/usr/include/trilinos/Ifpack2_OverlappingPartitioner_def.hpp is in libtrilinos-ifpack2-dev 12.12.1-5.
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// ***********************************************************************
//
// Ifpack2: Tempated Object-Oriented Algebraic Preconditioner Package
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#ifndef IFPACK2_OVERLAPPINGPARTITIONER_DEF_HPP
#define IFPACK2_OVERLAPPINGPARTITIONER_DEF_HPP
#include <vector>
#include <string>
#include <algorithm>
#include "Ifpack2_ConfigDefs.hpp"
#include "Ifpack2_OverlappingPartitioner_decl.hpp"
#include "Teuchos_Array.hpp"
#include "Teuchos_ArrayRCP.hpp"
namespace Ifpack2 {
template<class GraphType>
OverlappingPartitioner<GraphType>::
OverlappingPartitioner (const Teuchos::RCP<const row_graph_type>& graph) :
NumLocalParts_ (1),
Graph_ (graph),
OverlappingLevel_ (0),
IsComputed_ (false),
verbose_ (false),
maintainSparsity_(false)
{}
template<class GraphType>
OverlappingPartitioner<GraphType>::~OverlappingPartitioner() {}
template<class GraphType>
int
OverlappingPartitioner<GraphType>::numLocalParts () const
{
return NumLocalParts_;
}
template<class GraphType>
int OverlappingPartitioner<GraphType>::overlappingLevel () const
{
return OverlappingLevel_;
}
template<class GraphType>
typename GraphType::local_ordinal_type
OverlappingPartitioner<GraphType>::
operator () (const local_ordinal_type MyRow) const
{
TEUCHOS_TEST_FOR_EXCEPTION(
MyRow < 0 || Teuchos::as<size_t> (MyRow) > Graph_->getNodeNumRows (),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::operator(): "
"Invalid local row index " << MyRow << ".");
return Partition_[MyRow];
}
//==============================================================================
template<class GraphType>
typename GraphType::local_ordinal_type
OverlappingPartitioner<GraphType>::
operator() (const local_ordinal_type i, const local_ordinal_type j) const
{
TEUCHOS_TEST_FOR_EXCEPTION(
i < 0 || i > Teuchos::as<local_ordinal_type> (NumLocalParts_),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::operator(): "
"Invalid local row index i=" << i << ".");
TEUCHOS_TEST_FOR_EXCEPTION(
j < 0 || j > Teuchos::as<local_ordinal_type> (Parts_[i].size ()),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::operator(): "
"Invalid node index j=" << j << ".");
return Parts_[i][j];
}
//==============================================================================
template<class GraphType>
size_t
OverlappingPartitioner<GraphType>::
numRowsInPart (const local_ordinal_type Part) const
{
TEUCHOS_TEST_FOR_EXCEPTION(
Part < 0 || Part > Teuchos::as<local_ordinal_type> (NumLocalParts_),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::numRowsInPart: "
"Invalid partition index Part=" << Part << ".");
return Parts_[Part].size ();
}
//==============================================================================
template<class GraphType>
void
OverlappingPartitioner<GraphType>::
rowsInPart (const local_ordinal_type Part,
Teuchos::ArrayRCP<local_ordinal_type>& List) const
{
// Let numRowsInPart do the sanity checking...
