INSTALL
author Peter Kovacs <kpeter@inf.elte.hu>
Sat, 16 Mar 2013 16:20:41 +0100
changeset 1070 ee9bac10f58e
parent 992 78434a448b5e
child 1065 490d89913a17
permissions -rw-r--r--
Debug checking for capacity bounds in min cost flow algorithms (#454)
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Installation Instructions
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=========================
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This file contains instructions for building and installing LEMON from
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source on Linux. The process on Windows is similar.
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Note that it is not necessary to install LEMON in order to use
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it. Instead, you can easily integrate it with your own code
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directly. For instructions, see
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https://lemon.cs.elte.hu/trac/lemon/wiki/HowToCompile
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In order to install LEMON from the extracted source tarball you have to
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issue the following commands:
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   1. Step into the root of the source directory.
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      $ cd lemon-x.y.z
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   2. Create a build subdirectory and step into it.
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      $ mkdir build
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      $ cd build
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   3. Perform system checks and create the makefiles.
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      $ cmake ..
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   4. Build LEMON.
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      $ make 
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      This command compiles the non-template part of LEMON into
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      libemon.a file. It also compiles the programs in the 'tools' and
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      'demo' subdirectories.
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   5. [Optional] Compile and run the self-tests.
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      $ make check
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   5. [Optional] Generate the user documentation.
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      $ make html
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      The release tarballs already include the documentation.
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      Note that for this step you need to have the following tools
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      installed: Python, Doxygen, Graphviz, Ghostscript, LaTeX.
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   6. [Optional] Install LEMON
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      $ make install
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      This command installs LEMON under /usr/local (you will need root
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      privileges to be able to do that). If you want to install it to
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      some other location, then pass the
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      -DCMAKE_INSTALL_PREFIX=DIRECTORY flag to cmake in Step 3.
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      For example:
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      $ cmake -DCMAKE_INSTALL_PREFIX=/home/username/lemon'
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Configure Options and Variables
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===============================
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In Step 3, you can customize the build process by passing options to CMAKE.
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$ cmake [OPTIONS] ..
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You find a list of the most useful options below.
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-DCMAKE_INSTALL_PREFIX=PREFIX
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  Set the installation prefix to PREFIX. By default it is /usr/local.
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-DCMAKE_BUILD_TYPE=[Release|Debug|Maintainer|...]
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  This sets the compiler options. The choices are the following
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  'Release': A strong optimization is turned on (-O3 with gcc). This
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    is the default setting and we strongly recommend using this for
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    the final compilation.
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  'Debug': Optimization is turned off and debug info is added (-O0
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    -ggdb with gcc). If is recommended during the development.
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  'Maintainer': The same as 'Debug' but the compiler warnings are
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    converted to errors (-Werror with gcc). In addition, 'make' will
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    also automatically compile and execute the test codes. It is the
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    best way of ensuring that LEMON codebase is clean and safe.
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  'RelWithDebInfo': Optimized build with debug info.
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  'MinSizeRel': Size optimized build (-Os with gcc)
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-DTEST_WITH_VALGRIND=YES
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  Using this, the test codes will be executed using valgrind. It is a
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  very effective way of identifying indexing problems and memory leaks.
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-DCMAKE_CXX_COMPILER=path-to-compiler
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  Change the compiler to be used.
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-DBUILD_SHARED_LIBS=TRUE
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  Build shared library instead of static one. Think twice if you
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  really want to use this option.
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-DLEMON_DOC_SOURCE_BROWSER=YES
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  Include the browsable cross referenced LEMON source code into the
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  doc. It makes the doc quite bloated, but may be useful for
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  developing LEMON itself.
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-DLEMON_DOC_USE_MATHJAX=YES
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  Use MathJax (http://mathjax.org) for rendering the math formulae in
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  the doc.  It of much higher quality compared to the default LaTeX
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  generated static images and it allows copy&paste of the formulae to
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  LaTeX, Open Office, MS Word etc. documents.
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  On the other hand, it needs either Internet access or a locally
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  installed version of MathJax to properly render the doc.
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-DLEMON_DOC_MATHJAX_RELPATH=DIRECTORY
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  The location of the MathJax library. It defaults to
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  http://www.mathjax.org/mathjax, which necessitates Internet access
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  for proper rendering. The easiest way to make it usable offline is
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  to set this parameter to 'mathjax' and copy all files of the MathJax
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  library into the 'doc/html/mathjax' subdirectory of the build
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  location.
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  See http://docs.mathjax.org/en/latest/installation.html for more details.
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-DGLPK_ROOT_DIR=DIRECTORY
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-DCOIN_ROOT_DIR=DIRECTORY
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-DCPLEX_ROOT_DIR=DIRECTORY
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  Install root directory prefixes of optional third party libraries.
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Makefile Variables
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==================
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make VERBOSE=1
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   This results in a more verbose output by showing the full
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   compiler and linker commands.