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Back to HeuristicSpecification. | Back to [[Doc/Heuristic]]. |
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Some configurations of Fast Downward, such as optimal cost partitioning for landmark heuristics, require an Linear Programming (LP) solver and will complain if the planner has not been built with support for such a solver. | Some configurations of the search component of Fast Downward, such as optimal cost partitioning for landmark heuristics, require a linear programming (LP) solver and will complain if the planner has not been built with support for such a solver. Setting up LP support requires three steps, explained below: |
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Fast Downward uses the [[http://www.coin-or.org/|COIN-OR]] LP Solver ([[http://www.coin-or.org/Clp/|CLP]]) with the [[https://projects.coin-or.org/Osi|Open Solver Interface]]. | 1. Installing one or more LP solvers. 1. Installing the Open Solver Interface. 1. Building Fast Downward with LP support. |
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== Instructions for building Fast Downward with LP support == | == Step 1. Installing one or more LP solvers == |
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Build Fast Downward with LP support as follows: | Fast Downward uses a generic interface (see next step) for accessing LP solvers and hence can be used together with different LP solvers. Currently, three LP solvers are supported: CPLEX, Gurobi, and COIN-LP. You can install one, two or all three solvers without causing conflicts. The solver used by the planner is selected by command-line arguments, not at compile time. We recommend using CPLEX, which in our experiments has led to better performance than COIN-LP. We have no experience with Gurobi, but others recommend it over CPLEX. (If you have data comparing these two within Fast Downward, we would be very interested in hearing about it.) === Installing one or more LP solvers: CPLEX === IBM offers a [[https://developer.ibm.com/academic/|free academic license]] that includes access to CPLEX. Once you are registered, you can download the 64 bit binary from the member area of the [[https://ibm.onthehub.com|Academic Initiative Website]]. Execute the binary and follow the guided installation. If you want to install in a global location, you have to execute the installer as {{{root}}}. After the installation, set the following environment variable (adapt the path if you did not install in the default location): {{{ export DOWNWARD_CPLEX_ROOT64=/opt/ibm/ILOG/CPLEX_Studio1263/cplex }}} If you need 32 bit builds, you also have to install the 32 bit version of CPLEX and use the environment variable {{{DOWNWARD_CPLEX_ROOT32}}} to identify its location. However, CPLEX will no longer support 32-bit builds starting with version 12.7 and previous 32-bit versions of CPLEX are not compatible with recent OS versions. If you get segmentation faults with 32-bit CPLEX builds, try to build one of the sample programs that come with CPLEX to see if it is installed correctly. If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in {{{src/build.py}}}. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.). For instructions for Windows, see below. === Installing one or more LP solvers: Gurobi === We have no experience with installing Gurobi. On Linux, Gurobi is only available for 64bit, which means that it cannot be used with our default (32bit) build. After the installation, set the following environment variables: {{{ export DOWNWARD_GUROBI_ROOT=/path/to/gurobi }}} If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in {{{src/build.py}}}. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.). === Installing one or more LP solvers: COIN-LP === COIN-LP is no longer bundled with OSI starting from version 0.104.0 and needs to be installed separately. Installation should be possible with {{{ sudo apt-get install clp }}} but we have no experience with this. We recommend against using it in serious experiments unless you have established that it offers comparable performance to CPLEX in your setting. == Step 2. Installing the Open Solver Interface == The Open Solver Interface (OSI) provides a common interface to different LP solvers. OSI must be compiled '''after''' installing the LP solver(s) in Step 1. If you install a solver later, repeat the installation steps of OSI. We assume in the following that 64-bit CPLEX is installed and the environment variable {{{DOWNWARD_CPLEX_ROOT64}}} is set up correctly. These instructions apply to COIN/OSI 0.107.8, newer versions from http://www.coin-or.org/download/source/Osi/ should work, too. If you experience problems, please [[HomePage#contact|let us know]]. === Installing the Open Solver Interface on Linux === Run the following commands. If you have chosen not to install CPLEX, '''omit''' the options related to this solver from the call to {{{./configure}}} (options for solvers that are not installed can lead to very cryptic error messages). If you installed other solvers like CLP or Gurobi, also add the corresponding options for them. You may have to include the path to shared libraries in {{{LDFLAGS}}}, i.e. {{{LDFLAGS="-L$DOWNWARD_CPLEX_ROOT64/lib -L/usr/lib/gcc/i686-linux-gnu/4.8"}}}. If there are other problems, see the [[#Troubleshooting|troubleshooting section]]. |
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cd downward/search/lp ./setup # Build the LP solver -- might take a few minutes. make USE_LP_CLP=1 # Build "search" (debug mode) with LP support. make USE_LP_CLP=1 release # Build "release-search" (release mode) with LP support. |
wget http://www.coin-or.org/download/source/Osi/Osi-0.107.8.tgz tar xvzf Osi-0.107.8.tgz cd Osi-0.107.8 sudo ./configure CC="gcc" CFLAGS="-m64 -pthread -Wno-long-long" \ CXX="g++" CXXFLAGS="-m64 -pthread -Wno-long-long" \ LDFLAGS="-L$DOWNWARD_CPLEX_ROOT64/lib/x86-64_linux/static_pic" \ --without-lapack --enable-static=yes \ --prefix="/opt/coin64" \ --disable-zlib --disable-bzlib \ --with-cplex-incdir=$DOWNWARD_CPLEX_ROOT64/include/ilcplex --with-cplex-lib="-lcplex -lm" sudo make sudo make install cd .. sudo rm -rf Osi-0.107.8 rm Osi-0.107.8.tgz |
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After installation, set the environment variable {{{DOWNWARD_COIN_ROOT64}}} to the prefix you used in the call to {{{./configure}}}. For example: {{{ export DOWNWARD_COIN_ROOT64=/opt/coin64 }}} If you want to compile for 32-bit, change {{{-m64}}} to {{{-m32}}} in the configuration step above and use the CPLEX paths to the 32-bit version. You also have to change the setting for {{{--prefix}}}, otherwise the 32-bit version will overwrite the 64-bit version. You can then use the environment variables {{{DOWNWARD_COIN_ROOT32}}} to identify the version. If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in {{{src/build.py}}}. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.). === Installing the Open Solver Interface on Mac OS X === Follow the Linux instructions above with the following changes: * Replace {{{-m32}}} with {{{-arch i386}}}. * Building {{{CoinUtils}}} can create both static and dynamic libraries and there have been reported problems with both. * To use static libraries, delete the dynamic libraries from {{{$(DOWNWARD_COIN_ROOT)/lib/}}} after building {{{CoinUtils}}}. * '''or''' * To use dynamic libraries, replace {{{--enable-static=yes}}} with {{{--enable-static=no}}} and change the Fast Downward CMakefile to look for dynamic (*.dylib) instead of static (*.a) libraries of libOsiCpx, libOsiGrb, and libOsiClp. Installation of version 0.103.0 has been reported to fail on Mac OS X due to a bug in the {{{CoinUtils}}} configure script. (See [[http://issues.fast-downward.org/issue295|issue295]].) If you run into this problem, try downloading the [[attachment:coinutils-configure.patched|patched file]] attached to this page, make it executable, and replace the file {{{Osi-0.103.0/CoinUtils/configure}}} with it: {{{#! highlight bash cp Dowloads/coinutils-configure.patched Osi-0.103.0/CoinUtils/configure chmod +x Osi-0.103.0/CoinUtils/configure }}} === Installing the Open Solver Interface on Windows === We managed to install OSI with support for CPLEX on Windows using {{{msys2}}} using the following steps: 1. Install CPLEX into a directory without spaces. We assume this is {{{C:\cplex}}}. Usually you will install ILOG Studio, which contains more than just CPLEX, so the paths below use {{{C:\cplex\cplex}}} to point to the CPLEX part of it. 1. Install [[http://sourceforge.net/projects/msys2/|msys2]] (this is only necessary to compile Osi and not required to compile the planner) 1. Within msys2 use pacman to install base-devel: {{{pacman -S base-devel}}} 1. Download Osi (we use 0.103.0, newer versions should work but are untested) and unpack to {{{C:\msys64\home\<username>\Osi-0.103.0}}} 1. Start the "VS2013 x86 Native Tools Command Prompt", log in to msys from there, and change to the Osi directory: {{{#!highlight bash C:\msys64\usr\bin\bash --login -i cd Osi-0.103.0 }}} 1. Compile debug version of OSI: {{{#!highlight bash mkdir /c/osi mkdir /c/osi/mtd LD='link' STRIP=':' AR='lib' RANLIB=':' NM='dumpbin -symbols' \ CC='cl -nologo' CFLAGS=' -MTd -Zi -FS' CXX='cl -nologo' CXXFLAGS=' -MTd -Zi -EHsc -FS' \ ./configure --host=x86_64-w64-mingw32 \ --build=mingw32 \ --prefix=/c/osi/mtd \ --with-cplex-lib='-L/c/cplex/cplex/lib/x86_windows_vs2013/stat_mtd/cplex1262.lib' \ --with-cplex-incdir='/c/cplex/cplex/include/ilcplex' \ --disable-cplex-libcheck make make install }}} Afterwards, copy the debug symbol file {{{C:\msys64\home\<username>\Osi-0.103.0\vc120.pdb}}} to {{{C:\osi\mtd\lib\}}} to avoid compiler warnings when compiling a debug version. 1. Compile release version of OSI. Note the subtle differences to the command above: we use the directory {{{/c/osi/mt}}} instead of {{{/c/osi/mtd}}} in two places, the flag {{{-MT}}} instead of {{{-MTd}}} in two places, and the CPLEX library {{{stat_mta}}} instead of {{{stat_mtd}}}: {{{#!highlight bash mkdir /c/osi mkdir /c/osi/mt LD='link' STRIP=':' AR='lib' RANLIB=':' NM='dumpbin -symbols' \ CC='cl -nologo' CFLAGS=' -MT -Zi -FS' CXX='cl -nologo' CXXFLAGS=' -MT -Zi -EHsc -FS' \ ./configure --host=x86_64-w64-mingw32 \ --build=mingw32 \ --prefix=/c/osi/mt \ --with-cplex-lib='-L/c/cplex/cplex/lib/x86_windows_vs2013/stat_mta/cplex1262.lib' \ --with-cplex-incdir='/c/cplex/cplex/include/ilcplex' \ --disable-cplex-libcheck make make install }}} To compile a 64-bit version, start the "VS2013 x64 Native Tools Command Prompt" in step 5 instead of the x86 one. Then chose the 64-bit version of CLPEX in steps 6. and 7., and use a different prefix, e.g., {{{--prefix=/c/osi/mt64}}}. Everything else stays the same (in particular {{{--host=x86_64-w64-mingw32}}} and {{{--build=mingw32}}} do not change). Note that linking under Windows only works if the libraries were compiled with the same flags. For example, if OSI is compiled with the flag {{{-MTd}}} (dynamic debug) then the planner also has to use this flag for compilation. In our CMake build system some flags are automatically determined by the build type, e.g., if CMake is called with {{{CMAKE_BUILD_TYPE=DEBUG}}}, the flag {{{-MTd}}} is added by default. The CPLEX library also has to fit to everything. This is important when compiling Osi (in the --with-cplex-lib paramater, see above) and when compiling Fast Downward (handled by the CMake file). CPLEX has precompiled libraries for different versions of Visual Studio each as a static release and static debug version. This is documented in the file {{{C:/cplex/cplex/c_cpp.html}}}. To allow both debug and release builds of 32- and 64-bit version to link against the correct version of OSI, set the following environment variables: {{{#!highlight bash DOWNWARD_COIN_ROOT_RELEASE32=C:/osi/mt DOWNWARD_COIN_ROOT_DEBUG32=C:/osi/mtd DOWNWARD_COIN_ROOT_RELEASE64=C:/osi/mt64 DOWNWARD_COIN_ROOT_DEBUG64=C:/osi/mtd64 }}} == Step 3. Building Fast Downward with LP support == Once OSI is installed, you can build Fast Downward's search component with LP support by calling {{{./build.py}}}. Remove your previous build first: {{{ rm -rf builds }}} Fast Downward automatically includes an LP Solver in the build, if it is needed, and the solver and the necessary OSI adapter are detected on the system. If you want to explicitly build without the LP solver that is installed on your system, disable the LP solver plugin (with {{{-DPLUGIN_LP_SOLVER_ENABLED=FALSE}}}) and all plug-ins that require it, such as {{{POTENTIAL_HEURISTICS}}} (see ObtainingAndRunningFastDownward#Manual_Builds). == Troubleshooting == The LP-related libraries have a number of dependencies which might not be installed on your system. If for some reason one of the above steps fails, we would appreciate if you could attempt to troubleshoot it yourself. If the configure step of COIN/OSI fails with the error {{{Cannot find symbol(s) CPXgetstat with CPX}}}, check the path to the CPLEX lib directory. Depending on your CPLEX installation, the libraries might be stored in a different place, e.g., in {{{$DOWNWARD_CPLEX_ROOT/lib/x86-64_sles10_4.1/static_pic}}}. Check that the directory exists and contains the file {{{libcplex.a}}}. If the configure step fails for another reason, have a look at their [[https://projects.coin-or.org/BuildTools/wiki/user-troubleshooting|troubleshooting page]] or their page of [[https://projects.coin-or.org/BuildTools/wiki/current-issues|current issues]]. If you get warnings about unresolved references with CPLEX, visit their [[http://www-01.ibm.com/support/docview.wss?uid=swg21399926|help pages]]. If Fast Downward gives you compilation errors mentioning the `isnan` function, you are likely affected by an OSI/compiler incompatibility (see [[http://issues.fast-downward.org/issue681]]). In this case try the following: 1. Add `export DOWNWARD_USE_ISNAN_WORKAROUND=1` to your `~/.bashrc` file (or other shell configuration file). 1. Make sure the changed shell configuration takes effect by logging out and then logging in again. 1. In the main directory of the repository, delete all cmake build artifacts with `rm -r builds`. 1. Rebuild. If installing a 32-bit version of OSI on maia leads to an error about the wrong file format of {{{libstdc++.so}}}, then removing 64-bit specific paths from {{{LD_LIBRARY_PATH}}} might help. For example with g++-4.9.2 on maia, removing {{{/scicore/soft/apps/GCC/4.9.2/lib64}}} helps. If after troubleshooting you can get the LP package to work, please do let us know of your problem and its solution so that we can improve these instructions. If you still cannot get it to work, we may be able to provide some help, but note that the LP solvers and OSI library are external packages not developed by us. |
Back to Doc/Heuristic.
LP solver support
Some configurations of the search component of Fast Downward, such as optimal cost partitioning for landmark heuristics, require a linear programming (LP) solver and will complain if the planner has not been built with support for such a solver. Setting up LP support requires three steps, explained below:
- Installing one or more LP solvers.
- Installing the Open Solver Interface.
- Building Fast Downward with LP support.
Step 1. Installing one or more LP solvers
Fast Downward uses a generic interface (see next step) for accessing LP solvers and hence can be used together with different LP solvers. Currently, three LP solvers are supported: CPLEX, Gurobi, and COIN-LP. You can install one, two or all three solvers without causing conflicts. The solver used by the planner is selected by command-line arguments, not at compile time. We recommend using CPLEX, which in our experiments has led to better performance than COIN-LP. We have no experience with Gurobi, but others recommend it over CPLEX. (If you have data comparing these two within Fast Downward, we would be very interested in hearing about it.)
