// istream standard header #pragma once #ifndef _ISTREAM_ #define _ISTREAM_ #include #pragma pack(push,8) #pragma warning(push,3) _STD_BEGIN // TEMPLATE CLASS basic_istream template class basic_istream : virtual public basic_ios<_Elem, _Traits> { // control extractions from a stream buffer public: typedef basic_istream<_Elem, _Traits> _Myt; typedef basic_ios<_Elem, _Traits> _Myios; typedef basic_streambuf<_Elem, _Traits> _Mysb; typedef istreambuf_iterator<_Elem, _Traits> _Iter; typedef ctype<_Elem> _Ctype; typedef num_get<_Elem, _Iter> _Nget; explicit basic_istream(_Mysb *_Strbuf, bool _Isstd = false, bool _Noinit = false) : _Chcount(0) { // construct from stream buffer pointer if (!_Noinit) _Myios::init(_Strbuf, _Isstd); } basic_istream(_Uninitialized) { // construct uninitialized ios_base::_Addstd(); } virtual ~basic_istream() { // destroy the object } typedef typename _Traits::int_type int_type; typedef typename _Traits::pos_type pos_type; typedef typename _Traits::off_type off_type; // TEMPLATE CLASS sentry class _Sentry_base { // stores thread lock and reference to input stream public: _Sentry_base(_Myt& _Istr) : _Myistr(_Istr) { // lock the stream buffer, if there if (_Myistr.rdbuf() != 0) _Myistr.rdbuf()->_Lock(); } ~_Sentry_base() { // destroy after unlocking if (_Myistr.rdbuf() != 0) _Myistr.rdbuf()->_Unlock(); } _Myt& _Myistr; // the input stream, for _Unlock call at destruction }; class sentry : public _Sentry_base { // stores thread lock and result of _Ipfx call public: explicit sentry(_Myt& _Istr, bool _Noskip = false) : _Sentry_base(_Istr) { // construct locking and calling _Ipfx _Ok = _Myistr._Ipfx(_Noskip); } operator bool() const { // test if _Ipfx succeeded return (_Ok); } private: sentry(const sentry&); // not defined sentry& operator=(const sentry&); // not defined bool _Ok; // true if _Ipfx succeeded at construction }; bool _Ipfx(bool _Noskip = false) { // test stream state and skip whitespace as needed if (ios_base::good()) { // state okay, flush tied stream and skip whitespace if (_Myios::tie() != 0) _Myios::tie()->flush(); if (!_Noskip && ios_base::flags() & ios_base::skipws) { // skip whitespace const _Ctype& _Facet = _USE(ios_base::getloc(), _Ctype); _TRY_IO_BEGIN int_type _Meta = _Myios::rdbuf()->sgetc(); for (; ; _Meta = _Myios::rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _Myios::setstate(ios_base::eofbit); break; } else if (!_Facet.is(_Ctype::space, _Traits::to_char_type(_Meta))) break; // not whitespace, quit _CATCH_IO_END } if (ios_base::good()) return (true); } _Myios::setstate(ios_base::failbit); return (false); } bool ipfx(bool _Noskip = false) { // test stream state and skip whitespace as needed (retained) return _Ipfx(_Noskip); } void isfx() { // perform any wrapup (retained) } _Myt& operator>>(_Myt& (__cdecl *_Pfn)(_Myt&)) { // call basic_istream manipulator return ((*_Pfn)(*this)); } _Myt& operator>>(_Myios& (__cdecl *_Pfn)(_Myios&)) { // call basic_ios manipulator (*_Pfn)(*(_Myios *)this); return (*this); } _Myt& operator>>(ios_base& (__cdecl *_Pfn)(ios_base&)) { // call ios_base manipulator (*_Pfn)(*(ios_base *)this); return (*this); } _Myt& operator>>(_Bool& _Val) { // extract a boolean ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(short& _Val) { // extract a short ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract long _Tmp = 0; const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Tmp); _CATCH_IO_END if (_State & ios_base::failbit || _Tmp < SHRT_MIN || SHRT_MAX < _Tmp) _State |= ios_base::failbit; else _Val = (short)_Tmp; } _Myios::setstate(_State); return (*this); } _Myt& operator>>(unsigned short& _Val) { // extract an unsigned short ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(int& _Val) { // extract an int ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract long _Tmp = 0; const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Tmp); _CATCH_IO_END if (_State & ios_base::failbit || _Tmp < INT_MIN || INT_MAX < _Tmp) _State |= ios_base::failbit; else _Val = _Tmp; } _Myios::setstate(_State); return (*this); } _Myt& operator>>(unsigned int& _Val) { // extract an unsigned int ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(long& _Val) { // extract a long ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(unsigned long& _Val) { // extract an unsigned long ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } #ifdef _LONGLONG _Myt& operator>>(_LONGLONG& _Val) { // extract a long long ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(_ULONGLONG& _Val) { // extract an unsigned long long ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } #endif /* _LONGLONG */ _Myt& operator>>(float& _Val) { // extract a float ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(double& _Val) { // extract a double ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(long double& _Val) { // extract a long double ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(void *& _Val) { // extract a void pointer ios_base::iostate _State = ios_base::goodbit; const sentry _Ok(*this); if (_Ok) { // state okay, use facet to extract const _Nget& _Facet = _USE(ios_base::getloc(), _Nget); _TRY_IO_BEGIN _Facet.get(_Iter(_Myios::rdbuf()), _Iter(0), *this, _State, _Val); _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& operator>>(_Mysb *_Strbuf) { // extract until end-of-file into a stream buffer ios_base::iostate _State = ios_base::goodbit; bool _Copied = false; const sentry _Ok(*this); if (_Ok && _Strbuf != 0) { // state okay, extract characters _TRY_IO_BEGIN int_type _Meta = _Myios::rdbuf()->sgetc(); for (; ; _Meta = _Myios::rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else { // got a character, insert it into buffer _TRY_BEGIN if (_Traits::eq_int_type(_Traits::eof(), _Strbuf->sputc(_Traits::to_char_type(_Meta)))) break; _CATCH_ALL break; _CATCH_END _Copied = true; } _CATCH_IO_END } _Myios::setstate(!_Copied ? _State | ios_base::failbit : _State); return (*this); } int_type get() { // extract a metacharacter int_type _Meta = 0; ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (!_Ok) _Meta = _Traits::eof(); // state not okay, return EOF else { // state okay, extract a character _TRY_IO_BEGIN _Meta = _Myios::rdbuf()->sbumpc(); if (_Traits::eq_int_type(_Traits::eof(), _Meta)) _State |= ios_base::eofbit | ios_base::failbit; // end of file else ++_Chcount; // got a character, count it _CATCH_IO_END } _Myios::setstate(_State); return (_Meta); } _Myt& get(_Elem *_Str, streamsize _Count) { // get up to _Count characters into NTCS return (get(_Str, _Count, _Myios::widen('\n'))); } _Myt& get(_Elem *_Str, streamsize _Count, _Elem _Delim) { // get up to _Count characters into NTCS, stop before _Delim ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok && 0 < _Count) { // state okay, extract characters _TRY_IO_BEGIN int_type _Meta = _Myios::rdbuf()->sgetc(); for (; 0 < --_Count; _Meta = _Myios::rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (_Traits::to_char_type(_Meta) == _Delim) break; // got a delimiter, quit else { // got a character, add it to string *_Str++ = _Traits::to_char_type(_Meta); ++_Chcount; } _CATCH_IO_END } _Myios::setstate(_Chcount == 0 ? _State | ios_base::failbit : _State); *_Str = _Elem(); // add terminating null character return (*this); } _Myt& get(_Elem& _Ch) { // get a character int_type _Meta = get(); if (!