// ostream standard header #ifndef _OSTREAM_ #define _OSTREAM_ #include #ifdef _MSC_VER #pragma pack(push,8) #endif /* _MSC_VER */ // I/O exception macros #define _TRY_IO_BEGIN _TRY_BEGIN #define _CATCH_IO_END _CATCH_ALL \ setstate(ios_base::badbit, true); _CATCH_END #define _CATCH_IO_(x) _CATCH_ALL \ (x).setstate(ios_base::badbit, true); _CATCH_END _STD_BEGIN // TEMPLATE CLASS basic_ostream template */ > class basic_ostream : virtual public basic_ios<_E, _Tr> { public: typedef basic_ostream<_E, _Tr> _Myt; typedef basic_ios<_E, _Tr> _Myios; typedef basic_streambuf<_E, _Tr> _Mysb; typedef ostreambuf_iterator<_E, _Tr> _Iter; typedef num_put<_E, _Iter> _Nput; explicit basic_ostream(basic_streambuf<_E, _Tr> *_S, bool _Isstd = false, bool _Doinit = true) {if (_Doinit) init(_S, _Isstd); } basic_ostream(_Uninitialized) {_Addstd(); } virtual ~basic_ostream() {} class sentry { public: explicit sentry(_Myt& _Os) : _Ok(_Os.opfx()), _Ostr(_Os) {} ~sentry() {if (!uncaught_exception()) _Ostr.osfx(); } operator bool() const {return (_Ok); } private: bool _Ok; _Myt& _Ostr; }; bool opfx() {if (good() && tie() != 0) tie()->flush(); return (good()); } void osfx() {if (flags() & unitbuf) flush(); } _Myt& operator<<(_Myt& (__cdecl *_F)(_Myt&)) {return ((*_F)(*this)); } _Myt& operator<<(_Myios& (__cdecl *_F)(_Myios&)) {(*_F)(*(_Myios *)this); return (*this); } _Myt& operator<<(ios_base& (__cdecl *_F)(ios_base&)) {(*_F)(*(ios_base *)this); return (*this); } _Myt& operator<<(_Bool _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(short _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); fmtflags _Bfl = flags() & basefield; long _Y = (_Bfl == oct || _Bfl == hex) ? (long)(unsigned short)_X : (long)_X; _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _Y).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(unsigned short _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), (unsigned long)_X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(int _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); fmtflags _Bfl = flags() & basefield; long _Y = (_Bfl == oct || _Bfl == hex) ? (long)(unsigned int)_X : (long)_X; _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _Y).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(unsigned int _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), (unsigned long)_X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(long _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(unsigned long _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } #ifdef _WIN64 _Myt& operator<<(__int64 _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(unsigned __int64 _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } #endif // _WIN64 _Myt& operator<<(float _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), (double)_X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(double _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(long double _X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(const void *_X) {iostate _St = goodbit; const sentry _Ok(*this); if (_Ok) {const _Nput& _Fac = _USE(getloc(), _Nput); _TRY_IO_BEGIN if (_Fac.put(_Iter(rdbuf()), *this, fill(), _X).failed()) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& operator<<(_Mysb *_Pb) {iostate _St = goodbit; bool _Copied = false; const sentry _Ok(*this); if (_Ok && _Pb != 0) for (int_type _C = _Tr::eof(); ; _Copied = true) {_TRY_BEGIN _C = _Tr::eq_int_type(_Tr::eof(), _C) ? _Pb->sgetc() : _Pb->snextc(); _CATCH_ALL setstate(failbit); _RERAISE; _CATCH_END if (_Tr::eq_int_type(_Tr::eof(),_C)) break; _TRY_IO_BEGIN if (_Tr::eq_int_type(_Tr::eof(), rdbuf()->sputc(_Tr::to_char_type(_C)))) {_St |= badbit; break; } _CATCH_IO_END } width(0); setstate(!_Copied ? _St | failbit : _St); return (*this); } _Myt& put(_E _X) {iostate _St = goodbit; const sentry _Ok(*this); if (!_Ok) _St |= badbit; else {_TRY_IO_BEGIN if (_Tr::eq_int_type(_Tr::eof(), rdbuf()->sputc(_X))) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& write(const _E *_S, streamsize _N) {iostate _St = goodbit; const sentry _Ok(*this); if (!