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.. _chapter-building:
=====================
Building Ceres Solver
=====================
Ceres source code and documentation are hosted at `code.google.com
<http://code.google.com/p/ceres-solver/>`_.
.. _section-dependencies:
Dependencies
============
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` .
1. `CMake <http://www.cmake.org>`_ is a cross platform build
system. Ceres needs a relatively recent version of CMake (version
2.8.0 or better).
2. `eigen3 <http://eigen.tuxfamily.org/index.php?title=Main_Page>`_ is
used for doing all the low level matrix and linear algebra operations.
3. `google-glog <http://code.google.com/p/google-glog>`_ is
used for error checking and logging. Ceres needs glog version 0.3.1 or
later. Version 0.3 (which ships with Fedora 16) has a namespace bug
which prevents Ceres from building.
4. `gflags <http://code.google.com/p/gflags>`_ is a library for
processing command line flags. It is used by some of the examples and
tests. While it is not strictly necessary to build the library, we
strongly recommend building the library with gflags.
5. `SuiteSparse
<http://www.cise.ufl.edu/research/sparse/SuiteSparse/>`_ is used for
sparse matrix analysis, ordering and factorization. In particular
Ceres uses the AMD, COLAMD and CHOLMOD libraries. This is an optional
dependency.
6. `CXSparse <http://www.cise.ufl.edu/research/sparse/CXSparse/>`_ is
a sparse matrix library similar in scope to ``SuiteSparse`` but with
no dependencies on ``LAPACK`` and ``BLAS``. This makes for a simpler
build process and a smaller binary. The simplicity comes at a cost --
for all but the most trivial matrices, ``SuiteSparse`` is
significantly faster than ``CXSparse``.
7. `BLAS <http://www.netlib.org/blas/>`_ and `LAPACK
<http://www.netlib.org/lapack/>`_ routines are needed by
SuiteSparse. We recommend either `GotoBlas2
<http://www.tacc.utexas.edu/tacc- projects/gotoblas2>`_ or `ATLAS
<http://math- atlas.sourceforge.net/>`_ , both of which ship with BLAS
and LAPACK routines.
8. `protobuf <http://code.google.com/p/protobuf/>`_ is used for
serializing and deserializing linear least squares problems to
disk. This is useful for debugging and testing. It is an optional
depdendency and without it some of the tests will be disabled.
.. _section-linux:
Building on Linux
=================
We will use `Ubuntu <http://www.ubuntu.com>`_ as our example
platform. Start by installing all the dependencies.
.. code-block:: bash
# CMake
sudo apt-hey install cmake
# gflags
tar -xvzf gflags-2.0.tar.gz
cd gflags-2.0
./configure --prefix=/usr/local
make
sudo make install.
# google-glog must be configured to use the previously installed gflags
tar -xvzf glog-0.3.2.tar.gz
cd glog-0.3.2
./configure --with-gflags=/usr/local/
make
sudo make install
# Eigen3
sudo apt-get install libeigen3-dev
# SuiteSparse and CXSparse
sudo apt-get install libsuitesparse-dev
# protobuf
sudo apt-get install libprotobuf-dev
We are now ready to build and test Ceres. Note that ``CMake`` requires
the exact path to the ``libglog.a`` and ``libgflag.a``.
