| .. _chapter-installation: |
| |
| ============ |
| Installation |
| ============ |
| |
| Getting the source code |
| ======================= |
| .. _section-source: |
| |
| You can start with the `latest stable release |
| <http://ceres-solver.org/ceres-solver-2.2.0.tar.gz>`_ . Or if you want |
| the latest version, you can clone the git repository |
| |
| .. code-block:: bash |
| |
| git clone https://ceres-solver.googlesource.com/ceres-solver |
| |
| .. _section-dependencies: |
| |
| Dependencies |
| ============ |
| |
| .. note :: |
| |
| Ceres Solver 2.2 requires a **fully C++17-compliant** compiler. |
| |
| Ceres relies on a number of open source libraries, some of which are |
| optional. For details on customizing the build process, see |
| :ref:`section-customizing` . |
| |
| - `CMake <http://www.cmake.org>`_ 3.16 or later **required**. |
| |
| - `Eigen <http://eigen.tuxfamily.org/index.php?title=Main_Page>`_ |
| 3.3 or later **required**. |
| |
| .. NOTE :: |
| |
| Ceres can also use Eigen as a sparse linear algebra |
| library. Please see the documentation for ``EIGENSPARSE`` for |
| more details. |
| |
| - `glog <https://github.com/google/glog>`_ 0.3.5 or |
| later. **Recommended** |
| |
| ``glog`` is used extensively throughout Ceres for logging detailed |
| information about memory allocations and time consumed in various |
| parts of the solve, internal error conditions etc. The Ceres |
| developers use it extensively to observe and analyze Ceres's |
| performance. `glog <https://github.com/google/glog>`_ allows you to |
| control its behaviour from the command line. Starting with |
| ``-logtostderr`` you can add ``-v=N`` for increasing values of ``N`` |
| to get more and more verbose and detailed information about Ceres |
| internals. |
| |
| Ceres also ships with a minimal replacement of ``glog`` called |
| ``miniglog`` that can be enabled with the ``MINIGLOG`` build option. |
| ``miniglog`` is supplied for platforms which do not support the full |
| version of ``glog``. |
| |
| In an attempt to reduce dependencies, it may be tempting to use |
| ``miniglog`` on platforms which already support ``glog``. While |
| there is nothing preventing the user from doing so, we strongly |
| recommend against it. ``miniglog`` has worse performance than |
| ``glog`` and is much harder to control and use. |
| |
| - `gflags <https://github.com/gflags/gflags>`_. Needed to build |
| examples and tests and usually a dependency for glog. |
| |
| - `SuiteSparse <http://faculty.cse.tamu.edu/davis/suitesparse.html>`_ |
| 4.5.6 or later. Needed for solving large sparse linear |
| systems. **Optional; strongly recommended for large scale bundle |
| adjustment** |
| |
| .. NOTE :: |
| |
| If SuiteSparseQR is found, Ceres attempts to find the Intel |
| Thread Building Blocks (TBB) library. If found, Ceres assumes |
| SuiteSparseQR was compiled with TBB support and will link to the |
| found TBB version. You can customize the searched TBB location |
| with the ``TBB_ROOT`` variable. |
| |
| A CMake native version of SuiteSparse that can be compiled on a variety of |
| platforms (e.g., using Visual Studio, Xcode, MinGW, etc.) is maintained by the |
| `CMake support for SuiteSparse <https://github.com/sergiud/SuiteSparse>`_ |
| project. |
| |
| - `Apple's Accelerate sparse solvers <https://developer.apple.com/documentation/accelerate/sparse_solvers>`_. |
| As of Xcode 9.0, Apple's Accelerate framework includes support for |
| solving sparse linear systems across macOS, iOS et al. **Optional** |
| |
| - `BLAS <http://www.netlib.org/blas/>`_ and `LAPACK |
| <http://www.netlib.org/lapack/>`_ routines are needed by |
| ``SuiteSparse``, and optionally used by Ceres directly for some |
| operations. |
| |
| For best performance on ``x86`` based Linux systems we recommend |
| using `Intel MKL |
| <https://www.intel.com/content/www/us/en/develop/documentation/get-started-with-mkl-for-dpcpp/top.html>`_. |
| |
| Two other good options are `ATLAS |
| <http://math-atlas.sourceforge.net/>`_, which includes ``BLAS`` and |
| ``LAPACK`` routines and `OpenBLAS |
| <https://github.com/xianyi/OpenBLAS>`_ . However, one needs to be |
| careful to `turn off the threading |
| <https://github.com/xianyi/OpenBLAS/wiki/faq#wiki-multi-threaded>`_ |
| inside ``OpenBLAS`` as it conflicts with use of threads in Ceres. |
| |
| MacOS ships with an optimized ``LAPACK`` and ``BLAS`` |
| implementation as part of the ``Accelerate`` framework. The Ceres |
| build system will automatically detect and use it. |
| |
| For Windows things are much more complicated. `LAPACK For |
| Windows <http://icl.cs.utk.edu/lapack-for-windows/lapack/>`_ |
| has detailed instructions.. |
| |
| **Optional but required for** ``SuiteSparse``. |
| |
| - `CUDA <https://developer.nvidia.com/cuda-toolkit>`_ If you have an |
| NVIDIA GPU then Ceres Solver can use it accelerate the solution of |
| the Gauss-Newton linear systems using the CMake flag ``USE_CUDA``. |
| Currently this support is limited to using the dense linear solvers that ship |
| with ``CUDA``. As a result GPU acceleration can be used to speed up |
| ``DENSE_QR``, ``DENSE_NORMAL_CHOLESKY`` and |
| ``DENSE_SCHUR``. This also enables ``CUDA`` mixed precision solves |
| for ``DENSE_NORMAL_CHOLESKY`` and ``DENSE_SCHUR``. **Optional**. |
| |
| .. _section-linux: |
| |
| Linux |
| ===== |
| |
| We will use `Ubuntu <http://www.ubuntu.com>`_ as our example linux |
| distribution. |
| |
| .. NOTE:: |
| |
| Ceres Solver always supports the previous and current Ubuntu LTS |
| releases, currently 18.04 and 20.04, using the default Ubuntu |
| repositories and compiler toolchain. Support for earlier versions |
| is not guaranteed or maintained. |
| |
| Start by installing all the dependencies. |
