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ElementQuad4Axisymmetric.h
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rGOOSEFEM GooseFEM
ElementQuad4Axisymmetric.h
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/*
(c - GPLv3) T.W.J. de Geus (Tom) | tom@geus.me | www.geus.me | github.com/tdegeus/GooseFEM
*/
#ifndef GOOSEFEM_ELEMENTQUAD4AXISYMMETRIC_H
#define GOOSEFEM_ELEMENTQUAD4AXISYMMETRIC_H
#include "config.h"
namespace GooseFEM {
namespace Element {
namespace Quad4 {
class QuadratureAxisymmetric : public GooseFEM::Element::QuadratureBase<4, 2, 3> {
public:
// Fixed dimensions:
// ndim = 2 - number of dimensions
// nne = 4 - number of nodes per element
// tdim = 3 - number of dimensions of tensors
//
// Naming convention:
// "elemmat" - matrices stored per element - [nelem, nne*ndim, nne*ndim]
// "elemvec" - nodal vectors stored per element - [nelem, nne, ndim]
// "qtensor" - integration point tensor - [nelem, nip, tdim, tdim]
// "qscalar" - integration point scalar - [nelem, nip]
// Constructor: integration point coordinates and weights are optional (default: Gauss)
QuadratureAxisymmetric() = default;
QuadratureAxisymmetric(const xt::xtensor<double, 3>& x);
QuadratureAxisymmetric(
const xt::xtensor<double, 3>& x,
const xt::xtensor<double, 2>& xi,
const xt::xtensor<double, 1>& w);
// Update the nodal positions (shape of "x" should match the earlier definition)
void update_x(const xt::xtensor<double, 3>& x);
xt::xtensor<double, 4> GradN() const;
// Return integration volume
xt::xtensor<double, 2> dV() const;
// Dyadic product (and its transpose and symmetric part)
// qtensor(i,j) += B(m,i,j,k) * elemvec(m,k)
void gradN_vector(const xt::xtensor<double, 3>& elemvec, xt::xtensor<double, 4>& qtensor) const;
void gradN_vector_T(const xt::xtensor<double, 3>& elemvec, xt::xtensor<double, 4>& qtensor) const;
void symGradN_vector(const xt::xtensor<double, 3>& elemvec, xt::xtensor<double, 4>& qtensor) const;
// Integral of the scalar product
// elemmat(m*ndim+i,n*ndim+i) += N(m) * qscalar * N(n) * dV
void int_N_scalar_NT_dV(
const xt::xtensor<double, 2>& qscalar, xt::xtensor<double, 3>& elemmat) const;
// Integral of the assembled product
// fm = ( Bm^T : qtensor ) dV
void int_gradN_dot_tensor2_dV(
const xt::xtensor<double, 4>& qtensor, xt::xtensor<double, 3>& elemvec) const;
// Integral of the assembled product
// Kmn = ( Bm^T : qtensor : Bn ) dV
void int_gradN_dot_tensor4_dot_gradNT_dV(
const xt::xtensor<double, 6>& qtensor, xt::xtensor<double, 3>& elemmat) const;
// Auto-allocation of the functions above
xt::xtensor<double, 4> GradN_vector(const xt::xtensor<double, 3>& elemvec) const;
xt::xtensor<double, 4> GradN_vector_T(const xt::xtensor<double, 3>& elemvec) const;
xt::xtensor<double, 4> SymGradN_vector(const xt::xtensor<double, 3>& elemvec) const;
xt::xtensor<double, 3> Int_N_scalar_NT_dV(const xt::xtensor<double, 2>& qscalar) const;
xt::xtensor<double, 3> Int_gradN_dot_tensor2_dV(const xt::xtensor<double, 4>& qtensor) const;
xt::xtensor<double, 3> Int_gradN_dot_tensor4_dot_gradNT_dV(const xt::xtensor<double, 6>& qtensor) const;
private:
// Compute "vol" and "B" based on current "x"
void compute_dN();
private:
xt::xtensor<double, 3> m_x; // nodal positions stored per element [nelem, nne, ndim]
xt::xtensor<double, 1> m_w; // weight of each integration point [nip]
xt::xtensor<double, 2> m_xi; // local coordinate of each integration point [nip, ndim]
xt::xtensor<double, 2> m_N; // shape functions [nip, nne]
xt::xtensor<double, 3> m_dNxi; // shape function grad. wrt local coor. [nip, nne, ndim]
xt::xtensor<double, 6> m_B; // B-matrix [nelem, nne, tdim, tdim, tdim]
xt::xtensor<double, 2> m_vol; // integration point volume [nelem, nip]
};
} // namespace Quad4
} // namespace Element
} // namespace GooseFEM
#include "ElementQuad4Axisymmetric.hpp"
#endif
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