.. code-block:: bash
tar zxf ceres-solver-1.5.0.tar.gz
mkdir ceres-bin
cd ceres-bin
cmake ../ceres-solver-1.5.0
make -j3
make test
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-1.5.0/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
0: f: 4.185660e+06 d: 0.00e+00 g: 1.09e+08 h: 0.00e+00 rho: 0.00e+00 mu: 1.00e+04 li: 0 it: 1.16e-01 tt: 3.39e-01
1: f: 1.062590e+05 d: 4.08e+06 g: 8.99e+06 h: 5.36e+02 rho: 9.82e-01 mu: 3.00e+04 li: 1 it: 3.90e-01 tt: 7.29e-01
2: f: 4.992817e+04 d: 5.63e+04 g: 8.32e+06 h: 3.19e+02 rho: 6.52e-01 mu: 3.09e+04 li: 1 it: 3.52e-01 tt: 1.08e+00
3: f: 1.899774e+04 d: 3.09e+04 g: 1.60e+06 h: 1.24e+02 rho: 9.77e-01 mu: 9.26e+04 li: 1 it: 3.60e-01 tt: 1.44e+00
4: f: 1.808729e+04 d: 9.10e+02 g: 3.97e+05 h: 6.39e+01 rho: 9.51e-01 mu: 2.78e+05 li: 1 it: 3.62e-01 tt: 1.80e+00
5: f: 1.803399e+04 d: 5.33e+01 g: 1.48e+04 h: 1.23e+01 rho: 9.99e-01 mu: 8.33e+05 li: 1 it: 3.54e-01 tt: 2.16e+00
6: f: 1.803390e+04 d: 9.02e-02 g: 6.35e+01 h: 8.00e-01 rho: 1.00e+00 mu: 2.50e+06 li: 1 it: 3.59e-01 tt: 2.52e+00
Ceres Solver Report
-------------------
Original Reduced
Parameter blocks 22122 22122
Parameters 66462 66462
Residual blocks 83718 83718
Residual 167436 167436
Trust Region Strategy LEVENBERG_MARQUARDT
Given Used
Linear solver DENSE_SCHUR DENSE_SCHUR
Preconditioner N/A N/A
Threads: 1 1
Linear solver threads 1 1
Linear solver ordering AUTOMATIC 22106,16
Cost:
Initial 4.185660e+06
Final 1.803390e+04
Change 4.167626e+06
Number of iterations:
Successful 6
Unsuccessful 0
Total 6
Time (in seconds):
Preprocessor 2.229e-01
Evaluator::Residuals 7.438e-02
Evaluator::Jacobians 6.790e-01
Linear Solver 1.681e+00
Minimizer 2.547e+00
Postprocessor 1.920e-02
Total 2.823e+00
Termination: FUNCTION_TOLERANCE
.. section-osx:
Building on Mac OS X
====================
On OS X, we recommend using the `homebrew
<http://mxcl.github.com/homebrew/>`_ package manager. Start by
installing all the dependencies.
.. code-block:: bash
# CMake
brew install cmake
# google-glog and gflags
brew install glog
# Eigen2
brew install eigen
# SuiteSparse and CXSparse
brew install suite-sparse
# protobuf
brew install protobuf
We are now ready to build and test Ceres.
.. code-block:: bash
tar zxf ceres-solver-1.5.0.tar.gz
mkdir ceres-bin
cd ceres-bin
cmake ../ceres-solver-1.5.0
make -j3
make test
Like the Linux build, you should now be able to run
``bin/simple_bundle_adjuster``.
.. _section-windows:
Building on Windows with Visual Studio
======================================
On Windows, we support building with Visual Studio 2010 or newer. Note
that the Windows port is less featureful and less tested than the
Linux or Mac OS X versions due to the unavaliability of SuiteSparse
and ``CXSparse``. Building is also more involved since there is no
automated way to install the dependencies.
#. Make a toplevel directory for deps & build & src somewhere: ``ceres/``
#. Get dependencies; unpack them as subdirectories in ``ceres/``
(``ceres/eigen``, ``ceres/glog``, etc)
#. ``Eigen`` 3.1 (needed on Windows; 3.0.x will not work). There is
no need to build anything; just unpack the source tarball.
#. ``google-glog`` Open up the Visual Studio solution and build it.
#. ``gflags`` Open up the Visual Studio solution and build it.
#. Unpack the Ceres tarball into ``ceres``. For the tarball, you
should get a directory inside ``ceres`` similar to
``ceres-solver-1.3.0``. Alternately, checkout Ceres via ``git`` to
get ``ceres-solver.git`` inside ``ceres``.
#. Install ``CMake``,
#. Make a dir ``ceres/ceres-bin`` (for an out-of-tree build)
#. 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 dir.
#. Try running ``Configure``. It won't work. It'll show a bunch of options.
You'll need to set:
#. ``GLOG_INCLUDE``
#. ``GLOG_LIB``
#. ``GFLAGS_LIB``
#. ``GFLAGS_INCLUDE``
to the appropriate place where you unpacked/built them.
#. 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``.