| |
| .. code-block:: bash |
| |
| # CMake |
| sudo apt-get install cmake |
| # google-glog + gflags |
| sudo apt-get install libgoogle-glog-dev libgflags-dev |
| # Use ATLAS for BLAS & LAPACK |
| sudo apt-get install libatlas-base-dev |
| # Eigen3 |
| sudo apt-get install libeigen3-dev |
| # SuiteSparse (optional) |
| sudo apt-get install libsuitesparse-dev |
| |
| We are now ready to build, test, and install Ceres. |
| |
| .. code-block:: bash |
| |
| tar zxf ceres-solver-2.2.0.tar.gz |
| mkdir ceres-bin |
| cd ceres-bin |
| cmake ../ceres-solver-2.2.0 |
| make -j3 |
| make test |
| # Optionally install Ceres, it can also be exported using CMake which |
| # allows Ceres to be used without requiring installation, see the documentation |
| # for the EXPORT_BUILD_DIR option for more information. |
| make install |
| |
| You can also try running the command line bundling application with one of the |
| included problems, which comes from the University of Washington's BAL |
| dataset [Agarwal]_. |
| |
| .. code-block:: bash |
| |
| bin/simple_bundle_adjuster ../ceres-solver-2.2.0/data/problem-16-22106-pre.txt |
| |
| This runs Ceres for a maximum of 10 iterations using the |
| ``DENSE_SCHUR`` linear solver. The output should look something like |
| this. |
| |
| .. code-block:: bash |
| |
| iter cost cost_change |gradient| |step| tr_ratio tr_radius ls_iter iter_time total_time |
| 0 4.185660e+06 0.00e+00 1.09e+08 0.00e+00 0.00e+00 1.00e+04 0 2.18e-02 6.57e-02 |
| 1 1.062590e+05 4.08e+06 8.99e+06 0.00e+00 9.82e-01 3.00e+04 1 5.07e-02 1.16e-01 |
| 2 4.992817e+04 5.63e+04 8.32e+06 3.19e+02 6.52e-01 3.09e+04 1 4.75e-02 1.64e-01 |
| 3 1.899774e+04 3.09e+04 1.60e+06 1.24e+02 9.77e-01 9.26e+04 1 4.74e-02 2.11e-01 |
| 4 1.808729e+04 9.10e+02 3.97e+05 6.39e+01 9.51e-01 2.78e+05 1 4.75e-02 2.59e-01 |
| 5 1.803399e+04 5.33e+01 1.48e+04 1.23e+01 9.99e-01 8.33e+05 1 4.74e-02 3.06e-01 |
| 6 1.803390e+04 9.02e-02 6.35e+01 8.00e-01 1.00e+00 2.50e+06 1 4.76e-02 3.54e-01 |
| |
| Solver Summary (v 2.2.0-eigen-(3.4.0)-lapack-suitesparse-(7.1.0)-metis-(5.1.0)-acceleratesparse-eigensparse) |
| |
| Original Reduced |
| Parameter blocks 22122 22122 |
| Parameters 66462 66462 |
| Residual blocks 83718 83718 |
| Residuals 167436 167436 |
| |
| Minimizer TRUST_REGION |
| |
| Dense linear algebra library EIGEN |
| Trust region strategy LEVENBERG_MARQUARDT |
| Given Used |
| Linear solver DENSE_SCHUR DENSE_SCHUR |
| Threads 1 1 |
| Linear solver ordering AUTOMATIC 22106,16 |
| Schur structure 2,3,9 2,3,9 |
| |
| Cost: |
| Initial 4.185660e+06 |
| Final 1.803390e+04 |
| Change 4.167626e+06 |
| |
| Minimizer iterations 7 |
| Successful steps 7 |
| Unsuccessful steps 0 |
| |
| Time (in seconds): |
| Preprocessor 0.043895 |
| |
| Residual only evaluation 0.029855 (7) |
| Jacobian & residual evaluation 0.120581 (7) |
| Linear solver 0.153665 (7) |
| Minimizer 0.339275 |
| |
| Postprocessor 0.000540 |
| Total 0.383710 |
| |
| Termination: CONVERGENCE (Function tolerance reached. |cost_change|/cost: 1.769759e-09 <= 1.000000e-06) |
| |
| |
| .. section-macos: |
| |
| macOS |
| ===== |
| |
| On macOS, you can either use `Homebrew <https://brew.sh/>`_ |
| (recommended) or `MacPorts <https://www.macports.org/>`_ to install |
| Ceres Solver. |
| |
| If using `Homebrew <https://brew.sh/>`_, then |
| |
| .. code-block:: bash |
| |
| brew install ceres-solver |
| |
| will install the latest stable version along with all the required |
| dependencies and |
| |
| .. code-block:: bash |
| |
| brew install ceres-solver --HEAD |
| |
| will install the latest version in the git repo. |
| |
| If using `MacPorts <https://www.macports.org/>`_, then |
| |
| .. code-block:: bash |
| |
| sudo port install ceres-solver |
| |
| will install the latest version. |
| |
| You can also install each of the dependencies by hand using `Homebrew |
| <https://brew.sh/>`_. There is no need to install |
| ``BLAS`` or ``LAPACK`` separately as macOS ships with optimized |
| ``BLAS`` and ``LAPACK`` routines as part of the `vecLib |
| <https://developer.apple.com/library/mac/#documentation/Performance/Conceptual/vecLib/Reference/reference.html>`_ |
| framework. |
| |
| .. code-block:: bash |
| |
| # CMake |
| brew install cmake |
| # google-glog and gflags |
| brew install glog gflags |
| # Eigen3 |
| brew install eigen |
| # SuiteSparse |
| brew install suite-sparse |
| |
| We are now ready to build, test, and install Ceres. |
| |
| .. code-block:: bash |
| |
| tar zxf ceres-solver-2.2.0.tar.gz |
| mkdir ceres-bin |
| cd ceres-bin |
| cmake ../ceres-solver-2.2.0 |
| make -j3 |
| make test |
| # Optionally install Ceres, it can also be exported using CMake which |
| # allows Ceres to be used without requiring installation, see the |
| # documentation for the EXPORT_BUILD_DIR option for more information. |
| make install |
| |
| .. _section-windows: |
| |
| Windows |
| ======= |
| |
| Using a Library Manager |
| ----------------------- |
| |
| `vcpkg <https://github.com/microsoft/vcpkg>`_ is a library manager for Microsoft |
| Windows that can be used to install Ceres Solver and all its dependencies. |
| |
| #. Install the library manager into a top-level directory ``vcpkg/`` on Windows |
| following the `guide |
| <https://github.com/microsoft/vcpkg#quick-start-windows>`_, e.g., using |
| Visual Studio 2022 community edition, or simply run |
| |
| .. code:: bat |
| |
| git clone https://github.com/Microsoft/vcpkg.git |
| cd vcpkg |
| .\bootstrap-vcpkg.bat |
| .\vcpkg integrate install |
| |
| #. Use vcpkg to install and build Ceres and all its dependencies, e.g., for 64 |
| bit Windows |
| |
| .. code:: bat |
| |
| vcpkg\vcpkg.exe install ceres:x64-windows |
| |
| Or with optional components, e.g., SuiteSparse, using |
| |
