/*============================================================================ * Main BFT documentation page *============================================================================*/ /* This file is part of the "Base Functions and Types" library, intended to simplify and enhance portability, memory and I/O use for scientific codes. Copyright (C) 2004 EDF This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /*-----------------------------------------------------------------------------*/ /*! \mainpage BFT documentation \section intro Introduction The "Base Functions and Types" library is intended to simplify and enhance portability, memory and I/O use for scientific codes. It contains a number of system library wrappers for common services such as file I/O or memory management, ensuring portability of the calling code. \subsection intro_portability Portability Using lower-level services in C or C++ often requires the definition of preprocessor symbols such as \c _POSIX_SOURCE (or \c OSF_SOURCE, or \c HPUX_SOURCE, ...). On certain systems, largefile support also requires additionnal preprocessor symbols such as \c _FILE_OFFSET_BITS or \c _LARGEFILE_SOURCE, and \c fseek/ftell replaced with \c fseeko/ftello. Authors of scientific code seeking portability should not have to worry about these issues unless they deliberately choose to use low-level functions. BFT tries to hide such portability issues while maintaining an API similar to that of the standard \c libc where applicable. \subsection intro_retcode_error Return codes and error handling In most scientific codes destined to run in a batch environment, errors are usually fatal, especially when dealing with file access and memory allocation. The functions provided by the BFT library always check for return codes, and call the appropriate error handler when applicable. The default is to terminate the running program after printing the appropriate message, but the user may define and set other error handlers with different behavior. \subsection intro_add_func Added functionnality BFT functions similar to \c libc functions add functionnality such as optional byte-swapping for conversion from internal to external data repressentation (or vice-versa), or optional memory-allocation logging and tracking of non-freed pointers. \subsection intro_goals Goals and Limitations The BFT library tries to provide a set of utilitarian functions for common use, but does not seek to define a framework. As a general rule, functions provided by BFT should provide added portability or functionnality when compared to their \c libc or Posix counterparts (when such counterparts exist), as simple wrapping with no added functionnality only makes code less readable to an experienced developper and is to be avoided. Subsets of BFT may be used independently if desired, and are orthogonal, except as regards error handlers. With non-default error handlers, they can be made fully orthogonal. Only certain subsets may be used if preferred. The BFT library provides memory-usage measurement functions, whose implementations are system-dependent. If it has not yet been ported to a given type of environment, these functions should return 0. The user should thus check for the return values of such functions, but the API is guaranteed. \section install Installation The BFT library may be configured and installed using the \c configure shell script and \c make. Please read the \c INSTALL file in the toplevel source directory if you are not familiar with configuration scripts generated through GNU autoconf and automake. */