gcc/libstdc++-v3/include/bits/fstream.tcc
Paolo Carlini b166bded9e re PR libstdc++/9761 (filebuf::pbackfail discards previously put back characters)
2003-06-02  Paolo Carlini  <pcarlini@unitus.it>

	PR libstdc++/9761
	* include/bits/fstream.tcc (pbackfail): If the pback buffer
	is already active don't try to store in it a second char.
	* testsuite/27_io/basic_filebuf/pbackfail/char/9761.cc: New.

	* include/bits/fstream.tcc (pbackfail): Add unbuffered bits.

From-SVN: r67337
2003-06-02 16:46:28 +00:00

573 lines
17 KiB
C++

// File based streams -*- C++ -*-
// Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002, 2003
// Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
// terms of the GNU General Public License as published by the
// Free Software Foundation; either version 2, or (at your option)
// any later version.
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License along
// with this library; see the file COPYING. If not, write to the Free
// Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307,
// USA.
// As a special exception, you may use this file as part of a free software
// library without restriction. Specifically, if other files instantiate
// templates or use macros or inline functions from this file, or you compile
// this file and link it with other files to produce an executable, this
// file does not by itself cause the resulting executable to be covered by
// the GNU General Public License. This exception does not however
// invalidate any other reasons why the executable file might be covered by
// the GNU General Public License.
//
// ISO C++ 14882: 27.8 File-based streams
//
#ifndef _CPP_BITS_FSTREAM_TCC
#define _CPP_BITS_FSTREAM_TCC 1
#pragma GCC system_header
namespace std
{
template<typename _CharT, typename _Traits>
void
basic_filebuf<_CharT, _Traits>::
_M_allocate_internal_buffer()
{
if (!_M_buf_allocated && this->_M_buf_size)
{
// Allocate internal buffer.
this->_M_buf = new char_type[this->_M_buf_size];
_M_buf_allocated = true;
}
}
// Both close and setbuf need to deallocate internal buffers, if it exists.
template<typename _CharT, typename _Traits>
void
basic_filebuf<_CharT, _Traits>::
_M_destroy_internal_buffer() throw()
{
if (_M_buf_allocated)
{
delete [] this->_M_buf;
this->_M_buf = NULL;
_M_buf_allocated = false;
this->setg(NULL, NULL, NULL);
this->setp(NULL, NULL);
}
}
template<typename _CharT, typename _Traits>
basic_filebuf<_CharT, _Traits>::
basic_filebuf() : __streambuf_type(), _M_file(&_M_lock),
_M_state_cur(__state_type()), _M_state_beg(__state_type()),
_M_buf(NULL), _M_buf_size(BUFSIZ), _M_buf_allocated(false),
_M_last_overflowed(false), _M_filepos(0), _M_pback_cur_save(0),
_M_pback_end_save(0), _M_pback_init(false), _M_codecvt(0)
{
this->_M_buf_unified = true;
if (__builtin_expect(has_facet<__codecvt_type>(this->_M_buf_locale),
true))
_M_codecvt = &use_facet<__codecvt_type>(this->_M_buf_locale);
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::__filebuf_type*
basic_filebuf<_CharT, _Traits>::
open(const char* __s, ios_base::openmode __mode)
{
__filebuf_type *__ret = NULL;
if (!this->is_open())
{
_M_file.open(__s, __mode);
if (this->is_open())
{
_M_allocate_internal_buffer();
this->_M_mode = __mode;
// Setup initial position of buffer.
_M_set_buffer(0);
if ((__mode & ios_base::ate)
&& this->seekoff(0, ios_base::end, __mode) < 0)
// 27.8.1.3,4
this->close();
else
__ret = this;
}
}
return __ret;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::__filebuf_type*
basic_filebuf<_CharT, _Traits>::
close() throw()
{
__filebuf_type* __ret = NULL;
if (this->is_open())
{
bool __testfail = false;
try
{
const int_type __eof = traits_type::eof();
const bool __testput = this->_M_out_beg < this->_M_out_lim;
if (__testput
&& traits_type::eq_int_type(this->overflow(), __eof))
__testfail = true;
#if 0
// XXX not done
if (_M_last_overflowed)
{
_M_output_unshift();
this->overflow();
}
#endif
}
catch(...)
