1 // Copyright 2006-2013 the V8 project authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 // This module contains the architecture-specific code. This make the rest of 6 // the code less dependent on differences between different processor 7 // architecture. 8 // The classes have the same definition for all architectures. The 9 // implementation for a particular architecture is put in cpu_<arch>.cc. 10 // The build system then uses the implementation for the target architecture. 11 // 12 13 #ifndef V8_BASE_CPU_H_ 14 #define V8_BASE_CPU_H_ 15 16 #include "src/base/macros.h" 17 18 namespace v8 { 19 namespace base { 20 21 // ---------------------------------------------------------------------------- 22 // CPU 23 // 24 // Query information about the processor. 25 // 26 // This class also has static methods for the architecture specific functions. 27 // Add methods here to cope with differences between the supported 28 // architectures. For each architecture the file cpu_<arch>.cc contains the 29 // implementation of these static functions. 30 31 class CPU FINAL { 32 public: 33 CPU(); 34 35 // x86 CPUID information vendor()36 const char* vendor() const { return vendor_; } stepping()37 int stepping() const { return stepping_; } model()38 int model() const { return model_; } ext_model()39 int ext_model() const { return ext_model_; } family()40 int family() const { return family_; } ext_family()41 int ext_family() const { return ext_family_; } type()42 int type() const { return type_; } 43 44 // arm implementer/part information implementer()45 int implementer() const { return implementer_; } 46 static const int ARM = 0x41; 47 static const int NVIDIA = 0x4e; 48 static const int QUALCOMM = 0x51; architecture()49 int architecture() const { return architecture_; } part()50 int part() const { return part_; } 51 static const int ARM_CORTEX_A5 = 0xc05; 52 static const int ARM_CORTEX_A7 = 0xc07; 53 static const int ARM_CORTEX_A8 = 0xc08; 54 static const int ARM_CORTEX_A9 = 0xc09; 55 static const int ARM_CORTEX_A12 = 0xc0c; 56 static const int ARM_CORTEX_A15 = 0xc0f; 57 58 // General features has_fpu()59 bool has_fpu() const { return has_fpu_; } 60 61 // x86 features has_cmov()62 bool has_cmov() const { return has_cmov_; } has_sahf()63 bool has_sahf() const { return has_sahf_; } has_mmx()64 bool has_mmx() const { return has_mmx_; } has_sse()65 bool has_sse() const { return has_sse_; } has_sse2()66 bool has_sse2() const { return has_sse2_; } has_sse3()67 bool has_sse3() const { return has_sse3_; } has_ssse3()68 bool has_ssse3() const { return has_ssse3_; } has_sse41()69 bool has_sse41() const { return has_sse41_; } has_sse42()70 bool has_sse42() const { return has_sse42_; } 71 72 // arm features has_idiva()73 bool has_idiva() const { return has_idiva_; } has_neon()74 bool has_neon() const { return has_neon_; } has_thumb2()75 bool has_thumb2() const { return has_thumb2_; } has_vfp()76 bool has_vfp() const { return has_vfp_; } has_vfp3()77 bool has_vfp3() const { return has_vfp3_; } has_vfp3_d32()78 bool has_vfp3_d32() const { return has_vfp3_d32_; } 79 80 // mips features is_fp64_mode()81 bool is_fp64_mode() const { return is_fp64_mode_; } 82 83 private: 84 char vendor_[13]; 85 int stepping_; 86 int model_; 87 int ext_model_; 88 int family_; 89 int ext_family_; 90 int type_; 91 int implementer_; 92 int architecture_; 93 int part_; 94 bool has_fpu_; 95 bool has_cmov_; 96 bool has_sahf_; 97 bool has_mmx_; 98 bool has_sse_; 99 bool has_sse2_; 100 bool has_sse3_; 101 bool has_ssse3_; 102 bool has_sse41_; 103 bool has_sse42_; 104 bool has_idiva_; 105 bool has_neon_; 106 bool has_thumb2_; 107 bool has_vfp_; 108 bool has_vfp3_; 109 bool has_vfp3_d32_; 110 bool is_fp64_mode_; 111 }; 112 113 } } // namespace v8::base 114 115 #endif // V8_BASE_CPU_H_ 116