const size_t numRows = numRowsInPart (Part);
for (size_t i = 0; i < numRows; ++i) {
List[i] = Parts_[Part][i];
}
}
//==============================================================================
template<class GraphType>
Teuchos::ArrayView<const typename GraphType::local_ordinal_type>
OverlappingPartitioner<GraphType>::nonOverlappingPartition () const
{
return Partition_.view (0, Graph_->getNodeNumRows ());
}
//==============================================================================
template<class GraphType>
void
OverlappingPartitioner<GraphType>::
setParameters (Teuchos::ParameterList& List)
{
NumLocalParts_ = List.get("partitioner: local parts", NumLocalParts_);
OverlappingLevel_ = List.get("partitioner: overlap", OverlappingLevel_);
verbose_ = List.get("partitioner: print level", verbose_);
maintainSparsity_ = List.get("partitioner: maintain sparsity", false);
if (NumLocalParts_ < 0) {
NumLocalParts_ = Graph_->getNodeNumRows() / (-NumLocalParts_);
}
if (NumLocalParts_ == 0) {
NumLocalParts_ = 1;
}
// Sanity checking
TEUCHOS_TEST_FOR_EXCEPTION(
NumLocalParts_ < 0 ||
Teuchos::as<size_t> (NumLocalParts_) > Graph_->getNodeNumRows(),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::setParameters: "
"Invalid NumLocalParts_ = " << NumLocalParts_ << ".");
TEUCHOS_TEST_FOR_EXCEPTION(
OverlappingLevel_ < 0, std::runtime_error,
"Ifpack2::OverlappingPartitioner::setParameters: "
"Invalid OverlappingLevel_ = " << OverlappingLevel_ << ".");
setPartitionParameters(List);
}
//==============================================================================
template<class GraphType>
void OverlappingPartitioner<GraphType>::compute()
{
using std::cout;
using std::endl;
TEUCHOS_TEST_FOR_EXCEPTION(
NumLocalParts_ < 1 || OverlappingLevel_ < 0,
std::runtime_error,
"Ifpack2::OverlappingPartitioner::compute: "
"Invalid NumLocalParts_ or OverlappingLevel_.");
// std::string's constructor has some overhead, so it's better to
// use const char[] for local constant strings.
const char printMsg[] = "OverlappingPartitioner: ";
if (verbose_ && (Graph_->getComm()->getRank() == 0)) {
cout << printMsg << "Number of local parts = "
<< NumLocalParts_ << endl;
cout << printMsg << "Approx. Number of global parts = "
<< NumLocalParts_ * Graph_->getComm ()->getSize () << endl;
cout << printMsg << "Amount of overlap = "
<< OverlappingLevel_ << endl;
}
// 1.- allocate memory
Partition_.resize (Graph_->getNodeNumRows ());
//Parts_ is allocated in computeOverlappingPartitions_, where it is used
// 2.- sanity checks on input graph
TEUCHOS_TEST_FOR_EXCEPTION(
! Graph_->isFillComplete (), std::runtime_error,
"Ifpack2::OverlappingPartitioner::compute: "
"The input graph must be fill complete.");
TEUCHOS_TEST_FOR_EXCEPTION(
Graph_->getGlobalNumRows () != Graph_->getGlobalNumCols (),
std::runtime_error,
"Ifpack2::OverlappingPartitioner::compute: "
"The input graph must be (globally) square.");
// 3.- perform non-overlapping partition
computePartitions ();
// 4.- compute the partitions with overlapping
computeOverlappingPartitions ();
// 5.- mark as computed
IsComputed_ = true;
}
//==============================================================================
template<class GraphType>
void OverlappingPartitioner<GraphType>::computeOverlappingPartitions()
{
//If user has explicitly specified parts, then Partition_ size has been set to 0.
//In this case, there is no need to compute Parts_.
