Windows 7 Download and Installation
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* [http://www.boost.org/users/download/ Boost]
* [http://www.boost.org/users/download/ Boost]
Revision as of 13:58, 10 March 2016
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How to compile Kratos: Windows Automatic
If you already have VisualStudio 2010 or 2012 in your system, there are a couple of automatic compiler/installer both for 32 and 64 bits that will set up all the libraries required by Kratos and perform the compilation process automatically. The process is fully automated and you will only have to specify the install directory and click "next" You can found the installers here:
For 32 Bits:
For 64 Bits:
After using these installers you will have the last version available in the repository compiled.
Notice that these installers will overwrite any previous version of the prerequisite libraries on your machine. The complete list of the libraries installed is the following:
- Python 3.3
- Svn 126.96.36.199
- CMake 3.0.2
- ACML 4.4
How to compile Kratos: Windows Manual
In this section we are going to go through the process of compiling a basic version of Kratos Multiphysics under Windows environments. Specifically, we explain how to compile Kratos in:
- Windows 7
- Windows 10
We do not recommend, but is also valid for:
- Windows 8
- Windows 8.1
A basic knowledge of Windows is assumed ( execute commands in cmd, create directories, etc...)
If you are not familiar with the following concepts listed below, please take fife minutes read the windows basic section (TODO).
Visual studio is the only compiler officially supported to build Kratos under Windows. We recommend you to download the most recent version of visual studio. The complete list of known working versions is presented here (other variants like 'Professional ' also work):
VisualStudio 2010 (also needs the SP1):
Please notice that if you want OpenMP support you must download a Community version or Professional version. Express version do not have support for OpenMP
Warning. Please, note that:
- Install subversion
- Get Kratos Multiphysics source code
The first thing you will need is the Kratos Multiphysics source code. To download the code you will have to use a subversion manager. You can install a default subversion manager from the link below. Please, notice that if you install a different svn manager you may need to add it to the system path. The suggested manager is the official svn client, which you can download here:
Once subversion is installed you can fetch the code by executing the command below in the command line:
Once this is done, you should have a "kratos" directory containing Kratos soruces
- Install CMake
Cmake is the tool used to compile kratos. You can obtain it from its official webpage.
Once installing, please do not forget to mark the option: "Add CMake to the system PATH for all users"
Please notice that if you want to use python 3.4 or higher, you will need CMake 3.0.2 or higher.
- Install Python3
You will need any version of python in your computer in order to compile Kratos. We strongly recommend Python 3, at least 3.3.4 or higher. you can download python from its official webpage:
Please, take special care to download a installer that suits your desired architecture x86 for 32 bits compilations and x86_64 for 64 bits compilations. Otherwise it won't work.
BLAS and LAPACK
- Get LIBBLAS and LIBLAPACK
Blas and Lapack are needed for many solvers, specially those present in the ExternalSolvers Application, that you will likely need to compile. You can get these libraries from:
Under the section: "Prebuilt libraries for Microsoft Visual Studio Projects". Please download both dll and lib files for your architecture.
Additionally, you will need some extra dependencies for these libs. The easiest way to fulfil them is to install a proper version of MinGW in your system (32 or 64). Any distribution should work, you can find one here:
Again please take special care to select the correct architecture during the installation.
- Compile boost libraries
The next step will consist in compile Boost. Kratos Multiphysics needs Boost libraries to support some of its functions. You can use any version from version 1.54 onwards, please notice that version 1.60 is not supported due to a bug with python wrappers. It's very important to add the correct path to the boost library in the configure.bat, see more below. You can download boost from its official website:
Warning: choose the version of boost that fits your version of Visual Studio (no all of them are the same!) For Visual studio 2015: msvc-14.0, for Visual studio 2013: msvc-12.0, Visual studio 2012: msvc-11.0, Visual studio 2010: msvc-10.0.
Extract boost, navigate to the directory and execute this command:
Some additional files will be generated.
By default, boost will try to link with python 2.7. It is important to manually specify that we want to use python 3 by adding your downloaded python version. For example, if you have python 3.3.4 you should add “using python : 3.3 : /usr ;” to the file project-config.jam:
For 32 bits:
using python : 3.3 : C:\\Python33\\python ;
For 64 bits:
using python : 3.3 : C:\\Python33\\python : : : <address-model>64 ;
After modifying it you will have to compile the required boost libraries using the command below. Notice that this will only compile “serialization” and “python” libraries. If you need further libraries, you will need to explicitly tell boost to compile them.
You will need to know which version of MSVC you are using. This version depends on the visual studio that you install in your system. In the list below you will find the correct version of MSVC for every version of visual studio and its usage in the command ( in red ):
Visual studio 2015: --toolset=msvc-14.0
Visual studio 2013: --toolset=msvc-12.0
Visual studio 2012: --toolset=msvc-11.0
Visual studio 2010: --toolset=msvc-10.0
For 32 bits:
b2 --toolset=msvc-14.0 --build-type=complete architecture=x86 stage --with-python --with-serialization variant=release link=shared,static
For 64 bits:
b2 --toolset=msvc-14.0 --build-type=complete architecture=x86 address-model=64 stage --with-python --with-serialization variant=release link=shared,static
- Prepare Kratos configuration file
In the Kratos root folder ("C:\kratos\cmake_build") copy the example_configure.bat.do_not_touch to configure.bat. This file controls where Kratos is going to search for the libraries, which applications are going to be installed and how the visual studio solution is going to be generated, among other things.
