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Qt Quick Ultralite Automotive Cluster Demo
///\file /****************************************************************************** The MIT License(MIT) Embedded Template Library. https://github.com/ETLCPP/etl https://www.etlcpp.com Copyright(c) 2018 jwellbelove Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files(the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions : The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ******************************************************************************/ #ifndef ETL_STL_ALTERNATE_LIMITS_INCLUDED #define ETL_STL_ALTERNATE_LIMITS_INCLUDED #include "../../platform.h" #include "../../type_traits.h" #include "../../char_traits.h" #include "../../integral_limits.h" #include <limits.h> #include <stdint.h> #include <float.h> #define ETL_LOG2(x) (((x) * 301) / 1000) #if defined(ETL_IN_UNIT_TEST) #if !defined(ETLSTD) #define ETLSTD etlstd #endif namespace etlstd #else #if !defined(ETLSTD) #define ETLSTD std #endif namespace std #endif { template<class T> class numeric_limits; enum float_round_style { round_indeterminate = -1, round_toward_zero = 0, round_to_nearest = 1, round_toward_infinity = 2, round_toward_neg_infinity = 3, }; enum float_denorm_style { denorm_indeterminate = -1, denorm_absent = 0, denorm_present = 1 }; //*************************************************************************** // Base for integral types. template <typename T> class etl_integral_type { public: static const bool is_specialized; static const int max_digits10; static const bool is_integer; static const bool is_exact; static const int radix; static ETL_CONSTEXPR T epsilon() { return 0; } static ETL_CONSTEXPR T round_error() { return 0; } static const int digits; static const int digits10; static const bool is_signed; static const int min_exponent; static const int min_exponent10; static const int max_exponent; static const int max_exponent10; static const bool has_infinity; static const bool has_quiet_NaN; static const bool has_signaling_NaN; static const float_denorm_style has_denorm; static const bool has_denorm_loss; static ETL_CONSTEXPR T infinity() { return 0; } static ETL_CONSTEXPR T quiet_NaN() { return 0; } static ETL_CONSTEXPR T signaling_NaN() { return 0; } static ETL_CONSTEXPR T denorm_min() { return 0; } static const bool is_iec559; static const bool is_bounded; static const bool is_modulo; static const bool traps; static const bool tinyness_before; static const float_round_style round_style; }; template <typename T> const bool etl_integral_type<T>::is_specialized = true; template <typename T> const int etl_integral_type<T>::digits = (CHAR_BIT * sizeof(T)) - (etl::is_signed<T>::value ? 1 : 0); template <typename T> const int etl_integral_type<T>::digits10 = ETL_LOG2(digits); template <typename T> const int etl_integral_type<T>::max_digits10 = 0; template <typename T> const bool etl_integral_type<T>::is_signed = etl::is_signed<T>::value; template <typename T> const bool etl_integral_type<T>::is_integer = true; template <typename T> const bool etl_integral_type<T>::is_exact = true; template <typename T> const int etl_integral_type<T>::radix = 2; template <typename T> const int etl_integral_type<T>::min_exponent = 0; template <typename T> const int etl_integral_type<T>::min_exponent10 = 0; template <typename T> const int etl_integral_type<T>::max_exponent = 0; template <typename T> const int etl_integral_type<T>::max_exponent10 = 0; template <typename T> const bool etl_integral_type<T>::has_infinity = false; template <typename T> const bool etl_integral_type<T>::has_quiet_NaN = false; template <typename T> const bool etl_integral_type<T>::has_signaling_NaN = false; template <typename T> const float_denorm_style etl_integral_type<T>::has_denorm = denorm_absent; template <typename T> const bool etl_integral_type<T>::has_denorm_loss = false; template <typename T> const bool etl_integral_type<T>::is_iec559 = false; template <typename T> const bool etl_integral_type<T>::is_bounded = true; template <typename T> const bool etl_integral_type<T>::is_modulo = etl::is_unsigned<T>::value; template <typename T> const bool etl_integral_type<T>::traps = false; template <typename T> const bool etl_integral_type<T>::tinyness_before = false; template <typename T> const float_round_style etl_integral_type<T>::round_style = round_toward_zero; //*************************************************************************** // Base