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// vi: set et ts=4 sw=2 sts=2:
#ifndef DUNE_PDELAB_GRIDFUNCTIONSPACE_INTERPOLATE_HH
#define DUNE_PDELAB_GRIDFUNCTIONSPACE_INTERPOLATE_HH
#include<vector>
#include<dune/common/exceptions.hh>
#include <dune/localfunctions/common/interfaceswitch.hh>
#include <dune/typetree/typetree.hh>
#include <dune/typetree/pairtraversal.hh>
#include <dune/pdelab/common/function.hh>
#include <dune/pdelab/gridfunctionspace/gridfunctionspace.hh>
#include <dune/pdelab/gridfunctionspace/lfsindexcache.hh>
namespace Dune {
namespace PDELab {
//! \addtogroup GridFunctionSpace
//! \ingroup PDELab
//! \{
// Backend for standard local interpolation
struct InterpolateBackendStandard
{
template<typename FE, typename ElemFunction, typename XL>
void interpolate(const FE &fe, const ElemFunction &elemFunction,
XL &xl) const
{
FiniteElementInterfaceSwitch<FE>::interpolation(fe).
interpolate(elemFunction,xl);
}
};
namespace {
template<typename IB, typename LF, typename XG>
struct InterpolateLeafFromScalarVisitor
: public TypeTree::TreeVisitor
, public TypeTree::DynamicTraversal
{
template<typename LFS, typename TreePath>
void leaf(const LFS& lfs, TreePath treePath) const
{
std::vector<typename XG::ElementType> xl(lfs.size());
// call interpolate for the basis
ib.interpolate(lfs.finiteElement(), lf, xl);
// write coefficients into local vector
xg.write_sub_container(lfs,xl);
}
InterpolateLeafFromScalarVisitor(const IB& ib_, const LF& lf_, XG& xg_)
: ib(ib_)
, lf(lf_)
, xg(xg_)
{}
const IB& ib;
const LF& lf;
XG& xg;
};
template<typename IB, typename LF, typename XG>
struct InterpolateLeafFromVectorVisitor
: public TypeTree::TreeVisitor
, public TypeTree::DynamicTraversal
{
template<typename LFS, typename TreePath>
void leaf(const LFS& lfs, TreePath treePath) const
{
std::vector<typename XG::ElementType> xl(lfs.size());
// call interpolate for the basis
typedef SelectComponentAdapter<LF> LFCOMP;
LFCOMP localfcomp(lf,treePath.back());
ib.interpolate(lfs.finiteElement(), localfcomp, xl);
// write coefficients into local vector
xg.write_sub_container(lfs,xl);
}
InterpolateLeafFromVectorVisitor(const IB& ib_, const LF& lf_, XG& xg_)
: ib(ib_)
, lf(lf_)
, xg(xg_)
{}
const IB& ib;
const LF& lf;
XG& xg;
};
template<typename IB, typename E, typename XG>
struct InterpolateVisitor
: public TypeTree::TreePairVisitor
, public TypeTree::DynamicTraversal
{
template<typename F, typename LFS, typename TreePath>
typename std::enable_if<F::isLeaf && LFS::isLeaf>::type
leaf(const F& f, const LFS& lfs, TreePath treePath) const
{
std::vector<typename XG::ElementType> xl(lfs.size());
// call interpolate for the basis
ib.interpolate(lfs.finiteElement(),
GridFunctionToLocalFunctionAdapter<F>(f,e), xl);
// write coefficients into local vector
xg.write_sub_container(lfs,xl);
}
// interpolate PowerLFS from vector-valued function
template<typename F, typename LFS, typename TreePath>
typename std::enable_if<F::isLeaf && F::Traits::dimRange == 1
&& (!LFS::isLeaf)>::type
leaf(const F& f, const LFS& lfs, TreePath treePath) const
{
static_assert((TypeTree::TreeInfo<LFS>::depth == 2),
"Automatic interpolation of vector-valued function " \
"is restricted to trees of depth 1");
typedef GridFunctionToLocalFunctionAdapter<F> LF;
LF localf(f,e);
TypeTree::applyToTree(lfs,InterpolateLeafFromScalarVisitor<IB,LF,XG>(ib,localf,xg));
}
// interpolate PowerLFS from vector-valued function
template<typename F, typename LFS, typename TreePath>
typename std::enable_if<F::isLeaf && (F::Traits::dimRange > 1) &&
(!LFS::isLeaf)>::type
leaf(const F& f, const LFS& lfs, TreePath treePath) const
{
static_assert((TypeTree::TreeInfo<LFS>::depth == 2),
"Automatic interpolation of vector-valued function " \
"is restricted to trees of depth 1");
static_assert(TypeTree::StaticDegree<LFS>::value == F::Traits::dimRange,
"Number of children and dimension of range type " \
"must match for automatic interpolation of " \
"vector-valued function");
typedef GridFunctionToLocalFunctionAdapter<F> LF;
LF localf(f,e);
TypeTree::applyToTree(lfs,InterpolateLeafFromVectorVisitor<IB,LF,XG>(ib,localf,xg));
}
InterpolateVisitor(IB ib_, const E& e_, XG& xg_)
: ib(ib_)
, e(e_)
, xg(xg_)
{}
private:
IB ib;
const E& e;
XG& xg;
};
} // anonymous namespace
//! interpolation from a given grid function
/**
* \code
#include <dune/pdelab/gridfunctionspace/interpolate.hh>
* \endcode
* \param f Function to interpolate from.
* \param gfs GridFunctionSpace to use for interpoaltion.
* \param xg Global vector of dofs to interpolate into.
*
* \note \c xg needs to be initialized to the correct size, but there is
* no need to initialize its contents.
*/
template<typename F, typename GFS, typename XG>
void interpolate (const F& f, const GFS& gfs, XG& xg)
{
// this is the leaf version now
// get some types
using EntitySet = typename GFS::Traits::EntitySet;
using Element = typename EntitySet::Element;
auto entity_set = gfs.entitySet();
// make local function space
typedef LocalFunctionSpace<GFS> LFS;
LFS lfs(gfs);
typedef LFSIndexCache<LFS> LFSCache;
LFSCache lfs_cache(lfs);
typedef typename XG::template LocalView<LFSCache> XView;
XView x_view(xg);
// loop once over the grid
for (const auto& element : elements(entity_set))
{
// bind local function space to element
lfs.bind(element);
lfs_cache.update();
x_view.bind(lfs_cache);
// call interpolate
TypeTree::applyToTreePair(f,lfs,InterpolateVisitor<InterpolateBackendStandard,Element,XView>(InterpolateBackendStandard(),element,x_view));
x_view.unbind();
}
x_view.detach();
}
//! \} group GridFunctionSpace
} // namespace PDELab
} // namespace Dune
#endif // DUNE_PDELAB_GRIDFUNCTIONSPACE_INTERPOLATE_HH
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