Notes:
#. The default build is Debug; consider switching it to release mode.
#. Currently ``system_test`` is not working properly.
#. Building Ceres as a DLL is not supported; patches welcome.
#. CMake puts the resulting test binaries in ``ceres-bin/examples/Debug``
by default.
#. The solvers supported on Windows are ``DENSE_QR``, ``DENSE_SCHUR``,
``CGNR``, and ``ITERATIVE_SCHUR``.
#. We're looking for someone to work with upstream ``SuiteSparse`` to
port their build system to something sane like ``CMake``, and get a
supported Windows port.
.. _section-android:
Building on Android
===================
Download the ``Android NDK``. Run ``ndk-build`` from inside the
``jni`` directory. Use the ``libceres.a`` that gets created.
.. _section-customizing:
Customizing the build
=====================
It is possible to reduce the libraries needed to build Ceres and
customize the build process by passing appropriate flags to
``CMake``. Use these flags only if you really know what you are doing.
#. ``-DPROTOBUF=OFF``: ``protobuf`` is a large and complicated
dependency. If you do not care for the tests that depend on it and
the logging support it enables, you can use this flag to turn it
off.
#. ``-DSUITESPARSE=OFF``: By default, Ceres will link to
``SuiteSparse`` if all its dependencies are present. Use this flag
to build Ceres without ``SuiteSparse``. This will also disable
dependency checking for ``LAPACK`` and ``BLAS``. This saves on
binary size, but the resulting version of Ceres is not suited to
large scale problems due to the lack of a sparse Cholesky solver.
This will reduce Ceres' dependencies down to ``Eigen``, ``gflags``
and ``google-glog``.
#. ``-DCXSPARSE=OFF``: By default, Ceres will link to ``CXSparse`` if all
its dependencies are present. Use this flag to buils Ceres without
``CXSparse``. This saves on binary size, but the resulting version
of Ceres is not suited to large scale problems due to the lack of a
sparse Cholesky solver. This will reduce Ceres' dependencies down
to ``Eigen``, ``gflags`` and ``google-glog``.
#. ``-DGFLAGS=OFF``: Use this flag to build Ceres without
``gflags``. This will also prevent some of the example code from
building.
#. ``-DSCHUR_SPECIALIZATIONS=OFF``: 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 using this flag.
#. ``-DLINE_SEARCH_MINIMIZER=OFF``: The line search based minimizer is
mostly suitable for large scale optimization problems, or when sparse
linear algebra libraries are not available. You can further save on
some compile time and binary size by using this flag.
#. ``-DOPENMP=OFF``: On certain platforms like Android,
multi-threading with ``OpenMP`` is not supported. Use this flag to
disable multithreading.
#. ``-DBUILD_DOCUMENTATION=ON``: Use this flag to enable building the
documentation. In addition, ``make ceres_docs`` can be used to build only the
documentation.
.. _section-using-ceres:
Using Ceres with CMake
======================
Once the library is installed with ``make install``, it is possible to use
CMake with `FIND_PACKAGE()
<http://www.cmake.org/cmake/help/v2.8.10/cmake.html#command:find_package>`_ in
order to compile **user code** against Ceres. For example, for `examples/helloworld.cc
<https://ceres-solver.googlesource.com/ceres-solver/+/master/examples/helloworld.cc>`_
the following CMakeList.txt can be used:
.. code-block:: cmake
CMAKE_MINIMUM_REQUIRED(VERSION 2.8)
PROJECT(helloworld)
FIND_PACKAGE(Ceres REQUIRED)
INCLUDE_DIRECTORIES(${CERES_INCLUDES})
# helloworld
ADD_EXECUTABLE(helloworld helloworld.cc)
TARGET_LINK_LIBRARIES(helloworld ${CERES_LIBRARIES})
Specify Ceres version
---------------------
Additionally, when CMake has found Ceres it can check the package version, if it
has been specified in the `FIND_PACKAGE()
<http://www.cmake.org/cmake/help/v2.8.10/cmake.html#command:find_package>`_ call.
For example:
.. code-block:: cmake
FIND_PACKAGE(Ceres 1.2.3 REQUIRED)
The version is an optional argument.
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.