/usr/include/trilinos/Tsqr_printGlobalMatrix.hpp is in libtrilinos-tpetra-dev 12.12.1-5.
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#ifndef __Tsqr_printGlobalMatrix_hpp
#define __Tsqr_printGlobalMatrix_hpp
#include <Tsqr_MessengerBase.hpp>
#include <Tsqr_Util.hpp>
#include <Tsqr_Matrix.hpp>
#include <Teuchos_ScalarTraits.hpp>
#include <limits>
#include <ostream>
#include <stdexcept>
namespace TSQR {
/// \fn printGlobalMatrix
///
/// Print a dense matrix distributed in block row fashion among all
/// MPI processes in a participating communicator. The given
/// "MessengerBase" communicator wrapper objects should wrap the
/// same underlying communicator.
///
/// \param out [out] Output stream to which to write the matrix (on
/// MPI Proc 0 only, relative to the underlying communicator).
/// \param A_local [in] Each MPI process' part of the matrix.
/// \param scalarComm [in/out] Communicator wrapper for
/// ConstMatrixViewType::scalar_type objects.
/// \param ordinalComm [in/out] Communicator wrapper for
/// ConstMatrixViewType::ordinal_type objects.
template<class ConstMatrixViewType>
void
printGlobalMatrix (std::ostream& out,
const ConstMatrixViewType& A_local,
MessengerBase<typename ConstMatrixViewType::scalar_type>* const scalarComm,
MessengerBase<typename ConstMatrixViewType::ordinal_type>* const ordinalComm)
{
typedef typename ConstMatrixViewType::ordinal_type LocalOrdinal;
typedef typename ConstMatrixViewType::scalar_type Scalar;
typedef Teuchos::ScalarTraits<Scalar> STS;
using std::endl;
const int myRank = scalarComm->rank ();
const int nprocs = scalarComm->size ();
const LocalOrdinal nrowsLocal = A_local.nrows();
const LocalOrdinal ncols = A_local.ncols();
const Scalar quiet_NaN = STS::nan();
if (myRank == 0)
{
// Print the remote matrix data
// out << "Processor " << my_rank << ":" << endl;
print_local_matrix (out, A_local.nrows(), A_local.ncols(),
A_local.get(), A_local.lda());
// Space for remote matrix data. Other processors are allowed
// to have different nrows_local values; we make space as
// necessary.
Matrix<LocalOrdinal, Scalar> A_remote (nrowsLocal, ncols, quiet_NaN);
// Loop through all the other processors in order.
// Fetch their matrix data and print it.
for (int srcProc = 1; srcProc < nprocs; ++srcProc)
{
// Get processor proc's local matrix dimensions
LocalOrdinal dims[2];
ordinalComm->recv (&dims[0], 2, srcProc, 0);
// Make space for the remote matrix data.
//
// mfh 13 Oct 2010: Teuchos::OrdinalTraits does not
// currently have this feature. It's OK to use
// std::numeric_limits, since ordinal types in Trilinos
// are intended to be built-in types (like int or long
// long int). std::numeric_limits only promises to work
// for built-in types, unless someone has defined an
// appropriate specialization. Teuchos::ScalarTraits,
// in contrast, has to work for non-built-in Scalar
// types, like ARPREC or QD floating-point numbers.
if (std::numeric_limits<LocalOrdinal>::is_signed)
{
if (dims[0] <= 0 || dims[1] <= 0)
throw std::runtime_error ("Invalid dimensions of remote matrix");
}
else
{
if (dims[0] == 0 || dims[1] == 0)
throw std::runtime_error ("Invalid dimensions of remote matrix");
}
A_remote.reshape (dims[0], dims[1]);
// Receive the remote matrix data, which we assume is
// stored contiguously.
scalarComm->recv (A_remote.get(), dims[0]*dims[1], srcProc, 0);
// Print the remote matrix data
// out << "Processor " << proc << ":" << endl;
print_local_matrix (out, dims[0], dims[0], A_remote.get(), A_remote.lda());
}
}
else
{
// Send my local matrix dimensions to proc 0.
int rootProc = 0;
LocalOrdinal dims[2];
dims[0] = nrowsLocal;
dims[1] = ncols;
ordinalComm->send (dims, 2, rootProc, 0);
// Create a (contiguous) buffer and copy the data into it.
Matrix< LocalOrdinal, Scalar > A_buf (nrowsLocal, ncols, quiet_NaN);
deep_copy (A_buf, A_local);
// Send the actual data to proc 0.
scalarComm->send (A_buf.get(), nrowsLocal*ncols, rootProc, 0);
}
scalarComm->barrier ();
}
} // namespace TSQR
#endif // __Tsqr_printGlobalMatrix_hpp
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