if (Partition_.size() == 0)
return;
const local_ordinal_type invalid =
Teuchos::OrdinalTraits<local_ordinal_type>::invalid();
// Old FIXME from Ifpack: the first part of this function should be elsewhere
// start defining the subgraphs for no overlap
std::vector<size_t> sizes;
sizes.resize (NumLocalParts_);
// 1.- compute how many rows are in each subgraph
for (int i = 0; i < NumLocalParts_; ++i) {
sizes[i] = 0;
}
for (size_t i = 0; i < Graph_->getNodeNumRows (); ++i) {
TEUCHOS_TEST_FOR_EXCEPTION(
Partition_[i] >= NumLocalParts_, std::runtime_error,
"Ifpack2::OverlappingPartitioner::computeOverlappingPartitions: "
"Partition_[i] > NumLocalParts_.");
// invalid indicates that this unknown is not in a nonoverlapping
// partition
if (Partition_[i] != invalid) {
sizes[Partition_[i]]++;
}
}
// 2.- allocate space for each subgraph
Parts_.resize (NumLocalParts_);
for (int i = 0; i < NumLocalParts_; ++i) {
Parts_[i].resize (sizes[i]);
}
// 3.- cycle over all rows and populate the vectors
for (int i = 0; i < NumLocalParts_; ++i) {
sizes[i] = 0;
}
for (size_t i = 0; i < Graph_->getNodeNumRows (); ++i) {
const local_ordinal_type part = Partition_[i];
if (part != invalid) {
const size_t count = sizes[part];
Parts_[part][count] = i;
sizes[part]++;
}
}
// If there is no overlap, we're done, so return
if (OverlappingLevel_ == 0) {
return;
}
// wider overlap requires further computations
for (int level = 1; level <= OverlappingLevel_; ++level) {
std::vector<std::vector<size_t> > tmp;
tmp.resize (NumLocalParts_);
// cycle over all rows in the local graph (that is the overlapping
// graph). For each row, all columns will belong to the subgraph
// of row `i'.
int MaxNumEntries_tmp = Graph_->getNodeMaxNumRowEntries();
Teuchos::Array<local_ordinal_type> Indices;
Indices.resize (MaxNumEntries_tmp);
Teuchos::Array<local_ordinal_type> newIndices;
newIndices.resize(MaxNumEntries_tmp);
if (!maintainSparsity_) {
local_ordinal_type numLocalRows = Graph_->getNodeNumRows();
for (int part = 0; part < NumLocalParts_ ; ++part) {
for (size_t i = 0; i < Teuchos::as<size_t> (Parts_[part].size ()); ++i) {
const local_ordinal_type LRID = Parts_[part][i];
size_t numIndices;
Graph_->getLocalRowCopy (LRID, Indices (), numIndices);
for (size_t j = 0; j < numIndices; ++j) {
// use *local* indices only
const local_ordinal_type col = Indices[j];
if (col >= numLocalRows) {
continue;
}
// has this column already been inserted?
std::vector<size_t>::iterator where =
std::find (tmp[part].begin (), tmp[part].end (), Teuchos::as<size_t> (col));
if (where == tmp[part].end()) {
tmp[part].push_back (col);
}
}
//10-Jan-2017 JHU : A possible optimization is to avoid the std::find's in the loop above,
//but instead sort and make unique afterwards. One would have to be careful to only sort/
//make unique the insertions associated with the current row LRID, as for each row, LRID
//may occur after all other col indices for row LRID (see comment about zero pivot below).
// has this column already been inserted?
std::vector<size_t>::iterator where =
std::find (tmp[part].begin (), tmp[part].end (), Teuchos::as<size_t> (LRID));
// This happens here b/c Vanka on Stokes with Stabilized elements will have
// a zero pivot entry if this gets pushed back first. So... Last.
if (where == tmp[part].end ()) {
tmp[part].push_back (LRID);
}
}
} //for (int part = 0; ...
} else {
//maintainSparsity_ == true
for (int part = 0; part < NumLocalParts_ ; ++part) {
for (size_t i = 0; i < Teuchos::as<size_t> (Parts_[part].size ()); ++i) {
const local_ordinal_type LRID = Parts_[part][i];
size_t numIndices;
Graph_->getLocalRowCopy (LRID, Indices (), numIndices);
//JJH: the entries in Indices are already sorted. However, the Tpetra documentation states
// that we can't count on this always being true, hence we sort. Also note that there are
// unused entries at the end of Indices (it's sized to hold any row). This means we can't
// just use Indices.end() in sorting and in std::includes
std::sort(Indices.begin(),Indices.begin()+numIndices);
for (size_t j = 0; j < numIndices; ++j) {
// use *local* indices only
const local_ordinal_type col = Indices[j];
if (Teuchos::as<size_t> (col) >= Graph_->getNodeNumRows ()) {
continue;
}
// has this column already been inserted?
std::vector<size_t>::iterator where =
std::find (tmp[part].begin (), tmp[part].end (), Teuchos::as<size_t> (col));
if (where == tmp[part].end()) {
// Check if row associated with "col" increases connectivity already defined by row LRID's stencil.