Set the Generator
The first thing you need to do is to tell CMake that you intend to build a VisualStudio project. This is done automatically by CMake, but is highly recommended to add it yourself. To do it add "-G" option followed by your target. For example, if you are using VisualStudio 2015:
For 32 bits:
cmake -G "Visual Studio 14 2015" ^
For 64 bits:
cmake -G "Visual Studio 14 2015 Win64" ^
You can find more info and a list of available generators here:
Once the generator is correctly set, you have to make sure that the paths to all libraries are correctly set. Please make sure that you configure.bat file has the following lines with the correct path:
-DBOOST_ROOT="example/boost_1_59_0/" ^ -DBLAS_LIBRARY="example/libblas.lib" ^ -DLAPACK_LIBRARY="example/liblapack.lib" ^
It is possible that if you have multiple python versions in your system CMake detects the wrong one ( typically, the one with the highest version ) to avoid that, please set it manually. For instance, for Python 3.3:
Now, you can enable and disable the applications you may want to compile or not. For instance:
We recommend you to enable:
Here we present a full example using these assumptions:
- You want a x64 build
- You use VisualStudio 2015
- You have boost in "C:\boost_1_59_0"
- You have blas and lapack in "C:\external_libraries"
- You have Python33 in "C:\Python33"
- You downloaded Kratos in "C:\Kratos"
- You want to install kratos in "C:\KratosInstall"
del CMakeCache.txt cmake -G "Visual Studio 14 2015 x64" ^ -DCMAKE_BUILD_TYPE=Release ^ -DCMAKE_CXX_FLAGS=" -D_SCL_SECURE_NO_WARNINGS " ^ -DBOOST_ROOT="C:\boost_1_59_0" ^ -DPYTHON_LIBRARY="C:\Python33\libs\python33.lib" ^ -DPYTHON_INCLUDE_PATH="C:\Python33\include" ^ -DLAPACK_LIBRARIES="C:\external_libraries\liblapack.lib" ^ -DBLAS_LIBRARIES="C:\external_libraries\libblas.lib" ^ -DMESHING_APPLICATION=ON ^ -DEXTERNAL_SOLVERS_APPLICATION=ON ^ -DPFEM_APPLICATION=ON ^ -DSTRUCTURAL_APPLICATION=ON ^ -DCONVECTION_DIFFUSION_APPLICATION=ON ^ -DFLUID_DYNAMICS_APPLICATION=ON ^ -DALE_APPLICATION=ON ^ -DFSI_APPLICATION=ON ^ -DDEM_APPLICATION=OFF ^ -DSWIMMING_DEM_APPLICATION=OFF ^ -DINSTALL_PYTHON_FILES=ON ^ -DINSTALL_EMBEDDED_PYTHON=ON ^ -DEXCLUDE_ITSOL=ON ^ -DSOLID_MECHANICS_APPLICATION=ON ^ -DKRATOS_INSTALL_PREFIX="C:\KratosInstall" ^ ..
Warning: All these options must be written in the same line, the symbol '^' tells the cmake to read the following line as if it was the same. If you add new options, like the ones in red, do not forget to put this symbol at the end of every line and do not write spaces after this symbol.
- Configure Kratos
Once the modifications of the file are done, it needs to be executed. You can do that by executing the command:
In a cmd. Please check the output to ensure that all the paths and libraries are the correct ones. If the configuration has been successful you will se a Configuration Done near the end.
- Compile and Install Kratos
Once the configuration script has finished without errors a "KratosMultiphysics.sln" will be generated in the cmake_build directory. Double click this file and the visual studio project will open. Please, make sure that the project is set to "Release" and "Win32" or "x64" and change it if is not. Finally, in order to compile Kratos, right click the "INSTALL" project and select the option "BUILD"
- Finish last details
- Copying necessary files
Once the compilation process has finished, you will find are your files in the selected installation directory. You should see a directory "libs" inside. To finish the process, please copy the following files to the "libs" directory:
Also, please copy all .dll files located in your boost directory, for example:
Finally, copy all the .dll located in your MinGW binary dir. For example:
Test and Usage
- Test that Kratos Works
- Get familiar with the execution process
Once Kratos is compiled and correctly install all its left is to execute some cases. In this section we will descrive how you can make a simple example to test that kratos works, and the general way to run problems: directly from the command line or using GiD.
Test the compilation
To to test the compilation, you can prepare a simple script (for example "test_kratos.py") that contains this line:
from KratosMultiphysics import *
Then you can execute this script as explained in the next section.
Executing an script from the command line
The most easy way to execute a KratosMultiphysics script from the command line is to prepare a ".bat" file. A ".bat" file is just a series of commands that are executed together and will make the process simpler. This file should contain only two lines. First the path for the kratos executable and libs folders, and the second, the actual command. For instace:
- Your kratos install dir is "C:\KratosInstall"
- Your script is called "test_kratos.py"
set PATH=C:\\KratosInstall;C:\\KratosInstall\\libs;%PATH% "C:\\KratosInstall\\runkratos" test_kratos.py
We strongly recommend you to run kratos scripts with the "runkratos" binary inside your Kratos installation folder. You can also run them directly using python.
runkratos test.py python test.py
If everething was ok you will see this message:
| / | ' / __| _` | __| _ \ __| . \ | ( | | ( |\__ \ _|\_\_| \__,_|\__|\___/ ____/ Multi-Physics 3.3.XXXXX
Using Kratos With GiD