#ifndef EIGEN_SUPERLUSUPPORT_MODULE_H #define EIGEN_SUPERLUSUPPORT_MODULE_H #include "SparseCore" #include "src/Core/util/DisableStupidWarnings.h" #ifdef EMPTY #define EIGEN_EMPTY_WAS_ALREADY_DEFINED #endif typedef int int_t; #include <slu_Cnames.h> #include <supermatrix.h> #include <slu_util.h> // slu_util.h defines a preprocessor token named EMPTY which is really polluting, // so we remove it in favor of a SUPERLU_EMPTY token. // If EMPTY was already defined then we don't undef it. #if defined(EIGEN_EMPTY_WAS_ALREADY_DEFINED) # undef EIGEN_EMPTY_WAS_ALREADY_DEFINED #elif defined(EMPTY) # undef EMPTY #endif #define SUPERLU_EMPTY (-1) namespace Eigen { struct SluMatrix; } /** \ingroup Support_modules * \defgroup SuperLUSupport_Module SuperLUSupport module * * This module provides an interface to the <a href="http://crd-legacy.lbl.gov/~xiaoye/SuperLU/">SuperLU</a> library. * It provides the following factorization class: * - class SuperLU: a supernodal sequential LU factorization. * - class SuperILU: a supernodal sequential incomplete LU factorization (to be used as a preconditioner for iterative methods). * * \warning When including this module, you have to use SUPERLU_EMPTY instead of EMPTY which is no longer defined because it is too polluting. * * \code * #include <Eigen/SuperLUSupport> * \endcode * * In order to use this module, the superlu headers must be accessible from the include paths, and your binary must be linked to the superlu library and its dependencies. * The dependencies depend on how superlu has been compiled. * For a cmake based project, you can use our FindSuperLU.cmake module to help you in this task. * */ #include "src/misc/Solve.h" #include "src/misc/SparseSolve.h" #include "src/SuperLUSupport/SuperLUSupport.h" #include "src/Core/util/ReenableStupidWarnings.h" #endif // EIGEN_SUPERLUSUPPORT_MODULE_H