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Diffstat (limited to 'src/debug/mse/mseprimitives.h')
| -rw-r--r-- | src/debug/mse/mseprimitives.h | 872 |
1 files changed, 0 insertions, 872 deletions
diff --git a/src/debug/mse/mseprimitives.h b/src/debug/mse/mseprimitives.h deleted file mode 100644 index 951577834..000000000 --- a/src/debug/mse/mseprimitives.h +++ /dev/null @@ -1,872 +0,0 @@ - -// Copyright (c) 2015 Noah Lopez -// Use, modification, and distribution is subject to the Boost Software -// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at -// http://www.boost.org/LICENSE_1_0.txt) - -#ifndef MSEPRIMITIVES_H -#define MSEPRIMITIVES_H - -#include <assert.h> -#include <climits> // ULONG_MAX -#include <limits> // std::numeric_limits -#include <stdexcept> // primitives_range_error - -/*compiler specific defines*/ -#ifdef _MSC_VER -#if (1700 > _MSC_VER) -#define MSVC2010_COMPATIBLE 1 -#endif /*(1700 > _MSC_VER)*/ -#if (1900 > _MSC_VER) -#define MSVC2013_COMPATIBLE 1 -#endif /*(1900 > _MSC_VER)*/ -#if (2000 > _MSC_VER) -#define MSVC2015_COMPATIBLE 1 -#endif /*(1900 > _MSC_VER)*/ -#else /*_MSC_VER*/ -#if (defined(__GNUC__) || defined(__GNUG__)) -#define GPP_COMPATIBLE 1 -#if ((5 > __GNUC__) && (!defined(__clang__))) -#define GPP4P8_COMPATIBLE 1 -#endif /*((5 > __GNUC__) && (!defined(__clang__)))*/ -#endif /*(defined(__GNUC__) || defined(__GNUG__))*/ -#endif /*_MSC_VER*/ - -#ifdef MSE_SAFER_SUBSTITUTES_DISABLED -#define MSE_PRIMITIVES_DISABLED -#endif /*MSE_SAFER_SUBSTITUTES_DISABLED*/ - -#if defined(MSVC2013_COMPATIBLE) || defined(MSVC2010_COMPATIBLE) -#define MSE_CONSTEXPR -#else // defined(MSVC2013_COMPATIBLE) || defined(MSVC2010_COMPATIBLE) -#define MSE_CONSTEXPR constexpr -#endif // defined(MSVC2013_COMPATIBLE) || defined(MSVC2010_COMPATIBLE) - -#ifdef MSVC2015_COMPATIBLE -#ifndef MSE_FORCE_PRIMITIVE_ASSIGN_RANGE_CHECK_ENABLED -/* msvc2015's incomplete support for "constexpr" means that range checks that should be done at compile time would -be done at run time, at significant cost. So by default we disable range checks upon assignment. */ -#define MSE_PRIMITIVE_ASSIGN_RANGE_CHECK_DISABLED 1 -#endif // !MSE_FORCE_PRIMITIVE_ASSIGN_RANGE_CHECK_ENABLED -#endif // MSVC2015_COMPATIBLE - - -#ifdef MSE_CUSTOM_THROW_DEFINITION -#include <iostream> -#define MSE_THROW(x) MSE_CUSTOM_THROW_DEFINITION(x) -#else // MSE_CUSTOM_THROW_DEFINITION -#define MSE_THROW(x) throw(x) -#endif // MSE_CUSTOM_THROW_DEFINITION - - -#ifndef MSE_CINT_BASE_INTEGER_TYPE -#if SIZE_MAX <= ULONG_MAX -#define MSE_CINT_BASE_INTEGER_TYPE long int -#else // SIZE_MAX <= ULONG_MAX -#define MSE_CINT_BASE_INTEGER_TYPE long long int -#endif // SIZE_MAX <= ULONG_MAX -#endif // !MSE_CINT_BASE_INTEGER_TYPE - - -namespace mse { - - class primitives_range_error : public std::range_error { - public: - using std::range_error::range_error; - }; - - /* When the mse primitive replacements are "disabled" they lose their default initialization and may cause problems for - code that relies on it. */ -#ifdef MSE_PRIMITIVES_DISABLED - typedef bool CBool; - typedef MSE_CINT_BASE_INTEGER_TYPE CInt; - typedef size_t CSize_t; - static size_t as_a_size_t(CSize_t n) { return (n); } -#else /*MSE_PRIMITIVES_DISABLED*/ - -#ifndef NDEBUG -#ifndef MSE_SUPPRESS_CHECK_USE_BEFORE_SET -#define MSE_CHECK_USE_BEFORE_SET -#endif // !MSE_SUPPRESS_CHECK_USE_BEFORE_SET -#endif // !NDEBUG - - /* This class is just meant to act like the "bool" type, except that it has a default intialization value (false). */ - class CBool { - public: - // Constructs zero. - CBool() : m_val(false) {} - - // Copy constructor - CBool(const CBool &x) : m_val(x.m_val) { note_value_assignment(); }; - - // Assignment operator - CBool& operator=(const CBool &x) { note_value_assignment(); m_val = x.m_val; return (*this); } - - // Constructors from primitive boolean types - CBool(bool x) { note_value_assignment(); m_val = x; } - - // Casts to primitive boolean types - operator bool() const { assert_initialized(); return m_val; } - - CBool& operator |=(const CBool &x) { assert_initialized(); m_val |= x.m_val; return (*this); } - CBool& operator &=(const CBool &x) { assert_initialized(); m_val &= x.m_val; return (*this); } - CBool& operator ^=(const CBool &x) { assert_initialized(); m_val ^= x.m_val; return (*this); } - - bool m_val; - -#ifdef MSE_CHECK_USE_BEFORE_SET - void note_value_assignment() { m_initialized = true; } - void assert_initialized() const { assert(m_initialized); } - bool m_initialized = false; -#else // MSE_CHECK_USE_BEFORE_SET - void note_value_assignment() {} - void assert_initialized() const {} -#endif // MSE_CHECK_USE_BEFORE_SET - }; - - - template<typename _TDestination, typename _TSource> - MSE_CONSTEXPR static bool sg_can_exceed_upper_bound() { - return ( - ((std::numeric_limits<_TSource>::is_signed == std::numeric_limits<_TDestination>::is_signed) - && (std::numeric_limits<_TSource>::digits > std::numeric_limits<_TDestination>::digits)) - || ((std::numeric_limits<_TSource>::is_signed != std::numeric_limits<_TDestination>::is_signed) - && ((std::numeric_limits<_TSource>::is_signed && (std::numeric_limits<_TSource>::digits > (1 + std::numeric_limits<_TDestination>::digits))) - || ((!std::numeric_limits<_TSource>::is_signed) && ((1 + std::numeric_limits<_TSource>::digits) > std::numeric_limits<_TDestination>::digits)) - ) - ) - ); - } - template<typename _TDestination, typename _TSource> - MSE_CONSTEXPR static bool sg_can_exceed_lower_bound() { - return ( - (std::numeric_limits<_TSource>::is_signed && (!std::numeric_limits<_TDestination>::is_signed)) - || (std::numeric_limits<_TSource>::is_signed && (std::numeric_limits<_TSource>::digits > std::numeric_limits<_TDestination>::digits)) - ); - } - - template<typename _TDestination, typename _TSource> - void g_assign_check_range(const _TSource &x) { -#ifndef MSE_PRIMITIVE_ASSIGN_RANGE_CHECK_DISABLED - /* This probably needs to be cleaned up. But at the moment this should be mostly compile time complexity. And - as is it avoids "signed/unsigned" mismatch warnings. */ - MSE_CONSTEXPR const bool rhs_can_exceed_upper_bound = sg_can_exceed_upper_bound<_TDestination, _TSource>(); - MSE_CONSTEXPR const bool rhs_can_exceed_lower_bound = sg_can_exceed_lower_bound<_TDestination, _TSource>(); - MSE_CONSTEXPR const bool can_exceed_bounds = rhs_can_exceed_upper_bound || rhs_can_exceed_lower_bound; - if (can_exceed_bounds) { - if (rhs_can_exceed_upper_bound) { - if (x > _TSource(std::numeric_limits<_TDestination>::max())) { - MSE_THROW(primitives_range_error("range error - value to be assigned is out of range of the target (integer) type")); - } - } - if (rhs_can_exceed_lower_bound) { - /* We're assuming that std::numeric_limits<>::lowest() will never be greater than zero. */ - if (0 > x) { - if (0 == std::numeric_limits<_TDestination>::lowest()) { - MSE_THROW(primitives_range_error("range error - value to be assigned is out of range of the target (integer) type")); - } - else if (x < _TSource(std::numeric_limits<_TDestination>::lowest())) { - MSE_THROW(primitives_range_error("range error - value to be assigned is out of range of the target (integer) type")); - } - } - } - } -#endif // !MSE_PRIMITIVE_ASSIGN_RANGE_CHECK_DISABLED - } - - /* The CInt and CSize_t classes are meant to substitute for standard "int" and "size_t" types. The differences between - the standard types and these classes are that the classes have a default intialization value (zero), and the - classes, as much as possible, try to prevent the problematic behaviour of (possibly negative) signed integers - being cast (inadvertently) to the unsigned size_t type. For example, the expression (0 > (int)5 - (size_t)7) evaluates - (unintuitively) to false, whereas the expression (0 > (CInt)5 - (CSize_t)7) evaluates to true. Also, the classes do - some range checking. For example, the code "CSize_t s = -2;" will throw an exception. */ - template<typename _Ty> - class TIntBase1 { - public: - // Constructs zero. - TIntBase1() : m_val(0) {} - - // Copy constructor - TIntBase1(const TIntBase1 &x) : m_val(x.m_val) { note_value_assignment(); }; - - // Constructors from primitive integer types - explicit TIntBase1(_Ty x) { note_value_assignment(); m_val = x; } - - template<typename _Tz> - void assign_check_range(const _Tz &x) { - note_value_assignment(); - g_assign_check_range<_Ty, _Tz>(x); - } - - _Ty m_val; - -#ifdef MSE_CHECK_USE_BEFORE_SET - void note_value_assignment() { m_initialized = true; } - void assert_initialized() const { assert(m_initialized); } - bool m_initialized = false; -#else // MSE_CHECK_USE_BEFORE_SET - void note_value_assignment() {} - void assert_initialized() const {} -#endif // MSE_CHECK_USE_BEFORE_SET - }; - - class CInt : public TIntBase1<MSE_CINT_BASE_INTEGER_TYPE> { - public: - typedef MSE_CINT_BASE_INTEGER_TYPE _Ty; - typedef TIntBase1<_Ty> _Myt; - - // Constructs zero. - CInt() : _Myt() {} - - // Copy constructor - CInt(const CInt &x) : _Myt(x) {}; - CInt(const _Myt &x) : _Myt(x) {}; - - // Assignment operator - CInt& operator=(const CInt &x) { (*this).note_value_assignment(); m_val = x.m_val; return (*this); } - //CInt& operator=(const _Ty &x) { (*this).note_value_assignment(); m_val = x; return (*this); } - - CInt& operator=(long long x) { assign_check_range<long long>(x); m_val = static_cast<_Ty>(x); return (*this); } - CInt& operator=(long x) { assign_check_range<long>(x); m_val = static_cast<_Ty>(x); return (*this); } - CInt& operator=(int x) { assign_check_range<int>(x); m_val = static_cast<_Ty>(x); return (*this); } - CInt& operator=(short x) { assign_check_range<short>(x); m_val = static_cast<_Ty>(x); return (*this); } - CInt& operator=(char x) { assign_check_range<char>(x); m_val = static_cast<_Ty>(x); return (*this); } - CInt& operator=(size_t x) { assign_check_range<size_t>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CInt& operator=(CSize_t x) { assign_check_range<size_t>(x.as_a_size_t()); m_val = x.as_a_size_t(); return (*this); } - /* We would have liked to have assignment operators for the unsigned primitive integer types, but one of them could - potentially clash with the size_t assignment operator. */ - //CInt& operator=(unsigned long long x) { assign_check_range<unsigned long long>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CInt& operator=(unsigned long x) { assign_check_range<unsigned long>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CInt& operator=(unsigned int x) { assign_check_range<unsigned int>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CInt& operator=(unsigned short x) { assign_check_range<unsigned short>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CInt& operator=(unsigned char x) { assign_check_range<unsigned char>(x); m_val = static_cast<_Ty>(x); return (*this); } - - // Constructors from primitive integer types - //CInt(_Ty x) { m_val = x; } - CInt(long long x) { assign_check_range<long long>(x); m_val = static_cast<_Ty>(x); } - CInt(long x) { assign_check_range< long>(x); m_val = static_cast<_Ty>(x); } - CInt(int x) { assign_check_range<int>(x); m_val = static_cast<_Ty>(x); } - CInt(short x) { assign_check_range<short>(x); m_val = static_cast<_Ty>(x); } - CInt(char x) { assign_check_range<char>(x); m_val = static_cast<_Ty>(x); } - CInt(size_t x) { assign_check_range<size_t>(x); m_val = static_cast<_Ty>(x); } - //CInt(CSize_t x) { assign_check_range<size_t>(x.as_a_size_t()); m_val = x.as_a_size_t(); } - /* We would have liked to have constructors for the unsigned primitive integer types, but one of them could - potentially clash with the size_t constructor. */ - //CInt(unsigned long long x) { assign_check_range<unsigned