#ifndef _LIBRARY_NUMERIC_LONGINT_HPP_ #define _LIBRARY_NUMERIC_LONGINT_HPP_ // ------------------------------------------------------------------------------------------------ #include "Base/Shared.hpp" // ------------------------------------------------------------------------------------------------ namespace SqMod { // ------------------------------------------------------------------------------------------------ template < typename T > class LongInt; /* ------------------------------------------------------------------------------------------------ * Specialization of the Long int class for signed integers. */ template <> class LongInt< Int64 > { public: // -------------------------------------------------------------------------------------------- typedef Int64 Type; // The specialized type. private: // -------------------------------------------------------------------------------------------- Type m_Data; // The assigned value. SQChar m_Text[32]; // String representation of the value. public: /* -------------------------------------------------------------------------------------------- * Default constructor. */ LongInt() : m_Data(0), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * Explicit value constructor. */ explicit LongInt(Type n) : m_Data(n), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * String encoded constructor. */ explicit LongInt(CSStr text); /* -------------------------------------------------------------------------------------------- * String encoded with explicit base constructor. */ LongInt(CSStr text, Uint32 base); /* -------------------------------------------------------------------------------------------- * Copy constructor. */ LongInt(const LongInt< Type > & o) : m_Data(o.m_Data), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * Destructor. */ ~LongInt() { /* ... */ } /* -------------------------------------------------------------------------------------------- * */ LongInt & operator = (const LongInt< Type > & o) { m_Data = o.m_Data; return *this; } /* -------------------------------------------------------------------------------------------- * Copy assignment operator. */ LongInt< Type > & operator = (Type data) { m_Data = data; return *this; } /* -------------------------------------------------------------------------------------------- * Assignment operator. */ LongInt< Type > & operator = (CSStr text); /* -------------------------------------------------------------------------------------------- * Equality comparison operator. */ bool operator == (const LongInt< Type > & o) const { return (m_Data == o.m_Data); } /* -------------------------------------------------------------------------------------------- * Inequality comparison operator. */ bool operator != (const LongInt< Type > & o) const { return (m_Data != o.m_Data); } /* -------------------------------------------------------------------------------------------- * Less than comparison operator. */ bool operator < (const LongInt< Type > & o) const { return (m_Data < o.m_Data); } /* -------------------------------------------------------------------------------------------- * Greater than comparison operator. */ bool operator > (const LongInt< Type > & o) const { return (m_Data > o.m_Data); } /* -------------------------------------------------------------------------------------------- * Less than or equal comparison operator. */ bool operator <= (const LongInt< Type > & o) const { return (m_Data <= o.m_Data); } /* -------------------------------------------------------------------------------------------- * Greater than or equal comparison operator. */ bool operator >= (const LongInt< Type > & o) const { return (m_Data >= o.m_Data); } /* -------------------------------------------------------------------------------------------- * Implicit conversion to the specialized type. */ operator Type () const { return m_Data; } /* -------------------------------------------------------------------------------------------- * Adition operator. */ template < typename U > LongInt< Type > operator + (const LongInt< U > & o) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ template < typename U > LongInt< Type > operator - (const LongInt< U > & o) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ template < typename U > LongInt< Type > operator * (const LongInt< U > & o) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Division operator. */ template < typename U > LongInt< Type > operator / (const LongInt< U > & o) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ template < typename U > LongInt< Type > operator % (const LongInt< U > & o) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (SQInteger s) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (SQInteger s) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (SQInteger s) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (SQInteger s) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (SQInteger s) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (SQFloat s) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (SQFloat s) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (SQFloat s) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (SQFloat s) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (SQFloat s) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (bool s) const { return LongInt< Type >(m_Data + static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (bool s) const { return LongInt< Type >(m_Data - static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (bool s) const { return LongInt< Type >(m_Data * static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (bool s) const { return LongInt< Type >(m_Data / static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (bool s) const { return LongInt< Type >(m_Data % static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (std::nullptr_t) const { return LongInt< Type >(m_Data + static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (std::nullptr_t) const { return LongInt< Type >(m_Data - static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (std::nullptr_t) const { return LongInt< Type >(m_Data * static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (std::nullptr_t) const { return LongInt< Type >(static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (std::nullptr_t) const { return LongInt< Type >(static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (CSStr str) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (CSStr str) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (CSStr str) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (CSStr str) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (CSStr str) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Unarry minus operator. */ LongInt< Type > operator - () const { return