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Public Member Functions | Private Attributes | List of all members
EshelbianPlasticity::OpSensitivityInterior_dX Struct Reference
Inheritance diagram for EshelbianPlasticity::OpSensitivityInterior_dX:
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Collaboration diagram for EshelbianPlasticity::OpSensitivityInterior_dX:
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Public Member Functions

 OpSensitivityInterior_dX (const std::string &field_name, boost::shared_ptr< DataAtIntegrationPts > data_ptr, SmartPetscObj< Vec > assemble_vec, boost::shared_ptr< TopologicalData > topo_ptr, const double alpha, const double rho, const double alpha_omega=0)
 
MoFEMErrorCode integrate (EntData &data)
 
- Public Member Functions inherited from EshelbianPlasticity::OpAssembleTopologicalObjectiveDerivativeImplBase< OpAssembleVolume >
 OpAssembleTopologicalObjectiveDerivativeImplBase (const std::string &field_name, boost::shared_ptr< DataAtIntegrationPts > data_ptr, boost::shared_ptr< TopologicalData > topo_ptr, boost::shared_ptr< double > J_ptr, SmartPetscObj< Vec > assemble_vec, Tag topo_tag)
 
MoFEMErrorCode assemble (int side, EntityType type, EntData &data) override
 
- Public Member Functions inherited from OpAssembleVolume
MoFEMErrorCode assemble (int row_side, int col_side, EntityType row_type, EntityType col_type, EntData &row_data, EntData &col_data)
 
- Public Member Functions inherited from OpAssembleBasic< VolUserDataOperator >
 OpAssembleBasic (const std::string &field_name, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type)
 
 OpAssembleBasic (std::string row_field, std::string col_field, boost::shared_ptr< DataAtIntegrationPts > data_ptr, const char type, const bool assemble_symmetry, ScaleOff scale_off=[]() { return 1;})
 
 OpAssembleBasic (const FieldSpace space)
 
virtual MoFEMErrorCode integrate (EntData &data)
 
virtual MoFEMErrorCode integrate (int row_side, EntityType row_type, EntData &data)
 
virtual MoFEMErrorCode integrate (EntData &row_data, EntData &col_data)
 
virtual MoFEMErrorCode assemble (EntData &data)
 
virtual MoFEMErrorCode assemble (int row_side, EntityType row_type, EntData &data)
 
MoFEMErrorCode doWork (int side, EntityType type, EntData &data)
 
MoFEMErrorCode doWork (int row_side, int col_side, EntityType row_type, EntityType col_type, EntData &row_data, EntData &col_data)
 
- Public Member Functions inherited from MoFEM::VolumeElementForcesAndSourcesCore::UserDataOperator
int getNumNodes ()
 get element number of nodes
 
const EntityHandlegetConn ()
 get element connectivity
 
double getVolume () const
 element volume (linear geometry)
 
doublegetVolume ()
 element volume (linear geometry)
 
FTensor::Tensor2< double *, 3, 3 > & getJac ()
 get element Jacobian
 
FTensor::Tensor2< double *, 3, 3 > & getInvJac ()
 get element inverse Jacobian
 
VectorDoublegetCoords ()
 nodal coordinates
 
VolumeElementForcesAndSourcesCoregetVolumeFE () const
 return pointer to Generic Volume Finite Element object
 
- Public Member Functions inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
 UserDataOperator (const FieldSpace space, const char type=OPSPACE, const bool symm=true)
 Constructor for operators working on finite element spaces.
 
 UserDataOperator (const std::string field_name, const char type, const bool symm=true)
 Constructor for operators working on a single field.
 
 UserDataOperator (const std::string row_field_name, const std::string col_field_name, const char type, const bool symm=true)
 Constructor for operators working on two fields (bilinear forms)
 
boost::shared_ptr< const NumeredEntFiniteElementgetNumeredEntFiniteElementPtr () const
 Return raw pointer to NumeredEntFiniteElement.
 
EntityHandle getFEEntityHandle () const
 Return finite element entity handle.
 
int getFEDim () const
 Get dimension of finite element.
 
EntityType getFEType () const
 Get dimension of finite element.
 
boost::weak_ptr< SideNumbergetSideNumberPtr (const int side_number, const EntityType type)
 Get the side number pointer.
 
EntityHandle getSideEntity (const int side_number, const EntityType type)
 Get the side entity.
 
int getNumberOfNodesOnElement () const
 Get the number of nodes on finite element.
 
