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Library for cross-platform, unicode aware programming.
The library provides an implementation of standard C and C++ library functions, such that their inputs are UTF-8 aware on Windows without requiring to use the Wide API.
Distributed under the Boost Software License, Version 1.0.
- optional C++17 (filesystem) support
- Usable outside of Boost via CMake
- Compiled library on every OS
Note on the last point:
Having a compiled library allows cross-platform access to e.g. setenv
which would not be available when using a -std=c++nn
flag.
This is different to the version available prior to the inclusion in Boost.
- C++11 (or higher) compatible compiler
- MSVC 2015 and up work
- libstdc++ < 5 is unsupported as it is silently lacking C++11 features
- When building with B2 pass e.g.
cxxstd=11
if your compiler defaults to C++03
- Boost (>= 1.56)
- CMake (when not using as part of Boost) or B2 (otherwise)
The standalone branch keeps track of the develop branch and can be used without any other part of Boost. It is automatically updated so referring to a specific commit is recommended. You can also use the standalone source archive which is part of every release.
- CMake
Instead of using the standard library functions use the corresponding member of Boost.Nowide with the same name.
On Linux those are (mostly) aliases for the std
ones, but on Windows they accept UTF-8 as input and use the wide API for the underlying functionality.
Examples:
std::ifstream -> boost::nowide::ifstream
std::fopen -> boost::nowide::fopen
std::fclose -> boost::nowide::fclose
std::getenv -> boost::nowide::getenv
std::putenv -> boost::nowide::putenv
std::cout -> boost::nowide::cout
To also convert your input arguments to UTF-8 on Windows use:
int main(int argc, char **argv)
{
boost::nowide::args _(argc, argv); // Must use an instance!
...
}
See the Documentation for details.
Compile and install the Boost super project the usual way via ./b2
.
The headers and library will then be available together with all other Boost libraries.
From within CMake you can then use find_package(Boost COMPONENTS nowide)
and link against Boost::nowide
.
Note that find_package(boost_nowide)
will find the package too, but the above is the canonical way.
Boost.Nowide fully supports CMake.
So you can use add_subdirectory("path-to-boost-nowide-repo")
and link your project against the target Boost::nowide
.
You can also pre-compile and install Boost.Nowide via the usual workflow:
mkdir build && cd build
cmake .. -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=/usr/local
make install
A CMake-Config file will be installed alongside Boost.Nowide so find_package(boost_nowide)
does work out-of the box
(provided it was installed into a "standard" location or its INSTALL_PREFIX
was added to CMAKE_PREFIX_PATH
).
Boost.Nowide integrates with Boost.Filesystem:
- Call
boost::nowide::nowide_filesystem()
to imbue UTF-8 into Boost.Filesystem (for use byboost::filesystem::path
) such that narrow strings passed into Boost.Filesystem are treated as UTF-8 on Windows
- Ask questions
- Report bugs: Be sure to mention Boost version, platform and compiler you're using. A small compilable code sample to reproduce the problem is always good as well.
- Submit your patches as pull requests against develop branch. Note that by submitting patches you agree to license your modifications under the Boost Software License, Version 1.0.
- Discussions about the library are held on the Boost developers mailing list. Be sure to read the discussion policy before posting and add the
[nowide]
tag at the beginning of the subject line.