| .. code:: bat |
| |
| vcpkg\vcpkg.exe install ceres[suitesparse]:x64-windows |
| |
| #. Integrate vcpkg packages with Visual Studio to allow it to automatically |
| find all the libraries installed by vcpkg. |
| |
| .. code:: bat |
| |
| vcpkg\vcpkg.exe integrate install |
| |
| #. To use Ceres in a CMake project, follow our :ref:`instructions |
| <section-using-ceres>`. |
| |
| |
| Building from Source |
| -------------------- |
| |
| Ceres Solver can also be built from source. For this purpose, we support Visual |
| Studio 2019 and newer. |
| |
| .. NOTE:: |
| |
| If you find the following CMake difficult to set up, then you may |
| be interested in a `Microsoft Visual Studio wrapper |
| <https://github.com/tbennun/ceres-windows>`_ for Ceres Solver by Tal |
| Ben-Nun. |
| |
| #. Create a top-level directory for dependencies, build, and sources somewhere, |
| e.g., ``ceres/`` |
| |
| #. Get dependencies; unpack them as subdirectories in ``ceres/`` |
| (``ceres/eigen``, ``ceres/glog``, etc.) |
| |
| #. ``Eigen`` 3.3 . Configure and optionally install Eigen. It should be |
| exported into the CMake package registry by default as part of the |
| configure stage so installation should not be necessary. |
| |
| #. ``google-glog`` Open up the Visual Studio solution and build it. |
| #. ``gflags`` Open up the Visual Studio solution and build it. |
| |
| #. (Experimental) ``SuiteSparse`` Previously SuiteSparse was not |
| available on Windows, recently it has become possible to build |
| it on Windows using the `suitesparse-metis-for-windows |
| <https://github.com/jlblancoc/suitesparse-metis-for-windows>`_ |
| project. If you wish to use ``SuiteSparse``, follow their |
| instructions for obtaining and building it. |
| |
| Alternatively, Ceres Solver supports ``SuiteSparse`` binary |
| packages available for Visual Studio 2019 and 2022 provided by |
| the `CMake support for SuiteSparse |
| <https://github.com/sergiud/SuiteSparse>`_ project that also |
| include `reference LAPACK <http://www.netlib.org/blas>`_ (and |
| BLAS). The binary packages are used by Ceres Solver for |
| continuous testing on Github. |
| |
| #. Unpack the Ceres tarball into ``ceres``. For the tarball, you |
| should get a directory inside ``ceres`` similar to |
| ``ceres-solver-2.2.0``. Alternately, checkout Ceres via ``git`` to |
| get ``ceres-solver.git`` inside ``ceres``. |
| |
| #. Install ``CMake``, |
| |
| #. Create a directory ``ceres/ceres-bin`` (for an out-of-tree build) |
| |
| #. If you use the above binary ``SuiteSparse`` package, make sure CMake can |
| find it, e.g., by assigning the path of the directory that contains the |
| unzipped contents to the ``CMAKE_PREFIX_PATH`` environment variable. In a |
| Windows command prompt this can be achieved as follows: |
| |
| .. code:: bat |
| |
| export CMAKE_PREFIX_PATH=C:/Downloads/SuiteSparse-5.11.0-cmake.1-vc16-Win64-Release-shared-gpl |
| |
| #. Run ``CMake``; select the ``ceres-solver-X.Y.Z`` or |
| ``ceres-solver.git`` directory for the CMake file. Then select the |
| ``ceres-bin`` for the build directory. |
| |
| #. Try running ``Configure`` which can fail at first because some dependencies |
| cannot be automatically located. In this case, you must set the following |
| CMake variables to the appropriate directories where you unpacked/built them: |
| |
| #. ``Eigen3_DIR`` (Set to directory containing ``Eigen3Config.cmake``) |
| #. ``GLOG_INCLUDE_DIR_HINTS`` |
| #. ``GLOG_LIBRARY_DIR_HINTS`` |
| #. (Optional) ``gflags_DIR`` (Set to directory containing ``gflags-config.cmake``) |
| #. (SuiteSparse binary package) ``BLAS_blas_LIBRARY`` and |
| ``LAPACK_lapack_LIBRARY`` CMake variables must be `explicitly set` to |
| ``<path>/lib/blas.lib`` and ``<path>/lib/lapack.lib``, respectively, both |
| located in the unzipped package directory ``<path>``. |
| |
| If any of the variables are not visible in the ``CMake`` GUI, create a new |
| entry for them. We recommend using the |
| ``<NAME>_(INCLUDE/LIBRARY)_DIR_HINTS`` variables rather than setting the |
| ``<NAME>_INCLUDE_DIR`` & ``<NAME>_LIBRARY`` variables directly to keep all of |
| the validity checking, and to avoid having to specify the library files |
| manually. |
| |
| #. You may have to tweak some more settings to generate a MSVC |
| project. After each adjustment, try pressing Configure & Generate |
| until it generates successfully. |
| |
| #. Open the solution and build it in MSVC |
| |
| |
| To run the tests, select the ``RUN_TESTS`` target and hit **Build |
| RUN_TESTS** from the build menu. |
| |
| Like the Linux build, you should now be able to run |
| ``bin/simple_bundle_adjuster``. |
| |
| .. note:: |
| |
| #. The default build is ``Debug``; consider switching it to ``Release`` for |
| optimal performance. |
| #. CMake puts the resulting test binaries in ``ceres-bin/examples/Debug`` by |
| default. |
| #. Without a sparse linear algebra library, only a subset of |
| solvers is usable, namely: ``DENSE_QR``, ``DENSE_SCHUR``, |
| ``CGNR``, and ``ITERATIVE_SCHUR``. |
| |
| |
| .. _section-android: |
| |
| Android |
| ======= |
| |
| .. NOTE:: |
| |
| You will need Android NDK r15 or higher to build Ceres solver. |
| |
| To build Ceres for Android, we need to force ``CMake`` to find |
| the toolchains from the Android NDK instead of using the standard |
| ones. For example, assuming you have specified ``$NDK_DIR``: |
| |
| .. code-block:: bash |
| |
| cmake \ |
| -DCMAKE_TOOLCHAIN_FILE=\ |
| $NDK_DIR/build/cmake/android.toolchain.cmake \ |
| -DEigen3_DIR=/path/to/Eigen3Config.cmake \ |
| -DANDROID_ABI=arm64-v8a \ |
| -DANDROID_STL=c++_shared \ |
| -DANDROID_NATIVE_API_LEVEL=android-29 \ |
| -DBUILD_SHARED_LIBS=ON \ |
| -DMINIGLOG=ON \ |
| <PATH_TO_CERES_SOURCE> |
| |