long long>(x); m_val = static_cast<_Ty>(x); } - //CInt(unsigned long x) { assign_check_range<unsigned long>(x); m_val = static_cast<_Ty>(x); } - //CInt(unsigned int x) { assign_check_range<unsigned int>(x); m_val = static_cast<_Ty>(x); } - //CInt(unsigned short x) { assign_check_range<unsigned short>(x); m_val = static_cast<_Ty>(x); } - //CInt(unsigned char x) { assign_check_range<unsigned char>(x); m_val = static_cast<_Ty>(x); } - - // Casts to primitive integer types - operator _Ty() const { (*this).assert_initialized(); return m_val; } - - CInt operator ~() const { (*this).assert_initialized(); return CInt(~m_val); } - CInt& operator |=(const CInt &x) { (*this).assert_initialized(); m_val |= x.m_val; return (*this); } - CInt& operator &=(const CInt &x) { (*this).assert_initialized(); m_val &= x.m_val; return (*this); } - CInt& operator ^=(const CInt &x) { (*this).assert_initialized(); m_val ^= x.m_val; return (*this); } - - CInt operator -() const { (*this).assert_initialized(); return CInt(-m_val); } - CInt& operator +=(const CInt &x) { (*this).assert_initialized(); m_val += x.m_val; return (*this); } - CInt& operator -=(const CInt &x) { (*this).assert_initialized(); m_val -= x.m_val; return (*this); } - CInt& operator *=(const CInt &x) { (*this).assert_initialized(); m_val *= x.m_val; return (*this); } - CInt& operator /=(const CInt &x) { (*this).assert_initialized(); m_val /= x.m_val; return (*this); } - CInt& operator %=(const CInt &x) { (*this).assert_initialized(); m_val %= x.m_val; return (*this); } - CInt& operator >>=(const CInt &x) { (*this).assert_initialized(); m_val >>= x.m_val; return (*this); } - CInt& operator <<=(const CInt &x) { (*this).assert_initialized(); m_val <<= x.m_val; return (*this); } - - CInt operator +(const CInt &x) const { (*this).assert_initialized(); return CInt(m_val + x.m_val); } - CInt operator +(long long x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(long x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(int x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(short x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(char x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(size_t x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - //CInt operator +(CSize_t x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - - CInt operator -(const CInt &x) const { (*this).assert_initialized(); return CInt(m_val - x.m_val); } - CInt operator -(long long x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(long x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(int x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(short x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(char x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(size_t x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - //CInt operator -(CSize_t x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - - CInt operator *(const CInt &x) const { (*this).assert_initialized(); return CInt(m_val * x.m_val); } - CInt operator *(long long x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(long x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(int x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(short x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(char x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(size_t x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - //CInt operator *(CSize_t x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - - CInt operator /(const CInt &x) const { (*this).assert_initialized(); return CInt(m_val / x.m_val); } - CInt operator /(long long x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(long x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(int x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(short x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(char x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(size_t x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - //CInt operator /(CSize_t x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - - bool operator <(const CInt &x) const { (*this).assert_initialized(); return (m_val < x.m_val); } - bool operator <(long long x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(long x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(int x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(short x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(char x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(size_t x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - //bool operator <(CSize_t x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - - bool operator >(const CInt &x) const { (*this).assert_initialized(); return (m_val > x.m_val); } - bool operator >(long long x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(long x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(int x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(short x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(char x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(size_t x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - //bool operator >(CSize_t x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - - bool operator <=(const CInt &x) const { (*this).assert_initialized(); return (m_val <= x.m_val); } - bool operator <=(long long x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(long x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(int x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(short x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(char x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(size_t x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - //bool operator <=(CSize_t x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - - bool operator >=(const CInt &x) const { (*this).assert_initialized(); return (m_val >= x.m_val); } - bool operator >=(long long x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(long x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(int x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(short x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(char x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(size_t x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - //bool operator >=(CSize_t x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - - bool operator ==(const CInt &x) const { (*this).assert_initialized(); return (m_val == x.m_val); } - bool operator ==(long long x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(long x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(int x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(short x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(char x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(size_t x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - //bool operator ==(CSize_t x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - - bool operator !=(const CInt &x) const { (*this).assert_initialized(); return (m_val != x.m_val); } - bool operator !=(long long x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(long x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(int x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(short x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(char x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(size_t x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - //bool operator !=(CSize_t x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - - // INCREMENT/DECREMENT OPERATORS - CInt& operator ++() { (*this).assert_initialized(); m_val++; return (*this); } - CInt operator ++(int) { - (*this).assert_initialized(); - CInt tmp(*this); // copy - operator++(); // pre-increment - return tmp; // return old value - } - CInt& operator --() { - (*this).assert_initialized(); - if (0 <= std::numeric_limits<_Ty>::lowest()) { - (*this).assert_initialized(); - (*this) = (*this) - 1; return (*this); - } - else { - (*this).assert_initialized(); - m_val--; return (*this); - } - } - CInt operator --(int) { - (*this).assert_initialized(); - CInt tmp(*this); // copy - operator--(); // pre-decrement - return tmp; // return old value - } - - //_Ty m_val; - }; -} - -namespace std { -#ifndef _THROW0 -#define _THROW0() -#endif // !_THROW0 -#ifndef _STCONS -#define _STCONS(ty, name, val) static constexpr ty name = static_cast<ty>(val) -#endif // !_STCONS - - template<> class numeric_limits<mse::CInt> { // limits for type int - public: - typedef MSE_CINT_BASE_INTEGER_TYPE _Ty; - - static constexpr _Ty(min)() _THROW0() - { // return minimum value - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::min(); - } - static constexpr _Ty(max)() _THROW0() - { // return maximum value - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::max(); - } - static constexpr _Ty lowest() _THROW0() - { // return most negative value - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::lowest(); - } - static constexpr _Ty epsilon() _THROW0() - { // return smallest effective increment from 1.0 - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::epsilon(); - } - static constexpr _Ty round_error() _THROW0() - { // return largest rounding error - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::round_error(); - } - static constexpr _Ty denorm_min() _THROW0() - { // return minimum denormalized value - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::denorm_min(); - } - static constexpr _Ty infinity() _THROW0() - { // return positive infinity - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::infinity(); - } - static constexpr _Ty quiet_NaN() _THROW0() - { // return non-signaling NaN - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::quiet_NaN(); - } - static constexpr _Ty signaling_NaN() _THROW0() - { // return signaling NaN - return numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::signaling_NaN(); - } - _STCONS(float_denorm_style, has_denorm, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::has_denorm); - _STCONS(bool, has_denorm_loss, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::has_denorm_loss); - _STCONS(bool, has_infinity, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::has_infinity); - _STCONS(bool, has_quiet_NaN, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::has_quiet_NaN); - _STCONS(bool, has_signaling_NaN, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::has_signaling_NaN); - _STCONS(bool, is_bounded, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_bounded); - _STCONS(bool, is_exact, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_exact); - _STCONS(bool, is_iec559, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_iec559); - _STCONS(bool, is_integer, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_integer); - _STCONS(bool, is_modulo, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_modulo); - _STCONS(bool, is_signed, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_signed); - _STCONS(bool, is_specialized, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::is_specialized); - _STCONS(bool, tinyness_before, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::tinyness_before); - _STCONS(bool, traps, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::traps); - _STCONS(float_round_style, round_style, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::round_style); - _STCONS(int, digits, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::digits); - _STCONS(int, digits10, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::digits10); - _STCONS(int, max_digits10, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::max_digits10); - _STCONS(int, max_exponent, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::max_exponent); - _STCONS(int, max_exponent10, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::max_exponent10); - _STCONS(int, min_exponent, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::min_exponent); - _STCONS(int, min_exponent10, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::min_exponent10); - _STCONS(int, radix, numeric_limits<MSE_CINT_BASE_INTEGER_TYPE>::radix); - }; -} - -namespace