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Using the library
Building the object-library
Notes for Cygwin users
The Boost.Filesystem library provides facilities to manipulate files and directories, and the paths that identify them.
The features of the library include:
Many users say the interface is their primary motivation for using Boost.Filesystem. They like its use of familiar idioms based on standard library containers, iterators, and algorithms. They like having errors reported by throwing exceptions.
Finer grained control over operations and error handling is available to
support more complex applications or other cases where throwing exceptions
Forms the basis for ISO/IEC TS 18822, the C++ standard library Filesystem Technical Specification.
Tutorial - A gentle introduction to the library, with example programs provided for you to experiment with.
Reference - Formal documentation in the style of the C++ standard for every component of the library.
FAQ - Frequently asked questions.
Portability Guide - Help for those concerned with writing code to run on multiple operating systems.
Deprecated Features - Identifies deprecated features and their replacements.
Version 3 Introduction - Aimed at users of prior Boost.Filesystem versions.
Version 3 Design - Historical document from the start of the Version 3 design process.
Original Design - Historical document from the start of the Version 1 design process.
Do List - Boost.Filesystem development work in the pipeline.
Boost.Filesystem is implemented as a separately compiled library, so you must install binaries in a location that can be found by your linker. If you followed the Boost Getting Started instructions, that's already been done for you.
For new code, defining
including filesystem headers is strongly recommended. This prevents inadvertent
use of old features, particularly legacy function names, that have been replaced
and are going to go away in the future.
After reading the tutorial you can dive right into simple, script-like programs using the Filesystem Library! Before doing any serious work, however, there a few cautions to be aware of:
Filesystem function specifications follow the C++ Standard Library form, specifying behavior in terms of effects and postconditions. If a race-condition exists, a function's postconditions may no longer be true by the time the function returns to the caller.
Explanation: The state of files and directories is often globally shared, and thus may be changed unexpectedly by other threads, processes, or even other computers having network access to the filesystem. As an example of the difficulties this can cause, note that the following asserts may fail:
assert( exists( "foo" ) == exists( "foo" ) ); // (1)
remove_all( "foo" );
assert( !exists( "foo" ) ); // (2)
assert( is_directory( "foo" ) == is_directory( "foo" ) ); // (3)
(1) will fail if a non-existent "foo" comes into existence, or an existent "foo" is removed, between the first and second call to exists(). This could happen if, during the execution of the example code, another thread, process, or computer is also performing operations in the same directory.
(2) will fail if between the call to remove_all() and the call to exists() a new file or directory named "foo" is created by another thread, process, or computer.
(3) will fail if another thread, process, or computer removes an existing file "foo" and then creates a directory named "foo", between the example code's two calls to is_directory().
Unless otherwise specified, Boost.Filesystem functions throw basic_filesystem_error exceptions to report failures such as I/O errors. Implementations may also use C++ Standard Library functions which can throw std::bad_alloc exceptions to report memory allocation errors. These exceptions may be thrown even though the error condition leading to the exception is not explicitly specified in the function's "Throws" paragraph.
Nominally non-throwing versions are provided for
operational functions that
access the external file system, since these are often used
in contexts where error codes may be the preferred way to report an error. Even
the nominally non-throwing versions of functions will throw std::bad_alloc
exceptions to report memory allocation errors. However, functions marked
noexcept never throw exceptions.
The Boost.Filesystem library provides several headers:
const path&arguments rather that
See the tutorial for example programs.
The current implementation supports operating systems which provide the POSIX or Windows API's.
The library is in regular use on Apple OS X, HP-UX, IBM AIX, Linux, Microsoft Windows, SGI IRIX, and Sun Solaris operating systems using a variety of compilers. It is also used by several smart phone operating systems.
Users may defined the following macros if desired. Sensible defaults are provided, so users can ignore these macros unless they have special needs.
|Macro Name||Default||Effect if defined|
||Not defined.||Deprecated features are excluded from headers.|
||The Boost.Filesystem library is dynamically linked. If not defined, static linking is assumed.|
||Boost.Filesystem library does not use the Boost auto-link facility.|
User-defined BOOST_POSIX_API and BOOST_WINDOWS_API macros are no longer supported.
The object-library will be built automatically if you are using the Boost build system. See Getting Started. It can also be built manually using a Jamfile supplied in directory libs/filesystem/build, or the user can construct an IDE project or make file which includes the object-library source files.