| You can build for any Android STL or ABI, but the c++_shared STL |
| and the armeabi-v7a or arm64-v8a ABI are recommended for 32bit |
| and 64bit architectures, respectively. Several API levels may |
| be supported, but it is recommended that you use the highest |
| level that is suitable for your Android project. |
| |
| .. NOTE:: |
| |
| You must always use the same API level and STL library for |
| your Android project and the Ceres binaries. |
| |
| After building, you get a ``libceres.so`` library, which you can |
| link in your Android build system by using a |
| ``PREBUILT_SHARED_LIBRARY`` target in your build script. |
| |
| If you are building any Ceres samples and would like to verify |
| your library, you will need to place them in an executable public |
| directory together with ``libceres.so`` on your Android device |
| (e.g. in /data/local/tmp) and ensure that the STL library from |
| your NDK is present in that same directory. You may then execute |
| the sample by running for example: |
| |
| .. code-block:: bash |
| |
| adb shell |
| cd /data/local/tmp |
| LD_LIBRARY_PATH=/data/local/tmp ./helloworld |
| |
| Note that any solvers or other shared dependencies you include in |
| your project must also be present in your android build config and |
| your test directory on Android. |
| |
| .. _section-ios: |
| |
| iOS |
| === |
| |
| .. NOTE:: |
| |
| You need iOS version 7.0 or higher to build Ceres Solver. |
| |
| To build Ceres for iOS, we need to force ``CMake`` to find the |
| toolchains from the iOS SDK instead of using the standard ones. For |
| example: |
| |
| .. code-block:: bash |
| |
| cmake \ |
| -DCMAKE_TOOLCHAIN_FILE=../ceres-solver/cmake/iOS.cmake \ |
| -DEigen3_DIR=/path/to/Eigen3Config.cmake \ |
| -DIOS_PLATFORM=<PLATFORM> \ |
| <PATH_TO_CERES_SOURCE> |
| |
| ``PLATFORM`` can be: ``OS``, ``SIMULATOR`` or ``SIMULATOR64``. You can |
| build for ``OS`` (``armv7``, ``armv7s``, ``arm64``), ``SIMULATOR`` |
| (``i386``) or ``SIMULATOR64`` (``x86_64``) separately and use ``lipo`` |
| to merge them into one static library. See ``cmake/iOS.cmake`` for |
| more options. |
| |
| .. NOTE:: |
| |
| iOS version 11.0+ requires a 64-bit architecture, so you cannot |
| build for armv7/armv7s with iOS 11.0+ (only arm64 is supported). |
| |
| After building, you will get a ``libceres.a`` library, which you will |
| need to add to your Xcode project. |
| |
| The default CMake configuration builds a bare bones version of Ceres |
| Solver that only depends on Eigen (``MINIGLOG`` is compiled into Ceres |
| if it is used), this should be sufficient for solving small to |
| moderate sized problems. |
| |
| If you decide to use ``LAPACK`` and ``BLAS``, then you also need to |
| add ``Accelerate.framework`` to your Xcode project's linking |
| dependency. |
| |
| .. _section-customizing: |
| |
| Customizing the build |
| ===================== |
| |
| It is possible to reduce the libraries needed to build Ceres and |
| customize the build process by setting the appropriate options in |
| ``CMake``. These options can either be set in the ``CMake`` GUI, or |
| via ``-D<OPTION>=<ON/OFF>`` when running ``CMake`` from the command |
| line. In general, you should only modify these options from their |
| defaults if you know what you are doing. |
| |
| .. NOTE:: |
| |
| If you are setting variables via ``-D<VARIABLE>=<VALUE>`` when |
| calling ``CMake``, it is important to understand that this forcibly |
| **overwrites** the variable ``<VARIABLE>`` in the ``CMake`` cache at |
| the start of *every configure*. |
| |
| This can lead to confusion if you are invoking the ``CMake`` `curses |
| <http://www.gnu.org/software/ncurses/ncurses.html>`_ terminal GUI |
| (via ``ccmake``, e.g. ```ccmake -D<VARIABLE>=<VALUE> |
| <PATH_TO_SRC>``). In this case, even if you change the value of |
| ``<VARIABLE>`` in the ``CMake`` GUI, your changes will be |
| **overwritten** with the value passed via ``-D<VARIABLE>=<VALUE>`` |
| (if one exists) at the start of each configure. |
| |
| As such, it is generally easier not to pass values to ``CMake`` via |
| ``-D`` and instead interactively experiment with their values in the |
| ``CMake`` GUI. If they are not present in the *Standard View*, |
| toggle to the *Advanced View* with ``<t>``. |
| |
| |
| Modifying default compilation flags |
| ----------------------------------- |
| |
| The ``CMAKE_CXX_FLAGS`` variable can be used to define additional |
| default compilation flags for all build types. Any flags specified |
| in ``CMAKE_CXX_FLAGS`` will be used in addition to the default |
| flags used by Ceres for the current build type. |
| |
| For example, if you wished to build Ceres with `-march=native |
| <https://gcc.gnu.org/onlinedocs/gcc/x86-Options.html>`_ which is not |
| enabled by default (even if ``CMAKE_BUILD_TYPE=Release``) you would invoke |
| CMake with: |
| |
| .. code-block:: bash |
| |
| cmake -DCMAKE_CXX_FLAGS="-march=native" <PATH_TO_CERES_SOURCE> |
| |
| .. NOTE :: |
| |
| The use of ``-march=native`` will limit portability, as it will tune the |
| implementation to the specific CPU of the compiling machine (e.g. use of |
| AVX if available). Run-time segfaults may occur if you then tried to |
| run the resulting binaries on a machine with a different processor, even |
| if it is from the same family (e.g. x86) if the specific options available |
| are different. Note that the performance gains from the use of |
| ``-march=native`` are not guaranteed to be significant. |
| |
| .. _options-controlling-ceres-configuration: |
| |
| Options controlling Ceres configuration |
| --------------------------------------- |
| |
| #. ``LAPACK [Default: ON]``: If this option is enabled, and the ``BLAS`` and |
| ``LAPACK`` libraries are found, Ceres will enable **direct** use of |
