Changeset 992:78434a448b5e in lemon-main for INSTALL

Timestamp:

12/22/11 20:55:43 (12 years ago)

Author:

Alpar Juttner <alpar@…>

Branch:

default

Phase:

public

Message:

Update INSTALL to use CMAKE. Also update AUTHORS and LICENSE

File:

• INSTALL (modified) (1 diff)

INSTALL

@@ -2 +2 @@
 =========================
 
-Since you are reading this I assume you already obtained one of the release
-tarballs and successfully extracted it. The latest version of LEMON is
-available at our web page (http://lemon.cs.elte.hu/).
+This file contains instructions for building and installing LEMON from
+source on Linux. The process on Windows is similar.
 
-LEMON provides two different build environments, one is based on "autotool",
-while the other is based on "cmake". This file contains instructions only for
-the former one, which is the recommended build environment on Linux, Mac OSX
-and other unices or if you use Cygwin on Windows. For cmake installation
-instructions visit http://lemon.cs.elte.hu.
+Note that it is not necessary to install LEMON in order to use
+it. Instead, you can easily integrate it with your own code
+directly. For instructions, see
+https://lemon.cs.elte.hu/trac/lemon/wiki/HowToCompile
+
 
 In order to install LEMON from the extracted source tarball you have to
 issue the following commands:
 
-   1. `cd lemon-x.y.z'
+   1. Step into the root of the source directory.
 
-      This command changes to the directory which was created when you
-      extracted the sources. The x.y.z part is a version number.
+      $ cd lemon-x.y.z
 
-   2. `./configure'
+   2. Create a build subdirectory and step into it.
 
-      This command runs the configure shell script, which does some checks and
-      creates the makefiles.
+      $ mkdir build
+      $ cd build
 
-   3. `make'
+   3. Perform system checks and create the makefiles.
 
-      This command compiles the non-template part of LEMON into libemon.a
-      file. It also compiles the programs in the tools subdirectory by
-      default.
+      $ cmake ..
 
-   4. `make check'
+   4. Build LEMON.
 
-      This step is optional, but recommended. It runs the test programs that
-      we developed for LEMON to check whether the library works properly on
-      your platform.
+      $ make 
 
-   5. `make install'
+      This command compiles the non-template part of LEMON into
+      libemon.a file. It also compiles the programs in the 'tools' and
+      'demo' subdirectories.
+
+   5. [Optional] Compile and run the self-tests.
+
+      $ make check
+
+   5. [Optional] Generate the user documentation.
+
+      $ make html
+
+      The release tarballs already include the documentation.
+
+      Note that for this step you need to have the following tools
+      installed: Python, Doxygen, Graphviz, Ghostscript, LaTeX.
+
+   6. [Optional] Install LEMON
+
+      $ make install
 
       This command installs LEMON under /usr/local (you will need root
-      privileges to be able to do that). If you want to install it to some
-      other location, then pass the --prefix=DIRECTORY flag to configure in
-      step 2. For example: `./configure --prefix=/home/username/lemon'.
-
-   6. `make install-html'
-
-      This command installs the documentation under share/doc/lemon/docs. The
-      generated documentation is included in the tarball. If you want to
-      generate it yourself, then run `make html'. Note that for this you need
-      to have the following programs installed: Doxygen, Graphviz, Ghostscript,
-      Latex.
-
+      privileges to be able to do that). If you want to install it to
+      some other location, then pass the
+      -DCMAKE_INSTALL_PREFIX=DIRECTORY flag to cmake in Step 3.
+      For example:
+      
+      $ cmake -DCMAKE_INSTALL_PREFIX=/home/username/lemon'
 
 Configure Options and Variables
 ===============================
 
-In step 2 you can customize the actions of configure by setting variables
-and passing options to it. This can be done like this:
-`./configure [OPTION]... [VARIABLE=VALUE]...'
+In Step 3, you can customize the build process by passing options to CMAKE.
 
-Below you will find some useful variables and options (see `./configure --help'
-for more):
+$ cmake [OPTIONS] ..
 
-CXX='comp'
+You find a list of the most useful options below.
 
-  Change the C++ compiler to 'comp'.
-
-CXXFLAGS='flags'
-
-  Pass the 'flags' to the compiler. For example CXXFLAGS='-O3 -march=pentium-m'
-  turns on generation of aggressively optimized Pentium-M specific code.
-
---prefix=PREFIX
+-DCMAKE_INSTALL_PREFIX=PREFIX
 
   Set the installation prefix to PREFIX. By default it is /usr/local.
 
---enable-tools
+-DCMAKE_BUILD_TYPE=[Release|Debug|Maintainer|...]
 
-   Build the programs in the tools subdirectory (default).
+  This sets the compiler options. The choices are the following
 
---disable-tools
+  'Release': A strong optimization is turned on (-O3 with gcc). This
+    is the default setting and we strongly recommend using this for
+    the final compilation.
 
-   Do not build the programs in the tools subdirectory.
+  'Debug': Optimization is turned off and debug info is added (-O0
+    -ggdb with gcc). If is recommended during the development.
 
