// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // All Rights Reserved. // // Author: Maxim Lifantsev // // Useful integer and floating point limits and type traits. // // This partially replaces/duplictes numeric_limits<> from . // We get a Google-style class that we have a greater control over // and thus can add new features to it or fix whatever happens to be broken in // numeric_limits for the compilers we use. // #ifndef UTIL_MATH_MATHLIMITS_H__ #define UTIL_MATH_MATHLIMITS_H__ // Note that for Windows we do something different because it does not support // the plain isinf and isnan. #if __cplusplus >= 201103L // GCC 4.9 has a bug that makes isinf and isnan ambigious when both // and get pulled into the same translation unit. We use the ones in // std:: namespace explicitly for C++11 #include #define GOOGLE_PROTOBUF_USE_STD_CMATH #elif _GLIBCXX_USE_C99_MATH && !_GLIBCXX_USE_C99_FP_MACROS_DYNAMIC // libstdc++ header undefines the global macros and put functions in // std:: namespace even before C++11. Use the ones in std:: instead too. #include #define GOOGLE_PROTOBUF_USE_STD_CMATH #else #include #endif #include #include #include #include // ========================================================================= // // Useful integer and floating point limits and type traits. // This is just for the documentation; // real members are defined in our specializations below. namespace google { namespace protobuf { template struct MathLimits { // Type name. typedef T Type; // Unsigned version of the Type with the same byte size. // Same as Type for floating point and unsigned types. typedef T UnsignedType; // If the type supports negative values. static const bool kIsSigned; // If the type supports only integer values. static const bool kIsInteger; // Magnitude-wise smallest representable positive value. static const Type kPosMin; // Magnitude-wise largest representable positive value. static const Type kPosMax; // Smallest representable value. static const Type kMin; // Largest representable value. static const Type kMax; // Magnitude-wise smallest representable negative value. // Present only if kIsSigned. static const Type kNegMin; // Magnitude-wise largest representable negative value. // Present only if kIsSigned. static const Type kNegMax; // Smallest integer x such that 10^x is representable. static const int kMin10Exp; // Largest integer x such that 10^x is representable. static const int kMax10Exp; // Smallest positive value such that Type(1) + kEpsilon != Type(1) static const Type kEpsilon; // Typical rounding error that is enough to cover // a few simple floating-point operations. // Slightly larger than kEpsilon to account for a few rounding errors. // Is zero if kIsInteger. static const Type kStdError; // Number of decimal digits of mantissa precision. // Present only if !kIsInteger. static const int kPrecisionDigits; // Not a number, i.e. result of 0/0. // Present only if !kIsInteger. static const Type kNaN; // Positive infinity, i.e. result of 1/0. // Present only if !kIsInteger. static const Type kPosInf; // Negative infinity, i.e. result of -1/0. // Present only if !kIsInteger. static const Type kNegInf; // NOTE: Special floating point values behave // in a special (but mathematically-logical) way // in terms of (in)equalty comparison and mathematical operations // -- see out unittest for examples. // Special floating point value testers. // Present in integer types for convenience. static bool IsFinite(const Type x); static bool IsNaN(const Type x); static bool IsInf(const Type x); static bool IsPosInf(const Type x); static bool IsNegInf(const Type x); }; // ========================================================================= // // All #define-s below are simply to refactor the declarations of // MathLimits template specializations. // They are all #undef-ined below. // The hoop-jumping in *_INT_(MAX|MIN) below is so that the compiler does not // get an overflow while computing the constants. #define SIGNED_INT_MAX(Type) \ (((Type(1) << (sizeof(Type)*8 - 2)) - 1) + (Type(1) << (sizeof(Type)*8 - 2))) #define SIGNED_INT_MIN(Type) \ (-(Type(1) << (sizeof(Type)*8 - 2)) - (Type(1) << (sizeof(Type)*8 - 2))) #define UNSIGNED_INT_MAX(Type) \ (((Type(1) << (sizeof(Type)*8 - 1)) - 1) + (Type(1) << (sizeof(Type)*8 - 1))) // Compile-time selected log10-related constants for integer types. #define SIGNED_MAX_10_EXP(Type) \ (sizeof(Type) == 1 ? 2 : ( \ sizeof(Type) == 2 ? 4 : ( \ sizeof(Type) == 4 ? 9 : ( \ sizeof(Type) == 8 ? 18 : -1)))) #define UNSIGNED_MAX_10_EXP(Type) \ (sizeof(Type) == 1 ? 2 : ( \ sizeof(Type) == 2 ? 4 : ( \ sizeof(Type) == 4 ? 9 : ( \ sizeof(Type) == 8 ? 