Installing one or more LP solvers: CPLEX
IBM offers a free academic license that includes access to CPLEX. Once you are registered, you can download the 64 bit binary from the member area of the Academic Initiative Website. Execute the binary and follow the guided installation. If you want to install in a global location, you have to execute the installer as root.
After the installation, set the following environment variable (adapt the path if you did not install in the default location):
export DOWNWARD_CPLEX_ROOT64=/opt/ibm/ILOG/CPLEX_Studio1263/cplex
If you need 32 bit builds, you also have to install the 32 bit version of CPLEX and use the environment variable DOWNWARD_CPLEX_ROOT32 to identify its location. However, CPLEX will no longer support 32-bit builds starting with version 12.7 and previous 32-bit versions of CPLEX are not compatible with recent OS versions. If you get segmentation faults with 32-bit CPLEX builds, try to build one of the sample programs that come with CPLEX to see if it is installed correctly.
If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in src/build.py. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.).
For instructions for Windows, see below.
Installing one or more LP solvers: Gurobi
We have no experience with installing Gurobi. On Linux, Gurobi is only available for 64bit, which means that it cannot be used with our default (32bit) build.
After the installation, set the following environment variables:
export DOWNWARD_GUROBI_ROOT=/path/to/gurobi
If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in src/build.py. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.).
Installing one or more LP solvers: COIN-LP
COIN-LP is no longer bundled with OSI starting from version 0.104.0 and needs to be installed separately. Installation should be possible with
sudo apt-get install clp
but we have no experience with this. We recommend against using it in serious experiments unless you have established that it offers comparable performance to CPLEX in your setting.
Step 2. Installing the Open Solver Interface
The Open Solver Interface (OSI) provides a common interface to different LP solvers. OSI must be compiled after installing the LP solver(s) in Step 1. If you install a solver later, repeat the installation steps of OSI. We assume in the following that 64-bit CPLEX is installed and the environment variable DOWNWARD_CPLEX_ROOT64 is set up correctly.
These instructions apply to COIN/OSI 0.107.8, newer versions from http://www.coin-or.org/download/source/Osi/ should work, too. If you experience problems, please let us know.
Installing the Open Solver Interface on Linux
Run the following commands. If you have chosen not to install CPLEX, omit the options related to this solver from the call to ./configure (options for solvers that are not installed can lead to very cryptic error messages). If you installed other solvers like CLP or Gurobi, also add the corresponding options for them. You may have to include the path to shared libraries in LDFLAGS, i.e. LDFLAGS="-L$DOWNWARD_CPLEX_ROOT64/lib -L/usr/lib/gcc/i686-linux-gnu/4.8". If there are other problems, see the troubleshooting section.
1 wget http://www.coin-or.org/download/source/Osi/Osi-0.107.8.tgz
2 tar xvzf Osi-0.107.8.tgz
3 cd Osi-0.107.8
4
5 sudo ./configure CC="gcc" CFLAGS="-m64 -pthread -Wno-long-long" \
6 CXX="g++" CXXFLAGS="-m64 -pthread -Wno-long-long" \
7 LDFLAGS="-L$DOWNWARD_CPLEX_ROOT64/lib/x86-64_linux/static_pic" \
8 --without-lapack --enable-static=yes \
9 --prefix="/opt/coin64" \
10 --disable-zlib --disable-bzlib \
11 --with-cplex-incdir=$DOWNWARD_CPLEX_ROOT64/include/ilcplex --with-cplex-lib="-lcplex -lm"
12 sudo make
13 sudo make install
14 cd ..