mse { - class CSize_t; - static size_t as_a_size_t(CSize_t n); - - /* Note that CSize_t does not have a default conversion to size_t. This is by design. Use the as_a_size_t() member - function to get a size_t when necessary. */ - class CSize_t : public TIntBase1<size_t> { - public: - typedef size_t _Ty; - typedef int _T_signed_primitive_integer_type; - typedef TIntBase1<_Ty> _Myt; - - // Constructs zero. - CSize_t() : _Myt() {} - - // Copy constructor - CSize_t(const CSize_t &x) : _Myt(x) {}; - CSize_t(const _Myt &x) : _Myt(x) {}; - - // Assignment operator - CSize_t& operator=(const CSize_t &x) { m_val = x.m_val; return (*this); } - //CSize_t& operator=(const _Ty &x) { m_val = x; return (*this); } - - CSize_t& operator=(long long x) { assign_check_range<long long>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(long x) { assign_check_range<long>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(int x) { assign_check_range<int>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(short x) { assign_check_range<short>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(char x) { assign_check_range<char>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(size_t x) { assign_check_range<size_t>(x); m_val = static_cast<_Ty>(x); return (*this); } - CSize_t& operator=(CInt x) { assign_check_range<MSE_CINT_BASE_INTEGER_TYPE>(x); m_val = static_cast<_Ty>(x); return (*this); } - /* We would have liked to have assignment operators for the unsigned primitive integer types, but one of them could - potentially clash with the size_t assignment operator. */ - //CSize_t& operator=(unsigned long long x) { assign_check_range<unsigned long long>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CSize_t& operator=(unsigned long x) { assign_check_range<unsigned long>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CSize_t& operator=(unsigned int x) { assign_check_range<unsigned int>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CSize_t& operator=(unsigned short x) { assign_check_range<unsigned short>(x); m_val = static_cast<_Ty>(x); return (*this); } - //CSize_t& operator=(unsigned char x) { assign_check_range<unsigned char>(x); m_val = static_cast<_Ty>(x); return (*this); } - - // Constructors from primitive integer types - //explicit CSize_t(_Ty x) { m_val = x; } - explicit CSize_t(long long x) { assign_check_range<long long>(x); m_val = static_cast<_Ty>(x); } - explicit CSize_t(long x) { assign_check_range< long>(x); m_val = static_cast<_Ty>(x); } - explicit CSize_t(int x) { assign_check_range<int>(x); m_val = static_cast<_Ty>(x); } - explicit CSize_t(short x) { assign_check_range<short>(x); m_val = static_cast<_Ty>(x); } - explicit CSize_t(char x) { assign_check_range<char>(x); m_val = static_cast<_Ty>(x); } - CSize_t(size_t x) { assign_check_range<size_t>(x); m_val = static_cast<_Ty>(x); } - /*explicit */CSize_t(CInt x) { assign_check_range<MSE_CINT_BASE_INTEGER_TYPE>(x); m_val = static_cast<_Ty>(x); } - /* We would have liked to have constructors for the unsigned primitive integer types, but one of them could - potentially clash with the size_t constructor. */ - //explicit CSize_t(unsigned long long x) { assign_check_range<unsigned long long>(x); m_val = static_cast<_Ty>(x); } - //explicit CSize_t(unsigned long x) { assign_check_range<unsigned long>(x); m_val = static_cast<_Ty>(x); } - //explicit CSize_t(unsigned int x) { assign_check_range<unsigned int>(x); m_val = static_cast<_Ty>(x); } - //explicit CSize_t(unsigned short x) { assign_check_range<unsigned short>(x); m_val = static_cast<_Ty>(x); } - //explicit CSize_t(unsigned char x) { assign_check_range<unsigned char>(x); m_val = static_cast<_Ty>(x); } - - // Casts to primitive integer types - operator CInt() const { (*this).assert_initialized(); return CInt(m_val); } -#ifndef MSVC2010_COMPATIBLE - explicit operator size_t() const { (*this).assert_initialized(); return (m_val); } -#endif /*MSVC2010_COMPATIBLE*/ - //size_t as_a_size_t() const { (*this).assert_initialized(); return m_val; } - - CSize_t operator ~() const { (*this).assert_initialized(); return (~m_val); } - CSize_t& operator |=(const CSize_t &x) { (*this).assert_initialized(); m_val |= x.m_val; return (*this); } - CSize_t& operator &=(const CSize_t &x) { (*this).assert_initialized(); m_val &= x.m_val; return (*this); } - CSize_t& operator ^=(const CSize_t &x) { (*this).assert_initialized(); m_val ^= x.m_val; return (*this); } - - CInt operator -() const { (*this).assert_initialized(); /* Should unsigned types even support this opperator? */ - return (-(CInt(m_val))); - } - CSize_t& operator +=(const CSize_t &x) { (*this).assert_initialized(); m_val += x.m_val; return (*this); } - CSize_t& operator -=(const CSize_t &x) { - (*this).assert_initialized(); - //assert(0 <= std::numeric_limits<_Ty>::lowest()); - if (x.m_val > m_val) { - MSE_THROW(primitives_range_error("range error - value to be assigned is out of range of the target (integer) type")); - } - m_val -= x.m_val; return (*this); - } - CSize_t& operator *=(const CSize_t &x) { (*this).assert_initialized(); m_val *= x.m_val; return (*this); } - CSize_t& operator /=(const CSize_t &x) { (*this).assert_initialized(); m_val /= x.m_val; return (*this); } - CSize_t& operator %=(const CSize_t &x) { (*this).assert_initialized(); m_val %= x.m_val; return (*this); } - CSize_t& operator >>=(const CSize_t &x) { (*this).assert_initialized(); m_val >>= x.m_val; return (*this); } - CSize_t& operator <<=(const CSize_t &x) { (*this).assert_initialized(); m_val <<= x.m_val; return (*this); } - - CSize_t operator +(const CSize_t &x) const { (*this).assert_initialized(); return (m_val + x.m_val); } - CInt operator +(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) + x); } - CInt operator +(long long x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(long x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(int x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(short x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CInt operator +(char x) const { (*this).assert_initialized(); return ((*this) + CInt(x)); } - CSize_t operator +(size_t x) const { (*this).assert_initialized(); return ((*this) + CSize_t(x)); } - - CInt operator -(const CSize_t &x) const { (*this).assert_initialized(); return (CInt(m_val) - CInt(x.m_val)); } - CInt operator -(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) - x); } - CInt operator -(long long x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(long x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(int x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(short x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(char x) const { (*this).assert_initialized(); return ((*this) - CInt(x)); } - CInt operator -(size_t x) const { (*this).assert_initialized(); return ((*this) - CSize_t(x)); } - - CSize_t operator *(const CSize_t &x) const { (*this).assert_initialized(); return (m_val * x.m_val); } - CInt operator *(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) * x); } - CInt operator *(long long x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(long x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(int x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(short x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CInt operator *(char x) const { (*this).assert_initialized(); return ((*this) * CInt(x)); } - CSize_t operator *(size_t x) const { (*this).assert_initialized(); return ((*this) * CSize_t(x)); } - - CSize_t operator /(const CSize_t &x) const { (*this).assert_initialized(); return (m_val / x.m_val); } - CInt operator /(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) / x); } - CInt operator /(long long x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(long x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(int x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(short x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CInt operator /(char x) const { (*this).assert_initialized(); return ((*this) / CInt(x)); } - CSize_t operator /(size_t x) const { (*this).assert_initialized(); return ((*this) / CSize_t(x)); } - - bool operator <(const CSize_t &x) const { (*this).assert_initialized(); return (m_val < x.m_val); } - bool operator <(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) < x); } - bool operator <(long long x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(long x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(int x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(short x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(char x) const { (*this).assert_initialized(); return ((*this) < CInt(x)); } - bool operator <(size_t x) const { (*this).assert_initialized(); return ((*this) < CSize_t(x)); } - - bool operator >(const CSize_t &x) const { (*this).assert_initialized(); return (m_val > x.m_val); } - bool operator >(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) > x); } - bool operator >(long long x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(long x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(int x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(short x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(char x) const { (*this).assert_initialized(); return ((*this) > CInt(x)); } - bool operator >(size_t x) const { (*this).assert_initialized(); return ((*this) > CSize_t(x)); } - - bool operator <=(const CSize_t &x) const { (*this).assert_initialized(); return (m_val <= x.m_val); } - bool operator <=(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) <= x); } - bool operator <=(long long x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(long x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(int x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(short x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(char x) const { (*this).assert_initialized(); return ((*this) <= CInt(x)); } - bool operator <=(size_t x) const { (*this).assert_initialized(); return ((*this) <= CSize_t(x)); } - - bool operator >=(const CSize_t &x) const { (*this).assert_initialized(); return (m_val >= x.m_val); } - bool operator >=(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) >= x); } - bool operator >=(long long x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(long x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(int x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(short x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(char x) const { (*this).assert_initialized(); return ((*this) >= CInt(x)); } - bool operator >=(size_t x) const { (*this).assert_initialized(); return ((*this) >= CSize_t(x)); } - - bool operator ==(const CSize_t &x) const { (*this).assert_initialized(); return (m_val == x.m_val); } - bool operator ==(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) == x); } - bool operator ==(long long x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(long x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(int x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(short x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(char x) const { (*this).assert_initialized(); return ((*this) == CInt(x)); } - bool operator ==(size_t x) const { (*this).assert_initialized(); return ((*this) == CSize_t(x)); } - - bool operator !