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+// **************************************************************************
+// * This file is part of the FreeFileSync project. It is distributed under *
+// * GNU General Public License: http://www.gnu.org/licenses/gpl.html *
+// * Copyright (C) 2008-2011 ZenJu (zhnmju123 AT gmx.de) *
+// **************************************************************************
+//
+#ifndef FFS_LARGE_64_BIT_INTEGER_H_INCLUDED
+#define FFS_LARGE_64_BIT_INTEGER_H_INCLUDED
+
+#include <cassert>
+#include <ostream>
+#include <limits>
+#include <boost/cstdint.hpp>
+#include <boost/numeric/conversion/bounds.hpp>
+#include "assert_static.h"
+#include "loki/TypeManip.h"
+
+#ifdef FFS_WIN
+#include <wx/msw/wrapwin.h>
+#endif
+
+
+/*
+zen::Int64/zen::UInt64: wrapper classes around boost::int64_t/boost::uint64_t
+
+ - default initialization with 0
+ - debug runtime overflow/underflow checks
+ - safe and explicit semantics: no unsafe type conversions
+ - safe conversion to and from Windows 64-bit integers
+ - specializes std::numeric_limits
+ - support stream operator<< and operator>>
+*/
+
+namespace zen
+{
+template <class T, class U> inline void checkRange(U value)
+{
+ //caveat: std::numeric_limits<T>::min returns minimum positive(!) number for T = double, while behaving correctly for integer types... sigh
+ //std::numeric_limits<T>::lowest() not available before C++11
+ assert(double(boost::numeric::bounds<T>::lowest ()) <= double(value) &&
+ double(boost::numeric::bounds<T>::highest()) >= double(value));
+}
+
+class Int64
+{
+ struct DummyClass { operator int() { return 0; } };
+public:
+ //safe implicit conversions
+ Int64() : value(0) {}
+ Int64(const Int64& rhs) : value(rhs.value) {}
+ Int64(int rhs) : value(rhs) {} //ambiguity intentional for types other than these
+ Int64(long rhs) : value(rhs) {}
+ Int64(Loki::Select<Loki::IsSameType<boost::int64_t, long>::value, DummyClass, boost::int64_t>::Result rhs) :
+ value(rhs) {} //-> boost::int64_t equals long int on x64 Linux! Still we want implicit behavior for all other systems!
+
+ //unsafe explicit but checked conversion from arbitrary integer type
+ template <class T> explicit Int64(T rhs) : value(rhs) { checkRange<boost::int64_t>(rhs); }
+
+ Int64& operator=(const Int64& rhs) { value = rhs.value; return *this; }
+
+#ifdef FFS_WIN
+ Int64(DWORD low, LONG high)
+ {
+ assert_static(sizeof(low) + sizeof(high) == sizeof(value));
+
+ LARGE_INTEGER cvt = {};
+ cvt.LowPart = low;
+ cvt.HighPart = high;
+ value = cvt.QuadPart;
+ }
+ LONG getHi() const
+ {
+ LARGE_INTEGER cvt = {};
+ cvt.QuadPart = value;
+ return cvt.HighPart;
+ }
+ DWORD getLo() const
+ {
+ LARGE_INTEGER cvt = {};
+ cvt.QuadPart = value;
+ return cvt.LowPart;
+ }
+#endif
+
+ Int64& operator+=(const Int64& rhs) { checkRange<boost::int64_t>(double(value) + rhs.value); value += rhs.value; return *this; }
+ Int64& operator-=(const Int64& rhs) { checkRange<boost::int64_t>(double(value) - rhs.value); value -= rhs.value; return *this; }
+ Int64& operator*=(const Int64& rhs) { checkRange<boost::int64_t>(double(value) * rhs.value); value *= rhs.value; return *this; }