_Ok) _St |= badbit; else {_TRY_IO_BEGIN if (rdbuf()->sputn(_S, _N) != _N) _St |= badbit; _CATCH_IO_END } setstate(_St); return (*this); } _Myt& flush() {iostate _St = goodbit; if (!fail() && rdbuf()->pubsync() == -1) _St |= badbit; setstate(_St); return (*this); } _Myt& seekp(pos_type _P) {if (!fail()) rdbuf()->pubseekpos(_P, out); return (*this); } _Myt& seekp(off_type _O, ios_base::seekdir _W) {if (!fail()) rdbuf()->pubseekoff(_O, _W, out); return (*this); } pos_type tellp() {if (!fail()) return (rdbuf()->pubseekoff(0, cur, out)); else return (streampos(_BADOFF)); } }; #ifdef _DLL #ifdef __FORCE_INSTANCE template class _CRTIMP2 basic_ostream >; template class _CRTIMP2 basic_ostream >; #else // __FORCE_INSTANCE #pragma warning(disable:4231) /* the extern before template is a non-standard extension */ extern template class _CRTIMP2 basic_ostream >; extern template class _CRTIMP2 basic_ostream >; #pragma warning(default:4231) /* restore previous warning */ #endif // __FORCE_INSTANCE #endif // _DLL // INSERTERS template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const _E *_X) {typedef basic_ostream<_E, _Tr> _Myos; ios_base::iostate _St = ios_base::goodbit; size_t _N = _Tr::length(_X); size_t _M = _O.width() <= 0 || _O.width() <= _N ? 0 : _O.width() - _N; const _Myos::sentry _Ok(_O); if (!_Ok) _St |= ios_base::badbit; else {_TRY_IO_BEGIN if ((_O.flags() & ios_base::adjustfield) != ios_base::left) for (; 0 < _M; --_M) if (_Tr::eq_int_type(_Tr::eof(), _O.rdbuf()->sputc(_O.fill()))) {_St |= ios_base::badbit; break; } if (_St == ios_base::goodbit && _O.rdbuf()->sputn(_X, (int)_N) != _N) _St |= ios_base::badbit; if (_St == ios_base::goodbit) for (; 0 < _M; --_M) if (_Tr::eq_int_type(_Tr::eof(), _O.rdbuf()->sputc(_O.fill()))) {_St |= ios_base::badbit; break; } _O.width(0); _CATCH_IO_(_O) } _O.setstate(_St); return (_O); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, _E _C) {typedef basic_ostream<_E, _Tr> _Myos; ios_base::iostate _St = ios_base::goodbit; const _Myos::sentry _Ok(_O); if (_Ok) {size_t _M = _O.width() <= 1 ? 0 : _O.width() - 1; _TRY_IO_BEGIN if ((_O.flags() & ios_base::adjustfield) != ios_base::left) for (; _St == ios_base::goodbit && 0 < _M; --_M) if (_Tr::eq_int_type(_Tr::eof(), _O.rdbuf()->sputc(_O.fill()))) _St |= ios_base::badbit; if (_St == ios_base::goodbit && _Tr::eq_int_type(_Tr::eof(), _O.rdbuf()->sputc(_C))) _St |= ios_base::badbit; for (; _St == ios_base::goodbit && 0 < _M; --_M) if (_Tr::eq_int_type(_Tr::eof(), _O.rdbuf()->sputc(_O.fill()))) _St |= ios_base::badbit; _CATCH_IO_(_O) } _O.width(0); _O.setstate(_St); return (_O); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const signed char *_X) {return (_O << (const char *)_X); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const signed char _C) {return (_O << (char)_C); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const unsigned char *_X) {return (_O << (const char *)_X); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const unsigned char _C) {return (_O << (char)_C); } template inline basic_ostream<_E, _Tr>& __cdecl operator<<( basic_ostream<_E, _Tr>& _O, const signed short *_X) {return (_O << (const wchar_t *)_X); } // MANIPULATORS template inline basic_ostream<_E, _Tr>& __cdecl endl(basic_ostream<_E, _Tr>& _O) {_O.put(_O.widen('\n')); _O.flush(); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl endl(basic_ostream >& _O) {_O.put('\n'); _O.flush(); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl endl(basic_ostream >& _O) {_O.put('\n'); _O.flush(); return (_O); } template inline basic_ostream<_E, _Tr>& __cdecl ends(basic_ostream<_E, _Tr>& _O) {_O.put(_E('\0')); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl ends(basic_ostream >& _O) {_O.put('\0'); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl ends(basic_ostream >& _O) {_O.put('\0'); return (_O); } template inline basic_ostream<_E, _Tr>& __cdecl flush(basic_ostream<_E, _Tr>& _O) {_O.flush(); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl flush(basic_ostream >& _O) {_O.flush(); return (_O); } _CRTIMP2 inline basic_ostream >& __cdecl flush(basic_ostream >& _O) {_O.flush(); return (_O); } #ifdef _DLL #ifndef CRTDLL2 #pragma warning(disable:4231) /* the extern before template is a non-standard extension */ extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const char *); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, char); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const signed char *); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const signed char); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const unsigned char *); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const unsigned char); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const wchar_t *); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, wchar_t); extern template _CRTIMP2 basic_ostream >& __cdecl operator<<( basic_ostream >&, const signed short *); #pragma warning(default:4231) /* restore previous warning */ #endif // CRTDLL2 #endif // _DLL _STD_END #ifdef _MSC_VER #pragma pack(pop) #endif /* _MSC_VER */ #endif /* _OSTREAM_ */ /* * Copyright (c) 1994 by P.J. Plauger. ALL RIGHTS RESERVED. * Consult your license regarding permissions and restrictions. */