windows-nt/Source/XPSP1/NT/base/crts/crtw32/iostream/stdiostr.cpp

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2020-09-26 03:20:57 -05:00
/***
*stdiostr.cpp -
*
* Copyright (c) 1991-2001, Microsoft Corporation. All rights reserved.
*
*Purpose:
*
*Revision History:
* 07-10-91 KRS Created.
* 08-26-91 KRS Switch out cout/cerr. etc. for Windows non-QuickWin.
* 09-09-91 KRS Modify sync_with_stdio() for filebuf defaults.
* 09-12-91 KRS Add stdiostream class.
* 09-19-91 KRS Use delbuf(1) in stdiostream constructor.
* 09-20-91 KRS C700 #4453: Improve efficiency in overflow().
* 10-21-91 KRS Eliminate last use of default iostream constructor.
* 10-24-91 KRS Avoid virtual calls from virtual functions.
* 11-13-91 KRS Split out streambuf::dbp() into separate file.
* Improve default buffer handling in underflow/overflow.
* Fix bug in sync().
* 01-20-92 KRS C700 #5803: account for CR/LF pairs in ssync().
* 01-12-95 CFW Debug CRT allocs.
* 01-26-95 CFW Win32s objects now exist.
* 06-14-95 CFW Comment cleanup.
* 06-19-95 GJF Replaced _osfile[] with _osfile() (which references
* a field in the ioinfo struct).
* 07-28-95 GJF Replaced _osfile() with _osfile_safe().
* 01-05-99 GJF Changes for 64-bit size_t.
* 05-17-99 PML Remove all Macintosh support.
*
*******************************************************************************/
#include <cruntime.h>
#include <internal.h>
#include <string.h>
#include <stdiostr.h>
#include <dbgint.h>
#pragma hdrstop
extern "C" {
#include <file2.h>
#include <msdos.h>
}
#include <dos.h>
stdiobuf::stdiobuf(FILE * f)
: streambuf()
{
unbuffered(1); // initially unbuffered
_str = f;
}
stdiobuf::~stdiobuf()
// : ~streambuf()
{
stdiobuf::sync(); // make sure buffer flushed
}
int stdiobuf::setrwbuf(int readsize, int writesize)
{
char * tbuf;
unbuffered(!(readsize+writesize));
if (unbuffered())
return(0);
tbuf = _new_crt char[(readsize+writesize)];
if (!tbuf)
return(EOF);
setb( tbuf, tbuf + (readsize+writesize), 1);
if (readsize)
{
setg(base(),base()+readsize,base()+readsize);
}
else
{
setg(0,0,0);
}
if (writesize)
{
setp(base()+readsize,ebuf());
}
else
{
setp(0,0);
}
return(1);
}
int stdiobuf::overflow(int c) {
long count, nout;
if (allocate()==EOF) // make sure there is a reserve area
return EOF;
if (!unbuffered() && epptr())
{
if ((count = (long)(pptr() - pbase())) > 0)
{
nout=(long)fwrite((void *) pbase(), 1, (int)count, _str);
pbump(-(int)nout);
if (nout != count)
{
memmove(pbase(),pbase()+nout,(int)(count-nout));
return(EOF);
}
}
}
if ((!unbuffered()) && (!epptr()))
setp(base()+(blen()>>1),ebuf());
if (c!=EOF)
{
if ((!unbuffered()) && (pptr() < epptr())) // guard against recursion
sputc(c);
else
return fputc(c, _str);
}
return(1); // return something other than EOF if successful
}
int stdiobuf::underflow()
{
int count;
if (allocate()==EOF) // make sure there is a reserve area
return EOF;
if ((!unbuffered()) && (!egptr()))
setg(base(),(base()+(blen()>>1)),(base()+(blen()>>1)));
if (unbuffered() || (!egptr()))
return fgetc(_str);
if (gptr() >= egptr())
// buffer empty, try for more
{
if (!(count = (int)fread((void *)eback(), 1, (size_t)(egptr()-eback()), _str)))
return(EOF); // reach EOF, nothing read
setg(eback(),(egptr()-count),egptr()); // _gptr = _egptr - count
if (gptr()!=eback())
{
memmove(gptr(), eback(), count); // overlapping memory!
}
}
return sbumpc();
}
streampos stdiobuf::seekoff(streamoff off, ios::seek_dir dir, int)
{
int fdir;
long retpos;
switch (dir) {
case ios::beg :
fdir = SEEK_SET;
break;
case ios::cur :
fdir = SEEK_CUR;
break;
case ios::end :
fdir = SEEK_END;
break;
default:
// error
return(EOF);
}
stdiobuf::overflow(EOF);
if (fseek(_str, off, fdir))
return (EOF);
if ((retpos=ftell(_str))==-1L)
return(EOF);
return((streampos)retpos);
}
int stdiobuf::pbackfail(int c)
{
if (eback()<gptr()) return sputbackc((char)c);
if (stdiobuf::seekoff( -1, ios::cur, ios::in)==EOF)
return EOF;
if (!unbuffered() && egptr())
{
memmove((gptr()+1),gptr(),(size_t)(egptr()-(gptr()+1)));
*gptr()=(char)c;
}
return(c);
}
int stdiobuf::sync()
{
long count;
char * p;
char flags;
if (!unbuffered())
{
if (stdiobuf::overflow(EOF)==EOF)
return(EOF);
if ((count=in_avail())>0)
{
flags = _osfile_safe(_fileno(_str));
if (flags & FTEXT)
{
// If text mode, need to account for CR/LF etc.
for (p = gptr(); p < egptr(); p++)
if (*p == '\n')
count++;
// account for EOF if read, not counted by _read
if (_str->_flag & _IOCTRLZ)
count++;
}
if (stdiobuf::seekoff( -count, ios::cur, ios::in)==EOF)
return(EOF);
setg(eback(),egptr(),egptr()); // empty get area (_gptr = _egptr;)
}
}
return(0);
}
stdiostream::stdiostream(FILE * file)
: iostream(_new_crt stdiobuf(file))
{
istream::delbuf(1);
ostream::delbuf(1);
}
stdiostream::~stdiostream()
{
}
// include here for better granularity
int ios::sunk_with_stdio = 0;
void ios::sync_with_stdio()
{
if (!sunk_with_stdio) // first time only
{
cin = _new_crt stdiobuf(stdin);
cin.delbuf(1);
cin.setf(ios::stdio);
cout = _new_crt stdiobuf(stdout);
cout.delbuf(1);
cout.setf(ios::stdio|ios::unitbuf);
((stdiobuf*)(cout.rdbuf()))->setrwbuf(0,80);
cerr = _new_crt stdiobuf(stderr);
cerr.delbuf(1);
cerr.setf(ios::stdio|ios::unitbuf);
((stdiobuf*)(cerr.rdbuf()))->setrwbuf(0,80);
clog = _new_crt stdiobuf(stderr);
clog.delbuf(1);
clog.setf(ios::stdio);
((stdiobuf*)(clog.rdbuf()))->setrwbuf(0,BUFSIZ);
sunk_with_stdio++;
}
}