{
__testfail = true;
}
// NB: Do this here so that re-opened filebufs will be cool...
this->_M_mode = ios_base::openmode(0);
this->_M_pback_init = false;
_M_destroy_internal_buffer();
if (!_M_file.close())
__testfail = true;
if (!__testfail)
__ret = this;
}
_M_last_overflowed = false;
return __ret;
}
template<typename _CharT, typename _Traits>
streamsize
basic_filebuf<_CharT, _Traits>::
showmanyc()
{
streamsize __ret = -1;
const bool __testin = this->_M_mode & ios_base::in;
if (__testin && this->is_open())
{
// For a stateful encoding (-1) the pending sequence might be just
// shift and unshift prefixes with no actual character.
__ret = this->_M_in_end - this->_M_in_cur;
if (__check_facet(_M_codecvt).encoding() >= 0)
__ret += _M_file.showmanyc() / _M_codecvt->max_length();
}
_M_last_overflowed = false;
return __ret;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::int_type
basic_filebuf<_CharT, _Traits>::
_M_underflow(bool __bump)
{
int_type __ret = traits_type::eof();
const bool __testin = this->_M_mode & ios_base::in;
const bool __testout = this->_M_mode & ios_base::out;
if (__testin)
{
// Check for pback madness, and if so swich back to the
// normal buffers and jet outta here before expensive
// fileops happen...
_M_destroy_pback();
if (this->_M_in_cur < this->_M_in_end)
{
__ret = traits_type::to_int_type(*this->_M_in_cur);
if (__bump)
_M_move_in_cur(1);
return __ret;
}
// Sync internal and external buffers.
if (__testout && this->_M_out_beg < this->_M_out_lim)
this->overflow();
if (_M_buf_size > 1)
{
streamsize __elen = 0;
streamsize __ilen = 0;
if (__check_facet(_M_codecvt).always_noconv())
{
__elen = _M_file.xsgetn(reinterpret_cast<char*>(this->_M_in_beg), _M_buf_size - 1);
__ilen = __elen;
}
else
{
char* __buf = static_cast<char*>(__builtin_alloca(_M_buf_size - 1));
__elen = _M_file.xsgetn(__buf, _M_buf_size - 1);
const char* __eend;
char_type* __iend;
codecvt_base::result __r;
__r = _M_codecvt->in(_M_state_cur, __buf, __buf + __elen,
__eend, this->_M_in_beg,
this->_M_in_beg + _M_buf_size - 1,
__iend);
if (__r == codecvt_base::ok)
__ilen = __iend - this->_M_in_beg;
else if (__r == codecvt_base::noconv)
{
traits_type::copy(this->_M_in_beg,
reinterpret_cast<char_type*>(__buf),
__elen);
__ilen = __elen;
}
else
{
// Unwind.
__ilen = 0;
_M_file.seekoff(-__elen, ios_base::cur, ios_base::in);
}
}
if (0 < __ilen)
{
_M_set_buffer(__ilen);
__ret = traits_type::to_int_type(*this->_M_in_cur);
if (__bump)
_M_move_in_cur(1);
}
}
}
_M_last_overflowed = false;
return __ret;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::int_type
basic_filebuf<_CharT, _Traits>::
pbackfail(int_type __i)
{
int_type __ret = traits_type::eof();
const bool __testin = this->_M_mode & ios_base::in;
if (__testin)
{
// Remember whether the pback buffer is active, otherwise below
// we may try to store in it a second char (libstdc++/9761).
const bool __testpb = this->_M_pback_init;
const bool __testeof = traits_type::eq_int_type(__i, __ret);
int_type __tmp;
if (this->_M_in_beg < this->_M_in_cur)
{
_M_move_in_cur(-1);
__tmp = traits_type::to_int_type(*this->_M_in_cur);
}
// At the beginning of the buffer, need to make a
// putback position available.
// But the seek may fail (f.i., at the beginning of
// a file, see libstdc++/9439) and in that case
// we return traits_type::eof().
else if (this->seekoff(-1, ios_base::cur) < 0
|| traits_type::eq_int_type(__tmp = this->underflow(),
traits_type::eof()))
return __ret;
// Try to put back __i into input sequence in one of three ways.