for floating point types. template <typename T> class etl_floating_point_type { public: static const bool is_specialized; static const bool is_signed; static const bool is_integer; static const bool is_exact; static const int radix; static const bool has_infinity; static const bool has_quiet_NaN; static const bool has_signaling_NaN; static const float_denorm_style has_denorm; static const bool has_denorm_loss; static const bool is_iec559; static const bool is_bounded; static const bool is_modulo; static ETL_CONSTEXPR T round_error() { return T(0.5); } static ETL_CONSTEXPR T infinity() { return 0; } static ETL_CONSTEXPR T quiet_NaN() { return 0; } static ETL_CONSTEXPR T signaling_NaN() { return 0; } static const bool traps; static const bool tinyness_before; static const float_round_style round_style; }; template <typename T> const bool etl_floating_point_type<T>::is_specialized = true; template <typename T> const bool etl_floating_point_type<T>::is_signed = true; template <typename T> const bool etl_floating_point_type<T>::is_integer = false; template <typename T> const bool etl_floating_point_type<T>::is_exact = false; template <typename T> const int etl_floating_point_type<T>::radix = 2; template <typename T> const bool etl_floating_point_type<T>::has_infinity = false; template <typename T> const bool etl_floating_point_type<T>::has_quiet_NaN = false; template <typename T> const bool etl_floating_point_type<T>::has_signaling_NaN = false; template <typename T> const float_denorm_style etl_floating_point_type<T>::has_denorm = denorm_present; template <typename T> const bool etl_floating_point_type<T>::has_denorm_loss = true; template <typename T> const bool etl_floating_point_type<T>::is_iec559 = true; template <typename T> const bool etl_floating_point_type<T>::is_bounded = true; template <typename T> const bool etl_floating_point_type<T>::is_modulo = false; template <typename T> const bool etl_floating_point_type<T>::traps = false; template <typename T> const bool etl_floating_point_type<T>::tinyness_before = true; template <typename T> const float_round_style etl_floating_point_type<T>::round_style = round_to_nearest; //*************************************************************************** // Default template<class T> class numeric_limits; //*************************************************************************** // bool template<> class numeric_limits<bool> { public: static const bool is_specialized; static ETL_CONSTEXPR bool min() { return false; } static ETL_CONSTEXPR bool max() { return true; } static ETL_CONSTEXPR bool lowest() { return false; } static const int digits; static const int digits10; static const int max_digits10; static const bool is_signed; static const bool is_integer; static const bool is_exact; static const int radix; static const bool epsilon() { return 0; } static const bool round_error() { return 0; } static const int min_exponent; static const int min_exponent10; static const int max_exponent; static const int max_exponent10; static const bool has_infinity; static const bool has_quiet_NaN; static const bool has_signaling_NaN; static const float_denorm_style has_denorm; static const bool has_denorm_loss; static ETL_CONSTEXPR bool infinity() { return 0; } static ETL_CONSTEXPR bool quiet_NaN() { return 0; } static ETL_CONSTEXPR bool signaling_NaN() { return 0; } static ETL_CONSTEXPR bool denorm_min() { return 0; } static const bool is_iec559; static const bool is_bounded; static const bool is_modulo; static const bool traps; static const bool tinyness_before; static const float_round_style round_style; }; const bool numeric_limits<bool>::is_specialized = true; const int numeric_limits<bool>::digits = 1; const int numeric_limits<bool>::digits10 = 0; const int numeric_limits<bool>::max_digits10 = 0; const bool numeric_limits<bool>::is_signed = false; const bool numeric_limits<bool>::is_integer = true; const bool numeric_limits<bool>::is_exact = true; const int numeric_limits<bool>::radix = 2; const int numeric_limits<bool>::min_exponent = 0; const int numeric_limits<bool>::min_exponent10 = 0; const int numeric_limits<bool>::max_exponent = 0; const int numeric_limits<bool>::max_exponent10 = 0; const bool numeric_limits<bool>::has_infinity = false; const bool numeric_limits<bool>::has_quiet_NaN = false; const bool numeric_limits<bool>::has_signaling_NaN = false; const float_denorm_style numeric_limits<bool>::has_denorm = denorm_absent; const bool numeric_limits<bool>::has_denorm_loss = false; const bool numeric_limits<bool>::is_iec559 = false; const bool numeric_limits<bool>::is_bounded = true; const bool numeric_limits<bool>::is_modulo = false; const bool numeric_limits<bool>::traps = false; const bool numeric_limits<bool>::tinyness_before = false; const float_round_style numeric_limits<bool>::round_style = round_toward_zero; //*************************************************************************** // char template<> class numeric_limits<char> : public etl_integral_type<char> { public: static ETL_CONSTEXPR char min() { return CHAR_MIN; } static ETL_CONSTEXPR char max() { return CHAR_MAX; } static ETL_CONSTEXPR char lowest() { return CHAR_MIN; } }; //*************************************************************************** // unsigned char template<> class numeric_limits<unsigned char> : public etl_integral_type<unsigned char> { public: static ETL_CONSTEXPR unsigned char min() { return 0; } static ETL_CONSTEXPR unsigned char max() { return UCHAR_MAX; } static ETL_CONSTEXPR unsigned char lowest() { return 0; } }; //*************************************************************************** // signed char template<> class numeric_limits<signed char> : public etl_integral_type<signed char> { public: static ETL_CONSTEXPR signed char min() { return SCHAR_MIN; } static ETL_CONSTEXPR signed char max() { return SCHAR_MAX; } static ETL_CONSTEXPR signed char lowest() { return SCHAR_MIN; } }; //*************************************************************************** // char16_t template<> class numeric_limits<char16_t> : public etl_integral_type<char16_t> { public: static ETL_CONSTEXPR char16_t min() { return 0; } static ETL_CONSTEXPR char16_t max() { return UINT_LEAST16_MAX; } static ETL_CONSTEXPR char16_t lowest() { return 0; } }; //*************************************************************************** // char32_t template<> class numeric_limits<char32_t> : public etl_integral_type<char32_t> { public: static ETL_CONSTEXPR char32_t min() { return 0; } static ETL_CONSTEXPR char32_t max() { return UINT_LEAST32_MAX; } static ETL_CONSTEXPR char32_t lowest() { return 0; } }; //*************************************************************************** // wchar_t template<> class numeric_limits<wchar_t> : public etl_integral_type<wchar_t> { public: static ETL_CONSTEXPR wchar_t min() { return WCHAR_MIN; } static ETL_CONSTEXPR wchar_t max() { return WCHAR_MAX; } static ETL_CONSTEXPR wchar_t lowest() { return WCHAR_MIN; } }; //*************************************************************************** // short template<> class numeric_limits<short> : public etl_integral_type<short> { public: static ETL_CONSTEXPR short min() { return SHRT_MIN; } static ETL_CONSTEXPR short max() { return SHRT_MAX; } static ETL_CONSTEXPR short lowest() { return SHRT_MIN; } }; //*************************************************************************** // unsigned short template<> class numeric_limits<unsigned short> : public etl_integral_type<unsigned short> { public: static ETL_CONSTEXPR unsigned short min() { return 0; } static ETL_CONSTEXPR unsigned short max() { return USHRT_MAX; } static ETL_CONSTEXPR unsigned short lowest() { return 0; } }; //*************************************************************************** // int template<> class numeric_limits<int> : public etl_integral_type<int> { public: static ETL_CONSTEXPR int min() { return INT_MIN; } static ETL_CONSTEXPR int max() { return INT_MAX; } static ETL_CONSTEXPR int lowest() { return INT_MIN; } }; //*************************************************************************** // unsigned int template<> class numeric_limits<unsigned int> : public etl_integral_type<unsigned int> { public: static ETL_CONSTEXPR unsigned int min() { return 0; } static ETL_CONSTEXPR unsigned int max() { return UINT_MAX; } static ETL_CONSTEXPR unsigned int lowest() { return 0; } }; //*************************************************************************** // long template<> class numeric_limits<long> : public etl_integral_type<long> { public: static ETL_CONSTEXPR long min() { return LONG_MIN; } static ETL_CONSTEXPR long max() { return LONG_MAX; } static ETL_CONSTEXPR long lowest() { return LONG_MIN; } }; //*************************************************************************** // unsigned long template<> class numeric_limits<unsigned long> : public