MoFEMErrorCode getProblemRowIndices (const std::string filed_name, const EntityType type, const int side, VectorInt &indices) const
 Get row indices.
 
MoFEMErrorCode getProblemColIndices (const std::string filed_name, const EntityType type, const int side, VectorInt &indices) const
 Get col indices.
 
const FEMethodgetFEMethod () const
 Return raw pointer to Finite Element Method object.
 
int getOpType () const
 Get operator types.
 
void setOpType (const OpType type)
 Set operator type.
 
void addOpType (const OpType type)
 Add operator type.
 
int getNinTheLoop () const
 get number of finite element in the loop
 
int getLoopSize () const
 get size of elements in the loop
 
std::string getFEName () const
 Get name of the element.
 
ForcesAndSourcesCoregetPtrFE () const
 
ForcesAndSourcesCoregetSidePtrFE () const
 
ForcesAndSourcesCoregetRefinePtrFE () const
 
const PetscData::SwitchesgetDataCtx () const
 
const KspMethod::KSPContext getKSPCtx () const
 
const SnesMethod::SNESContext getSNESCtx () const
 
const TSMethod::TSContext getTSCtx () const
 
Vec getKSPf () const
 
Mat getKSPA () const
 
Mat getKSPB () const
 
Vec getSNESf () const
 
Vec getSNESx () const
 
Mat getSNESA () const
 
Mat getSNESB () const
 
Vec getTSu () const
 
Vec getTSu_t () const
 
Vec getTSu_tt () const
 
Vec getTSf () const
 
Mat getTSA () const
 
Mat getTSB () const
 
int getTSstep () const
 
double getTStime () const
 
double getTStimeStep () const
 
double getTSa () const
 
double getTSaa () const
 
MatrixDoublegetGaussPts ()
 matrix of integration (Gauss) points for Volume Element
 
auto getFTensor0IntegrationWeight ()
 Get integration weights.
 
MatrixDoublegetCoordsAtGaussPts ()
 Gauss points and weight, matrix (nb. of points x 3)
 
auto getFTensor1CoordsAtGaussPts ()
 Get coordinates at integration points assuming linear geometry.
 
double getMeasure () const
 get measure of element
 
doublegetMeasure ()
 get measure of element
 
MoFEM::InterfacegetMField ()
 
moab::Interface & getMoab ()
 
virtual boost::weak_ptr< ForcesAndSourcesCoregetSubPipelinePtr () const
 
MoFEMErrorCode loopSide (const string &fe_name, ForcesAndSourcesCore *side_fe, const size_t dim, const EntityHandle ent_for_side=0, boost::shared_ptr< Range > fe_range=nullptr, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy, AdjCache *adj_cache=nullptr)
 User calls this function to loop over elements on the side of face. This function calls finite element with its operator to do calculations.
 
MoFEMErrorCode loopThis (const string &fe_name, ForcesAndSourcesCore *this_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
 User calls this function to loop over the same element using a different set of integration points. This function calls finite element with its operator to do calculations.
 
MoFEMErrorCode loopParent (const string &fe_name, ForcesAndSourcesCore *parent_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
 User calls this function to loop over parent elements. This function calls finite element with its operator to do calculations.
 
MoFEMErrorCode loopChildren (const string &fe_name, ForcesAndSourcesCore *child_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
 User calls this function to loop over parent elements. This function calls finite element with its operator to do calculations.
 
MoFEMErrorCode loopRange (const string &fe_name, ForcesAndSourcesCore *range_fe, boost::shared_ptr< Range > fe_range, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
 Iterate over range of elements.
 
- Public Member Functions inherited from MoFEM::DataOperator
 DataOperator (const bool symm=true)
 
virtual ~DataOperator ()=default
 
virtual MoFEMErrorCode opLhs (EntitiesFieldData &row_data, EntitiesFieldData &col_data)
 
virtual MoFEMErrorCode opRhs (EntitiesFieldData &data, const bool error_if_no_base=false)
 
bool getSymm () const
 Get if operator uses symmetry of DOFs or not.
 
void setSymm ()
 set if operator is executed taking in account symmetry
 
void unSetSymm ()
 unset if operator is executed for non symmetric problem
 

Private Attributes

const double alphaW
 
const double alphaRho
 
const double alphaOmega
 

Additional Inherited Members

- Public Types inherited from EshelbianPlasticity::OpAssembleTopologicalObjectiveDerivativeImplBase< OpAssembleVolume >
using OP = OpAssembleVolume
 
