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// Tpetra: Templated Linear Algebra Services Package
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#ifndef TPETRA_MATRIX_IO_DEF
#define TPETRA_MATRIX_IO_DEF
#include "Tpetra_CrsMatrix.hpp"
#include "Tpetra_MatrixIO.hpp"
#include <iostream>
namespace Tpetra {
namespace Utils {
template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
void
generateMatrix (const Teuchos::RCP<Teuchos::ParameterList> &plist,
const Teuchos::RCP<const Teuchos::Comm<int> > &comm,
const Teuchos::RCP<Node> &node,
Teuchos::RCP<Tpetra::CrsMatrix<Scalar, LocalOrdinal, GlobalOrdinal, Node> > &A)
{
using Teuchos::as;
typedef Teuchos::ScalarTraits<Scalar> ST;
typedef Tpetra::Map<LocalOrdinal,GlobalOrdinal,Node> map_type;
TEUCHOS_TEST_FOR_EXCEPTION( plist == Teuchos::null, std::runtime_error,
"Tpetra::Utils::generateMatrix(): ParameterList is null.");
TEUCHOS_TEST_FOR_EXCEPTION( Teuchos::isParameterType<std::string>(*plist,"mat_type") == false, std::runtime_error,
"Tpetra::Utils::generateMatrix(): ParameterList did not contain string parameter ""mat_type"".");
std::string mat_type = plist->get<std::string>("mat_type");
if (mat_type == "Lap3D") {
// 3D Laplacian, grid is a cube with dimension gridSize x gridSize x gridSize
const GlobalOrdinal gridSize = as<GlobalOrdinal>(plist->get<int>("gridSize",100));
const GlobalOrdinal gS2 = gridSize*gridSize;
const GlobalOrdinal numRows = gS2*gridSize;
Teuchos::RCP<map_type> rowMap;
if (node.is_null ()) {
rowMap = Teuchos::rcp (new map_type (static_cast<global_size_t> (numRows),
static_cast<GlobalOrdinal> (0),
comm, GloballyDistributed));
}
else {
rowMap = Teuchos::rcp (new map_type (static_cast<global_size_t> (numRows),
static_cast<GlobalOrdinal> (0),
comm, GloballyDistributed, node));
}
A = rcp(new Tpetra::CrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node>(rowMap,7,Tpetra::StaticProfile));
// fill matrix, one row at a time
Teuchos::Array<GlobalOrdinal> neighbors;
Teuchos::Array<Scalar> values(7, -ST::one());
values[0] = (Scalar)6;
for (GlobalOrdinal r = rowMap->getMinGlobalIndex(); r <= rowMap->getMaxGlobalIndex(); ++r) {
neighbors.clear();
neighbors.push_back(r); // add diagonal
GlobalOrdinal ixy, iz, ix, iy; // (x,y,z) coords and index in xy plane
ixy = r%gS2;
iz = (r - ixy)/gS2;
ix = ixy%gridSize;
iy = (ixy - ix)/gridSize;
//
if ( ix != 0 ) neighbors.push_back( r-1 );
if ( ix != gridSize-1 ) neighbors.push_back( r+1 );
if ( iy != 0 ) neighbors.push_back( r-gridSize );
if ( iy != gridSize-1 ) neighbors.push_back( r+gridSize );
if ( iz != 0 ) neighbors.push_back( r-gS2 );
if ( iz != gridSize-1 ) neighbors.push_back( r+gS2 );
A->insertGlobalValues( r, neighbors(), values(0,neighbors.size()) );
}
A->fillComplete();
}
else {
TEUCHOS_TEST_FOR_EXCEPTION( true, std::runtime_error,
"Tpetra::Utils::generateMatrix(): ParameterList specified unsupported ""mat_type"".");
}
}
template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
void
readHBMatrix (const std::string &filename,
const Teuchos::RCP<const Teuchos::Comm<int> > &comm,
const Teuchos::RCP<Node> &node,
Teuchos::RCP< Tpetra::CrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node> > &A,
Teuchos::RCP< const Tpetra::Map<LocalOrdinal,GlobalOrdinal,Node> > rowMap,
const Teuchos::RCP<Teuchos::ParameterList> ¶ms)
{