+ Int64& operator/=(const Int64& rhs) { assert(rhs.value != 0); value /= rhs.value; return *this; }
+ Int64& operator%=(const Int64& rhs) { assert(rhs.value != 0); value %= rhs.value; return *this; }
+ Int64& operator&=(const Int64& rhs) { value &= rhs.value; return *this;}
+ Int64& operator|=(const Int64& rhs) { value |= rhs.value; return *this;}
+ Int64& operator<<=(int rhs) { assert(rhs < 0 || (value << rhs) >> rhs == value); value <<= rhs; return *this; }
+ Int64& operator>>=(int rhs) { assert(rhs > 0 || (value >> rhs) << rhs == value); value >>= rhs; return *this; }
+
+ inline friend bool operator==(const Int64& lhs, const Int64& rhs) { return lhs.value == rhs.value; }
+ inline friend bool operator!=(const Int64& lhs, const Int64& rhs) { return lhs.value != rhs.value; }
+ inline friend bool operator< (const Int64& lhs, const Int64& rhs) { return lhs.value < rhs.value; }
+ inline friend bool operator> (const Int64& lhs, const Int64& rhs) { return lhs.value > rhs.value; }
+ inline friend bool operator<=(const Int64& lhs, const Int64& rhs) { return lhs.value <= rhs.value; }
+ inline friend bool operator>=(const Int64& lhs, const Int64& rhs) { return lhs.value >= rhs.value; }
+
+ //checked conversion to arbitrary target integer type
+ template <class T> inline friend T to(Int64 number) { checkRange<T>(number.value); return static_cast<T>(number.value); }
+
+ template <class T> inline friend std::basic_istream<T>& operator>>(std::basic_istream<T>& lhs, Int64& rhs) { lhs >> rhs.value; return lhs; }
+ template <class T> inline friend std::basic_ostream<T>& operator<<(std::basic_ostream<T>& lhs, const Int64& rhs) { lhs << rhs.value; return lhs; }
+
+private:
+ boost::int64_t value;
+};
+
+inline Int64 operator+(const Int64& lhs, const Int64& rhs) { return Int64(lhs) += rhs; }
+inline Int64 operator-(const Int64& lhs, const Int64& rhs) { return Int64(lhs) -= rhs; }
+inline Int64 operator*(const Int64& lhs, const Int64& rhs) { return Int64(lhs) *= rhs; }
+inline Int64 operator/(const Int64& lhs, const Int64& rhs) { return Int64(lhs) /= rhs; }
+inline Int64 operator%(const Int64& lhs, const Int64& rhs) { return Int64(lhs) %= rhs; }
+inline Int64 operator&(const Int64& lhs, const Int64& rhs) { return Int64(lhs) &= rhs; }
+inline Int64 operator|(const Int64& lhs, const Int64& rhs) { return Int64(lhs) |= rhs; }
+inline Int64 operator<<(const Int64& lhs, int rhs) { return Int64(lhs) <<= rhs; }
+inline Int64 operator>>(const Int64& lhs, int rhs) { return Int64(lhs) >>= rhs; }
+
+
+
+class UInt64
+{
+ struct DummyClass { operator size_t() { return 0U; } };
+public:
+ //safe implicit conversions
+ UInt64() : value(0) {}
+ UInt64(const UInt64& rhs) : value(rhs.value) {}
+ UInt64(unsigned int rhs) : value(rhs) {} //ambiguity intentional for types other than these
+ UInt64(unsigned long rhs) : value(rhs) {}
+ UInt64(Loki::Select<Loki::IsSameType<boost::uint64_t, unsigned long>::value, DummyClass, boost::uint64_t>::Result rhs) :
+ value(rhs) {} //-> boost::uint64_t equals unsigned long int on x64 Linux! Still we want implicit behavior for all other systems!