_Traits::eq_int_type(_Traits::eof(), _Meta)) _Ch = _Traits::to_char_type(_Meta); return (*this); } _Myt& get(_Mysb& _Strbuf) { // extract up to newline and insert into stream buffer return (get(_Strbuf, _Myios::widen('\n'))); } _Myt& get(_Mysb& _Strbuf, _Elem _Delim) { // extract up to delimiter and insert into stream buffer ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok) { // state okay, use facet to extract _TRY_IO_BEGIN int_type _Meta = _Myios::rdbuf()->sgetc(); for (; ; _Meta = _Myios::rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else { // got a character, insert it into stream buffer _TRY_BEGIN _Elem _Ch = _Traits::to_char_type(_Meta); if (_Ch == _Delim || _Traits::eq_int_type(_Traits::eof(), _Strbuf.sputc(_Ch))) break; _CATCH_ALL break; _CATCH_END ++_Chcount; } _CATCH_IO_END } if (_Chcount == 0) _State |= ios_base::failbit; _Myios::setstate(_State); return (*this); } _Myt& getline(_Elem *_Str, streamsize _Count) { // get up to _Count characters into NTCS, discard newline return (getline(_Str, _Count, _Myios::widen('\n'))); } _Myt& getline(_Elem *_Str, streamsize _Count, _Elem _Delim) { // get up to _Count characters into NTCS, discard _Delim ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok && 0 < _Count) { // state okay, use facet to extract int_type _Metadelim = _Traits::to_int_type(_Delim); _TRY_IO_BEGIN int_type _Meta = _Myios::rdbuf()->sgetc(); for (; ; _Meta = _Myios::rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (_Meta == _Metadelim) { // got a delimiter, discard it and quit ++_Chcount; _Myios::rdbuf()->sbumpc(); break; } else if (--_Count <= 0) { // buffer full, quit _State |= ios_base::failbit; break; } else { // got a character, add it to string ++_Chcount; *_Str++ = _Traits::to_char_type(_Meta); } _CATCH_IO_END } *_Str = _Elem(); // add terminating null character _Myios::setstate(_Chcount == 0 ? _State | ios_base::failbit : _State); return (*this); } _Myt& ignore(streamsize _Count = 1, int_type _Metadelim = _Traits::eof()) { // ignore up to _Count characters, discarding delimiter ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok && 0 < _Count) { // state okay, use facet to extract _TRY_IO_BEGIN for (; ; ) { // get a metacharacter if more room in buffer int_type _Meta; if (_Count != INT_MAX && --_Count < 0) break; // buffer full, quit else if (_Traits::eq_int_type(_Traits::eof(), _Meta = _Myios::rdbuf()->sbumpc())) { // end of file, quit _State |= ios_base::eofbit; break; } else { // got a character, count it ++_Chcount; if (_Meta == _Metadelim) break; // got a delimiter, quit } } _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& read(_Elem *_Str, streamsize _Count) { // read up to _Count characters into buffer ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok) { // state okay, use facet to extract _TRY_IO_BEGIN const streamsize _Num = _Myios::rdbuf()->sgetn(_Str, _Count); _Chcount += _Num; if (_Num != _Count) _State |= ios_base::eofbit | ios_base::failbit; // short read _CATCH_IO_END } _Myios::setstate(_State); return (*this); } streamsize readsome(_Elem *_Str, streamsize _Count) { // read up to _Count characters into buffer, without blocking ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); streamsize _Num; if (!_Ok) _State |= ios_base::failbit; // no buffer, fail else if ((_Num = _Myios::rdbuf()->in_avail()) < 0) _State |= ios_base::eofbit; // no characters available else if (0 < _Num) read(_Str, _Num < _Count ? _Num : _Count); // read available _Myios::setstate(_State); return (gcount()); } int_type peek() { // return next character, unconsumed ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; int_type _Meta = 0; const sentry _Ok(*this, true); if (!