typedef Tpetra::Map<LocalOrdinal,GlobalOrdinal,Node> map_type;
const int myRank = comm->getRank();
int numRows,numCols,numNZ;
Teuchos::ArrayRCP<Scalar> svals;
Teuchos::ArrayRCP<GlobalOrdinal> colinds;
Teuchos::ArrayRCP<int> rowptrs;
Teuchos::ArrayRCP<size_t> nnzPerRow;
int fail = 0;
if (myRank == 0) {
bool isSymmetric=false;
Teuchos::ArrayRCP<double> dvals;
Teuchos::ArrayRCP<int> colptrs, rowinds;
std::string type;
Tpetra::Utils::readHBMatDouble(filename,numRows,numCols,numNZ,type,colptrs,rowinds,dvals);
TEUCHOS_TEST_FOR_EXCEPT(type.size() != 3);
if (type[0] != 'R' && type[0] != 'r') {
// only real matrices right now
fail = 1;
}
if (fail == 0 && numNZ > 0) {
if (type[1] == 'S' || type[1] == 's') {
isSymmetric = true;
}
else {
isSymmetric = false;
}
}
if (fail == 0 && numNZ > 0) {
// find num non-zero per row
nnzPerRow = Teuchos::arcp<size_t>(numRows);
std::fill(nnzPerRow.begin(), nnzPerRow.end(), 0);
for (Teuchos::ArrayRCP<int>::const_iterator ri=rowinds.begin(); ri != rowinds.end(); ++ri) {
// count each row index towards its row
++nnzPerRow[*ri-1];
}
if (isSymmetric) {
// count each column toward the corresponding row as well
for (int c=0; c < numCols; ++c) {
// the diagonal was already counted; neglect it, if it exists
for (int i=colptrs[c]-1; i != colptrs[c+1]-1; ++i) {
if (rowinds[i] != c+1) {
++nnzPerRow[c];
++numNZ;
}
}
}
}
// allocate/set new matrix data
svals = Teuchos::arcp<Scalar>(numNZ);
colinds = Teuchos::arcp<GlobalOrdinal>(numNZ);
rowptrs = Teuchos::arcp<int>(numRows+1);
rowptrs[0] = 0;
#ifdef HAVE_TPETRA_DEBUG
Teuchos::ArrayRCP<size_t> nnzPerRow_debug(nnzPerRow.size());
std::copy(nnzPerRow.begin(), nnzPerRow.end(), nnzPerRow_debug.begin());
#endif
for (int j=1; j <= numRows; ++j) {
rowptrs[j] = rowptrs[j-1] + nnzPerRow[j-1];
nnzPerRow[j-1] = 0;
}
// translate from column-oriented to row-oriented
for (int col=0; col<numCols; ++col) {
for (int i=colptrs[col]-1; i != colptrs[col+1]-1; ++i) {
const int row = rowinds[i]-1;
// add entry to (row,col), with value dvals[i]
const size_t entry = rowptrs[row] + nnzPerRow[row];
svals[entry] = Teuchos::as<Scalar>(dvals[i]);
colinds[entry] = Teuchos::as<GlobalOrdinal>(col);
++nnzPerRow[row];
if (isSymmetric && row != col) {
// add entry to (col,row), with value dvals[i]
const size_t symentry = rowptrs[col] + nnzPerRow[col];
svals[symentry] = Teuchos::as<Scalar>(dvals[i]);
colinds[symentry] = Teuchos::as<GlobalOrdinal>(row);
++nnzPerRow[col];
}
}
}
#ifdef HAVE_TPETRA_DEBUG
{
bool isequal = true;
typename Teuchos::ArrayRCP<size_t>::const_iterator it1, it2;
for (it1 = nnzPerRow.begin(), it2 = nnzPerRow_debug.begin(); it1 != nnzPerRow.end(); ++it1, ++it2) {
if (*it1 != *it2) {
isequal = false;
break;
}
}
TEUCHOS_TEST_FOR_EXCEPTION(!isequal || nnzPerRow.size() != nnzPerRow_debug.size(), std::logic_error,
"Tpetra::Utils::readHBMatrix(): Logic error.");
}
#endif
}
// std::cout << "Matrix " << filename << " of type " << type << ": " << numRows << " by " << numCols << ", " << numNZ << " nonzeros" << std::endl;
}
// check for read errors
broadcast(*comm,0,&fail);
TEUCHOS_TEST_FOR_EXCEPTION(fail == 1, std::runtime_error, "Tpetra::Utils::readHBMatrix() can only read Real matrices.");
// distribute global matrix info
broadcast(*comm,0,&numRows);
broadcast(*comm,0,&numCols);
// create map with uniform partitioning
if (rowMap == Teuchos::null) {
