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BoostBuilder

Use CMake's ExternalProject module to download, configure, build and install the Boost libraries. In addition, generate CMake support files for use with the config mode of its find_package command. This allows CMake based projects to easily locate a Boost installed via BoostBuilder without relying on CMake's builtin FindBoost module. Due to Boost's complex system of tagging/versioning its libraries and some login in FindBoost, one can configure with a mix of local and system Boost components. By using CMake's config mode plus imported targets, these mixed configurations are prevented.

How to Build

Requirements:

  1. CMake 3.2 or better
  2. GCC 4.9 or better Clang 3.4 or better (inc Xcode 6/7). Intel compiler version 15 or better should also work.
  3. Make implementation (ideally GNU Make)
  4. Git (to clone this repo)
  5. Working internet connection (to download the Boost sources)

To build/install, start by cloning this repo:

$ ls

$ git clone https://github.com/drbenmorgan/BoostBuilder.git BoostBuilder.git
...
$ ls
BoostBuilder.git

To keep the build isolated from the sources, create a parallel directory in which to perform the build, and change into it:

$ mkdir Boost.Build
$ cd Boost.Build

Now run cmake, supplying an install prefix for Boost, and pointing cmake to the BoostBuilder source directory:

$ cmake -DCMAKE_INSTALL_PREFIX=/where/you/want ../BoostBuilder.git
...
-- Configuring done
-- Generating done
-- Build files have been written to: /.../Boost.Build
$

Now run make to download, configure, build and install Boost and support files (Note that install is performed at this step, there is no separate make install):

$ make
Scanning dependencies of target boost
[ 10%] Creating directories for 'boost'
[ 20%] Performing download step (download, verify and extract) for 'boost'
-- downloading...
....
...updated 70 targets...
[100%] Completed 'boost'
[100%] Built target boost
$

By default, dynamic, optimized, multithreadsafe libraries are built, using the C++11 standard:

├── bin
│   └── bcp
├── include
│   └── boost
└── lib
    ├── cmake
    │   └── Boost-1.59.0
    │       ├── BoostConfig.cmake
    │       ├── BoostConfigVersion.cmake
    │       ├── BoostLibraryDepends-shared-multithread-release.cmake
    │       └── BoostLibraryDepends-shared-multithread.cmake
    ├── libboost_chrono-mt.a
    ├── libboost_chrono-mt.dylib
    ├── libboost_date_time-mt.dylib
    ├── libboost_filesystem-mt.dylib
    ├── libboost_iostreams-mt.dylib
    ├── libboost_math_c99-mt.dylib
    ├── libboost_math_c99f-mt.dylib
    ├── libboost_math_c99l-mt.dylib
    ├── libboost_math_tr1-mt.dylib
    ├── libboost_math_tr1f-mt.dylib
    ├── libboost_math_tr1l-mt.dylib
    ├── libboost_prg_exec_monitor-mt.dylib
    ├── libboost_program_options-mt.dylib
    ├── libboost_random-mt.dylib
    ├── libboost_serialization-mt.dylib
    ├── libboost_system-mt.a
    ├── libboost_system-mt.dylib
    ├── libboost_test_exec_monitor-mt.a
    ├── libboost_thread-mt.dylib
    ├── libboost_timer-mt.a
    ├── libboost_timer-mt.dylib
    ├── libboost_unit_test_framework-mt.dylib
    └── libboost_wserialization-mt.dylib

Note that even when only dynamic libs are built, a couple of static libs are also built. Only a subset of all Boost libraries are built.

