docs/source/building.rst - ceres-solver - Git at Google

 .. _chapter-building:

 ============
 Installation
 ============

 Stable Ceres Solver releases are available for download at
 `code.google.com <http://code.google.com/p/ceres-solver/>`_. For the
 more adventurous, the git repository is hosted on `Gerrit
 <https://ceres-solver-review.googlesource.com/>`_.

 .. _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. Ceres contains a stripped-down,
 minimal version of ``glog`` called ``miniglog``, which can be enabled
 with the ``MINIGLOG`` build option. If enabled, it replaces the
 requirement for ``glog``. However, in general it is recommended that
 you use the full ``glog``.

 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, CAMD, 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``. This is an optional dependency.

 7. `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.
 We recommend `ATLAS <http://math-atlas.sourceforge.net/>`_,
 which includes BLAS and LAPACK routines. It is also possible to use
 `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.

 .. _section-linux:

 Building on Linux
 =================
 We will use `Ubuntu <http://www.ubuntu.com>`_ as our example
 platform. Start by installing all the dependencies.

 .. NOTE::

  Up to at least Ubuntu 13.10, the SuiteSparse package in the official
  package repository (built from SuiteSparse v3.4.0) **cannot** be used
  to build Ceres as a *shared* library.  Thus if you want to build
  Ceres as a shared library using SuiteSparse, you must perform a
  source install of SuiteSparse.  It is recommended that you use the
  current version of SuiteSparse (4.2.1 at the time of writing).

 .. code-block:: bash

      # CMake
      sudo apt-get 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
      # BLAS & LAPACK
      sudo apt-get install libatlas-base-dev
      # Eigen3
      sudo apt-get install libeigen3-dev
      # SuiteSparse and CXSparse (optional)
      # - If you want to build Ceres as a *static* library (the default)
      #   you can use the SuiteSparse package in the main Ubuntu package
      #   repository:
      sudo apt-get install libsuitesparse-dev
      # - However, if you want to build Ceres as a *shared* library, you must
      #   perform a source install of SuiteSparse (and uninstall the Ubuntu
      #   package if it is currently installed.

 We are now ready to build and test Ceres.

 .. code-block:: bash

  tar zxf ceres-solver-1.7.0.tar.gz
  mkdir ceres-bin
  cd ceres-bin
  cmake ../ceres-solver-1.7.0
  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-1.7.0/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 to install the
 dependencies. There is no need to install ``BLAS`` or ``LAPACK``
 separately as OS X 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.

 .. NOTE::

  Ceres will not compile using Xcode 4.5.x (Clang version 4.1) due to a bug in that version of
  Clang.  If you are running Xcode 4.5.x, please update to Xcode >= 4.6.x before attempting to
  build Ceres.

 .. code-block:: bash

       # CMake
       brew install cmake
       # google-glog and gflags
       brew install glog
       # Eigen3
       brew install eigen
       # SuiteSparse and CXSparse
       brew install suite-sparse


 We are now ready to build and test Ceres.

 .. code-block:: bash

    tar zxf ceres-solver-1.7.0.tar.gz
    mkdir ceres-bin
    cd ceres-bin
    cmake ../ceres-solver-1.7.0
    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 unavailability 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:

    #. ``EIGEN_INCLUDE_DIR``
    #. ``GLOG_INCLUDE_DIR``
    #. ``GLOG_LIBRARY``
    #. ``GFLAGS_INCLUDE_DIR``
    #. ``GFLAGS_LIBRARY``

    to the appropriate place where you unpacked/built them. If any of the
    variables are not visible in the ``CMake`` GUI, toggle to the
    *Advanced View* with ``<t>``.

 #. 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 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>``.

 Options controlling Ceres configuration
 ---------------------------------------

 #. ``LAPACK [Default: ON]``: By default Ceres will use ``LAPACK`` (&
    ``BLAS``) if they are found.  Turn this ``OFF`` to build Ceres
    without ``LAPACK``. Turning this ``OFF`` also disables
    ``SUITESPARSE`` as it depends on ``LAPACK``.

 #. ``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 that
    ``LAPACK`` must be ``ON`` in order to build with ``SuiteSparse``.

 #. ``CXSPARSE [Default: ON]``: By default, Ceres will link to
    ``CXSparse`` if all its dependencies are present. Turn this ``OFF``
    to build Ceres without ``CXSparse``.

 #. ``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``.

 #. ``LINE_SEARCH_MINIMIZER [Default: ON]``: 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 turning this
    ``OFF``.

 #. ``OPENMP [Default: ON]``: On certain platforms like Android,
    multi-threading with ``OpenMP`` is not supported. Turn this ``OFF``
    to disable multithreading.

 #. ``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.

 #. ``BUILD_DOCUMENTATION [Default: OFF]``: Use this to enable building
    the documentation, requires `Sphinx <http://sphinx-doc.org/>`_. 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.


 Options controlling Ceres dependency locations
 ----------------------------------------------

 Ceres uses the ``CMake``
 `find_package <http://www.cmake.org/cmake/help/v2.8.12/cmake.html#command:find_package>`_
 function to find all of its dependencies 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``.

 .. _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_INCLUDE_DIRS})

     # 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.
	.. _chapter-building:

	============
	Installation
	============

	Stable Ceres Solver releases are available for download at
	`code.google.com <http://code.google.com/p/ceres-solver/>`_. For the
	more adventurous, the git repository is hosted on `Gerrit
	<https://ceres-solver-review.googlesource.com/>`_.

	.. _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. Ceres contains a stripped-down,
	minimal version of ``glog`` called ``miniglog``, which can be enabled
	with the ``MINIGLOG`` build option. If enabled, it replaces the
	requirement for ``glog``. However, in general it is recommended that
	you use the full ``glog``.

	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, CAMD, 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``. This is an optional dependency.

	7. `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.
	We recommend `ATLAS <http://math-atlas.sourceforge.net/>`_,
	which includes BLAS and LAPACK routines. It is also possible to use
	`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.

	.. _section-linux:

	Building on Linux
	=================
	We will use `Ubuntu <http://www.ubuntu.com>`_ as our example
	platform. Start by installing all the dependencies.

	.. NOTE::

	Up to at least Ubuntu 13.10, the SuiteSparse package in the official
	package repository (built from SuiteSparse v3.4.0) cannot be used
	to build Ceres as a shared library. Thus if you want to build
	Ceres as a shared library using SuiteSparse, you must perform a
	source install of SuiteSparse. It is recommended that you use the
	current version of SuiteSparse (4.2.1 at the time of writing).

	.. code-block:: bash

	# CMake
	sudo apt-get 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
	# BLAS & LAPACK
	sudo apt-get install libatlas-base-dev
	# Eigen3
	sudo apt-get install libeigen3-dev
	# SuiteSparse and CXSparse (optional)
	# - If you want to build Ceres as a static library (the default)
	# you can use the SuiteSparse package in the main Ubuntu package
	# repository:
	sudo apt-get install libsuitesparse-dev
	# - However, if you want to build Ceres as a shared library, you must
	# perform a source install of SuiteSparse (and uninstall the Ubuntu
	# package if it is currently installed.

	We are now ready to build and test Ceres.

	.. code-block:: bash

	tar zxf ceres-solver-1.7.0.tar.gz
	mkdir ceres-bin
	cd ceres-bin
	cmake ../ceres-solver-1.7.0
	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-1.7.0/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 to install the
	dependencies. There is no need to install ``BLAS`` or ``LAPACK``
	separately as OS X 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.

	.. NOTE::

	Ceres will not compile using Xcode 4.5.x (Clang version 4.1) due to a bug in that version of
	Clang. If you are running Xcode 4.5.x, please update to Xcode >= 4.6.x before attempting to
	build Ceres.

	.. code-block:: bash

	# CMake
	brew install cmake
	# google-glog and gflags
	brew install glog
	# Eigen3
	brew install eigen
	# SuiteSparse and CXSparse
	brew install suite-sparse


	We are now ready to build and test Ceres.

	.. code-block:: bash

	tar zxf ceres-solver-1.7.0.tar.gz
	mkdir ceres-bin
	cd ceres-bin
	cmake ../ceres-solver-1.7.0
	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 unavailability 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:

	#. ``EIGEN_INCLUDE_DIR``
	#. ``GLOG_INCLUDE_DIR``
	#. ``GLOG_LIBRARY``
	#. ``GFLAGS_INCLUDE_DIR``
	#. ``GFLAGS_LIBRARY``

	to the appropriate place where you unpacked/built them. If any of the
	variables are not visible in the ``CMake`` GUI, toggle to the
	Advanced View with ``<t>``.

	#. 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 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>``.

	Options controlling Ceres configuration
	---------------------------------------

	#. ``LAPACK [Default: ON]``: By default Ceres will use ``LAPACK`` (&
	``BLAS``) if they are found. Turn this ``OFF`` to build Ceres
	without ``LAPACK``. Turning this ``OFF`` also disables
	``SUITESPARSE`` as it depends on ``LAPACK``.

	#. ``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 that
	``LAPACK`` must be ``ON`` in order to build with ``SuiteSparse``.

	#. ``CXSPARSE [Default: ON]``: By default, Ceres will link to
	``CXSparse`` if all its dependencies are present. Turn this ``OFF``
	to build Ceres without ``CXSparse``.

	#. ``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``.

	#. ``LINE_SEARCH_MINIMIZER [Default: ON]``: 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 turning this
	``OFF``.

	#. ``OPENMP [Default: ON]``: On certain platforms like Android,
	multi-threading with ``OpenMP`` is not supported. Turn this ``OFF``
	to disable multithreading.

	#. ``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.

	#. ``BUILD_DOCUMENTATION [Default: OFF]``: Use this to enable building
	the documentation, requires `Sphinx <http://sphinx-doc.org/>`_. 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.


	Options controlling Ceres dependency locations
	----------------------------------------------

	Ceres uses the ``CMake``
	`find_package <http://www.cmake.org/cmake/help/v2.8.12/cmake.html#command:find_package>`_
	function to find all of its dependencies 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``.

	.. _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_INCLUDE_DIRS})

	# 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.