HLIBpro
3.0
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base class for HCA generator functions using quadrature More...
#include <TQuadHCAGenFn.hh>
Classes | |
struct | stat_t |
Public Member Functions | |
TQuadHCAGenFn (const ansatzsp_t *ansatzsp, const testsp_t *testsp, const uint quad_order, const TPermutation *row_perm_i2e, const TPermutation *col_perm_i2e, stat_t *stat=NULL) | |
virtual void | integrate_dx_perm (const std::vector< idx_t > &idxs, const std::vector< T3Point > &pts, BLAS::Matrix< value_t > &matrix) const |
virtual void | integrate_dy_perm (const std::vector< idx_t > &idxs, const std::vector< T3Point > &pts, BLAS::Matrix< value_t > &matrix) const |
Public Member Functions inherited from TPermHCAGeneratorFn< T_value > | |
TPermHCAGeneratorFn (const TPermutation *row_perm_i2e, const TPermutation *col_perm_i2e) | |
virtual void | integrate_dx (const TIndexSet &is, const std::vector< T3Point > &pts, BLAS::Matrix< value_t > &matrix) const |
virtual void | integrate_dy (const TIndexSet &is, const std::vector< T3Point > &pts, BLAS::Matrix< value_t > &matrix) const |
Public Member Functions inherited from THCA< T_value >::TGeneratorFn | |
virtual bool | is_complex () const |
indicate complex nature of function | |
virtual value_t | eval (const T3Point &x, const T3Point &y) const =0 |
Protected Member Functions | |
virtual void | eval_dx (const idx_t tri_idx, const T3Point &y, const tri_quad_rule_t< real_t > &quad_rule, std::vector< value_t > &values) const =0 |
virtual void | eval_dy (const T3Point &x, const idx_t tri_idx, const tri_quad_rule_t< real_t > &quad_rule, std::vector< value_t > &values) const =0 |
Evaluates the integrals over the derivatives of the kernel generator function by means of quadrature.
TQuadHCAGenFn | ( | const ansatzsp_t * | ansatzsp, |
const testsp_t * | testsp, | ||
const uint | quad_order, | ||
const TPermutation * | row_perm_i2e, | ||
const TPermutation * | col_perm_i2e, | ||
stat_t * | stat = NULL |
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) |
constructor for HCA generator function over ansatz space ansatzsp test space testsp with permutations for row and column indices and (maximal) quadrature order quad_order
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protectedpure virtual |
Evaluate \( D_x \gamma(x, y) \) on with \(x\) defined by quadrature points on triangle tri_idx. The computed values for each quadrature point i are stored on values[i].
Implemented in TLaplaceDLPGenFn< T_ansatzsp, T_testsp, T_value >, TLaplaceSLPGenFn< T_ansatzsp, T_testsp, T_value >, THelmholtzDLPGenFn< T_ansatzsp, T_testsp, T_value >, THelmholtzSLPGenFn< T_ansatzsp, T_testsp, T_value >, and TExpGenFn< T_ansatzsp, T_testsp, T_value >.
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protectedpure virtual |
Evaluate \( D_y \gamma(x, y) \) on with \(y\) defined by quadrature points on triangle tri_idx. The computed values for each quadrature point i are stored on values[i].
Implemented in TLaplaceDLPGenFn< T_ansatzsp, T_testsp, T_value >, TLaplaceSLPGenFn< T_ansatzsp, T_testsp, T_value >, THelmholtzDLPGenFn< T_ansatzsp, T_testsp, T_value >, THelmholtzSLPGenFn< T_ansatzsp, T_testsp, T_value >, and TExpGenFn< T_ansatzsp, T_testsp, T_value >.
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virtual |
Evaluate \( \int \phi_i(x) D_x \gamma(x, y_{l}) dx\) for i ∈ is and points \( y_{l} \) defined by pts.
Implements TPermHCAGeneratorFn< T_value >.
Reimplemented in TInvarBasisQuadHCAGenFn< T_ansatzsp, T_testsp, T_value >, and TInvarBasisQuadHCAGenFn< T_ansatzsp, T_testsp, double >.
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virtual |
Evaluate \( \int \phi_j(y) D_y \gamma(x_{l}, y) dy\) for j ∈ is and points \( x_{l} \) defined by pts.
Implements TPermHCAGeneratorFn< T_value >.
Reimplemented in TInvarBasisQuadHCAGenFn< T_ansatzsp, T_testsp, T_value >, and TInvarBasisQuadHCAGenFn< T_ansatzsp, T_testsp, double >.