Chaste Release::3.1
AbstractFeAssemblerInterface.hpp
00001 /*
00002 
00003 Copyright (c) 2005-2012, University of Oxford.
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00006 University of Oxford means the Chancellor, Masters and Scholars of the
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00008 Square, Oxford OX1 2JD, UK.
00009 
00010 This file is part of Chaste.
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00035 
00036 #ifndef ABSTRACTFEASSEMBLERINTERFACE_HPP_
00037 #define ABSTRACTFEASSEMBLERINTERFACE_HPP_
00038 
00039 #include <cassert>
00040 #include "UblasCustomFunctions.hpp"
00041 #include "PetscTools.hpp"
00042 
00050 template <bool CAN_ASSEMBLE_VECTOR, bool CAN_ASSEMBLE_MATRIX>
00051 class AbstractFeAssemblerInterface  : private boost::noncopyable
00052 {
00053 protected:
00055     Vec mVectorToAssemble;
00056 
00058     Mat mMatrixToAssemble;
00059 
00065     bool mAssembleMatrix;
00066 
00068     bool mAssembleVector;
00069 
00071     bool mZeroMatrixBeforeAssembly;
00072 
00074     bool mZeroVectorBeforeAssembly;
00075 
00077     PetscInt mOwnershipRangeLo;
00078 
00080     PetscInt mOwnershipRangeHi;
00081 
00089     virtual void DoAssemble()=0;
00090 
00091 public:
00092 
00096     AbstractFeAssemblerInterface();
00097 
00105     void SetMatrixToAssemble(Mat& rMatToAssemble, bool zeroMatrixBeforeAssembly=true);
00106 
00114     void SetVectorToAssemble(Vec& rVecToAssemble, bool zeroVectorBeforeAssembly);
00115 
00119     void Assemble()
00120     {
00121         mAssembleMatrix = CAN_ASSEMBLE_MATRIX;
00122         mAssembleVector = CAN_ASSEMBLE_VECTOR;
00123         DoAssemble();
00124     }
00125 
00129     void AssembleMatrix()
00130     {
00131         assert(CAN_ASSEMBLE_MATRIX);
00132         mAssembleMatrix = true;
00133         mAssembleVector = false;
00134         DoAssemble();
00135     }
00136 
00140     void AssembleVector()
00141     {
00142         assert(CAN_ASSEMBLE_VECTOR);
00143         mAssembleMatrix = false;
00144         mAssembleVector = true;
00145         DoAssemble();
00146     }
00147 
00151     virtual ~AbstractFeAssemblerInterface()
00152     {
00153     }
00154 };
00155 
00156 template <bool CAN_ASSEMBLE_VECTOR, bool CAN_ASSEMBLE_MATRIX>
00157 AbstractFeAssemblerInterface<CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX>::AbstractFeAssemblerInterface()
00158     : mVectorToAssemble(NULL),
00159       mMatrixToAssemble(NULL),
00160       mZeroMatrixBeforeAssembly(true),
00161       mZeroVectorBeforeAssembly(true)
00162 {
00163     assert(CAN_ASSEMBLE_VECTOR || CAN_ASSEMBLE_MATRIX);
00164 }
00165 
00166 template <bool CAN_ASSEMBLE_VECTOR, bool CAN_ASSEMBLE_MATRIX>
00167 void AbstractFeAssemblerInterface<CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX>::SetMatrixToAssemble(Mat& rMatToAssemble, bool zeroMatrixBeforeAssembly)
00168 {
00169     assert(rMatToAssemble);
00170     MatGetOwnershipRange(rMatToAssemble, &mOwnershipRangeLo, &mOwnershipRangeHi);
00171 
00172     mMatrixToAssemble = rMatToAssemble;
00173     mZeroMatrixBeforeAssembly = zeroMatrixBeforeAssembly;
00174 }
00175 
00176 template <bool CAN_ASSEMBLE_VECTOR, bool CAN_ASSEMBLE_MATRIX>
00177 void AbstractFeAssemblerInterface<CAN_ASSEMBLE_VECTOR, CAN_ASSEMBLE_MATRIX>::SetVectorToAssemble(Vec& rVecToAssemble, bool zeroVectorBeforeAssembly)
00178 {
00179     assert(rVecToAssemble);
00180     VecGetOwnershipRange(rVecToAssemble, &mOwnershipRangeLo, &mOwnershipRangeHi);
00181 
00182     mVectorToAssemble = rVecToAssemble;
00183     mZeroVectorBeforeAssembly = zeroVectorBeforeAssembly;
00184 }
00185 
00186 #endif // ABSTRACTFEASSEMBLERINTERFACE_HPP_