15 sudo rm -rf Osi-0.107.8
16 rm Osi-0.107.8.tgz
After installation, set the environment variable DOWNWARD_COIN_ROOT64 to the prefix you used in the call to ./configure. For example:
export DOWNWARD_COIN_ROOT64=/opt/coin64
If you want to compile for 32-bit, change -m64 to -m32 in the configuration step above and use the CPLEX paths to the 32-bit version. You also have to change the setting for --prefix, otherwise the 32-bit version will overwrite the 64-bit version. You can then use the environment variables DOWNWARD_COIN_ROOT32 to identify the version.
If you don't want to permanently modify your environment, you can also set these variables directly when calling CMake, or in src/build.py. The variables need to be set for when installing the Open Solver Interface (Step 2.) and when building Fast Downward's search component (Step 3.).
Installing the Open Solver Interface on Mac OS X
Follow the Linux instructions above with the following changes:
Replace -m32 with -arch i386.
Building CoinUtils can create both static and dynamic libraries and there have been reported problems with both.
To use static libraries, delete the dynamic libraries from $(DOWNWARD_COIN_ROOT)/lib/ after building CoinUtils.
or
To use dynamic libraries, replace --enable-static=yes with --enable-static=no and change the Fast Downward CMakefile to look for dynamic (*.dylib) instead of static (*.a) libraries of libOsiCpx, libOsiGrb, and libOsiClp.
Installation of version 0.103.0 has been reported to fail on Mac OS X due to a bug in the CoinUtils configure script. (See issue295.) If you run into this problem, try downloading the patched file attached to this page, make it executable, and replace the file Osi-0.103.0/CoinUtils/configure with it:
cp Dowloads/coinutils-configure.patched Osi-0.103.0/CoinUtils/configure chmod +x Osi-0.103.0/CoinUtils/configure
Installing the Open Solver Interface on Windows
We managed to install OSI with support for CPLEX on Windows using msys2 using the following steps:
Install CPLEX into a directory without spaces. We assume this is C:\cplex. Usually you will install ILOG Studio, which contains more than just CPLEX, so the paths below use C:\cplex\cplex to point to the CPLEX part of it.
Install msys2 (this is only necessary to compile Osi and not required to compile the planner)
Within msys2 use pacman to install base-devel: pacman -S base-devel
Download Osi (we use 0.103.0, newer versions should work but are untested) and unpack to C:\msys64\home\<username>\Osi-0.103.0
- Start the "VS2013 x86 Native Tools Command Prompt", log in to msys from there, and change to the Osi directory:
- Compile debug version of OSI:
1 mkdir /c/osi 2 mkdir /c/osi/mtd 3 LD='link' STRIP=':' AR='lib' RANLIB=':' NM='dumpbin -symbols' \ 4 CC='cl -nologo' CFLAGS=' -MTd -Zi -FS' CXX='cl -nologo' CXXFLAGS=' -MTd -Zi -EHsc -FS' \ 5 ./configure --host=x86_64-w64-mingw32 \ 6 --build=mingw32 \ 7 --prefix=/c/osi/mtd \ 8 --with-cplex-lib='-L/c/cplex/cplex/lib/x86_windows_vs2013/stat_mtd/cplex1262.lib' \ 9 --with-cplex-incdir='/c/cplex/cplex/include/ilcplex' \ 10 --disable-cplex-libcheck 11 make 12 make install
Afterwards, copy the debug symbol file C:\msys64\home\<username>\Osi-0.103.0\vc120.pdb to C:\osi\mtd\lib\ to avoid compiler warnings when compiling a debug version.