LongInt< Type >(-m_Data); } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare two instances of this type. */ Int32 Cmp(const LongInt< Type > & o) const { if (m_Data == o.m_Data) { return 0; } else if (m_Data > o.m_Data) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with another one. */ Int32 Cmp(const LongInt< Uint64 > & o) const; /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(SQInteger s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(SQFloat s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(bool s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(std::nullptr_t) const { if (m_Data == static_cast< Type >(0)) { return 0; } else if (m_Data > static_cast< Type >(0)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(CSStr str) const { const Type v = ConvTo< Type >::From(str); if (m_Data == v) { return 0; } else if (m_Data > v) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to convert an instance of this type to a string. */ CSStr ToString(); /* -------------------------------------------------------------------------------------------- * Assign an integer value. */ void SetNum(Type data) { m_Data = data; } /* -------------------------------------------------------------------------------------------- * Retrieve an the specialized value. */ Type GetNum() const { return m_Data; } /* -------------------------------------------------------------------------------------------- * Retrieve an a Squirrel integer value. */ SQInteger GetSNum() const { return ClampL< Type, SQInteger >(m_Data); } /* -------------------------------------------------------------------------------------------- * Assign a string value. */ void SetStr(CSStr text) { *this = text; } /* -------------------------------------------------------------------------------------------- * Retrieve a string value. */ CSStr GetCStr() { return ToString(); } /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(); /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(Type n); /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(Type m, Type n); /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel integer. */ SQInteger ToSqInteger() const { return ClampL< Type, SQInteger >(m_Data); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel float. */ SQFloat ToSqFloat() const { return ClampL< Float64, SQFloat >(static_cast< Float64 >(m_Data)); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel string. */ CSStr ToSqString() { return ToString(); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel boolean. */ bool ToSqBool() const { return (m_Data > 0); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel character. */ SQChar ToSqChar() const { return ClampL< Type, SQChar >(m_Data); } }; /* ------------------------------------------------------------------------------------------------ * Specialization of the Long int class for unsigned integers. */ template <> class LongInt< Uint64 > { public: // -------------------------------------------------------------------------------------------- typedef Uint64 Type; // The specialized type. private: // -------------------------------------------------------------------------------------------- Type m_Data; // The assigned value. SQChar m_Text[32]; // String representation of the value. public: /* -------------------------------------------------------------------------------------------- * Default constructor. */ LongInt() : m_Data(0), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * Explicit value constructor. */ LongInt(Type n) : m_Data(n), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * String encoded constructor. */ LongInt(CSStr text); /* -------------------------------------------------------------------------------------------- * String encoded with explicit base constructor. */ LongInt(CSStr text, Uint32 base); /* -------------------------------------------------------------------------------------------- * Copy constructor. */ LongInt(const LongInt< Type > & o) : m_Data(o.m_Data), m_Text() { /* ... */ } /* -------------------------------------------------------------------------------------------- * Destructor. */ ~LongInt() { /* ... */ } /* -------------------------------------------------------------------------------------------- * Copy assignment operator. */ LongInt & operator = (const LongInt< Type > & o) { m_Data = o.m_Data; return *this; } /* -------------------------------------------------------------------------------------------- * Assignment operator. */ LongInt< Type > & operator = (Type data) { m_Data = data; return *this; } /* -------------------------------------------------------------------------------------------- * Assignment operator. */ LongInt< Type > & operator = (CSStr text); /* -------------------------------------------------------------------------------------------- * Equality comparison operator. */ bool operator == (const LongInt< Type > & o) const { return (m_Data == o.m_Data); } /* -------------------------------------------------------------------------------------------- * Inequality comparison operator. */ bool operator != (const LongInt< Type > & o) const { return (m_Data != o.m_Data); } /* -------------------------------------------------------------------------------------------- * Less than comparison operator. */ bool operator < (const LongInt< Type > & o) const { return (m_Data < o.m_Data); } /* -------------------------------------------------------------------------------------------- * Greater than comparison operator. */ bool operator > (const LongInt< Type > & o) const { return (m_Data > o.m_Data); } /* -------------------------------------------------------------------------------------------- * Less than or equal comparison operator. */ bool operator <= (const LongInt< Type > & o) const { return (m_Data <= o.m_Data); } /* -------------------------------------------------------------------------------------------- * Greater than or equal comparison operator. */ bool operator >= (const LongInt< Type > & o) const { return (m_Data >= o.m_Data); } /* -------------------------------------------------------------------------------------------- * Implicit conversion to the specialized type. */ operator Type () const { return m_Data; } /* -------------------------------------------------------------------------------------------- * Adition operator. */ template < typename U > LongInt< Type > operator + (const LongInt< U > & o) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ template < typename U > LongInt< Type > operator - (const LongInt< U > & o) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ template < typename U > LongInt< Type > operator * (const LongInt< U > & o) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Division operator. */ template < typename U > LongInt< Type > operator / (const