| ``LAPACK`` routines (i.e. Ceres itself will call them). If this option is |
| disabled, then Ceres will not require ``LAPACK`` or ``BLAS``. It is |
| however still possible that Ceres may call ``LAPACK`` routines indirectly |
| via SuiteSparse if ``LAPACK=OFF`` and ``SUITESPARSE=ON``. Finally |
| note that if ``LAPACK=ON`` and ``SUITESPARSE=ON``, the ``LAPACK`` and |
| ``BLAS`` libraries used by SuiteSparse and Ceres should be the same. |
| |
| #. ``SUITESPARSE [Default: ON]``: By default, Ceres will link to |
| ``SuiteSparse`` if it and all of its dependencies are present. Turn |
| this ``OFF`` to build Ceres without ``SuiteSparse``. |
| |
| .. NOTE:: |
| |
| SuiteSparse is licensed under a mixture of GPL/LGPL/Commercial |
| terms. Ceres requires some components that are only licensed under |
| GPL/Commercial terms. |
| |
| #. ``ACCELERATESPARSE [Default: ON]``: By default, Ceres will link to |
| Apple's Accelerate framework directly if a version of it is detected |
| which supports solving sparse linear systems. Note that on Apple OSs |
| Accelerate usually also provides the BLAS/LAPACK implementations and |
| so would be linked against irrespective of the value of ``ACCELERATESPARSE``. |
| |
| #. ``EIGENSPARSE [Default: ON]``: By default, Ceres will use Eigen's |
| sparse Cholesky factorization. |
| |
| #. ``GFLAGS [Default: ON]``: Turn this ``OFF`` to build Ceres without |
| ``gflags``. This will also prevent some of the example code from |
| building. |
| |
| #. ``MINIGLOG [Default: OFF]``: Ceres includes a stripped-down, |
| minimal implementation of ``glog`` which can optionally be used as |
| a substitute for ``glog``, thus removing ``glog`` as a required |
| dependency. Turn this ``ON`` to use this minimal ``glog`` |
| implementation. |
| |
| #. ``SCHUR_SPECIALIZATIONS [Default: ON]``: If you are concerned about |
| binary size/compilation time over some small (10-20%) performance |
| gains in the ``SPARSE_SCHUR`` solver, you can disable some of the |
| template specializations by turning this ``OFF``. |
| |
| #. ``BUILD_SHARED_LIBS [Default: OFF]``: By default Ceres is built as |
| a static library, turn this ``ON`` to instead build Ceres as a |
| shared library. |
| |
| #. ``EXPORT_BUILD_DIR [Default: OFF]``: By default Ceres is configured |
| solely for installation, and so must be installed in order for |
| clients to use it. Turn this ``ON`` to export Ceres' build |
| directory location into the `user's local CMake package registry |
| <http://www.cmake.org/cmake/help/v3.5/manual/cmake-packages.7.html#user-package-registry>`_ |
| where it will be detected **without requiring installation** in a |
| client project using CMake when `find_package(Ceres) |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ |
| is invoked. |
| |
| #. ``BUILD_DOCUMENTATION [Default: OFF]``: Use this to enable building |
| the documentation, requires `Sphinx <http://sphinx-doc.org/>`_ and |
| the `sphinx-rtd-theme |
| <https://pypi.org/project/sphinx-rtd-theme/>`_ package |
| available from the Python package index. In addition, ``make |
| ceres_docs`` can be used to build only the documentation. |
| |
| #. ``MSVC_USE_STATIC_CRT [Default: OFF]`` *Windows Only*: By default |
| Ceres will use the Visual Studio default, *shared* C-Run Time (CRT) |
| library. Turn this ``ON`` to use the *static* C-Run Time library |
| instead. |
| |
| #. ``LIB_SUFFIX [Default: "64" on non-Debian/Arch based 64-bit Linux, |
| otherwise: ""]``: The suffix to append to the library install |
| directory, built from: |
| ``${CMAKE_INSTALL_PREFIX}/lib${LIB_SUFFIX}``. |
| |
| The filesystem hierarchy standard recommends that 64-bit systems |
| install native libraries to lib64 rather than lib. Most Linux |
| distributions follow this convention, but Debian and Arch based |
| distros do not. Note that the only generally sensible values for |
| ``LIB_SUFFIX`` are "" and "64". |
| |
| Although by default Ceres will auto-detect non-Debian/Arch based |
| 64-bit Linux distributions and default ``LIB_SUFFIX`` to "64", this |
| can always be overridden by manually specifying LIB_SUFFIX using: |
| ``-DLIB_SUFFIX=<VALUE>`` when invoking CMake. |
| |
| |
| Options controlling Ceres dependency locations |
| ---------------------------------------------- |
| |
| Ceres uses the ``CMake`` `find_package |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ |
| function to find all of its dependencies. Dependencies that reliably |
| provide config files on all supported platforms are expected to be |
| found in "Config" mode of ``find_package`` (``Eigen``, ``gflags``). |
| This means you can use the standard ``CMake`` facilities to customize |
| where these dependencies are found, such as ``CMAKE_PREFIX_PATH``, |
| the ``<DEPENDENCY_NAME>_DIR`` variables, or since ``CMake`` 3.12 the |
| ``<DEPENDENCY_NAME>_ROOT`` variables. |
| |
| Other dependencies are found using |
| ``Find<DEPENDENCY_NAME>.cmake`` scripts which are either included in |
| Ceres (for most dependencies) or are shipped as standard with |
| ``CMake`` (for ``LAPACK`` & ``BLAS``). These scripts will search all |
| of the "standard" install locations for various OSs for each |
| dependency. However, particularly for Windows, they may fail to find |
| the library, in this case you will have to manually specify its |
| installed location. The ``Find<DEPENDENCY_NAME>.cmake`` scripts |
| shipped with Ceres support two ways for you to do this: |
| |
| #. Set the *hints* variables specifying the *directories* to search in |
| preference, but in addition, to the search directories in the |
| ``Find<DEPENDENCY_NAME>.cmake`` script: |
| |
| - ``<DEPENDENCY_NAME (CAPS)>_INCLUDE_DIR_HINTS`` |
| - ``<DEPENDENCY_NAME (CAPS)>_LIBRARY_DIR_HINTS`` |
