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maps.h
1 // Copyright (c) 2021-2022 Matthew Scroggs and Garth N. Wells
2 // FEniCS Project
3 // SPDX-License-Identifier: MIT
4 
5 #pragma once
6 
7 #include "mdspan.hpp"
8 #include <stdexcept>
9 #include <type_traits>
10 
12 namespace basix::maps
13 {
14 
15 namespace impl
16 {
19 template <typename T, typename = void>
20 struct scalar_value_type
21 {
23  typedef T value_type;
24 };
26 template <typename T>
27 struct scalar_value_type<T, std::void_t<typename T::value_type>>
28 {
29  typedef typename T::value_type value_type;
30 };
32 template <typename T>
33 using scalar_value_type_t = typename scalar_value_type<T>::value_type;
34 } // namespace impl
35 
37 enum class type
38 {
39  identity = 0,
40  L2Piola = 1,
41  covariantPiola = 2,
42  contravariantPiola = 3,
43  doubleCovariantPiola = 4,
44  doubleContravariantPiola = 5,
45 };
46 
48 template <typename O, typename P, typename Q, typename R>
49 void l2_piola(O&& r, const P& U, const Q& /*J*/, double detJ, const R& /*K*/)
50 {
51  assert(U.extent(0) == r.extent(0));
52  assert(U.extent(1) == r.extent(1));
53  for (std::size_t i = 0; i < U.extent(0); ++i)
54  for (std::size_t j = 0; j < U.extent(1); ++j)
55  r(i, j) = U(i, j) / detJ;
56 }
57 
59 template <typename O, typename P, typename Q, typename R>
60 void covariant_piola(O&& r, const P& U, const Q& /*J*/, double /*detJ*/,
61  const R& K)
62 {
63  using T = typename std::decay_t<O>::value_type;
64  using Z = typename impl::scalar_value_type_t<T>;
65  for (std::size_t p = 0; p < U.extent(0); ++p)
66  {
67  // r_p = K^T U_p, where p indicates the p-th row
68  for (std::size_t i = 0; i < r.extent(1); ++i)
69  {
70  T acc = 0;
71  for (std::size_t k = 0; k < K.extent(0); ++k)
72  acc += static_cast<Z>(K(k, i)) * U(p, k);
73  r(p, i) = acc;
74  }
75  }
76 }
77 
79 template <typename O, typename P, typename Q, typename R>
80 void contravariant_piola(O&& r, const P& U, const Q& J, double detJ,
81  const R& /*K*/)
82 {
83  using T = typename std::decay_t<O>::value_type;
84  using Z = typename impl::scalar_value_type_t<T>;
85  for (std::size_t p = 0; p < U.extent(0); ++p)
86  {
87  for (std::size_t i = 0; i < r.extent(1); ++i)
88  {
89  T acc = 0;
90  for (std::size_t k = 0; k < J.extent(1); ++k)
91  acc += static_cast<Z>(J(i, k)) * U(p, k);
92  r(p, i) = acc;
93  }
94  }
95 
96  std::transform(r.data_handle(), r.data_handle() + r.size(), r.data_handle(),
97  [detJ](auto ri) { return ri / static_cast<Z>(detJ); });
98 }
99 
101 template <typename O, typename P, typename Q, typename R>
102 void double_covariant_piola(O&& r, const P& U, const Q& J, double /*detJ*/,
103  const R& K)
104 {
105  namespace stdex
106  = MDSPAN_IMPL_STANDARD_NAMESPACE::MDSPAN_IMPL_PROPOSED_NAMESPACE;
107  using T = typename std::decay_t<O>::value_type;
108  using Z = typename impl::scalar_value_type_t<T>;
109  for (std::size_t p = 0; p < U.extent(0); ++p)
110  {
111  MDSPAN_IMPL_STANDARD_NAMESPACE::mdspan<
112  const T, MDSPAN_IMPL_STANDARD_NAMESPACE::dextents<std::size_t, 2>>
113  _U(U.data_handle() + p * U.extent(1), J.extent(1), J.extent(1));
114  MDSPAN_IMPL_STANDARD_NAMESPACE::mdspan<
115  T, MDSPAN_IMPL_STANDARD_NAMESPACE::dextents<std::size_t, 2>>
116  _r(r.data_handle() + p * r.extent(1), K.extent(1), K.extent(1));
117  // _r = K^T _U K
118  for (std::size_t i = 0; i < _r.extent(0); ++i)
119  {
120  for (std::size_t j = 0; j < _r.extent(1); ++j)
121  {
122  T acc = 0;
123  for (std::size_t k = 0; k < K.extent(0); ++k)
124  for (std::size_t l = 0; l < _U.extent(1); ++l)
125  acc += static_cast<Z>(K(k, i)) * _U(k, l) * static_cast<Z>(K(l, j));
126  _r(i, j) = acc;
127  }
128  }
129  }
130 }
131 
133 template <typename O, typename P, typename Q, typename R>
134 void double_contravariant_piola(O&& r, const P& U, const Q& J, double detJ,
135  const R& /*K*/)
136 {
137  namespace stdex
138  = MDSPAN_IMPL_STANDARD_NAMESPACE::MDSPAN_IMPL_PROPOSED_NAMESPACE;
139  using T = typename std::decay_t<O>::value_type;
140  using Z = typename impl::scalar_value_type_t<T>;
141  for (std::size_t p = 0; p < U.extent(0); ++p)
142  {
143  MDSPAN_IMPL_STANDARD_NAMESPACE::mdspan<
144  const T, MDSPAN_IMPL_STANDARD_NAMESPACE::dextents<std::size_t, 2>>
145  _U(U.data_handle() + p * U.extent(1), J.extent(1), J.extent(1));
146  MDSPAN_IMPL_STANDARD_NAMESPACE::mdspan<
147  T, MDSPAN_IMPL_STANDARD_NAMESPACE::dextents<std::size_t, 2>>
148  _r(r.data_handle() + p * r.extent(1), J.extent(0), J.extent(0));
149 
150  // _r = J U J^T
151  for (std::size_t i = 0; i < _r.extent(0); ++i)
152  {
153  for (std::size_t j = 0; j < _r.extent(1); ++j)
154  {
155  T acc = 0;
156  for (std::size_t k = 0; k < J.extent(1); ++k)
157  for (std::size_t l = 0; l < _U.extent(1); ++l)
158  acc += static_cast<Z>(J(i, k)) * _U(k, l) * static_cast<Z>(J(j, l));
159  _r(i, j) = acc;
160  }
161  }
162  }
163 
164  std::transform(r.data_handle(), r.data_handle() + r.size(), r.data_handle(),
165  [detJ](auto ri) { return ri / static_cast<Z>(detJ * detJ); });
166 }
167 
168 } // namespace basix::maps
Information about finite element maps.
Definition: maps.h:13
void l2_piola(O &&r, const P &U, const Q &, double detJ, const R &)
L2 Piola map.
Definition: maps.h:49
void covariant_piola(O &&r, const P &U, const Q &, double, const R &K)
Covariant Piola map.
Definition: maps.h:60
void contravariant_piola(O &&r, const P &U, const Q &J, double detJ, const R &)
Contravariant Piola map.
Definition: maps.h:80
void double_contravariant_piola(O &&r, const P &U, const Q &J, double detJ, const R &)
Double contravariant Piola map.
Definition: maps.h:134
void double_covariant_piola(O &&r, const P &U, const Q &J, double, const R &K)
Double covariant Piola map.
Definition: maps.h:102
type
Map type.
Definition: maps.h:38