if (node.is_null ()) {
rowMap = Teuchos::rcp (new map_type (static_cast<global_size_t> (numRows),
static_cast<GlobalOrdinal> (0),
comm, GloballyDistributed));
}
else {
rowMap = Teuchos::rcp (new map_type (static_cast<global_size_t> (numRows),
static_cast<GlobalOrdinal> (0),
comm, GloballyDistributed, node));
}
}
else {
TEUCHOS_TEST_FOR_EXCEPTION( rowMap->getGlobalNumElements() != (global_size_t)numRows, std::runtime_error,
"Tpetra::Utils::readHBMatrix(): specified map has incorrect number of elements.");
TEUCHOS_TEST_FOR_EXCEPTION( rowMap->isDistributed() == false && comm->getSize() > 1, std::runtime_error,
"Tpetra::Utils::readHBMatrix(): specified map is not distributed.");
}
Teuchos::ArrayRCP<size_t> myNNZ;
if (rowMap->getNodeNumElements()) {
myNNZ = Teuchos::arcp<size_t>(rowMap->getNodeNumElements());
}
if (myRank == 0) {
LocalOrdinal numRowsAlreadyDistributed = rowMap->getNodeNumElements();
std::copy(nnzPerRow.begin(), nnzPerRow.begin()+numRowsAlreadyDistributed,myNNZ);
for (int p=1; p < Teuchos::size(*comm); ++p) {
size_t numRowsForP;
Teuchos::receive(*comm,p,&numRowsForP);
if (numRowsForP) {
Teuchos::send<int,size_t>(*comm,numRowsForP,nnzPerRow(numRowsAlreadyDistributed,numRowsForP).getRawPtr(),p);
numRowsAlreadyDistributed += numRowsForP;
}
}
}
else {
const size_t numMyRows = rowMap->getNodeNumElements();
Teuchos::send(*comm,numMyRows,0);
if (numMyRows) {
Teuchos::receive<int,size_t>(*comm,0,numMyRows,myNNZ(0,numMyRows).getRawPtr());
}
}
nnzPerRow = Teuchos::null;
// create column map
Teuchos::RCP<const map_type> domMap;
if (numRows == numCols) {
domMap = rowMap;
}
else {
if (node.is_null ()) {
domMap = createUniformContigMapWithNode<LocalOrdinal,GlobalOrdinal,Node>(numCols,comm);
}
else {
domMap = createUniformContigMapWithNode<LocalOrdinal,GlobalOrdinal,Node>(numCols,comm,node);
}
}
A = rcp(new Tpetra::CrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node>(rowMap,myNNZ,Tpetra::StaticProfile));
// free this locally, A will keep it allocated as long as it is needed by A (up until allocation of nonzeros)
myNNZ = Teuchos::null;
if (myRank == 0 && numNZ > 0) {
for (int r=0; r < numRows; ++r) {
const LocalOrdinal nnz = rowptrs[r+1] - rowptrs[r];
if (nnz > 0) {
Teuchos::ArrayView<const GlobalOrdinal> inds = colinds(rowptrs[r],nnz);
Teuchos::ArrayView<const Scalar> vals = svals( rowptrs[r],nnz);
A->insertGlobalValues(r, inds, vals);
}
}
}
// don't need these anymore
colinds = Teuchos::null;
svals = Teuchos::null;
rowptrs = Teuchos::null;
A->fillComplete(domMap,rowMap,params);
}
} // namespace Utils
} // namespace Tpetra
//
// Explicit instantiation macro
//
// Must be expanded from within the Tpetra::Utils namespace!
//
#define TPETRA_MATRIXIO_INSTANT(SCALAR,LO,GO,NODE) \
template void \
readHBMatrix< SCALAR, LO, GO, NODE > (const std::string&, \
const Teuchos::RCP<const Teuchos::Comm<int> > &, \
const Teuchos::RCP< NODE > &, \
Teuchos::RCP<CrsMatrix< SCALAR, LO, GO, NODE > >&, \
Teuchos::RCP<const Tpetra::Map< LO, GO, NODE> >, \
const Teuchos::RCP<Teuchos::ParameterList>& ); \
\
template void \
generateMatrix< SCALAR, LO, GO, NODE> (const Teuchos::RCP<Teuchos::ParameterList>&, \
const Teuchos::RCP<const Teuchos::Comm<int> > &, \
const Teuchos::RCP< NODE > &,\
Teuchos::RCP<CrsMatrix< SCALAR, LO, GO, NODE > >& );
#endif
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