=(const CSize_t &x) const { (*this).assert_initialized(); return (m_val != x.m_val); } - bool operator !=(const CInt &x) const { (*this).assert_initialized(); return (CInt(m_val) != x); } - bool operator !=(long long x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(long x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(int x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(short x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(char x) const { (*this).assert_initialized(); return ((*this) != CInt(x)); } - bool operator !=(size_t x) const { (*this).assert_initialized(); return ((*this) != CSize_t(x)); } - - // INCREMENT/DECREMENT OPERATORS - CSize_t& operator ++() { (*this).assert_initialized(); m_val++; return (*this); } - CSize_t operator ++(int) { (*this).assert_initialized(); - CSize_t tmp(*this); // copy - operator++(); // pre-increment - return tmp; // return old value - } - CSize_t& operator --() { (*this).assert_initialized(); - if (0 <= std::numeric_limits<_Ty>::lowest()) { (*this).assert_initialized(); - (*this) = (*this) - 1; return (*this); - } - else { (*this).assert_initialized(); - m_val--; return (*this); - } - } - CSize_t operator --(int) { (*this).assert_initialized(); - CSize_t tmp(*this); // copy - operator--(); // pre-decrement - return tmp; // return old value - } - - //_Ty m_val; - - friend size_t as_a_size_t(CSize_t n); - }; - size_t as_a_size_t(CSize_t n) { n.assert_initialized(); return n.m_val; } -} - -namespace std { -#ifndef _THROW0 -#define _THROW0() -#endif // !_THROW0 -#ifndef _STCONS -#define _STCONS(ty, name, val) static constexpr ty name = (ty)(val) -#endif // !_STCONS - - template<> class numeric_limits<mse::CSize_t> { // limits for type int - public: - typedef size_t _Ty; - - static constexpr _Ty(min)() _THROW0() - { // return minimum value - return numeric_limits<size_t>::min(); - } - static constexpr _Ty(max)() _THROW0() - { // return maximum value - return numeric_limits<size_t>::max(); - } - static constexpr _Ty lowest() _THROW0() - { // return most negative value - return numeric_limits<size_t>::lowest(); - } - static constexpr _Ty epsilon() _THROW0() - { // return smallest effective increment from 1.0 - return numeric_limits<size_t>::epsilon(); - } - static constexpr _Ty round_error() _THROW0() - { // return largest rounding error - return numeric_limits<size_t>::round_error(); - } - static constexpr _Ty denorm_min() _THROW0() - { // return minimum denormalized value - return numeric_limits<size_t>::denorm_min(); - } - static constexpr _Ty infinity() _THROW0() - { // return positive infinity - return numeric_limits<size_t>::infinity(); - } - static constexpr _Ty quiet_NaN() _THROW0() - { // return non-signaling NaN - return numeric_limits<size_t>::quiet_NaN(); - } - static constexpr _Ty signaling_NaN() _THROW0() - { // return signaling NaN - return numeric_limits<size_t>::signaling_NaN(); - } - _STCONS(float_denorm_style, has_denorm, numeric_limits<size_t>::has_denorm); - _STCONS(bool, has_denorm_loss, numeric_limits<size_t>::has_denorm_loss); - _STCONS(bool, has_infinity, numeric_limits<size_t>::has_infinity); - _STCONS(bool, has_quiet_NaN, numeric_limits<size_t>::has_quiet_NaN); - _STCONS(bool, has_signaling_NaN, numeric_limits<size_t>::has_signaling_NaN); - _STCONS(bool, is_bounded, numeric_limits<size_t>::is_bounded); - _STCONS(bool, is_exact, numeric_limits<size_t>::is_exact); - _STCONS(bool, is_iec559, numeric_limits<size_t>::is_iec559); - _STCONS(bool, is_integer, numeric_limits<size_t>::is_integer); - _STCONS(bool, is_modulo, numeric_limits<size_t>::is_modulo); - _STCONS(bool, is_signed, numeric_limits<size_t>::is_signed); - _STCONS(bool, is_specialized, numeric_limits<size_t>::is_specialized); - _STCONS(bool, tinyness_before, numeric_limits<size_t>::tinyness_before); - _STCONS(bool, traps, numeric_limits<size_t>::traps); - _STCONS(float_round_style, round_style, numeric_limits<size_t>::round_style); - _STCONS(int, digits, numeric_limits<size_t>::digits); - _STCONS(int, digits10, numeric_limits<size_t>::digits10); - _STCONS(int, max_digits10, numeric_limits<size_t>::max_digits10); - _STCONS(int, max_exponent, numeric_limits<size_t>::max_exponent); - _STCONS(int, max_exponent10, numeric_limits<size_t>::max_exponent10); - _STCONS(int, min_exponent, numeric_limits<size_t>::min_exponent); - _STCONS(int, min_exponent10, numeric_limits<size_t>::min_exponent10); - _STCONS(int, radix, numeric_limits<size_t>::radix); - }; -} - -namespace mse { - - inline CInt operator+(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); rhs.assert_initialized(); return CSize_t(lhs) + rhs; } - inline CSize_t operator+(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) + rhs; } - inline CInt operator+(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) + rhs; } - inline CInt operator+(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) + as_a_size_t(rhs); } - inline CInt operator+(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs + as_a_size_t(rhs); } - inline CInt operator-(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) - rhs; } - inline CInt operator-(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) - rhs; } - inline CInt operator-(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) - rhs; } - inline CInt operator-(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) - as_a_size_t(rhs); } - inline CInt operator-(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs - as_a_size_t(rhs); } - inline CInt operator*(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) * rhs; } - inline CSize_t operator*(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) * rhs; } - inline CInt operator*(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) * rhs; } - inline CInt