// If it does and maintainSparsity_ is true, do not add "col" to the current partition (block).
size_t numNewIndices;
Graph_->getLocalRowCopy(col, newIndices(), numNewIndices);
std::sort(newIndices.begin(),newIndices.begin()+numNewIndices);
bool isSubset = std::includes(Indices.begin(),Indices.begin()+numIndices,
newIndices.begin(),newIndices.begin()+numNewIndices);
if (isSubset) {
tmp[part].push_back (col);
}
}
}
// has this column already been inserted?
std::vector<size_t>::iterator where =
std::find (tmp[part].begin (), tmp[part].end (), Teuchos::as<size_t> (LRID));
// This happens here b/c Vanka on Stokes with Stabilized elements will have
// a zero pivot entry if this gets pushed back first. So... Last.
if (where == tmp[part].end ()) {
tmp[part].push_back (LRID);
}
}
} //for (int part = 0;
} //if (maintainSparsity_) ... else
// now I convert the STL vectors into Teuchos Array RCP's
//
// FIXME (mfh 12 July 2013) You could have started with ArrayRCP
// in the first place (which implements push_back and iterators)
// and avoided the copy.
for (int i = 0; i < NumLocalParts_; ++i) {
Parts_[i].resize (tmp[i].size ());
for (size_t j = 0; j < tmp[i].size (); ++j) {
Parts_[i][j] = tmp[i][j];
}
}
}
}
//==============================================================================
template<class GraphType>
bool OverlappingPartitioner<GraphType>::isComputed() const
{
return IsComputed_;
}
//==============================================================================
template<class GraphType>
std::ostream&
OverlappingPartitioner<GraphType>::print (std::ostream& os) const
{
Teuchos::FancyOStream fos (Teuchos::rcpFromRef (os));
fos.setOutputToRootOnly (0);
describe (fos);
return os;
}
//==============================================================================
template<class GraphType>
std::string OverlappingPartitioner<GraphType>::description() const
{
std::ostringstream oss;
oss << Teuchos::Describable::description();
if (isComputed()) {
oss << "{status = computed";
}
else {
oss << "{status = is not computed";
}
oss <<"}";
return oss.str();
}
//==============================================================================
template<class GraphType>
void OverlappingPartitioner<GraphType>::describe(Teuchos::FancyOStream &os, const Teuchos::EVerbosityLevel verbLevel) const
{
using std::endl;
if (verbLevel == Teuchos::VERB_NONE) {
return;
}
os << "================================================================================" << endl;
os << "Ifpack2::OverlappingPartitioner" << endl;
os << "Number of local rows = " << Graph_->getNodeNumRows() << endl;
os << "Number of global rows = " << Graph_->getGlobalNumRows() << endl;
os << "Number of local parts = " << NumLocalParts_ << endl;
os << "Overlapping level = " << OverlappingLevel_ << endl;
os << "Is computed = " << IsComputed_ << endl;
os << "================================================================================" << endl;
}
}// namespace Ifpack2
#define IFPACK2_OVERLAPPINGPARTITIONER_INSTANT(LO,GO,N) \
template class Ifpack2::OverlappingPartitioner<Tpetra::CrsGraph< LO, GO, N > >; \
template class Ifpack2::OverlappingPartitioner<Tpetra::RowGraph< LO, GO, N > >;
#endif // IFPACK2_OVERLAPPINGPARTITIONER_DEF_HPP
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