+
+ //unsafe explicit but checked conversion from arbitrary integer type
+ template <class T> explicit UInt64(T rhs) : value(rhs) { checkRange<boost::uint64_t>(rhs); }
+
+ UInt64& operator=(const UInt64& rhs) { value = rhs.value; return *this; }
+
+#ifdef FFS_WIN
+ UInt64(DWORD low, DWORD high)
+ {
+ assert_static(sizeof(low) + sizeof(high) == sizeof(value));
+
+ ULARGE_INTEGER cvt = {};
+ cvt.LowPart = low;
+ cvt.HighPart = high;
+ value = cvt.QuadPart;
+ }
+ DWORD getHi() const
+ {
+ ULARGE_INTEGER cvt = {};
+ cvt.QuadPart = value;
+ return cvt.HighPart;
+ }
+ DWORD getLo() const
+ {
+ ULARGE_INTEGER cvt = {};
+ cvt.QuadPart = value;
+ return cvt.LowPart;
+ }
+#endif
+
+ UInt64& operator+=(const UInt64& rhs) { checkRange<boost::uint64_t>(double(value) + rhs.value); value += rhs.value; return *this; }
+ UInt64& operator-=(const UInt64& rhs) { checkRange<boost::uint64_t>(double(value) - rhs.value); value -= rhs.value; return *this; }
+ UInt64& operator*=(const UInt64& rhs) { checkRange<boost::uint64_t>(double(value) * rhs.value); value *= rhs.value; return *this; }
+ UInt64& operator/=(const UInt64& rhs) { assert(rhs.value != 0); value /= rhs.value; return *this; }
+ UInt64& operator%=(const UInt64& rhs) { assert(rhs.value != 0); value %= rhs.value; return *this; }
+ UInt64& operator&=(const UInt64& rhs) { value &= rhs.value; return *this;}
+ UInt64& operator|=(const UInt64& rhs) { value |= rhs.value; return *this;}
+ UInt64& operator<<=(int rhs) { assert(rhs < 0 || (value << rhs) >> rhs == value); value <<= rhs; return *this; }
+ UInt64& operator>>=(int rhs) { assert(rhs > 0 || (value >> rhs) << rhs == value); value >>= rhs; return *this; }
+
+ inline friend bool operator==(const UInt64& lhs, const UInt64& rhs) { return lhs.value == rhs.value; }
+ inline friend bool operator!=(const UInt64& lhs, const UInt64& rhs) { return lhs.value != rhs.value; }
+ inline friend bool operator< (const UInt64& lhs, const UInt64& rhs) { return lhs.value < rhs.value; }
+ inline friend bool operator> (const UInt64& lhs, const UInt64& rhs) { return lhs.value > rhs.value; }
+ inline friend bool operator<=(const UInt64& lhs, const UInt64& rhs) { return lhs.value <= rhs.value; }
+ inline friend bool operator>=(const UInt64& lhs, const UInt64& rhs) { return lhs.value >= rhs.value; }
+
+ //checked conversion to arbitrary target integer type
+ template <class T> inline friend T to(UInt64 number) { checkRange<T>(number.value); return static_cast<T>(number.value); }
+
+ template <class T> inline friend std::basic_istream<T>& operator>>(std::basic_istream<T>& lhs, UInt64& rhs) { lhs >> rhs.value; return lhs; }
+ template <class T> inline friend std::basic_ostream<T>& operator<<(std::basic_ostream<T>& lhs, const UInt64& rhs) { lhs << rhs.value; return lhs; }
+
+private:
+ boost::uint64_t value;
+};
+
+inline UInt64 operator+(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) += rhs; }
+inline UInt64 operator-(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) -= rhs; }
+inline UInt64 operator*(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) *= rhs; }
+inline UInt64 operator/(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) /= rhs; }
+inline UInt64 operator%(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) %= rhs; }
+inline UInt64 operator&(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) &= rhs; }
+inline UInt64 operator|(const UInt64& lhs, const UInt64& rhs) { return UInt64(lhs) |= rhs; }
+inline UInt64 operator<<(const UInt64& lhs, int rhs) { return UInt64(lhs) <<= rhs; }
+inline UInt64 operator>>(const UInt64& lhs, int rhs) { return UInt64(lhs) >>= rhs; }
+
+template <> inline UInt64 to(Int64 number) { checkRange<boost::uint64_t>(number.value); return UInt64(number.value); }
+template <> inline Int64 to(UInt64 number) { checkRange<boost:: int64_t>(number.value); return Int64(number.value); }
+}
+
+
+namespace std
+{
+assert_static(std::numeric_limits<boost:: int64_t>::is_specialized);
+assert_static(std::numeric_limits<boost::uint64_t>::is_specialized);
+
+template <> class numeric_limits<zen::Int64> : public numeric_limits<boost::int64_t>
+{
+public:
+ static zen::Int64 min() throw() { return numeric_limits<boost::int64_t>::min(); }
+ static zen::Int64 max() throw() { return numeric_limits<boost::int64_t>::max(); }
+};
+
+template <> class numeric_limits<zen::UInt64> : public numeric_limits<boost::uint64_t>
+{
+public:
+ static zen::UInt64 min() throw() { return numeric_limits<boost::uint64_t>::min(); }
+ static zen::UInt64 max() throw() { return numeric_limits<boost::uint64_t>::max(); }
+};
+}
+
+#endif //FFS_LARGE_64_BIT_INTEGER_H_INCLUDED
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