// Order these tests done in is unspecified by the standard.
if (!__testeof && traits_type::eq_int_type(__i, __tmp))
__ret = __i;
else if (__testeof)
__ret = traits_type::not_eof(__i);
else if (!__testpb)
{
_M_create_pback();
*this->_M_in_cur = traits_type::to_char_type(__i);
__ret = __i;
}
}
_M_last_overflowed = false;
return __ret;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::int_type
basic_filebuf<_CharT, _Traits>::
overflow(int_type __c)
{
int_type __ret = traits_type::eof();
const bool __testeof = traits_type::eq_int_type(__c, __ret);
const bool __testout = this->_M_mode & ios_base::out;
if (__testout)
{
if (this->_M_out_beg < this->_M_out_lim)
{
// Need to restore current position. The position of the
// external byte sequence (_M_file) corresponds to
// _M_filepos, and we need to move it to _M_out_beg for
// the write.
if (_M_filepos != this->_M_out_beg)
_M_file.seekoff(this->_M_out_beg - _M_filepos, ios_base::cur);
// If appropriate, append the overflow char.
if (!__testeof)
*this->_M_out_lim++ = traits_type::to_char_type(__c);
// Convert pending sequence to external representation,
// output.
if (_M_convert_to_external(this->_M_out_beg,
this->_M_out_lim - this->_M_out_beg)
&& (!__testeof || (__testeof && !_M_file.sync())))
{
_M_set_buffer(0);
__ret = traits_type::not_eof(__c);
}
}
else
{
// Unbuffered.
char_type __conv = traits_type::to_char_type(__c);
if (!__testeof && _M_convert_to_external(&__conv, 1))
__ret = __c;
}
}
_M_last_overflowed = true;
return __ret;
}
template<typename _CharT, typename _Traits>
bool
basic_filebuf<_CharT, _Traits>::
_M_convert_to_external(_CharT* __ibuf, streamsize __ilen)
{
// Sizes of external and pending output.
streamsize __elen = 0;
streamsize __plen = 0;
if (__check_facet(_M_codecvt).always_noconv())
{
__elen += _M_file.xsputn(reinterpret_cast<char*>(__ibuf), __ilen);
__plen += __ilen;
}
else
{
// Worst-case number of external bytes needed.
int __ext_multiplier = _M_codecvt->encoding();
if (__ext_multiplier == -1 || __ext_multiplier == 0)
__ext_multiplier = sizeof(char_type);
streamsize __blen = __ilen * __ext_multiplier;
char* __buf = static_cast<char*>(__builtin_alloca(__blen));
char* __bend;
const char_type* __iend;
codecvt_base::result __r;
__r = _M_codecvt->out(_M_state_cur, __ibuf, __ibuf + __ilen,
__iend, __buf, __buf + __blen, __bend);
if (__r == codecvt_base::ok || __r == codecvt_base::partial)
__blen = __bend - __buf;
else if (__r == codecvt_base::noconv)
{
// Same as the always_noconv case above.
__buf = reinterpret_cast<char*>(__ibuf);
__blen = __ilen;
}
else
{
// Result == error
__blen = 0;
}
if (__blen)
{
__elen += _M_file.xsputn(__buf, __blen);
__plen += __blen;
}
// Try once more for partial conversions.
if (__r == codecvt_base::partial)
{
const char_type* __iresume = __iend;
streamsize __rlen = this->_M_out_lim - __iend;
__r = _M_codecvt->out(_M_state_cur, __iresume,
__iresume + __rlen, __iend, __buf,
__buf + __blen, __bend);
if (__r != codecvt_base::error)
{
__rlen = __bend - __buf;
__elen += _M_file.xsputn(__buf, __rlen);
__plen += __rlen;
}
}
}
return __elen && __elen == __plen;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::__streambuf_type*
basic_filebuf<_CharT, _Traits>::
setbuf(char_type* __s, streamsize __n)
{
if (!this->is_open() && __s == 0 && __n == 0)
this->_M_buf_size = 0;
else if (__s && __n > 1)
{
// This is implementation-defined behavior, and assumes that
// an external char_type array of length (__s + __n) exists
// and has been pre-allocated. If this is not the case,
// things will quickly blow up. The length argument __n must
// be greater than 1 because __n - 1 positions will be used
// for the get and put areas, and 1 position is needed to
// host the overflow char of a full put area.
