How to use Boost in Visual Studio 2010
You can also try -j%NUMBER_OF_PROCESSORS% as an argument it will use all your cores. Makes things super fast on my quad core.
While Nate's answer is pretty good already, I'm going to expand on it more specifically for Visual Studio 2010 as requested, and include information on compiling in the various optional components which requires external libraries.
If you are using headers only libraries, then all you need to do is to unarchive the boost download and set up the environment variables. The instruction below set the environment variables for Visual Studio only, and not across the system as a whole. Note you only have to do it once.
- Unarchive the latest version of boost (1.47.0 as of writing) into a directory of your choice (e.g.
C:\boost_1_47_0
). - Create a new empty project in Visual Studio.
- Open the Property Manager and expand one of the configuration for the platform of your choice.
- Select & right click
Microsoft.Cpp.<Platform>.user
, and selectProperties
to open the Property Page for edit. - Select
VC++ Directories
on the left. - Edit the
Include Directories
section to include the path to your boost source files. - Repeat steps 3 - 6 for different platform of your choice if needed.
If you want to use the part of boost that require building, but none of the features that requires external dependencies, then building it is fairly simple.
- Unarchive the latest version of boost (1.47.0 as of writing) into a directory of your choice (e.g.
C:\boost_1_47_0
). - Start the Visual Studio Command Prompt for the platform of your choice and navigate to where boost is.
- Run:
bootstrap.bat
to build b2.exe (previously named bjam). Run b2:
- Win32:
b2 --toolset=msvc-10.0 --build-type=complete stage
; - x64:
b2 --toolset=msvc-10.0 --build-type=complete architecture=x86 address-model=64 stage
- Win32:
Go for a walk / watch a movie or 2 / ....
- Go through steps 2 - 6 from the set of instruction above to set the environment variables.
- Edit the
Library Directories
section to include the path to your boost libraries output. (The default for the example and instructions above would beC:\boost_1_47_0\stage\lib
. Rename and move the directory first if you want to have x86 & x64 side by side (such as to<BOOST_PATH>\lib\x86
&<BOOST_PATH>\lib\x64
). - Repeat steps 2 - 6 for different platform of your choice if needed.
If you want the optional components, then you have more work to do. These are:
- Boost.IOStreams Bzip2 filters
- Boost.IOStreams Zlib filters
- Boost.MPI
- Boost.Python
- Boost.Regex ICU support
Boost.IOStreams Bzip2 filters:
- Unarchive the latest version of bzip2 library (1.0.6 as of writing) source files into a directory of your choice (e.g.
C:\bzip2-1.0.6
). - Follow the second set of instructions above to build boost, but add in the option
-sBZIP2_SOURCE="C:\bzip2-1.0.6"
when running b2 in step 5.
Boost.IOStreams Zlib filters
- Unarchive the latest version of zlib library (1.2.5 as of writing) source files into a directory of your choice (e.g.
C:\zlib-1.2.5
). - Follow the second set of instructions above to build boost, but add in the option
-sZLIB_SOURCE="C:\zlib-1.2.5"
when running b2 in step 5.
Boost.MPI
- Install a MPI distribution such as Microsoft Compute Cluster Pack.
- Follow steps 1 - 3 from the second set of instructions above to build boost.
- Edit the file
project-config.jam
in the directory<BOOST_PATH>
that resulted from running bootstrap. Add in a line that readusing mpi ;
(note the space before the ';'). - Follow the rest of the steps from the second set of instructions above to build boost. If auto-detection of the MPI installation fail, then you'll need to look for and modify the appropriate build file to look for MPI in the right place.
Boost.Python
- Install a Python distribution such as ActiveState's ActivePython. Make sure the Python installation is in your PATH.
To completely built the 32-bits version of the library requires 32-bits Python, and similarly for the 64-bits version. If you have multiple versions installed for such reason, you'll need to tell b2 where to find specific version and when to use which one. One way to do that would be to edit the file
project-config.jam
in the directory<BOOST_PATH>
that resulted from running bootstrap. Add in the following two lines adjusting as appropriate for your Python installation paths & versions (note the space before the ';').using python : 2.6 : C:\\Python\\Python26\\python ;
using python : 2.6 : C:\\Python\\Python26-x64\\python : : : <address-model>64 ;
Do note that such explicit Python specification currently cause MPI build to fail. So you'll need to do some separate building with and without specification to build everything if you're building MPI as well.
Follow the second set of instructions above to build boost.
Boost.Regex ICU support
- Unarchive the latest version of ICU4C library (4.8 as of writing) source file into a directory of your choice (e.g.
C:\icu4c-4_8
). - Open the Visual Studio Solution in
<ICU_PATH>\source\allinone
. - Build All for both debug & release configuration for the platform of your choice. There can be a problem building recent releases of ICU4C with Visual Studio 2010 when the output for both debug & release build are in the same directory (which is the default behaviour). A possible workaround is to do a Build All (of debug build say) and then do a Rebuild all in the 2nd configuration (e.g. release build).
- If building for x64, you'll need to be running x64 OS as there's post build steps that involves running some of the 64-bits application that it's building.
- Optionally remove the source directory when you're done.
- Follow the second set of instructions above to build boost, but add in the option
-sICU_PATH="C:\icu4c-4_8"
when running b2 in step 5.
While the instructions on the Boost web site are helpful, here is a condensed version that also builds x64 libraries.
- You only need to do this if you are using one of the libraries mentioned in section 3 of the instructions page. (E.g., to use Boost.Filesystem requires compilation.) If you are not using any of those, just unzip and go.
Build the 32-bit libraries
This installs the Boost header files under C:\Boost\include\boost-(version)
, and the 32-bit libraries under C:\Boost\lib\i386
. Note that the default location for the libraries is C:\Boost\lib
but you’ll want to put them under an i386
directory if you plan to build for multiple architectures.
- Unzip Boost into a new directory.
- Start a 32-bit MSVC command prompt and change to the directory where Boost was unzipped.
- Run:
bootstrap
Run:
b2 toolset=msvc-12.0 --build-type=complete --libdir=C:\Boost\lib\i386 install
- For Visual Studio 2012, use
toolset=msvc-11.0
- For Visual Studio 2010, use
toolset=msvc-10.0
- For Visual Studio 2017, use
toolset=msvc-14.1
- For Visual Studio 2012, use
Add
C:\Boost\include\boost-(version)
to your include path.- Add
C:\Boost\lib\i386
to your libs path.
Build the 64-bit libraries
This installs the Boost header files under C:\Boost\include\boost-(version)
, and the 64-bit libraries under C:\Boost\lib\x64
. Note that the default location for the libraries is C:\Boost\lib
but you’ll want to put them under an x64
directory if you plan to build for multiple architectures.
- Unzip Boost into a new directory.
- Start a 64-bit MSVC command prompt and change to the directory where Boost was unzipped.
- Run:
bootstrap
- Run:
b2 toolset=msvc-12.0 --build-type=complete --libdir=C:\Boost\lib\x64 architecture=x86 address-model=64 install
- For Visual Studio 2012, use
toolset=msvc-11.0
- For Visual Studio 2010, use
toolset=msvc-10.0
- For Visual Studio 2012, use
- Add
C:\Boost\include\boost-(version)
to your include path. - Add
C:\Boost\lib\x64
to your libs path.