| |
| These variables should be set via ``-D<VAR>=<VALUE>`` |
| ``CMake`` arguments as they are not visible in the GUI. |
| |
| #. Set the variables specifying the *explicit* include directory |
| and library file to use: |
| |
| - ``<DEPENDENCY_NAME (CAPS)>_INCLUDE_DIR`` |
| - ``<DEPENDENCY_NAME (CAPS)>_LIBRARY`` |
| |
| This bypasses *all* searching in the |
| ``Find<DEPENDENCY_NAME>.cmake`` script, but validation is still |
| performed. |
| |
| These variables are available to set in the ``CMake`` GUI. They are |
| visible in the *Standard View* if the library has not been found |
| (but the current Ceres configuration requires it), but are always |
| visible in the *Advanced View*. They can also be set directly via |
| ``-D<VAR>=<VALUE>`` arguments to ``CMake``. |
| |
| Building using custom BLAS & LAPACK installs |
| ---------------------------------------------- |
| |
| If the standard find package scripts for ``BLAS`` & ``LAPACK`` which |
| ship with ``CMake`` fail to find the desired libraries on your system, |
| try setting ``CMAKE_LIBRARY_PATH`` to the path(s) to the directories |
| containing the ``BLAS`` & ``LAPACK`` libraries when invoking ``CMake`` |
| to build Ceres via ``-D<VAR>=<VALUE>``. This should result in the |
| libraries being found for any common variant of each. |
| |
| Alternatively, you may also directly specify the ``BLAS_LIBRARIES`` and |
| ``LAPACK_LIBRARIES`` variables via ``-D<VAR>=<VALUE>`` when invoking CMake |
| to configure Ceres. |
| |
| .. _section-using-ceres: |
| |
| Using Ceres with CMake |
| ====================== |
| |
| In order to use Ceres in client code with CMake using `find_package() |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ |
| then either: |
| |
| #. Ceres must have been installed with ``make install``. If the |
| install location is non-standard (i.e. is not in CMake's default |
| search paths) then it will not be detected by default, see: |
| :ref:`section-local-installations`. |
| |
| Note that if you are using a non-standard install location you |
| should consider exporting Ceres instead, as this will not require |
| any extra information to be provided in client code for Ceres to |
| be detected. |
| |
| #. Or Ceres' build directory must have been exported by enabling the |
| ``EXPORT_BUILD_DIR`` option when Ceres was configured. |
| |
| |
| As an example of how to use Ceres, to compile `examples/helloworld.cc |
| <https://ceres-solver.googlesource.com/ceres-solver/+/master/examples/helloworld.cc>`_ |
| in a separate standalone project, the following CMakeList.txt can be |
| used: |
| |
| .. code-block:: cmake |
| |
| cmake_minimum_required(VERSION 3.5) |
| |
| project(helloworld) |
| |
| find_package(Ceres REQUIRED) |
| |
| # helloworld |
| add_executable(helloworld helloworld.cc) |
| target_link_libraries(helloworld Ceres::ceres) |
| |
| Irrespective of whether Ceres was installed or exported, if multiple |
| versions are detected, set: ``Ceres_DIR`` to control which is used. |
| If Ceres was installed ``Ceres_DIR`` should be the path to the |
| directory containing the installed ``CeresConfig.cmake`` file |
| (e.g. ``/usr/local/lib/cmake/Ceres``). If Ceres was exported, then |
| ``Ceres_DIR`` should be the path to the exported Ceres build |
| directory. |
| |
| .. NOTE :: |
| |
| You do not need to call include_directories(${CERES_INCLUDE_DIRS}) |
| as the exported Ceres CMake target already contains the definitions |
| of its public include directories which will be automatically |
| included by CMake when compiling a target that links against Ceres. |
| In fact, since v2.0 ``CERES_INCLUDE_DIRS`` is not even set. |
| |
| Specify Ceres components |
| ------------------------------------- |
| |
| You can specify particular Ceres components that you require (in order |
| for Ceres to be reported as found) when invoking |
| ``find_package(Ceres)``. This allows you to specify, for example, |
| that you require a version of Ceres built with SuiteSparse support. |
| By definition, if you do not specify any components when calling |
| ``find_package(Ceres)`` (the default) any version of Ceres detected |
| will be reported as found, irrespective of which components it was |
| built with. |
| |
| The Ceres components which can be specified are: |
| |
| #. ``LAPACK``: Ceres built using LAPACK (``LAPACK=ON``). |
| |
| #. ``SuiteSparse``: Ceres built with SuiteSparse (``SUITESPARSE=ON``). |
| |
| #. ``AccelerateSparse``: Ceres built with Apple's Accelerate sparse solvers (``ACCELERATESPARSE=ON``). |
| |
| #. ``EigenSparse``: Ceres built with Eigen's sparse Cholesky factorization |
| (``EIGENSPARSE=ON``). |
| |
| #. ``SparseLinearAlgebraLibrary``: Ceres built with *at least one* |
| sparse linear algebra library. This is equivalent to |
| ``SuiteSparse`` **OR** ``AccelerateSparse`` **OR** ``EigenSparse``. |
| |
| #. ``SchurSpecializations``: Ceres built with Schur specializations |
| (``SCHUR_SPECIALIZATIONS=ON``). |
| |
| To specify one/multiple Ceres components use the ``COMPONENTS`` argument to |
| `find_package() |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ like so: |
| |
| .. code-block:: cmake |
| |
| # Find a version of Ceres compiled with SuiteSparse & EigenSparse support. |
| # |
| # NOTE: This will report Ceres as **not** found if the detected version of |
| # Ceres was not compiled with both SuiteSparse & EigenSparse. |
| # Remember, if you have multiple versions of Ceres installed, you |
| # can use Ceres_DIR to specify which should be used. |
| find_package(Ceres REQUIRED COMPONENTS SuiteSparse EigenSparse) |
| |
| |
| Specify Ceres version |
| --------------------- |
| |
| Additionally, when CMake has found Ceres it can optionally check the package |