Compile release version of OSI. Note the subtle differences to the command above: we use the directory /c/osi/mt instead of /c/osi/mtd in two places, the flag -MT instead of -MTd in two places, and the CPLEX library stat_mta instead of stat_mtd:
1 mkdir /c/osi 2 mkdir /c/osi/mt 3 LD='link' STRIP=':' AR='lib' RANLIB=':' NM='dumpbin -symbols' \ 4 CC='cl -nologo' CFLAGS=' -MT -Zi -FS' CXX='cl -nologo' CXXFLAGS=' -MT -Zi -EHsc -FS' \ 5 ./configure --host=x86_64-w64-mingw32 \ 6 --build=mingw32 \ 7 --prefix=/c/osi/mt \ 8 --with-cplex-lib='-L/c/cplex/cplex/lib/x86_windows_vs2013/stat_mta/cplex1262.lib' \ 9 --with-cplex-incdir='/c/cplex/cplex/include/ilcplex' \ 10 --disable-cplex-libcheck 11 make 12 make install
To compile a 64-bit version, start the "VS2013 x64 Native Tools Command Prompt" in step 5 instead of the x86 one. Then chose the 64-bit version of CLPEX in steps 6. and 7., and use a different prefix, e.g., --prefix=/c/osi/mt64. Everything else stays the same (in particular --host=x86_64-w64-mingw32 and --build=mingw32 do not change).
Note that linking under Windows only works if the libraries were compiled with the same flags. For example, if OSI is compiled with the flag -MTd (dynamic debug) then the planner also has to use this flag for compilation.
In our CMake build system some flags are automatically determined by the build type, e.g., if CMake is called with CMAKE_BUILD_TYPE=DEBUG, the flag -MTd is added by default. The CPLEX library also has to fit to everything. This is important when compiling Osi (in the --with-cplex-lib paramater, see above) and when compiling Fast Downward (handled by the CMake file). CPLEX has precompiled libraries for different versions of Visual Studio each as a static release and static debug version. This is documented in the file C:/cplex/cplex/c_cpp.html.
To allow both debug and release builds of 32- and 64-bit version to link against the correct version of OSI, set the following environment variables:
Step 3. Building Fast Downward with LP support
Once OSI is installed, you can build Fast Downward's search component with LP support by calling ./build.py. Remove your previous build first:
rm -rf builds
Fast Downward automatically includes an LP Solver in the build, if it is needed, and the solver and the necessary OSI adapter are detected on the system. If you want to explicitly build without the LP solver that is installed on your system, disable the LP solver plugin (with -DPLUGIN_LP_SOLVER_ENABLED=FALSE) and all plug-ins that require it, such as POTENTIAL_HEURISTICS (see ObtainingAndRunningFastDownward#Manual_Builds).
Troubleshooting
The LP-related libraries have a number of dependencies which might not be installed on your system. If for some reason one of the above steps fails, we would appreciate if you could attempt to troubleshoot it yourself.
If the configure step of COIN/OSI fails with the error Cannot find symbol(s) CPXgetstat with CPX, check the path to the CPLEX lib directory. Depending on your CPLEX installation, the libraries might be stored in a different place, e.g., in $DOWNWARD_CPLEX_ROOT/lib/x86-64_sles10_4.1/static_pic. Check that the directory exists and contains the file libcplex.a. If the configure step fails for another reason, have a look at their troubleshooting page or their page of current issues.
If you get warnings about unresolved references with CPLEX, visit their help pages.
If Fast Downward gives you compilation errors mentioning the isnan function, you are likely affected by an OSI/compiler incompatibility (see http://issues.fast-downward.org/issue681). In this case try the following:
Add export DOWNWARD_USE_ISNAN_WORKAROUND=1 to your ~/.bashrc file (or other shell configuration file).
- Make sure the changed shell configuration takes effect by logging out and then logging in again.
In the main directory of the repository, delete all cmake build artifacts with rm -r builds.
- Rebuild.
If installing a 32-bit version of OSI on maia leads to an error about the wrong file format of libstdc++.so, then removing 64-bit specific paths from LD_LIBRARY_PATH might help. For example with g++-4.9.2 on maia, removing /scicore/soft/apps/GCC/4.9.2/lib64 helps.
If after troubleshooting you can get the LP package to work, please do let us know of your problem and its solution so that we can improve these instructions. If you still cannot get it to work, we may be able to provide some help, but note that the LP solvers and OSI library are external packages not developed by us.