operator*(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) * as_a_size_t(rhs); } - inline CInt operator*(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs * as_a_size_t(rhs); } - inline CInt operator/(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) / rhs; } - inline CSize_t operator/(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) / rhs; } - inline CInt operator/(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) / rhs; } - inline CInt operator/(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) / as_a_size_t(rhs); } - inline CInt operator/(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs / as_a_size_t(rhs); } - - inline bool operator<(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) < rhs; } - inline bool operator<(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) < rhs; } - inline bool operator<(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) < rhs; } - inline bool operator<(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) < as_a_size_t(rhs); } - inline bool operator<(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) < rhs; } - inline bool operator<(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) < as_a_size_t(rhs); } - inline bool operator<(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs < as_a_size_t(rhs); } - inline bool operator>(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) > rhs; } - inline bool operator>(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) > rhs; } - inline bool operator>(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) > rhs; } - inline bool operator>(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) > as_a_size_t(rhs); } - inline bool operator>(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) > rhs; } - inline bool operator>(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) > as_a_size_t(rhs); } - inline bool operator>(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs > as_a_size_t(rhs); } - inline bool operator<=(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) <= rhs; } - inline bool operator<=(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) <= rhs; } - inline bool operator<=(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) <= rhs; } - inline bool operator<=(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) <= as_a_size_t(rhs); } - inline bool operator<=(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) <= rhs; } - inline bool operator<=(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) <= as_a_size_t(rhs); } - inline bool operator<=(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs <= as_a_size_t(rhs); } - inline bool operator>=(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) >= rhs; } - inline bool operator>=(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) >= rhs; } - inline bool operator>=(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) >= rhs; } - inline bool operator>=(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) >= as_a_size_t(rhs); } - inline bool operator>=(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) >= rhs; } - inline bool operator>=(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) >= as_a_size_t(rhs); } - inline bool operator>=(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs >= as_a_size_t(rhs); } - inline bool operator==(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) == rhs; } - inline bool operator==(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) == rhs; } - inline bool operator==(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) == rhs; } - inline bool operator==(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) == as_a_size_t(rhs); } - inline bool operator==(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) == rhs; } - inline bool operator==(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) == as_a_size_t(rhs); } - inline bool operator==(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs == as_a_size_t(rhs); } - inline bool operator!=(size_t lhs, const CInt &rhs) { rhs.assert_initialized(); return CSize_t(lhs) != rhs; } - inline bool operator!=(size_t lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CSize_t(lhs) != rhs; } - inline bool operator!=(int lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) != rhs; } - inline bool operator!=(int lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) != as_a_size_t(rhs); } - inline bool operator!=(long long lhs, const CInt &rhs) { rhs.assert_initialized(); return CInt(lhs) != rhs; } - inline bool operator!=(long long lhs, const CSize_t &rhs) { rhs.assert_initialized(); return CInt(lhs) != as_a_size_t(rhs); } - inline bool operator!=(const CInt &lhs, const CSize_t &rhs) { rhs.assert_initialized(); return lhs != as_a_size_t(rhs); } -#endif /*MSE_PRIMITIVES_DISABLED*/ - - static void s_type_test1() { -#ifdef MSE_SELF_TESTS - CInt i1(3); - CInt i2 = 5; - CInt i3; - i3 = 7; - CInt i4 = i1 + i2; - i4 = i1 + 17; - i4 = 19 + i1; - i4 += i2; - i4 -= 23; - i4++; - CBool b1 = (i1 < i2); - b1 = (i1 < 17); - b1 = (19 < i1); - b1 = (i1 == i2); - b1 = (i1 == 17); - b1 = (19 == i1); - - CSize_t szt1(3); - CSize_t szt2 = 5; - CSize_t szt3; - szt3 = 7; - CSize_t szt4 = szt1 + szt2; - szt4 = szt1 + 17; - szt4 = 19 + szt1; - CInt i11 = 19 + szt1; - szt4 += szt2; - szt4 -= 23; - szt4++; -#ifndef MSVC2010_COMPATIBLE - size_t szt5 = size_t(szt4); -#endif /*MSVC2010_COMPATIBLE*/ - bool b3 = (szt1 < szt2); - b3 = (szt1 < 17); - b3 = (19 < szt1); - CBool b2 = (19 < szt1); - b3 = (szt1 == szt2); - b3 = (szt1 == 17); - b3 = (19 == szt1); - CBool b4 = (b1 < b2); - b4 = (b1 == b2); - b4 = (b1 > b3); - b4 = (b3 >= b1); - b4 = (b3 == b1); - b4 = (b1 && b2); - b4 = (b1 || b3); - b4 = (b3 && b1); - b4 |= b1; - b4 &= b3; -#endif // MSE_SELF_TESTS - } -} - -#undef MSE_THROW - -#endif /*ndef MSEPRIMITIVES_H*/ |