- Public Types inherited from OpAssembleVolume
using OP = OpAssembleBasic< VolUserDataOperator >
 
using ScaleOff = typename OP::ScaleOff
 
- Public Types inherited from OpAssembleBasic< VolUserDataOperator >
using ScaleOff = boost::function< double()>
 
- Public Types inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
enum  OpType {
  OPROW = 1 << 0 , OPCOL = 1 << 1 , OPROWCOL = 1 << 2 , OPSPACE = 1 << 3 ,
  OPLAST = 1 << 3
}
 Controls loop over entities on element. More...
 
using AdjCache = std::map< EntityHandle, std::vector< boost::weak_ptr< NumeredEntFiniteElement > > >
 
- Public Types inherited from MoFEM::DataOperator
using DoWorkLhsHookFunType = boost::function< MoFEMErrorCode(DataOperator *op_ptr, int row_side, int col_side, EntityType row_type, EntityType col_type, EntitiesFieldData::EntData &row_data, EntitiesFieldData::EntData &col_data)>
 
using DoWorkRhsHookFunType = boost::function< MoFEMErrorCode(DataOperator *op_ptr, int side, EntityType type, EntitiesFieldData::EntData &data)>
 
- Public Attributes inherited from OpAssembleBasic< VolUserDataOperator >
const bool assembleSymmetry
 
boost::shared_ptr< DataAtIntegrationPtsdataAtPts
 data at integration pts
 
VectorDouble nF
 local right hand side vector
 
MatrixDouble K
 local tangent matrix
 
MatrixDouble transposeK
 
ScaleOff scaleOff
 
- Public Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
char opType
 
std::string rowFieldName
 
std::string colFieldName
 
FieldSpace sPace
 
- Public Attributes inherited from MoFEM::DataOperator
DoWorkLhsHookFunType doWorkLhsHook
 
DoWorkRhsHookFunType doWorkRhsHook
 
bool sYmm
 If true assume that matrix is symmetric structure.
 
std::array< bool, MBMAXTYPE > doEntities
 If true operator is executed for entity.
 
booldoVertices
 \deprectaed If false skip vertices
 
booldoEdges
 \deprectaed If false skip edges
 
booldoQuads
 \deprectaed
 
booldoTris
 \deprectaed
 
booldoTets
 \deprectaed
 
booldoPrisms
 \deprectaed
 
- Static Public Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
static const char *const OpTypeNames []
 
- Protected Member Functions inherited from MoFEM::VolumeElementForcesAndSourcesCore::UserDataOperator
MoFEMErrorCode setPtrFE (ForcesAndSourcesCore *ptr)
 
- Protected Attributes inherited from EshelbianPlasticity::OpAssembleTopologicalObjectiveDerivativeImplBase< OpAssembleVolume >
double locJ
 
boost::shared_ptr< doubleJPtr
 
SmartPetscObj< Vec > assembleVec
 
Tag topoTag
 
boost::shared_ptr< TopologicalDatatopoData
 
- Protected Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
ForcesAndSourcesCoreptrFE
 
- Static Protected Attributes inherited from OpAssembleVolume
static std::map< std::pair< std::string, std::string >, MatrixDouble > mapMatrix
 

Detailed Description

Definition at line 1812 of file EshelbianTopologicalDerivativeOperators.cpp.

Constructor & Destructor Documentation

◆ OpSensitivityInterior_dX()

EshelbianPlasticity::OpSensitivityInterior_dX::OpSensitivityInterior_dX ( const std::string &  field_name,
boost::shared_ptr< DataAtIntegrationPts data_ptr,
SmartPetscObj< Vec >  assemble_vec,
boost::shared_ptr< TopologicalData topo_ptr,
const double  alpha,
const double  rho,
const double  alpha_omega = 0 
)
inline

Member Function Documentation

◆ integrate()

MoFEMErrorCode EshelbianPlasticity::OpSensitivityInterior_dX::integrate ( EntData data)
inline

Definition at line 1824 of file EshelbianTopologicalDerivativeOperators.cpp.