| version, if it has been specified in the `find_package() |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ |
| call. For example: |
| |
| .. code-block:: cmake |
| |
| find_package(Ceres 1.2.3 REQUIRED) |
| |
| .. _section-local-installations: |
| |
| Local installations |
| ------------------- |
| |
| If Ceres was installed in a non-standard path by specifying |
| ``-DCMAKE_INSTALL_PREFIX="/some/where/local"``, then the user should |
| add the **PATHS** option to the ``find_package()`` command, e.g., |
| |
| .. code-block:: cmake |
| |
| find_package(Ceres REQUIRED PATHS "/some/where/local/") |
| |
| Note that this can be used to have multiple versions of Ceres |
| installed. However, particularly if you have only a single version of |
| Ceres which you want to use but do not wish to install to a system |
| location, you should consider exporting Ceres using the |
| ``EXPORT_BUILD_DIR`` option instead of a local install, as exported |
| versions of Ceres will be automatically detected by CMake, |
| irrespective of their location. |
| |
| Understanding the CMake Package System |
| ---------------------------------------- |
| |
| Although a full tutorial on CMake is outside the scope of this guide, |
| here we cover some of the most common CMake misunderstandings that |
| crop up when using Ceres. For more detailed CMake usage, the |
| following references are very useful: |
| |
| - The `official CMake tutorial <http://www.cmake.org/cmake-tutorial/>`_ |
| |
| Provides a tour of the core features of CMake. |
| |
| - `ProjectConfig tutorial |
| <http://www.cmake.org/Wiki/CMake/Tutorials/How_to_create_a_ProjectConfig.cmake_file>`_ |
| and the `cmake-packages documentation |
| <http://www.cmake.org/cmake/help/git-master/manual/cmake-packages.7.html>`_ |
| |
| Cover how to write a ``ProjectConfig.cmake`` file, discussed below, |
| for your own project when installing or exporting it using CMake. |
| It also covers how these processes in conjunction with |
| ``find_package()`` are actually handled by CMake. The |
| `ProjectConfig tutorial |
| <http://www.cmake.org/Wiki/CMake/Tutorials/How_to_create_a_ProjectConfig.cmake_file>`_ |
| is the older style, currently used by Ceres for compatibility with |
| older versions of CMake. |
| |
| .. NOTE :: **Targets in CMake.** |
| |
| All libraries and executables built using CMake are represented as |
| *targets* created using `add_library() |
| <http://www.cmake.org/cmake/help/v3.5/command/add_library.html>`_ |
| and `add_executable() |
| <http://www.cmake.org/cmake/help/v3.5/command/add_executable.html>`_. |
| Targets encapsulate the rules and dependencies (which can be other |
| targets) required to build or link against an object. This allows |
| CMake to implicitly manage dependency chains. Thus it is |
| sufficient to tell CMake that a library target: ``B`` depends on a |
| previously declared library target ``A``, and CMake will |
| understand that this means that ``B`` also depends on all of the |
| public dependencies of ``A``. |
| |
| When a project like Ceres is installed using CMake, or its build |
| directory is exported into the local CMake package registry (see |
| :ref:`section-install-vs-export`), in addition to the public headers |
| and compiled libraries, a set of CMake-specific project configuration |
| files are also installed to: ``<INSTALL_ROOT>/lib/cmake/Ceres`` (if Ceres |
| is installed), or created in the build directory (if Ceres' build |
| directory is exported). When `find_package |
| <http://www.cmake.org/cmake/help/v3.5/command/find_package.html>`_ is |
| invoked, CMake checks various standard install locations (including |
| ``/usr/local`` on Linux & UNIX systems), and the local CMake package |
| registry for CMake configuration files for the project to be found |
| (i.e. Ceres in the case of ``find_package(Ceres)``). Specifically it |
| looks for: |
| |
| - ``<PROJECT_NAME>Config.cmake`` (or |
| ``<lower_case_project_name>-config.cmake``) |
| |
| Which is written by the developers of the project, and is |
| configured with the selected options and installed locations when |
| the project is built and imports the project targets and/or defines |
| the legacy CMake variables: ``<PROJECT_NAME>_INCLUDE_DIRS`` & |
| ``<PROJECT_NAME>_LIBRARIES`` which are used by the caller. |
| |
| The ``<PROJECT_NAME>Config.cmake`` typically includes a second file |
| installed to the same location: |
| |
| - ``<PROJECT_NAME>Targets.cmake`` |
| |
| Which is autogenerated by CMake as part of the install process and defines |
| **imported targets** for the project in the caller's CMake scope. |
| |
| An **imported target** contains the same information about a library |
| as a CMake target that was declared locally in the current CMake |
| project using ``add_library()``. However, imported targets refer to |
| objects that have already been built by a different CMake project. |
| Principally, an imported target contains the location of the compiled |
| object and all of its public dependencies required to link against it |
| as well as all required include directories. Any locally declared target |
| can depend on an imported target, and CMake will manage the dependency |
| chain, just as if the imported target had been declared locally by the |
| current project. |
| |
| Crucially, just like any locally declared CMake target, an imported target is |
| identified by its **name** when adding it as a dependency to another target. |
| |
| Since v2.0, Ceres has used the target namespace feature of CMake to prefix |
| its export targets: ``Ceres::ceres``. However, historically the Ceres target |
| did not have a namespace, and was just called ``ceres``. |
| |
| Whilst an alias target called ``ceres`` is still provided in v2.0 for backwards |
