/usr/include/trilinos/Stokhos_GaussPattersonLegendreBasisImp.hpp is in libtrilinos-stokhos-dev 12.4.2-2.
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// $Source$
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// Stokhos Package
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#ifdef HAVE_STOKHOS_DAKOTA
#include "sandia_rules.hpp"
#endif
#include "Teuchos_TestForException.hpp"
template <typename ordinal_type, typename value_type>
Stokhos::GaussPattersonLegendreBasis<ordinal_type, value_type>::
GaussPattersonLegendreBasis(ordinal_type p, bool normalize, bool isotropic_) :
LegendreBasis<ordinal_type, value_type>(p, normalize),
isotropic(isotropic_)
{
#ifdef HAVE_STOKHOS_DAKOTA
this->setSparseGridGrowthRule(webbur::level_to_order_exp_gp);
#endif
}
template <typename ordinal_type, typename value_type>
Stokhos::GaussPattersonLegendreBasis<ordinal_type, value_type>::
GaussPattersonLegendreBasis(ordinal_type p,
const GaussPattersonLegendreBasis& basis) :
LegendreBasis<ordinal_type, value_type>(p, basis),
isotropic(basis.isotropic)
{
}
template <typename ordinal_type, typename value_type>
Stokhos::GaussPattersonLegendreBasis<ordinal_type, value_type>::
~GaussPattersonLegendreBasis()
{
}
template <typename ordinal_type, typename value_type>
void
Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>::
getQuadPoints(ordinal_type quad_order,
Teuchos::Array<value_type>& quad_points,
Teuchos::Array<value_type>& quad_weights,
Teuchos::Array< Teuchos::Array<value_type> >& quad_values) const
{
#ifdef HAVE_STOKHOS_DAKOTA
// Gauss-Patterson points have the following structure
// (cf. http://people.sc.fsu.edu/~jburkardt/f_src/patterson_rule/patterson_rule.html):
// Level l Num points n Precision p
// -----------------------------------
// 0 1 1
// 1 3 5
// 2 7 11
// 3 15 23
// 4 31 47
// 5 63 95
// 6 127 191
// 7 255 383
// Thus for l > 0, n = 2^{l+1}-1 and p = 3*2^l-1. So for a given quadrature
// order p, we find the smallest l s.t. 3*s^l-1 >= p and then compute the
// number of points n from the above. In this case, l = ceil(log2((p+1)/3))
ordinal_type num_points;
if (quad_order <= ordinal_type(1))
num_points = 1;
else {
ordinal_type l = std::ceil(std::log((quad_order+1.0)/3.0)/std::log(2.0));
num_points = (1 << (l+1)) - 1; // std::pow(2,l+1)-1;
}
quad_points.resize(num_points);
quad_weights.resize(num_points);
quad_values.resize(num_points);
webbur::patterson_lookup(num_points, &quad_points[0], &quad_weights[0]);
for (ordinal_type i=0; i<num_points; i++) {
quad_weights[i] *= 0.5; // scale to unit measure
quad_values[i].resize(this->p+1);
this->evaluateBases(quad_points[i], quad_values[i]);
}
#else
TEUCHOS_TEST_FOR_EXCEPTION(
true, std::logic_error, "Clenshaw-Curtis requires TriKota to be enabled!");
#endif
}
template <typename ordinal_type, typename value_type>
ordinal_type
Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>::
quadDegreeOfExactness(ordinal_type n) const
{
// Based on the above structure, we find the largest l s.t. 2^{l+1}-1 <= n,
// which is floor(log2(n+1)-1) and compute p = 3*2^l-1
if (n == ordinal_type(1))
return 1;
ordinal_type l = std::floor(std::log(n+1.0)/std::log(2.0)-1.0);
return (3 << l) - 1; // 3*std::pow(2,l)-1;
}
template <typename ordinal_type, typename value_type>
Teuchos::RCP<Stokhos::OneDOrthogPolyBasis<ordinal_type,value_type> >
Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>::
cloneWithOrder(ordinal_type p) const
{
return
Teuchos::rcp(new Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>(p,*this));
}
template <typename ordinal_type, typename value_type>
ordinal_type
Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>::
coefficientGrowth(ordinal_type n) const
{
// Gauss-Patterson rules have precision 3*2^l-1, which is odd.
// Since discrete orthogonality requires integrating polynomials of
// order 2*p, setting p = 3*2^{l-1}-1 will yield the largest p such that
// 2*p <= 3*2^l-1
if (n == 0)
return 0;
return (3 << (n-1)) - 1; // 3*std::pow(2,n-1) - 1;
}
template <typename ordinal_type, typename value_type>
ordinal_type
Stokhos::GaussPattersonLegendreBasis<ordinal_type,value_type>::
pointGrowth(ordinal_type n) const
{
return n;
}
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