19 : -1)))) #define DECL_INT_LIMIT_FUNCS \ static bool IsFinite(const Type /*x*/) { return true; } \ static bool IsNaN(const Type /*x*/) { return false; } \ static bool IsInf(const Type /*x*/) { return false; } \ static bool IsPosInf(const Type /*x*/) { return false; } \ static bool IsNegInf(const Type /*x*/) { return false; } #define DECL_SIGNED_INT_LIMITS(IntType, UnsignedIntType) \ template <> \ struct PROTOBUF_EXPORT MathLimits { \ typedef IntType Type; \ typedef UnsignedIntType UnsignedType; \ static const bool kIsSigned = true; \ static const bool kIsInteger = true; \ static const Type kPosMin = 1; \ static const Type kPosMax = SIGNED_INT_MAX(Type); \ static const Type kMin = SIGNED_INT_MIN(Type); \ static const Type kMax = kPosMax; \ static const Type kNegMin = -1; \ static const Type kNegMax = kMin; \ static const int kMin10Exp = 0; \ static const int kMax10Exp = SIGNED_MAX_10_EXP(Type); \ static const Type kEpsilon = 1; \ static const Type kStdError = 0; \ DECL_INT_LIMIT_FUNCS \ }; #define DECL_UNSIGNED_INT_LIMITS(IntType) \ template <> \ struct PROTOBUF_EXPORT MathLimits { \ typedef IntType Type; \ typedef IntType UnsignedType; \ static const bool kIsSigned = false; \ static const bool kIsInteger = true; \ static const Type kPosMin = 1; \ static const Type kPosMax = UNSIGNED_INT_MAX(Type); \ static const Type kMin = 0; \ static const Type kMax = kPosMax; \ static const int kMin10Exp = 0; \ static const int kMax10Exp = UNSIGNED_MAX_10_EXP(Type); \ static const Type kEpsilon = 1; \ static const Type kStdError = 0; \ DECL_INT_LIMIT_FUNCS \ }; DECL_SIGNED_INT_LIMITS(signed char, unsigned char) DECL_SIGNED_INT_LIMITS(signed short int, unsigned short int) DECL_SIGNED_INT_LIMITS(signed int, unsigned int) DECL_SIGNED_INT_LIMITS(signed long int, unsigned long int) DECL_SIGNED_INT_LIMITS(signed long long int, unsigned long long int) DECL_UNSIGNED_INT_LIMITS(unsigned char) DECL_UNSIGNED_INT_LIMITS(unsigned short int) DECL_UNSIGNED_INT_LIMITS(unsigned int) DECL_UNSIGNED_INT_LIMITS(unsigned long int) DECL_UNSIGNED_INT_LIMITS(unsigned long long int) #undef DECL_SIGNED_INT_LIMITS #undef DECL_UNSIGNED_INT_LIMITS #undef SIGNED_INT_MAX #undef SIGNED_INT_MIN #undef UNSIGNED_INT_MAX #undef SIGNED_MAX_10_EXP #undef UNSIGNED_MAX_10_EXP #undef DECL_INT_LIMIT_FUNCS // For non-Windows builds we use the std:: versions of isinf and isnan if they // are available; see the comment about at the top of this file for the // details on why we need to do this. #ifdef GOOGLE_PROTOBUF_USE_STD_CMATH #define ISINF std::isinf #define ISNAN std::isnan #else #define ISINF isinf #define ISNAN isnan #endif // ========================================================================= // #if defined(_WIN32) && !defined(__MINGW32__) // Lacks built-in isnan() and isinf() #define DECL_FP_LIMIT_FUNCS \ static bool IsFinite(const Type x) { return _finite(x); } \ static bool IsNaN(const Type x) { return _isnan(x); } \ static bool IsInf(const Type x) { return (_fpclass(x) & (_FPCLASS_NINF | _FPCLASS_PINF)) != 0; } \ static bool IsPosInf(const Type x) { return _fpclass(x) == _FPCLASS_PINF; } \ static bool IsNegInf(const Type x) { return _fpclass(x) == _FPCLASS_NINF; } #else #define DECL_FP_LIMIT_FUNCS \ static bool IsFinite(const Type x) { return !ISINF(x) && !ISNAN(x); } \ static bool IsNaN(const Type x) { return ISNAN(x); } \ static bool IsInf(const Type x) { return ISINF(x); } \ static bool IsPosInf(const Type x) { return ISINF(x) && x > 0; } \ static bool IsNegInf(const Type x) { return ISINF(x) && x < 0; } #endif // We can't put floating-point constant values in the header here because // such constants are not considered to be primitive-type constants by gcc. // CAVEAT: Hence, they are going to be initialized only during // the global objects construction time. #define DECL_FP_LIMITS(FP_Type, PREFIX) \ template <> \ struct PROTOBUF_EXPORT MathLimits { \ typedef FP_Type Type; \ typedef FP_Type UnsignedType; \ static const bool kIsSigned = true; \ static const bool kIsInteger = false; \ static const Type kPosMin; \ static const Type kPosMax; \ static const Type kMin; \ static const Type kMax; \ static const Type kNegMin; \ static const Type kNegMax; \ static const int kMin10Exp = PREFIX##_MIN_10_EXP; \ static const int kMax10Exp = PREFIX##_MAX_10_EXP; \ static const Type kEpsilon; \ static const Type kStdError; \ static const int kPrecisionDigits = PREFIX##_DIG; \ static const Type kNaN; \ static const Type kPosInf; \ static const Type kNegInf; \ DECL_FP_LIMIT_FUNCS \ }; DECL_FP_LIMITS(float, FLT) DECL_FP_LIMITS(double, DBL) DECL_FP_LIMITS(long double, LDBL) #undef ISINF #undef ISNAN #undef DECL_FP_LIMITS #undef DECL_FP_LIMIT_FUNCS // ========================================================================= // } // namespace protobuf } // namespace google #include #endif // UTIL_MATH_MATHLIMITS_H__