| compatibility, it creates a potential drawback, if you failed to call |
| ``find_package(Ceres)``, and Ceres is installed in a default search path for |
| your compiler, then instead of matching the imported Ceres target, it will |
| instead match the installed libceres.so/dylib/a library. If this happens you |
| will get either compiler errors for missing include directories or linker errors |
| due to missing references to Ceres public dependencies. |
| |
| Note that this description applies both to projects that are |
| **installed** using CMake, and to those whose **build directory is |
| exported** using `export() |
| <http://www.cmake.org/cmake/help/v3.5/command/export.html>`_ (instead |
| of `install() |
| <http://www.cmake.org/cmake/help/v3.5/command/install.html>`_). Ceres |
| supports both installation and export of its build directory if the |
| ``EXPORT_BUILD_DIR`` option is enabled, see |
| :ref:`section-customizing`. |
| |
| .. _section-install-vs-export: |
| |
| Installing a project with CMake vs Exporting its build directory |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| When a project is **installed**, the compiled libraries and headers |
| are copied from the source & build directory to the install location, |
| and it is these copied files that are used by any client code. When a |
| project's build directory is **exported**, instead of copying the |
| compiled libraries and headers, CMake creates an entry for the project |
| in the `user's local CMake package registry |
| <http://www.cmake.org/cmake/help/v3.5/manual/cmake-packages.7.html#user-package-registry>`_, |
| ``<USER_HOME>/.cmake/packages`` on Linux & macOS, which contains the |
| path to the project's build directory which will be checked by CMake |
| during a call to ``find_package()``. The effect of which is that any |
| client code uses the compiled libraries and headers in the build |
| directory directly, **thus not requiring the project to be installed |
| to be used**. |
| |
| Installing / Exporting a project that uses Ceres |
| -------------------------------------------------- |
| |
| As described in `Understanding the CMake Package System`_, the contents of |
| the ``CERES_LIBRARIES`` variable is the **name** of an imported target which |
| represents Ceres. If you are installing / exporting your *own* project which |
| *uses* Ceres, it is important to understand that: |
| |
| **Imported targets are not (re)exported when a project which imported them is |
| exported**. |
| |
| Thus, when a project ``Foo`` which uses Ceres is exported, its list of |
| dependencies as seen by another project ``Bar`` which imports ``Foo`` |
| via: ``find_package(Foo REQUIRED)`` will contain: ``ceres``. However, |
| the definition of ``ceres`` as an imported target is **not |
| (re)exported** when Foo is exported. Hence, without any additional |
| steps, when processing ``Bar``, ``ceres`` will not be defined as an |
| imported target. Thus, when processing ``Bar``, CMake will assume |
| that ``ceres`` refers only to: ``libceres.a/so/dylib/lib`` (the |
| compiled Ceres library) directly if it is on the current list of |
| search paths. In which case, no CMake errors will occur, but ``Bar`` |
| will not link properly, as it does not have the required public link |
| dependencies of Ceres, which are stored in the imported target |
| definition. |
| |
| The solution to this is for ``Foo`` (i.e., the project that uses |
| Ceres) to invoke ``find_package(Ceres)`` in ``FooConfig.cmake``, thus |
| ``ceres`` will be defined as an imported target when CMake processes |
| ``Bar``. An example of the required modifications to |
| ``FooConfig.cmake`` are show below: |
| |
| .. code-block:: cmake |
| |
| # Importing Ceres in FooConfig.cmake using CMake 3.x style. |
| # |
| # In CMake v3.x, the find_dependency() macro exists to forward the REQUIRED |
| # / QUIET parameters to find_package() when searching for dependencies. |
| # |
| # Note that find_dependency() does not take a path hint, so if Ceres was |
| # installed in a non-standard location, that location must be added to |
| # CMake's search list before this call. |
| include(CMakeFindDependencyMacro) |
| find_dependency(Ceres) |
| |
| .. _section-migration: |
| |
| Migration |
| ========= |
| |
| The following includes some hints for migrating from previous versions. |
| |
| Version 2.0 |
| ----------- |
| |
| - When using Ceres with CMake, the target name in v2.0 is |
| ``Ceres::ceres`` following modern naming convetions. The legacy |
| target ``ceres`` exists for backwards compatibility, but is |
| deprecated. ``CERES_INCLUDE_DIRS`` is not set any more, as the |
| exported Ceres CMake target already contains the definitions of its |
| public include directories which will be automatically included by |
| CMake when compiling a target that links against Ceres. |
| - When building Ceres, some dependencies (Eigen, gflags) are not found |
| using custom ``Find<DEPENDENCY_NAME>.cmake`` modules any |
| more. Hence, instead of the custom variables (``<DEPENDENCY_NAME (CAPS)>_INCLUDE_DIR_HINTS``, |
| ``<DEPENDENCY_NAME (CAPS)>_INCLUDE_DIR``, ...) you should use standard |
| CMake facilities to customize where these dependencies are found, such as |
| ``CMAKE_PREFIX_PATH``, the ``<DEPENDENCY_NAME>_DIR`` variables, or |
| since CMake 3.12 the ``<DEPENDENCY_NAME>_ROOT`` variables. |
| - While TBB is not used any more directly by Ceres, it might still try |
| to link against it, if SuiteSparseQR was found. The variable (environment |
| or CMake) to customize this is ``TBB_ROOT`` (used to be ``TBBROOT``). |
| For example, use ``cmake -DTBB_ROOT=/opt/intel/tbb ...`` if you want to |
| link against TBB installed from Intel's binary packages on Linux. |