Additional library variants can be built by setting the CMake variables (via command line or CCMake):

  • boost.singlethread : Set to ON (e.g. -Dboost.singlethread=ON) to build single thread mode libraries
  • boost.staticlibs : Set to ON to enable the build of all libraries in static mode
  • boost.debuglibs : Set to ON to build debug mode library variant

By default, only the following libraries are built:

  • date_time
  • filesystem
  • iostreams
  • math
  • program_options
  • random
  • serialization
  • system
  • test
  • thread

The following CMake options may be set to build additional libraries:

  • boost.atomic : set to ON to build Boost's atomic library
  • boost.chrono : set to ON to build Boost's chrono library
  • boost.regex : set to ON to build Boost's regex library
  • boost.timer : set to ON to build Boost's timer library
  • boost.log : set to ON to build Boost's log library

Boost's library tagged layout is used to uniquely name each variation so that these can be installed alongside each other (NB this can be changed). This means that if all of the above are set, there will be eight variations of a library, i.e.:

  • libboost_<name>.(a|so) = Optimized, Singlethreaded
  • libboost_<name>-mt.(a|so) = Optimized, Multithreaded
  • libboost_<name>-d.(a|so) = Debug, Singlethreaded
  • libboost_<name>-mt-d.(a|so) = Debug, Multithreaded

At present, Boost's profile build mode is not supported as it does not create a unique tag name for this mode without patching Boost.

With this full install, the set of CMake support files becomes:

├── bin
│   └── bcp
├── include
│   └── boost
└── lib
    ├── cmake
        └── Boost-1.59.0
            ├── BoostConfig.cmake
            ├── BoostConfigVersion.cmake
            ├── BoostLibraryDepends-shared-multithread-debug.cmake
            ├── BoostLibraryDepends-shared-multithread-release.cmake
            ├── BoostLibraryDepends-shared-multithread.cmake
            ├── BoostLibraryDepends-shared-singlethread-debug.cmake
            ├── BoostLibraryDepends-shared-singlethread-release.cmake
            ├── BoostLibraryDepends-shared-singlethread.cmake
            ├── BoostLibraryDepends-static-multithread-debug.cmake
            ├── BoostLibraryDepends-static-multithread-release.cmake
            ├── BoostLibraryDepends-static-multithread.cmake
            ├── BoostLibraryDepends-static-singlethread-debug.cmake
            ├── BoostLibraryDepends-static-singlethread-release.cmake
            └── BoostLibraryDepends-static-singlethread.cmake

As shown below, this allows selection between the different types.

Using BoostBuilder's CMake Support Files

BoostBuilder constructs a set of "ProjectConfig" files for use with CMake's find_package command. These are designed to follow the interface of CMake's builtin FindBoost module to allow easy replacement. Note that not all functionality is supported, in particular for Boost build modes such as Static Runtime, STLPort and Thread API.

In most cases, projects using FindBoost may migrate to use of BoostConfig without any change to calls to find_package in their CMake scripts. Typical calls like

find_package(Boost 1.58.0 REQUIRED regex)

will use BoostConfig if it is found in CMake's search paths for config files, and otherwise fall back to use of FindBoost. CMake's search path can be set using the CMAKE_PREFIX_PATH variable either via a -D command line argument to cmake, or as a UNIX PATH-style environment variable.

Use of BoostConfig can be guaranteed by adding the NO_MODULE flag to the call:

find_package(Boost 1.58.0 REQUIRED regex NO_MODULE)

This will cause configuration to fail if BoostConfig cannot be found, and will not fall back to using FindBoost.

A very simple example of using CMake to build an executable against Boost is supplied in example/BoostBuilderClient. Please refer to the README in that project for further information.

TODO

BoostBuilder's CMake support files do not implement all functionality possible with the imported targets it creates. In particular:

  • No INTERFACE_INCLUDE_DIRECTORIES properties are set. Using this would save the user having to call include_directories(${Boost_INCLUDE_DIRS}) explicitely.
  • No INTERFACE_COMPILE_FEATURES properties are set. Using this would allow a guarantee of using the same C++ standard used to build Boost. Equally, the actual compiler/version used could also be exported to the BoostConfig.cmake file.

Boost's profile build variant is not yet supported because it does not create a unique tag name for the libraries.

Only CMake support files are generated, but .pc files for pkg-config support could also be added.

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