---with-glpk[=PREFIX]
+  'Maintainer': The same as 'Debug' but the compiler warnings are
+    converted to errors (-Werror with gcc). In addition, 'make' will
+    also automatically compile and execute the test codes. It is the
+    best way of ensuring that LEMON codebase is clean and safe.
 
-   Enable GLPK support (default). You should specify the prefix too if
-   you installed GLPK to some non-standard location (e.g. your home
-   directory). If it is not found, GLPK support will be disabled.
+  'RelWithDebInfo': Optimized build with debug info.
 
---with-glpk-includedir=DIR
+  'MinSizeRel': Size optimized build (-Os with gcc)
 
-   The directory where the GLPK header files are located. This is only
-   useful when the GLPK headers and libraries are not under the same
-   prefix (which is unlikely).
+-DTEST_WITH_VALGRIND=YES
 
---with-glpk-libdir=DIR
+  Using this, the test codes will be executed using valgrind. It is a
+  very effective way of identifying indexing problems and memory leaks.
 
-   The directory where the GLPK libraries are located. This is only
-   useful when the GLPK headers and libraries are not under the same
-   prefix (which is unlikely).
+-DCMAKE_CXX_COMPILER=path-to-compiler
 
---without-glpk
+  Change the compiler to be used.
 
-   Disable GLPK support.
+-DBUILD_SHARED_LIBS=TRUE
 
---with-cplex[=PREFIX]
+  Build shared library instead of static one. Think twice if you
+  really want to use this option.
 
-   Enable CPLEX support (default). You should specify the prefix too
-   if you installed CPLEX to some non-standard location
-   (e.g. /opt/ilog/cplex75). If it is not found, CPLEX support will be
-   disabled.
+-DGLPK_ROOT_DIR=DIRECTORY
+-DCOIN_ROOT_DIR=DIRECTORY
+-DCPLEX_ROOT_DIR=DIRECTORY
 
---with-cplex-includedir=DIR
-
-   The directory where the CPLEX header files are located. This is
-   only useful when the CPLEX headers and libraries are not under the
-   same prefix (e.g.  /usr/local/cplex/cplex75/include).
-
---with-cplex-libdir=DIR
-
-   The directory where the CPLEX libraries are located. This is only
-   useful when the CPLEX headers and libraries are not under the same
-   prefix (e.g.
-   /usr/local/cplex/cplex75/lib/i86_linux2_glibc2.2_gcc3.0/static_pic_mt).
-
---without-cplex
-
-   Disable CPLEX support.
-
---with-soplex[=PREFIX]
-
-   Enable SoPlex support (default). You should specify the prefix too if
-   you installed SoPlex to some non-standard location (e.g. your home
-   directory). If it is not found, SoPlex support will be disabled.
-
---with-soplex-includedir=DIR
-
-   The directory where the SoPlex header files are located. This is only
-   useful when the SoPlex headers and libraries are not under the same
-   prefix (which is unlikely).
-
---with-soplex-libdir=DIR
-
-   The directory where the SoPlex libraries are located. This is only
-   useful when the SoPlex headers and libraries are not under the same
-   prefix (which is unlikely).
-
---without-soplex
-
-   Disable SoPlex support.
-
---with-coin[=PREFIX]
-
-   Enable support for COIN-OR solvers (CLP and CBC). You should
-   specify the prefix too. (by default, COIN-OR tools install
-   themselves to the source code directory). This command enables the
-   solvers that are actually found.
-
---with-coin-includedir=DIR
-
-   The directory where the COIN-OR header files are located. This is
-   only useful when the COIN-OR headers and libraries are not under
-   the same prefix (which is unlikely).
-
---with-coin-libdir=DIR
-
-   The directory where the COIN-OR libraries are located. This is only
-   useful when the COIN-OR headers and libraries are not under the
-   same prefix (which is unlikely).
-
---without-coin
-
-   Disable COIN-OR support.
-
+  Install root directory prefixes of optional third party libraries.
 
 Makefile Variables
 ==================
 
-Some Makefile variables are reserved by the GNU Coding Standards for
-the use of the "user" - the person building the package. For instance,
-CXX and CXXFLAGS are such variables, and have the same meaning as
-explained in the previous section. These variables can be set on the
-command line when invoking `make' like this:
-`make [VARIABLE=VALUE]...'
+make VERBOSE=1
 
-WARNINGCXXFLAGS is a non-standard Makefile variable introduced by us
-to hold several compiler flags related to warnings. Its default value
-can be overridden when invoking `make'. For example to disable all
-warning flags use `make WARNINGCXXFLAGS='.
-
-In order to turn off a single flag from the default set of warning
-flags, you can use the CXXFLAGS variable, since this is passed after
-WARNINGCXXFLAGS. For example to turn off `-Wold-style-cast' (which is
-used by default when g++ is detected) you can use
-`make CXXFLAGS="-g -O2 -Wno-old-style-cast"'.
+   This results in a more verbose output by showing the full
+   compiler and linker commands.