1824 {
1826
1827#ifndef NDEBUG
1828 if (!dataAtPts)
1829 SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY,
1830 "DataAtIntegrationPts pointer is null");
1831#endif // NDEBUG
1832
1833 const int nb_dofs = data.getIndices().size();
1834 if (!nb_dofs)
1836
1837 const int nb_integration_pts = getGaussPts().size2();
1838
1839 const auto v = getVolume();
1840 auto t_w = getFTensor0IntegrationWeight();
1841 auto t_div_P = dataAtPts->getFTensorDivP(nb_integration_pts);
1842 auto t_w_l2 = dataAtPts->getFTensorSmallWL2(nb_integration_pts);
1843 auto t_s_dot_w = dataAtPts->getFTensorSmallWL2Dot(nb_integration_pts);
1844 auto t_s_dot_dot_w =
1845 dataAtPts->getFTensorSmallWL2DotDot(nb_integration_pts);
1846 auto t_h = dataAtPts->getFTensorSmallH(nb_integration_pts);
1847 auto t_levi_kirchhoff =
1848 dataAtPts->getFTensorLeviKirchhoff(nb_integration_pts);
1849 auto t_omega_grad_dot =
1850 dataAtPts->getFTensorRotAxisGradDot(nb_integration_pts);
1851 auto t_R = dataAtPts->getFTensorRotMat(nb_integration_pts);
1852 auto t_u = dataAtPts->getFTensorStretch(nb_integration_pts);
1853
1854 auto t_var_w = dataAtPts->getFTensorVarWL2(nb_integration_pts);
1855 auto t_var_omega = dataAtPts->getFTensorVarRotAxis(nb_integration_pts);
1856 auto t_var_grad_omega =
1857 dataAtPts->getFTensorVarGradRotAxis(nb_integration_pts);
1858 auto t_var_P = dataAtPts->getFTensorVarPiola(nb_integration_pts);
1859 auto t_var_div_P = dataAtPts->getFTensorDivVarPiola(nb_integration_pts);
1860 auto t_det = topoData->getFTensorDetJacobian(nb_integration_pts);
1861 auto t_inv_jac = topoData->getFTensorInvJacobian(nb_integration_pts);
1862
1863 auto w_l2_dot_dot_at_pts = dataAtPts->getSmallWL2DotDotAtPts();
1864 if (w_l2_dot_dot_at_pts->size1() != nb_integration_pts ||
1865 w_l2_dot_dot_at_pts->size2() != SPACE_DIM) {
1866 MatrixSizeHelper<GetFTensor1FromMatType<SPACE_DIM, -1, DL>, DL>::size(
1867 *w_l2_dot_dot_at_pts, nb_integration_pts);
1868 w_l2_dot_dot_at_pts->clear();
1869 }
1870
1871 const auto piola_scale = dataAtPts->piolaScale;
1872 const auto alpha_w = alphaW / piola_scale;
1873 const auto alpha_rho = alphaRho / piola_scale;
1874
1875 const int nb_base_functions = data.getN().size2();
1876 auto t_base_diff = data.getFTensor1DiffN<3>();
1877
1878 auto get_ftensor1 = [](auto &v) {
1880 &v[0], &v[1], &v[2]);
1881 };
1882
1883 auto next = [&]() {
1884 ++t_w;
1885 ++t_div_P;
1886 ++t_w_l2;
1887 ++t_s_dot_w;
1888 ++t_s_dot_dot_w;
1889 ++t_h;
1890 ++t_levi_kirchhoff;
1891 ++t_omega_grad_dot;
1892 ++t_R;
1893 ++t_u;
1894
1895 ++t_var_w;
1896 ++t_var_omega;
1897 ++t_var_grad_omega;
1898 ++t_var_P;
1899 ++t_var_div_P;
1900
1901 ++t_det;
1902 ++t_inv_jac;
1903 };
1904
1910 constexpr auto t_kd = FTensor::Kronecker_Delta<double>();
1911
1912 for (int gg = 0; gg != nb_integration_pts; ++gg) {
1913
1914 // Calculate the variation of the gradient due to geometry change
1916 t_cof(i, j) = t_det * t_inv_jac(j, i);
1917
1918 auto t_nf = get_ftensor1(nF);
1919 int bb = 0;
1920 for (; bb != nb_dofs / SPACE_DIM; ++bb) {
1921
1923 t_div_base(i) = -(1 / t_det) * (t_inv_jac(j, i) * t_base_diff(j));
1924
1925 // OpSpatialEquilibrium
1926 t_nf(i) += (t_w * v) *
1927 (t_var_w(k) * (-t_div_P(k) + alpha_w * t_s_dot_w(k) +
1928 alpha_rho * t_s_dot_dot_w(k))) *
