#include <users_modules/eshelbian_plasticit/src/EshelbianPlasticity.hpp>
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| OpSpatialConsistencyP (const std::string &field_name, boost::shared_ptr< DataAtIntegrationPts > &data_ptr) |
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MoFEMErrorCode | integrate (EntData &data) |
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| OpAssembleVolume (const std::string &field, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type) |
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| OpAssembleVolume (const std::string &row_field, const std::string &col_field, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type, const bool assemble_symmetry) |
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| OpAssembleBasic (const std::string &field_name, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type) |
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| OpAssembleBasic (const std::string &row_field, const std::string &col_field, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type, const bool assemble_symmetry, ScaleOff scale_off=[]() { return 1;}) |
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virtual MoFEMErrorCode | integrate (int row_side, EntityType row_type, EntData &data) |
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virtual MoFEMErrorCode | integrate (EntData &row_data, EntData &col_data) |
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virtual MoFEMErrorCode | assemble (EntData &data) |
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virtual MoFEMErrorCode | assemble (int row_side, EntityType row_type, EntData &data) |
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virtual MoFEMErrorCode | assemble (int row_side, int col_side, EntityType row_type, EntityType col_type, EntData &row_data, EntData &col_data) |
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MoFEMErrorCode | doWork (int side, EntityType type, EntData &data) |
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MoFEMErrorCode | doWork (int row_side, int col_side, EntityType row_type, EntityType col_type, EntData &row_data, EntData &col_data) |
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Definition at line 538 of file EshelbianPlasticity.hpp.
◆ OpSpatialConsistencyP()
EshelbianPlasticity::OpSpatialConsistencyP::OpSpatialConsistencyP |
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const std::string & |
field_name, |
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boost::shared_ptr< DataAtIntegrationPts > & |
data_ptr |
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) |
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inline |
◆ integrate()
Reimplemented from EshelbianPlasticity::OpAssembleBasic< VolUserDataOperator >.
Definition at line 818 of file EshelbianOperators.cpp.
821 int nb_integration_pts = data.
getN().size1();
822 auto v = getVolume();
823 auto t_w = getFTensor0IntegrationWeight();
824 auto t_h = getFTensor2FromMat<3, 3>(
dataAtPts->hAtPts);
825 auto t_omega_dot = getFTensor1FromMat<3>(
dataAtPts->rotAxisDotAtPts);
827 int nb_base_functions = data.
getN().size2() / 3;
834 auto get_ftensor1 = [](
auto &
v) {
839 for (
int gg = 0; gg != nb_integration_pts; ++gg) {
841 auto t_nf = get_ftensor1(
nF);
848 for (; bb != nb_dofs / 3; ++bb) {
849 t_nf(
i) +=
a * t_row_base_fun(
j) * t_residuum(
i,
j);
854 for (; bb != nb_base_functions; ++bb)
The documentation for this struct was generated from the following files: