Dune Core Modules (2.9.1)

geometry.hh
Go to the documentation of this file.
1// SPDX-FileCopyrightText: Copyright (C) DUNE Project contributors, see file LICENSE.md in module root
2// SPDX-License-Identifier: LicenseRef-GPL-2.0-only-with-DUNE-exception
3// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
4// vi: set et ts=4 sw=2 sts=2:
5#ifndef DUNE_GRID_COMMON_GEOMETRY_HH
6#define DUNE_GRID_COMMON_GEOMETRY_HH
7
12#include <cassert>
13
16#include <dune/common/transpose.hh>
17#include <dune/common/std/type_traits.hh>
18
19#include <dune/geometry/referenceelements.hh>
20
21namespace Dune
22{
23
24 // External Forward Declarations
25 // -----------------------------
26
27 template< int dim, int dimworld, class ct, class GridFamily >
28 class GridDefaultImplementation;
29
30
31
32 //*****************************************************************************
33 //
34 // Geometry
35 // forwards the interface to the implementation
36 //
37 //*****************************************************************************
38
69 template< int mydim, int cdim, class GridImp, template< int, int, class > class GeometryImp >
71 {
72 public:
78 typedef GeometryImp< mydim, cdim, GridImp > Implementation;
79
85 Implementation &impl () { return realGeometry; }
91 const Implementation &impl () const { return realGeometry; }
92
94 constexpr static int mydimension = mydim;
95
97 constexpr static int coorddimension = cdim;
98
100 typedef typename GridImp::ctype ctype;
101
104
107
109 typedef decltype(std::declval<Implementation>().volume()) Volume;
110
120 typedef typename Implementation::JacobianInverseTransposed JacobianInverseTransposed;
121
131 typedef typename Implementation::JacobianTransposed JacobianTransposed;
132
133 private:
134
135 template<class Implementation_T>
136 using JacobianInverseOfImplementation = decltype(typename Implementation_T::JacobianInverse{std::declval<Implementation_T>().jacobianInverse(std::declval<LocalCoordinate>())});
137
138 using JacobianInverseDefault = decltype(transpose(std::declval<JacobianInverseTransposed>()));
139
140 template<class Implementation_T>
141 using JacobianOfImplementation = decltype(typename Implementation_T::Jacobian{std::declval<Implementation_T>().jacobian(std::declval<LocalCoordinate>())});
142
143 using JacobianDefault = decltype(transpose(std::declval<JacobianTransposed>()));
144
145 auto jacobianImpl ( const LocalCoordinate &local, std::true_type /*implDetected*/ ) const
146 {
147 return impl().jacobian(local);
148 }
149
150 [[deprecated("Geometry implementatons are required to provide a jacobian(local) method. The default implementation is deprecated and will be removed after release 2.9")]]
151 auto jacobianImpl ( const LocalCoordinate &local, std::false_type /*implNotDetected*/ ) const
152 {
153 return transpose(jacobianTransposed(local));
154 }
155
156 auto jacobianInverseImpl ( const LocalCoordinate &local, std::true_type /*implDetected*/ ) const
157 {
158 return impl().jacobianInverse(local);
159 }
160
161 [[deprecated("Geometry implementatons are required to provide a jacobianInverse(local) method. The default implementation is deprecated and will be removed after release 2.9")]]
162 auto jacobianInverseImpl ( const LocalCoordinate &local, std::false_type /*implNotDetected*/ ) const
163 {
165 }
166
167 public:
168
179
190
194 GeometryType type () const { return impl().type(); }
195
197 bool affine() const { return impl().affine(); }
198
205 int corners () const { return impl().corners(); }
206
219 GlobalCoordinate corner ( int i ) const
220 {
221 return impl().corner( i );
222 }
223
229 {
230 return impl().global( local );
231 }
232
238 {
239 return impl().local( global );
240 }
241
266 {
267 return impl().integrationElement( local );
268 }
269
271 Volume volume () const
272 {
273 return impl().volume();
274 }
275
287 {
288 return impl().center();
289 }
290
303 {
304 return impl().jacobianTransposed( local );
305 }
306
329 {
330 return impl().jacobianInverseTransposed(local);
331 }
332
344 Jacobian jacobian ( const LocalCoordinate& local ) const
345 {
347 return jacobianImpl(local, implDetected);
348 }
349
372 {
374 return jacobianInverseImpl(local, implDetected);
375 }
376
377 //===========================================================
381 //===========================================================
382
384 explicit Geometry ( const Implementation &impl )
385 : realGeometry( impl )
386 {}
387
389
390 protected:
391
392 Implementation realGeometry;
393 };
394
395
396
397 //************************************************************************
398 // GEOMETRY Default Implementations
399 //*************************************************************************
400 //
401 // --GeometryDefault
402 //
404 template<int mydim, int cdim, class GridImp, template<int,int,class> class GeometryImp>
406 {
407 public:
408 static const int mydimension = mydim;
409 static const int coorddimension = cdim;
410
411 // save typing
412 typedef typename GridImp::ctype ctype;
413
416
418 typedef ctype Volume;
419
422
425
428
431
433 Volume volume () const
434 {
435 GeometryType type = asImp().type();
436
437 // get corresponding reference element
438 auto refElement = referenceElement< ctype , mydim >(type);
439
440 LocalCoordinate localBaryCenter ( 0 );
441 // calculate local bary center
442 const int corners = refElement.size(0,0,mydim);
443 for(int i=0; i<corners; ++i) localBaryCenter += refElement.position(i,mydim);
444 localBaryCenter *= (ctype) (1.0/corners);
445
446 // volume is volume of reference element times integrationElement
447 return refElement.volume() * asImp().integrationElement(localBaryCenter);
448 }
449
452 {
453 GeometryType type = asImp().type();
454
455 // get corresponding reference element
456 auto refElement = referenceElement< ctype , mydim >(type);
457
458 // center is (for now) the centroid of the reference element mapped to
459 // this geometry.
460 return asImp().global(refElement.position(0,0));
461 }
462
464 Jacobian jacobian ( const LocalCoordinate& local ) const
465 {
466 return asImp().jacobianTransposed(local).transposed();
467 }
468
471 {
472 return asImp().jacobianInverseTransposed(local).transposed();
473 }
474
475 private:
477 GeometryImp<mydim,cdim,GridImp>& asImp () {return static_cast<GeometryImp<mydim,cdim,GridImp>&>(*this);}
478 const GeometryImp<mydim,cdim,GridImp>& asImp () const {return static_cast<const GeometryImp<mydim,cdim,GridImp>&>(*this);}
479 }; // end GeometryDefault
480
481 template<int cdim, class GridImp, template<int,int,class> class GeometryImp>
482 class GeometryDefaultImplementation<0,cdim,GridImp,GeometryImp>
483 {
484 // my dimension
485 constexpr static int mydim = 0;
486
487 public:
488 static const int mydimension = mydim;
489 static const int coorddimension = cdim;
490
491 // save typing
492 typedef typename GridImp::ctype ctype;
493
494 typedef FieldVector< ctype, mydim > LocalCoordinate;
495 typedef FieldVector< ctype, cdim > GlobalCoordinate;
496 typedef ctype Volume;
497
499 typedef FieldMatrix< ctype, cdim, mydim > JacobianInverseTransposed;
500
502 typedef FieldMatrix< ctype, mydim, cdim > JacobianTransposed;
503
505 typedef FieldMatrix< ctype, mydim, cdim > JacobianInverse;
506
508 typedef FieldMatrix< ctype, cdim, mydim > Jacobian;
509
511 FieldVector<ctype, cdim> global (const FieldVector<ctype, mydim>& local) const
512 {
513 return asImp().corner(0);
514 }
515
517 FieldVector<ctype, mydim> local (const FieldVector<ctype, cdim>& ) const
518 {
519 return FieldVector<ctype, mydim>();
520 }
521
523 Volume volume () const
524 {
525 return Volume(1.0);
526 }
527
529 FieldVector<ctype, cdim> center () const
530 {
531 return asImp().corner(0);
532 }
533
535 Jacobian jacobian ( const LocalCoordinate& local ) const
536 {
537 return asImp().jacobianTransposed(local).transposed();
538 }
539
541 JacobianInverse jacobianInverse ( const LocalCoordinate &local ) const
542 {
543 return asImp().jacobianInverseTransposed(local).transposed();
544 }
545
546 private:
547 // Barton-Nackman trick
548 GeometryImp<mydim,cdim,GridImp>& asImp () {return static_cast<GeometryImp<mydim,cdim,GridImp>&>(*this);}
549 const GeometryImp<mydim,cdim,GridImp>& asImp () const {return static_cast<const GeometryImp<mydim,cdim,GridImp>&>(*this);}
550 }; // end GeometryDefault
551
552
553
554 // referenceElement
555 // ----------------
556
557 template< int mydim, int cdim, class GridImp, template< int, int, class > class GeometryImp>
558 auto referenceElement(const Geometry<mydim,cdim,GridImp,GeometryImp>& geo)
559 -> decltype(referenceElement(geo,geo.impl()))
560 {
561 return referenceElement(geo,geo.impl());
562 }
563
565
580 template< int mydim, int cdim, class GridImp, template< int, int, class > class GeometryImp, typename Impl>
582 -> decltype(referenceElement<typename GridImp::ctype,mydim>(geo.type()))
583 {
585 return referenceElement<typename Geo::ctype,Geo::mydimension>(geo.type());
586 }
587
588} // namespace Dune
589
590#endif // DUNE_GRID_COMMON_GEOMETRY_HH
A dense n x m matrix.
Definition: fmatrix.hh:117
vector space out of a tensor product of fields.
Definition: fvector.hh:95
Default implementation for class Geometry.
Definition: geometry.hh:406
Volume volume() const
return volume of the geometry
Definition: geometry.hh:433
GlobalCoordinate center() const
return center of the geometry
Definition: geometry.hh:451
FieldMatrix< ctype, cdim, mydim > Jacobian
type of jacobian
Definition: geometry.hh:430
JacobianInverse jacobianInverse(const LocalCoordinate &local) const
Return inverse of Jacobian.
Definition: geometry.hh:470
FieldMatrix< ctype, mydim, cdim > JacobianTransposed
type of jacobian transposed
Definition: geometry.hh:424
Jacobian jacobian(const LocalCoordinate &local) const
Return the Jacobian.
Definition: geometry.hh:464
FieldMatrix< ctype, cdim, mydim > JacobianInverseTransposed
type of jacobian inverse transposed
Definition: geometry.hh:421
FieldMatrix< ctype, mydim, cdim > JacobianInverse
type of jacobian inverse
Definition: geometry.hh:427
ctype Volume
Number type used for the geometry volume.
Definition: geometry.hh:418
Unique label for each type of entities that can occur in DUNE grids.
Definition: type.hh:126
Wrapper class for geometries.
Definition: geometry.hh:71
Volume integrationElement(const LocalCoordinate &local) const
Return the factor appearing in the integral transformation formula.
Definition: geometry.hh:265
Jacobian jacobian(const LocalCoordinate &local) const
Return the Jacobian.
Definition: geometry.hh:344
FieldVector< ctype, cdim > GlobalCoordinate
type of the global coordinates
Definition: geometry.hh:106
JacobianTransposed jacobianTransposed(const LocalCoordinate &local) const
Return the transposed of the Jacobian.
Definition: geometry.hh:302
Implementation & impl()
access to the underlying implementation
Definition: geometry.hh:85
GeometryType type() const
Return the type of the reference element. The type can be used to access the Dune::ReferenceElement.
Definition: geometry.hh:194
GlobalCoordinate global(const LocalCoordinate &local) const
Evaluate the map .
Definition: geometry.hh:228
JacobianInverse jacobianInverse(const LocalCoordinate &local) const
Return inverse of Jacobian.
Definition: geometry.hh:371
Geometry(const Implementation &impl)
copy constructor from implementation
Definition: geometry.hh:384
Implementation::JacobianTransposed JacobianTransposed
type of jacobian transposed
Definition: geometry.hh:131
Implementation::JacobianInverseTransposed JacobianInverseTransposed
type of jacobian inverse transposed
Definition: geometry.hh:120
GlobalCoordinate corner(int i) const
Obtain a corner of the geometry.
Definition: geometry.hh:219
int corners() const
Return the number of corners of the reference element.
Definition: geometry.hh:205
Volume volume() const
return volume of geometry
Definition: geometry.hh:271
static constexpr int coorddimension
dimension of embedding coordinate system
Definition: geometry.hh:97
Std::detected_or_t< JacobianInverseDefault, JacobianInverseOfImplementation, Implementation > JacobianInverse
type of jacobian inverse
Definition: geometry.hh:178
decltype(std::declval< Implementation >().volume()) Volume
Number type used for the geometry volume.
Definition: geometry.hh:109
GridImp::ctype ctype
define type used for coordinates in grid module
Definition: geometry.hh:100
const Implementation & impl() const
access to the underlying implementation
Definition: geometry.hh:91
FieldVector< ctype, mydim > LocalCoordinate
type of local coordinates
Definition: geometry.hh:103
GlobalCoordinate center() const
return center of geometry
Definition: geometry.hh:286
bool affine() const
Return true if the geometry mapping is affine and false otherwise.
Definition: geometry.hh:197
auto referenceElement(const Geometry< mydim, cdim, GridImp, GeometryImp > &geo, const Impl &) -> decltype(referenceElement< typename GridImp::ctype, mydim >(geo.type()))
Second-level dispatch to select the correct reference element for a grid geometry.
Definition: geometry.hh:581
Std::detected_or_t< JacobianDefault, JacobianOfImplementation, Implementation > Jacobian
type of jacobian
Definition: geometry.hh:189
static constexpr int mydimension
geometry dimension
Definition: geometry.hh:94
GeometryImp< mydim, cdim, GridImp > Implementation
type of underlying implementation
Definition: geometry.hh:78
JacobianInverseTransposed jacobianInverseTransposed(const LocalCoordinate &local) const
Return inverse of transposed of Jacobian.
Definition: geometry.hh:328
Implements a matrix constructed from a given type representing a field and compile-time given number ...
typename detected_or< Default, Op, Args... >::type detected_or_t
Returns Op<Args...> if that is valid; otherwise returns the fallback type Default.
Definition: type_traits.hh:185
typename detected_or< nonesuch, Op, Args... >::value_t is_detected
Detects whether Op<Args...> is valid.
Definition: type_traits.hh:141
unspecified value type referenceElement(T &&... t)
Returns a reference element for the objects t....
Dune namespace.
Definition: alignedallocator.hh:13
auto transpose(const Matrix &matrix)
Return the transposed of the given matrix.
Definition: transpose.hh:183
Traits for type conversions and type information.
Creative Commons License   |  Legal Statements / Impressum  |  Hosted by TU Dresden  |  generated with Hugo v0.111.3 (Nov 21, 23:30, 2024)