That's very poor library design. However...
How does it write to standard error. If it is outputing to std::cerr
,
then you can change the streambuf
used by std::cerr
, something like:
std::filebuf logStream;
if ( ~logStream.open( "logfile.txt" ) )
// Error handling...
std::streambuf* originalCErrStream = std::cerr.rdbuf();
std::cerr.rdbuf( &logStream );
// Processing here, with calls to library
std::cerr.rdbuf( originalCErrStream ); // Using RAII would be better.
Just don't forget to restore the original streambuf; leaving std::cerr
pointing to a filebuf
which has been destructed is not a good idea.
If they're using FILE*
, there's an freopen
function in C (and by
inclusion in C++) that you can use.
If they're using system level output (write
under Unix, WriteFile
under Windows), then you're going to have to use some system level code
to change the output. (open
on the new file, close
on fd
STDERR_FILENO
, and dup2
to set STDERR_FILENO
to use the newly
opened file under Unix. I'm not sure it's possible under
Windows—maybe something with ReOpenFile
or some combination of
CloseHandle
followed by CreateFile
.)
EDIT:
I just noticed that you actually want to output to a Qt window. This
means that you probably need a string, rather than a file. If the
library is using std::cerr
, you can use a std::stringbuf
, instead of
a std::filebuf
; you may, in fact, want to create your own streambuf,
to pick up calls to sync
(which will normally be called after each
<<
on std::cerr
). If the library uses one of the other techniques,
the only thing I can think of is to periodically read the file, to see
if anything has been added. (I would use read()
in Unix, ReadFile()
in Windows for this, in order to be sure of being able to distinguish a
read of zero bytes, due to nothing having been written since the last
read, and an error condition. FILE*
and iostream functions treat a
read of zero bytes as end of file, and will not read further.)