LongInt< U > & o) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ template < typename U > LongInt< Type > operator % (const LongInt< U > & o) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(o.GetNum())); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (SQInteger s) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (SQInteger s) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (SQInteger s) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (SQInteger s) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (SQInteger s) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (SQFloat s) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (SQFloat s) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (SQFloat s) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (SQFloat s) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (SQFloat s) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (bool s) const { return LongInt< Type >(m_Data + static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (bool s) const { return LongInt< Type >(m_Data - static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (bool s) const { return LongInt< Type >(m_Data * static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (bool s) const { return LongInt< Type >(m_Data / static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (bool s) const { return LongInt< Type >(m_Data % static_cast< Type >(s)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (std::nullptr_t) const { return LongInt< Type >(m_Data + static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (std::nullptr_t) const { return LongInt< Type >(m_Data - static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (std::nullptr_t) const { return LongInt< Type >(m_Data * static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (std::nullptr_t) const { return LongInt< Type >(static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (std::nullptr_t) const { return LongInt< Type >(static_cast< Type >(0)); } /* -------------------------------------------------------------------------------------------- * Adition operator. */ LongInt< Type > operator + (CSStr str) const { return LongInt< Type >(m_Data + ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Subtraction operator. */ LongInt< Type > operator - (CSStr str) const { return LongInt< Type >(m_Data - ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Multiplication operator. */ LongInt< Type > operator * (CSStr str) const { return LongInt< Type >(m_Data * ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Division operator. */ LongInt< Type > operator / (CSStr str) const { return LongInt< Type >(m_Data / ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Modulus operator. */ LongInt< Type > operator % (CSStr str) const { return LongInt< Type >(m_Data % ConvTo< Type >::From(str)); } /* -------------------------------------------------------------------------------------------- * Unarry minus operator. */ LongInt< Type > operator - () const { return LongInt< Type >(-m_Data); } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare two instances of this type. */ Int32 Cmp(const LongInt< Type > & o) const { if (m_Data == o.m_Data) { return 0; } else if (m_Data > o.m_Data) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with another one. */ Int32 Cmp(const LongInt< Int64 > & o) const { const Type v = ConvTo< Type >::From(o.GetNum()); if (m_Data == v) { return 0; } else if (m_Data > v) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(SQInteger s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(SQFloat s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(bool s) const { if (m_Data == static_cast< Type >(s)) { return 0; } else if (m_Data > static_cast< Type >(s)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(std::nullptr_t) const { if (m_Data == static_cast< Type >(0)) { return 0; } else if (m_Data > static_cast< Type >(0)) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to compare an instance of this type with a scalar value. */ Int32 Cmp(CSStr str) const { const Type v = ConvTo< Type >::From(str); if (m_Data == v) { return 0; } else if (m_Data > v) { return 1; } else { return -1; } } /* -------------------------------------------------------------------------------------------- * Used by the script engine to convert an instance of this type to a string. */ CSStr ToString(); /* -------------------------------------------------------------------------------------------- * Assign an integer value. */ void SetNum(Type data) { m_Data = data; } /* -------------------------------------------------------------------------------------------- * Retrieve an the specialized value. */ Type GetNum() const { return m_Data; } /* -------------------------------------------------------------------------------------------- * Retrieve an a Squirrel integer value. */ SQInteger GetSNum() const { return (SQInteger)(m_Data); } /* -------------------------------------------------------------------------------------------- * Assign a string value. */ void SetStr(CSStr text) { *this = text; } /* -------------------------------------------------------------------------------------------- * Retrieve a string value. */ CSStr GetCStr() { return ToString(); } /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(); /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(Type n); /* -------------------------------------------------------------------------------------------- * Generate a random value. */ void Random(Type m, Type n); /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel integer. */ SQInteger ToSqInteger() const { return ClampL< Type, SQInteger >(m_Data); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel float. */ SQFloat ToSqFloat() const { return ClampL< Float64, SQFloat >(static_cast< Float64 >(m_Data)); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel string. */ CSStr ToSqString() { return ToString(); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel boolean. */ bool ToSqBool() const { return (m_Data > 0); } /* -------------------------------------------------------------------------------------------- * Attempt to convert the long integer to a squirrel character. */ SQChar ToSqChar() const { return ClampL< Type, SQChar >(m_Data); } }; // ------------------------------------------------------------------------------------------------ inline Int32 LongInt< Int64 >::Cmp(const LongInt< Uint64 > & o) const { const Type v = ConvTo< Type >::From(o.GetNum()); if (m_Data == v) { return 0; } else if (m_Data > v) { return 1; } else { return -1; } } // ------------------------------------------------------------------------------------------------ typedef LongInt< Int64 > SLongInt; typedef LongInt< Uint64 > ULongInt; } // Namespace:: SqMod #endif // _LIBRARY_NUMERIC_LONGINT_HPP_