_Ok) _Meta = _Traits::eof(); // state not okay, return EOF else { // state okay, read a character _TRY_IO_BEGIN if (_Traits::eq_int_type(_Traits::eof(), _Meta = _Myios::rdbuf()->sgetc())) _State |= ios_base::eofbit; _CATCH_IO_END } _Myios::setstate(_State); return (_Meta); } _Myt& putback(_Elem _Ch) { // put back a character ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok) { // state okay, put character back _TRY_IO_BEGIN if (_Traits::eq_int_type(_Traits::eof(), _Myios::rdbuf()->sputbackc(_Ch))) _State |= ios_base::badbit; _CATCH_IO_END } _Myios::setstate(_State); return (*this); } _Myt& unget() { // put back last read character ios_base::iostate _State = ios_base::goodbit; _Chcount = 0; const sentry _Ok(*this, true); if (_Ok) { // state okay, use facet to extract _TRY_IO_BEGIN if (_Traits::eq_int_type(_Traits::eof(), _Myios::rdbuf()->sungetc())) _State |= ios_base::badbit; _CATCH_IO_END } _Myios::setstate(_State); return (*this); } streamsize gcount() const { // get count from last extraction return (_Chcount); } int sync() { // synchronize with input source ios_base::iostate _State = ios_base::goodbit; int _Ans; if (_Myios::rdbuf() == 0) _Ans = -1; // no buffer, fail else if (_Myios::rdbuf()->pubsync() == -1) { // stream buffer sync failed, fail _State |= ios_base::badbit; _Ans = -1; } else _Ans = 0; // success _Myios::setstate(_State); return (_Ans); } _Myt& seekg(pos_type _Pos) { // set input stream position to _Pos if (!ios_base::fail() && (off_type)_Myios::rdbuf()->pubseekpos(_Pos, ios_base::in) == _BADOFF) _Myios::setstate(ios_base::failbit); return (*this); } _Myt& seekg(off_type _Off, ios_base::seekdir _Way) { // change input stream position by _Off, according to _Way if (!ios_base::fail() && (off_type)_Myios::rdbuf()->pubseekoff(_Off, _Way, ios_base::in) == _BADOFF) _Myios::setstate(ios_base::failbit); return (*this); } pos_type tellg() { // return input stream position if (!ios_base::fail()) return (_Myios::rdbuf()->pubseekoff(0, ios_base::cur, ios_base::in)); else return (pos_type(_BADOFF)); } private: streamsize _Chcount; // the character count }; #ifdef _DLL_CPPLIB template class _CRTIMP2 basic_istream >; template class _CRTIMP2 basic_istream >; #endif // _DLL_CPPLIB // TEMPLATE CLASS basic_iostream template class basic_iostream : public basic_istream<_Elem, _Traits>, public basic_ostream<_Elem, _Traits> { // control insertions and extractions from a stream buffer public: explicit basic_iostream(basic_streambuf<_Elem, _Traits> *_Strbuf) : basic_istream<_Elem, _Traits>(_Strbuf, false, true), basic_ostream<_Elem, _Traits>(_Strbuf) { // construct from stream buffer pointer } virtual ~basic_iostream() { // destroy the object } }; #ifdef _DLL_CPPLIB template class _CRTIMP2 basic_iostream >; template class _CRTIMP2 basic_iostream >; #endif // _DLL_CPPLIB // EXTRACTORS template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, _Elem *_Str) { // extract NTBS typedef basic_istream<_Elem, _Traits> _Myis; typedef ctype<_Elem> _Ctype; ios_base::iostate _State = ios_base::goodbit; _Elem *_Str0 = _Str; const typename _Myis::sentry _Ok(_Istr); if (_Ok) { // state okay, extract characters const _Ctype& _Facet = _USE(_Istr.getloc(), _Ctype); _TRY_IO_BEGIN streamsize _Count = 0 < _Istr.width() ? _Istr.width() : INT_MAX; typename _Myis::int_type _Meta = _Istr.rdbuf()->sgetc(); _Elem _Ch; for (; 0 < --_Count; _Meta = _Istr.rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (_Facet.is(_Ctype::space, _Ch = _Traits::to_char_type(_Meta)) || _Ch == _Elem()) break; // whitespace or nul, quit else *_Str++ = _Traits::to_char_type(_Meta); // add it to string _CATCH_IO_(_Istr) } *_Str = _Elem(); // add terminating null character _Istr.width(0); _Istr.setstate(_Str == _Str0 ? _State | ios_base::failbit : _State); return (_Istr); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, _Elem& _Ch) { // extract a character typedef basic_istream<_Elem, _Traits> _Myis; typename _Myis::int_type _Meta; ios_base::iostate _State = ios_base::goodbit; const typename _Myis::sentry _Ok(_Istr); if (_Ok) { // state okay, extract characters _TRY_IO_BEGIN _Meta = _Istr.rdbuf()->sbumpc(); if (_Traits::eq_int_type(_Traits::eof(), _Meta)) _State |= ios_base::eofbit | ios_base::failbit; // end of file else _Ch = _Traits::to_char_type(_Meta); // got a character _CATCH_IO_(_Istr) } _Istr.setstate(_State); return (_Istr); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, signed char *_Str) { // extract a signed char NTBS return (_Istr >> (char *)_Str); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, signed char& _Ch) { // extract a signed char return (_Istr >> (char&)_Ch); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, unsigned char *_Str) { // extract an unsigned char NTBS return (_Istr >> (char *)_Str); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, unsigned char& _Ch) { // extract an unsigned char return (_Istr >> (char&)_Ch); } template inline basic_istream<_Elem, _Traits>& __cdecl operator>>( basic_istream<_Elem, _Traits>& _Istr, signed short * _Str) { // extract a wide character NTBS return (_Istr >> (wchar_t *)_Str); } #ifdef _DLL_CPPLIB template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, char *); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, char&); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, signed char *); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, signed char&); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, unsigned char *); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, unsigned char&); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, wchar_t *); template _CRTIMP2 basic_istream >& __cdecl operator>>(basic_istream >&, wchar_t&); #endif // _DLL_CPPLIB // MANIPULATORS template inline basic_istream<_Elem, _Traits>& __cdecl ws(basic_istream<_Elem, _Traits>& _Istr) { // consume whitespace typedef basic_istream<_Elem, _Traits> _Myis; typedef ctype<_Elem> _Ctype; ios_base::iostate _State = ios_base::goodbit; const typename _Myis::sentry _Ok(_Istr, true); if (_Ok) { // state okay, extract characters const _Ctype& _Facet = _USE(_Istr.getloc(), _Ctype); _TRY_IO_BEGIN for (typename _Traits::int_type _Meta = _Istr.rdbuf()->sgetc(); ; _Meta = _Istr.rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (!_Facet.is(_Ctype::space, _Traits::to_char_type(_Meta))) break; // not whitespace, quit _CATCH_IO_(_Istr) } _Istr.setstate(_State); return (_Istr); } _CRTIMP2 inline basic_istream >& __cdecl ws(basic_istream >& _Istr) { // consume whitespace typedef char _Elem; typedef char_traits<_Elem> _Traits; ios_base::iostate _State = ios_base::goodbit; const basic_istream<_Elem, _Traits>::sentry _Ok(_Istr, true); if (_Ok) { // state okay, use facet to extract const ctype<_Elem>& _Facet = _USE(_Istr.getloc(), ctype<_Elem>); _TRY_IO_BEGIN for (_Traits::int_type _Meta = _Istr.rdbuf()->sgetc(); ; _Meta = _Istr.rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (!_Facet.is(ctype<_Elem>::space, _Traits::to_char_type(_Meta))) break; // not whitespace, quit _CATCH_IO_(_Istr) } _Istr.setstate(_State); return (_Istr); } _CRTIMP2 inline basic_istream >& __cdecl ws(basic_istream >& _Istr) { // consume whitespace typedef wchar_t _Elem; typedef char_traits<_Elem> _Traits; ios_base::iostate _State = ios_base::goodbit; const basic_istream<_Elem, _Traits>::sentry _Ok(_Istr, true); if (_Ok) { // state okay, use facet to extract const ctype<_Elem>& _Facet = _USE(_Istr.getloc(), ctype<_Elem>); _TRY_IO_BEGIN for (_Traits::int_type _Meta = _Istr.rdbuf()->sgetc(); ; _Meta = _Istr.rdbuf()->snextc()) if (_Traits::eq_int_type(_Traits::eof(), _Meta)) { // end of file, quit _State |= ios_base::eofbit; break; } else if (!_Facet.is(ctype<_Elem>::space, _Traits::to_char_type(_Meta))) break; // not whitespace, quit _CATCH_IO_(_Istr) } _Istr.setstate(_State); return (_Istr); } _STD_END #pragma warning(pop) #pragma pack(pop) #endif /* _ISTREAM_ */ /* * Copyright (c) 1992-2001 by P.J. Plauger. ALL RIGHTS RESERVED. * Consult your license regarding permissions and restrictions. V3.10:0009 */