1929 t_cof(i, j) * t_base_diff(j);
1930 t_nf(i) += (t_w * v) * (-(t_var_w(k) * t_div_P(k))) * t_div_base(i);
1931
1932 // OpSpatialRotation
1933 t_nf(i) += (t_w * v) * (t_var_omega(k) * (-t_levi_kirchhoff(k))) *
1934 t_cof(i, j) * t_base_diff(j);
1935 #ifndef NDEBUG
1936 // need to add implementaion of omege terms
1937 if (alphaOmega) {
1938 SETERRQ(
1939 PETSC_COMM_SELF, MOFEM_NOT_IMPLEMENTED,
1940 "OpSensitivity_dX with alpha_omega != 0 is not implemented yet");
1941 }
1942 #endif
1943
1944 // OpSpatialConsistencyP
1946 t_nf(i) -= (t_w * v) * (t_var_P(i, k) * (t_R(i, l) * t_u(l, k)) / 2) *
1947 t_cof(i, j) * t_base_diff(j);
1948 t_nf(i) -= (t_w * v) * (t_var_P(i, l) * (t_R(i, k) * t_u(l, k)) / 2) *
1949 t_cof(i, j) * t_base_diff(j);
1950 t_nf(i) += (t_w * v) * (t_var_P(i, j) * t_kd(i, j)) * t_cof(i, j) *
1951 t_base_diff(j);
1952 } else {
1954 t_residuum_P(k, m) = t_h(k, m) - t_kd(k, m);
1955 t_nf(i) += (t_w * v) * (t_var_P(k, m) * (-t_residuum_P(k, m))) *
1956 t_cof(i, j) * t_base_diff(j);
1957 }
1958
1959 // OpSpatialConsistencyDivTerm
1960 t_nf(i) += (t_w * v) * (t_var_div_P(k) * (-t_w_l2(k))) * t_cof(i, j) *
1961 t_base_diff(j);
1962 t_nf(i) += (t_w * v) * (t_var_div_P(k) * (-t_w_l2(k))) * t_div_base(i);
1963
1964 ++t_nf;
1965 ++t_base_diff;
1966 }
1967 for (; bb != nb_base_functions; ++bb)
1968 ++t_base_diff;
1969
1970 next();
1971 }
1972
1974 }
#define FTENSOR_INDEX(DIM, I)
constexpr int SPACE_DIM
Kronecker Delta class.
#define MoFEMFunctionReturnHot(a)
Last executable line of each PETSc function used for error handling. Replaces return()
#define MoFEMFunctionBegin
First executable line of each MoFEM function, used for error handling. Final line of MoFEM functions ...
@ MOFEM_DATA_INCONSISTENCY
Definition definitions.h:31
@ MOFEM_NOT_IMPLEMENTED
Definition definitions.h:32
#define MoFEMFunctionReturn(a)
Last executable line of each PETSc function used for error handling. Replaces return()
constexpr auto t_kd
FTensor::Index< 'i', SPACE_DIM > i
const double v
phase velocity of light in medium (cm/ns)
FTensor::Index< 'l', 3 > l
FTensor::Index< 'j', 3 > j
FTensor::Index< 'k', 3 > k
decltype(GetFTensor1FromMatImpl< Tensor_Dim, S, DL, M >::get(std::declval< M & >(), 0, 0)) GetFTensor1FromMatType
FTensor::Index< 'm', 3 > m
static enum RotSelector gradApproximator
auto getFTensor1DiffN(const FieldApproximationBase base)
Get derivatives of base functions.
MatrixDouble & getN(const FieldApproximationBase base)
get base functions this return matrix (nb. of rows is equal to nb. of Gauss pts, nb....
const VectorInt & getIndices() const
Get global indices of degrees of freedom on entity.
auto getFTensor0IntegrationWeight()
Get integration weights.
MatrixDouble & getGaussPts()
matrix of integration (Gauss) points for Volume Element
VectorDouble nF
local right hand side vector
boost::shared_ptr< DataAtIntegrationPts > dataAtPts
data at integration pts

Member Data Documentation

◆ alphaOmega

const double EshelbianPlasticity::OpSensitivityInterior_dX::alphaOmega
private

◆ alphaRho

const double EshelbianPlasticity::OpSensitivityInterior_dX::alphaRho
private

◆ alphaW

const double EshelbianPlasticity::OpSensitivityInterior_dX::alphaW
private

The documentation for this struct was generated from the following file: