm64.h" 38 namespace arm64 { namespace in namespace:art [all...] |
/art/runtime/arch/ |
arch_test.cc | 74 namespace arm64 { namespace in namespace:art 75 #include "arch/arm64/asm_support_arm64.h" 132 TEST_F(ArchTest, ARM64) { 133 CheckFrameSize(InstructionSet::kArm64, Runtime::kSaveAll, arm64::kFrameSizeSaveAllCalleeSave); 134 CheckFrameSize(InstructionSet::kArm64, Runtime::kRefsOnly, arm64::kFrameSizeRefsOnlyCalleeSave); 136 arm64::kFrameSizeRefsAndArgsCalleeSave);
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/art/test/ |
Android.run-test.mk | 529 # 527: On ARM64, the read barrier instrumentation does not support the HArm64IntermediateAddress 575 # 055: Exceeds run time limits due to heap poisoning instrumentation (on ARM and ARM64 devices). [all...] |
/external/google-breakpad/src/common/linux/ |
dump_symbols.cc | 302 *register_names = DwarfCFIToModule::RegisterNames::ARM64(); 782 case EM_AARCH64: return "arm64"; [all...] |
/external/v8/test/mjsunit/es6/ |
proxies.js | 28 // We change the stack size for the ARM64 simulator because at one point this [all...] |