etl_integral_type<unsigned long> { public: static ETL_CONSTEXPR unsigned long min() { return 0; } static ETL_CONSTEXPR unsigned long max() { return ULONG_MAX; } static ETL_CONSTEXPR unsigned long lowest() { return 0; } }; //*************************************************************************** // long long template<> class numeric_limits<long long> : public etl_integral_type<long long> { public: static ETL_CONSTEXPR long long min() { return LLONG_MIN; } static ETL_CONSTEXPR long long max() { return LLONG_MAX; } static ETL_CONSTEXPR long long lowest() { return LLONG_MIN; } }; //*************************************************************************** // unsigned long long template<> class numeric_limits<unsigned long long> : public etl_integral_type<unsigned long long> { public: static ETL_CONSTEXPR unsigned long long min() { return 0; } static ETL_CONSTEXPR unsigned long long max() { return ULLONG_MAX; } static ETL_CONSTEXPR unsigned long long lowest() { return 0; } }; //*************************************************************************** // float template<> class numeric_limits<float> : public etl_floating_point_type<float> { public: static ETL_CONSTEXPR float min() { return FLT_MIN; } static ETL_CONSTEXPR float max() { return FLT_MAX; } static ETL_CONSTEXPR float lowest() { return -FLT_MAX; } static ETL_CONSTEXPR float epsilon() { return FLT_EPSILON; } static ETL_CONSTEXPR float denorm_min() { return FLT_MIN; } static const int digits; static const int digits10; static const int max_digits10; static const int min_exponent; static const int min_exponent10; static const int max_exponent; static const int max_exponent10; }; const int numeric_limits<float>::digits = FLT_MANT_DIG; const int numeric_limits<float>::max_digits10 = ETL_LOG2(FLT_MANT_DIG) + 2; const int numeric_limits<float>::digits10 = FLT_DIG; const int numeric_limits<float>::min_exponent = FLT_MIN_EXP; const int numeric_limits<float>::min_exponent10 = FLT_MIN_10_EXP; const int numeric_limits<float>::max_exponent = FLT_MAX_EXP; const int numeric_limits<float>::max_exponent10 = FLT_MAX_10_EXP; //*************************************************************************** // double template<> class numeric_limits<double> : public etl_floating_point_type<double> { public: static ETL_CONSTEXPR double min() { return DBL_MIN; } static ETL_CONSTEXPR double max() { return DBL_MAX; } static ETL_CONSTEXPR double lowest() { return -DBL_MAX; } static ETL_CONSTEXPR double epsilon() { return DBL_EPSILON; } static ETL_CONSTEXPR double denorm_min() { return DBL_MIN; } static const int digits; static const int digits10; static const int max_digits10; static const int min_exponent; static const int min_exponent10; static const int max_exponent; static const int max_exponent10; }; const int numeric_limits<double>::digits = DBL_MANT_DIG; const int numeric_limits<double>::max_digits10 = ETL_LOG2(DBL_MANT_DIG) + 2; const int numeric_limits<double>::digits10 = DBL_DIG; const int numeric_limits<double>::min_exponent = DBL_MIN_EXP; const int numeric_limits<double>::min_exponent10 = DBL_MIN_10_EXP; const int numeric_limits<double>::max_exponent = DBL_MAX_EXP; const int numeric_limits<double>::max_exponent10 = DBL_MAX_10_EXP; //*************************************************************************** // long double template<> class numeric_limits<long double> : public etl_floating_point_type<long double> { public: static ETL_CONSTEXPR long double min() { return LDBL_MIN; } static ETL_CONSTEXPR long double max() { return LDBL_MAX; } static ETL_CONSTEXPR long double lowest() { return -LDBL_MAX; } static ETL_CONSTEXPR long double epsilon() { return LDBL_EPSILON; } static ETL_CONSTEXPR long double denorm_min() { return LDBL_MIN; } static const int digits; static const int digits10; static const int max_digits10; static const int min_exponent; static const int min_exponent10; static const int max_exponent; static const int max_exponent10; }; const int numeric_limits<long double>::digits = LDBL_MANT_DIG; const int numeric_limits<long double>::max_digits10 = ETL_LOG2(LDBL_MANT_DIG) + 2; const int numeric_limits<long double>::digits10 = LDBL_DIG; const int numeric_limits<long double>::min_exponent = LDBL_MIN_EXP; const int numeric_limits<long double>::min_exponent10 = LDBL_MIN_10_EXP; const int numeric_limits<long double>::max_exponent = LDBL_MAX_EXP; const int numeric_limits<long double>::max_exponent10 = LDBL_MAX_10_EXP; } #endif