// Step 1: Destroy the current internal array.
_M_destroy_internal_buffer();
// Step 2: Use the external array.
this->_M_buf = __s;
this->_M_buf_size = __n;
_M_set_buffer(0);
}
_M_last_overflowed = false;
return this;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::pos_type
basic_filebuf<_CharT, _Traits>::
seekoff(off_type __off, ios_base::seekdir __way, ios_base::openmode __mode)
{
pos_type __ret = pos_type(off_type(-1));
const bool __testin = (ios_base::in & this->_M_mode & __mode) != 0;
const bool __testout = (ios_base::out & this->_M_mode & __mode) != 0;
int __width = 0;
if (_M_codecvt)
__width = _M_codecvt->encoding();
if (__width < 0)
__width = 0;
const bool __testfail = __off != 0 && __width <= 0;
if (this->is_open() && !__testfail && (__testin || __testout))
{
// Ditch any pback buffers to avoid confusion.
_M_destroy_pback();
if (__way != ios_base::cur || __off != 0)
{
// Sync the internal and external streams.
const bool __testget = this->_M_in_beg < this->_M_in_end;
const bool __testput = this->_M_out_beg < this->_M_out_lim;
off_type __computed_off = __width * __off;
if (__testput || _M_last_overflowed)
{
// Part one: update the output sequence.
this->sync();
// Part two: output unshift sequence.
_M_output_unshift();
}
else if (__testget && __way == ios_base::cur)
__computed_off += this->_M_in_cur - _M_filepos;
// Return pos_type(off_type(-1)) in case of failure.
__ret = _M_file.seekoff(__computed_off, __way, __mode);
_M_set_buffer(0);
}
else
{
// NB: Need to do this in case _M_file in indeterminate
// state, ie _M_file._offset == -1
pos_type __tmp = _M_file.seekoff(__off, ios_base::cur, __mode);
if (__tmp >= 0)
{
// Seek successful.
__ret = __tmp;
__ret += std::max(this->_M_out_cur, this->_M_in_cur)
- _M_filepos;
}
}
}
_M_last_overflowed = false;
return __ret;
}
template<typename _CharT, typename _Traits>
typename basic_filebuf<_CharT, _Traits>::pos_type
basic_filebuf<_CharT, _Traits>::
seekpos(pos_type __pos, ios_base::openmode __mode)
{
#ifdef _GLIBCPP_RESOLVE_LIB_DEFECTS
// 171. Strange seekpos() semantics due to joint position
return this->seekoff(off_type(__pos), ios_base::beg, __mode);
#endif
}
template<typename _CharT, typename _Traits>
void
basic_filebuf<_CharT, _Traits>::
_M_output_unshift()
{ }
template<typename _CharT, typename _Traits>
void
basic_filebuf<_CharT, _Traits>::
imbue(const locale& __loc)
{
const bool __testbeg = !this->seekoff(0, ios_base::cur, this->_M_mode);
const bool __teststate = __check_facet(_M_codecvt).encoding() == -1;
if (this->_M_buf_locale != __loc
&& (!this->is_open() || (__testbeg && !__teststate)))
{
this->_M_buf_locale = __loc;
if (__builtin_expect(has_facet<__codecvt_type>(__loc), true))
_M_codecvt = &use_facet<__codecvt_type>(__loc);
// NB This may require the reconversion of previously
// converted chars. This in turn may cause the
// reconstruction of the original file. YIKES!! This
// implementation interprets this requirement as requiring
// the file position be at the beginning, and a stateless
// encoding, or that the filebuf be closed. Opinions may differ.
}
_M_last_overflowed = false;
}
// Inhibit implicit instantiations for required instantiations,
// which are defined via explicit instantiations elsewhere.
// NB: This syntax is a GNU extension.
#if _GLIBCPP_EXTERN_TEMPLATE
extern template class basic_filebuf<char>;
extern template class basic_ifstream<char>;
extern template class basic_ofstream<char>;
extern template class basic_fstream<char>;
#ifdef _GLIBCPP_USE_WCHAR_T
extern template class basic_filebuf<wchar_t>;
extern template class basic_ifstream<wchar_t>;
extern template class basic_ofstream<wchar_t>;
extern template class basic_fstream<wchar_t>;
#endif
#endif
} // namespace std
#endif