/usr/include/trilinos/Stokhos_Sparse3TensorPartition.hpp is in libtrilinos-stokhos-dev 12.4.2-2.
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// ***********************************************************************
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// Stokhos Package
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#ifndef STOKHOS_SPARSE_3_TENSOR_PARTITION_HPP
#define STOKHOS_SPARSE_3_TENSOR_PARTITION_HPP
#include "Stokhos_Sparse3Tensor.hpp"
#include "Teuchos_ArrayRCP.hpp"
#include "Teuchos_Array.hpp"
namespace Stokhos {
template <typename TupleType>
class RCB {
public:
typedef typename TupleType::value_type coord_type;
typedef typename Teuchos::ArrayView<TupleType>::size_type size_type;
typedef typename TupleType::id_type id_type;
struct CoordCompare {
size_type d;
CoordCompare(const size_type& d_) : d(d_) {}
bool operator() (const TupleType& a, const TupleType& b) const {
return a(d) < b(d);
}
};
struct Box {
coord_type xmin, ymin, zmin, xmax, ymax, zmax;
coord_type delta_x, delta_y, delta_z;
size_type split_dim;
Teuchos::RCP<Box> left, right;
Teuchos::Array<TupleType> coords;
Box(const Teuchos::ArrayView<TupleType>& c) : coords(c.begin(), c.end()) {
computeBoundingBox();
computeSplittingDimension();
}
// Compute bounding box around points
void computeBoundingBox(){
xmin = coords[0](0); xmax = coords[0](0);
ymin = coords[0](1); ymax = coords[0](1);
zmin = coords[0](2); zmax = coords[0](2);
for (size_type i=0; i<coords.size(); ++i) {
coord_type x = coords[i](0);
coord_type y = coords[i](1);
coord_type z = coords[i](2);
if (x < xmin) xmin = x;
if (y < ymin) ymin = y;
if (z < zmin) zmin = z;
if (x > xmax) xmax = x;
if (y > ymax) ymax = y;
if (z > zmax) zmax = z;
}
delta_x = xmax - xmin + 1;
delta_y = ymax - ymin + 1;
delta_z = zmax - zmin + 1;
// std::cout << "delta_x = " << delta_x
// << " delta_y = " << delta_y
// << " delta_z = " << delta_z << std::endl;
}
// Compute dimension to split
void computeSplittingDimension() {
split_dim = 0;
if (delta_y >= delta_x && delta_y >= delta_z) split_dim = 1;
if (delta_z >= delta_x && delta_z >= delta_y) split_dim = 2;
//std::cout << "splitting dimension = " << split_dim << std::endl;
}
// Split box into two pieces with roughly equal numbers of points
void split() {
// Sort points based on splitting dimension
CoordCompare cmp(split_dim);
std::sort(coords.begin(), coords.end(), cmp);
// Divide coords into two bins of roughly equal size, keeping
// coords with equal values for split dimension together
size_type n = coords.size();
size_type s = n / 2;
while (s < n-1 && coords[s](split_dim) == coords[s+1](split_dim)) ++s;
//std::cout << "n = " << n << " s = " << s << std::endl;
if (s > 0)
left = Teuchos::rcp(new Box(coords.view(0, s)));
if (s < n)
right = Teuchos::rcp(new Box(coords.view(s, n-s)));
// Clear my coordinate array since we aren't a leaf
//Teuchos::Array<TupleType>().swap(coords);
//coords.resize(0);
}
};
//! Constructor
RCB(const coord_type& max_length_,
const size_type& max_parts_,
const Teuchos::ArrayView<TupleType>& coords_) :
max_length(max_length_),
max_parts(max_parts_),
coords(coords_.begin(), coords_.end()) {
partition();
}
//! Destructor
~RCB() {}
//! Get number of parts
size_type get_num_parts() const { return num_parts; }
//! Get root of partition
Teuchos::RCP<Box> get_partition_root() const { return root; }
//! Get parts array
Teuchos::RCP< Teuchos::Array< Teuchos::RCP<Box> > > get_parts() const {
return parts; }
// Create list of part IDs for each tuple
Teuchos::ArrayRCP<id_type> get_part_IDs() const {
Teuchos::ArrayRCP<id_type> part_ids(coords.size());
for (size_type part=0; part<num_parts; ++part) {
Teuchos::RCP<Box> box = (*parts)[part];
size_type n = box->coords.size();
for (size_type i=0; i<n; ++i)
part_ids[ box->coords[i].ID() ] = part;
}
return part_ids;
}