The object-library source files are supplied in the src directory. These source files implement the library for POSIX or Windows compatible operating systems; no implementation is supplied for other operating systems. Note that many operating systems not normally thought of as POSIX systems, such as mainframe legacy operating systems or embedded operating systems, support POSIX compatible file systems and so will work with the Filesystem Library.
The object-library can be built for static or dynamic (shared/dll) linking. This is controlled by the BOOST_ALL_DYN_LINK or BOOST_FILESYSTEM_DYN_LINK macros. See the Separate Compilation page for a description of the techniques used.
Cygwin version 1.7 or later is required because only versions of GCC with wide character strings are supported.
The library's implementation code treats Cygwin as a Windows platform, and thus uses the Windows API and uses Windows path syntax as the native path syntax.
Under development - Add support for the ISO C++ File System Technical Specification. The Filesystem TS is based on Boost.Filesystem Version 3, with only a small number of changes. Most user code written for Version 3 should work unchanged with Version 4.
Boost 1.44.0 - June, 2010 - Internationalization via single class
More uniform error handling.
Peter Dimov suggested use of a single path class rather than a
class template. That idea was the basis for the Version 3 redesign.
Thanks for comments from Robert Stewart, Zach Laine, Peter Dimov, Gregory Peele, Scott McMurray, John Bytheway, Jeff Flinn, Jeffery Bosboom.
Boost 1.34.0 - May, 2007 - Internationalization via
So many people have contributed comments and bug reports that it isn't any longer possible to acknowledge them individually. That said, Peter Dimov and Rob Stewart need to be specially thanked for their many constructive criticisms and suggestions. Terence Wilson and Chris Frey contributed timing programs which helped illuminate performance issues.
Boost 1.30.0 - March, 2003 - Initial official Boost release.
The Filesystem Library was designed and implemented by Beman Dawes. The original directory_iterator and filesystem_error classes were based on prior work from Dietmar Kuehl, as modified by Jan Langer. Thomas Witt was a particular help in later stages of initial development. Peter Dimov and Rob Stewart made many useful suggestions and comments over a long period of time. Howard Hinnant helped with internationalization issues.
Key design requirements and design realities were developed during extensive discussions on the Boost mailing list, followed by comments on the initial implementation. Numerous helpful comments were then received during the Formal Review.
Participants included Aaron Brashears, Alan Bellingham, Aleksey Gurtovoy, Alex Rosenberg, Alisdair Meredith, Andy Glew, Anthony Williams, Baptiste Lepilleur, Beman Dawes, Bill Kempf, Bill Seymour, Carl Daniel, Chris Little, Chuck Allison, Craig Henderson, Dan Nuffer, Dan'l Miller, Daniel Frey, Darin Adler, David Abrahams, David Held, Davlet Panech, Dietmar Kuehl, Douglas Gregor, Dylan Nicholson, Ed Brey, Eric Jensen, Eric Woodruff, Fedder Skovgaard, Gary Powell, Gennaro Prota, Geoff Leyland, George Heintzelman, Giovanni Bajo, Glen Knowles, Hillel Sims, Howard Hinnant, Jaap Suter, James Dennett, Jan Langer, Jani Kajala, Jason Stewart, Jeff Garland, Jens Maurer, Jesse Jones, Jim Hyslop, Joel de Guzman, Joel Young, John Levon, John Maddock, John Williston, Jonathan Caves, Jonathan Biggar, Jurko, Justus Schwartz, Keith Burton, Ken Hagen, Kostya Altukhov, Mark Rodgers, Martin Schuerch, Matt Austern, Matthias Troyer, Mattias Flodin, Michiel Salters, Mickael Pointier, Misha Bergal, Neal Becker, Noel Yap, Parksie, Patrick Hartling, Pavel Vozenilek, Pete Becker, Peter Dimov, Rainer Deyke, Rene Rivera, Rob Lievaart, Rob Stewart, Ron Garcia, Ross Smith, Sashan, Steve Robbins, Thomas Witt, Tom Harris, Toon Knapen, Victor Wagner, Vincent Finn, Vladimir Prus, and Yitzhak Sapir
A lengthy discussion on the C++ committee's library reflector illuminated the "illusion of portability" problem, particularly in postings by PJ Plauger and Pete Becker.
Walter Landry provided much help illuminating symbolic link use cases for version 1.31.0.
Revised 25 October, 2015
© Copyright Beman Dawes, 2002-2005
Use, modification, and distribution are subject to the Boost Software License, Version 1.0. See www.boost.org/LICENSE_1_0.txt