private:
coord_type max_length;
size_type max_parts, num_parts;
Teuchos::Array<TupleType> coords;
Teuchos::RCP<Box> root;
Teuchos::RCP< Teuchos::Array< Teuchos::RCP<Box> > > parts;
//! Partition
void partition() {
// Create root bounding box
root = Teuchos::rcp(new Box(coords()));
num_parts = 1;
parts = Teuchos::rcp(new Teuchos::Array< Teuchos::RCP<Box> >);
// Create array of boxes that are too big
Teuchos::Array< Teuchos::RCP<Box> > boxes_to_split;
if (root->delta_x > max_length ||
root->delta_y > max_length ||
root->delta_z > max_length)
boxes_to_split.push_back(root);
else
parts->push_back(root);
// Split each box until all boxes are less than tolerance
while(boxes_to_split.size() > 0 && num_parts < max_parts) {
Teuchos::RCP<Box> box = boxes_to_split.back();
boxes_to_split.pop_back();
box->split();
++num_parts;
if (box->left != Teuchos::null) {
if (box->left->delta_x > max_length ||
box->left->delta_y > max_length ||
box->left->delta_z > max_length)
boxes_to_split.push_back(box->left);
else
parts->push_back(box->left);
}
if (box->right != Teuchos::null) {
if (box->right->delta_x > max_length ||
box->right->delta_y > max_length ||
box->right->delta_z > max_length)
boxes_to_split.push_back(box->right);
else
parts->push_back(box->right);
}
}
TEUCHOS_ASSERT(parts->size() == num_parts);
}
};
template <typename ordinal_type, typename scalar_type>
struct CijkData {
typedef ordinal_type value_type;
typedef ordinal_type id_type;
ordinal_type gid;
ordinal_type i, j, k;
scalar_type c;
ordinal_type operator() (ordinal_type d) const {
if (d == 0) return i;
if (d == 1) return j;
if (d == 2) return k;
return -1;
}
ordinal_type ID() const { return gid; }
};
enum CijkSymmetryType {
CIJK_NO_SYMMETRY,
CIJK_TWO_WAY_SYMMETRY,
CIJK_SIX_WAY_SYMMETRY
};
template <typename ordinal_type, typename scalar_type>
Teuchos::ArrayRCP< CijkData<ordinal_type,scalar_type> >
build_cijk_coordinate_list(
const Sparse3Tensor<ordinal_type,scalar_type>& Cijk,
CijkSymmetryType symmetry_type) {
typedef Sparse3Tensor<ordinal_type,scalar_type> Cijk_type;
typedef typename Cijk_type::k_iterator k_iterator;
typedef typename Cijk_type::kj_iterator kj_iterator;
typedef typename Cijk_type::kji_iterator kji_iterator;
ordinal_type num_cijk = Cijk.num_entries();
Teuchos::ArrayRCP< CijkData<ordinal_type,scalar_type> > coordinate_list(
num_cijk);
ordinal_type idx = 0;
k_iterator k_begin = Cijk.k_begin();
k_iterator k_end = Cijk.k_end();
for (k_iterator k_it=k_begin; k_it!=k_end; ++k_it) {
ordinal_type k = index(k_it);
kj_iterator j_begin = Cijk.j_begin(k_it);
kj_iterator j_end = Cijk.j_end(k_it);
for (kj_iterator j_it = j_begin; j_it != j_end; ++j_it) {
ordinal_type j = index(j_it);
kji_iterator i_begin = Cijk.i_begin(j_it);
kji_iterator i_end = Cijk.i_end(j_it);
for (kji_iterator i_it = i_begin; i_it != i_end; ++i_it) {
ordinal_type i = index(i_it);
if (symmetry_type == CIJK_NO_SYMMETRY) {
coordinate_list[idx].i = i;
coordinate_list[idx].j = j;
coordinate_list[idx].k = k;
coordinate_list[idx].c = value(i_it);
coordinate_list[idx].gid = idx;
++idx;
}
else if (symmetry_type == CIJK_TWO_WAY_SYMMETRY && j >= k) {
coordinate_list[idx].i = i;
coordinate_list[idx].j = j;
coordinate_list[idx].k = k;
if (j == k)
coordinate_list[idx].c = 0.5*value(i_it);
else
coordinate_list[idx].c = value(i_it);
coordinate_list[idx].gid = idx;
++idx;
}
else if (symmetry_type == CIJK_SIX_WAY_SYMMETRY && i >= j && j >= k) {
coordinate_list[idx].i = i;
coordinate_list[idx].j = j;
coordinate_list[idx].k = k;
if (i == j && j == k)
coordinate_list[idx].c = (1.0/6.0)*value(i_it);
else
coordinate_list[idx].c = value(i_it);
coordinate_list[idx].gid = idx;
++idx;
}
}
}
}
coordinate_list.resize(idx);
return coordinate_list;
}
} // namespace Stokhos
#endif // STOKHOS_SPARSE_3_TENSOR_PARTITION_HPP
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