/usr/include/trilinos/Zoltan2_AlltoAll.hpp is in libtrilinos-zoltan2-dev 12.12.1-5.
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//
// ***********************************************************************
//
// Zoltan2: A package of combinatorial algorithms for scientific computing
// Copyright 2012 Sandia Corporation
//
// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
// the U.S. Government retains certain rights in this software.
//
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// modification, are permitted provided that the following conditions are
// met:
//
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
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// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
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//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
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// Erik Boman (egboman@sandia.gov)
// Siva Rajamanickam (srajama@sandia.gov)
//
// ***********************************************************************
//
// @HEADER
/*! \file Zoltan2_AlltoAll.hpp
\brief AlltoAll communication methods
*/
#ifndef _ZOLTAN2_ALLTOALL_HPP_
#define _ZOLTAN2_ALLTOALL_HPP_
#include <Zoltan2_Standards.hpp>
#include <Zoltan2_Environment.hpp>
#include <vector>
#include <climits>
namespace Zoltan2
{
extern void AlltoAllCount(const Comm<int> &comm, const Environment &env,
const ArrayView<const int> &sendCount, const ArrayView<int> &recvCount);
/*! \brief AlltoAllv sends/receives data to/from all processes.
*
* \param comm The communicator for the process group involved
* \param env The environment, required for error messages
* \param sendBuf The data to be sent, in destination process rank order
* \param sendCount The number of Ts to send to process p is in sendCount[p].
* \param recvBuf On return, recvBuf has been allocated and contains
* the packets sent to this process by others.
* \param recvCount On return, The number of Ts received from process p
* will be in recvCount[p].
*
* The data type T must be a type for which either
* Zoltan2::IdentifierTraits are defined or
* Teuchos::DirectSerializationTraits is defined.
*
* AlltoAll uses only point-to-point messages. This is to avoid the MPI
* limitation of integer offsets and counters in collective operations.
* In other words, sendBuf.size() can exceed a value that fits into
* 32 bits. However each point to point message size must fit in an int.
*
* It also avoids non-scalable MPI data structures that are associated
* with collective operations.
*
* In addition it can be used for Zoltan2 global ID data types that are
* not serializable by Teuchos point-to-point messages.
*/
template <typename T>
void AlltoAllv(const Comm<int> &comm,
const Environment &env,
const ArrayView<const T> &sendBuf,
const ArrayView<const int> &sendCount,
ArrayRCP<T> &recvBuf, // output, allocated here
const ArrayView<int> &recvCount // output
)
{
int nprocs = comm.getSize();
int rank = comm.getRank();
try{
Zoltan2::AlltoAllCount(comm, env, sendCount, recvCount);
}
Z2_FORWARD_EXCEPTIONS;
// Allocate the receive buffer.
size_t totalrecv = 0;
int maxMsg = 0;
int nrecvranks = 0;
for(int i = 0; i < nprocs; i++) {
if (recvCount[i] > 0) {
totalrecv += recvCount[i];
nrecvranks++;
if (recvCount[i] > maxMsg) maxMsg = recvCount[i];
}
}
T *rbuf = NULL;
if (totalrecv) rbuf = new T[totalrecv];
if (nprocs > 1) {
RCP<CommRequest<int> > *requests = new RCP<CommRequest<int> > [nrecvranks];
// Error checking for memory and message size.
int OK[2] = {1,1};
// OK[0] -- true/false indicating whether each message size
// fits in an int (for MPI).
// OK[1] -- true/false indicating whether memory allocs are OK
int gOK[2]; // For global reduce of OK.
if (size_t(maxMsg) * sizeof(T) > INT_MAX && nprocs > 1) OK[0] = false;
if (totalrecv && !rbuf) OK[1] = 0;
if (!requests) OK[1] = 0;
// Post receives
size_t offset = 0;
size_t myrecvoffset = 0;
size_t mysendoffset = 0;
if (OK[0] && OK[1]) {
int rcnt = 0;
for (int i = 0; i < nprocs; i++) {
if (i != rank && recvCount[i]) {
try {
requests[rcnt++] = Teuchos::ireceive<int,T>(comm,
Teuchos::arcp(&rbuf[offset],0,recvCount[i],false),
i);
}
Z2_THROW_OUTSIDE_ERROR(env);
}
else if (i == rank) {
myrecvoffset = offset;
}
offset += recvCount[i];
}
}
// Use barrier for error checking
Teuchos::reduceAll<int>(comm, Teuchos::REDUCE_MIN, 2, OK, gOK);
if (!gOK[0] || !gOK[1]) {
delete [] rbuf;
delete [] requests;
if (!gOK[0])
throw std::runtime_error("Max single message length exceeded");
else
throw std::bad_alloc();
}
// Send data; can use readySend since receives are posted.
offset = 0;
for (int i = 0; i < nprocs; i++) {
if (i != rank && sendCount[i]) {
try {
Teuchos::readySend<int,T>(comm,
Teuchos::arrayView(&sendBuf[offset],sendCount[i]),
i);
}
Z2_THROW_OUTSIDE_ERROR(env);
}
else if (i == rank) {
mysendoffset = offset;
}
offset += sendCount[i];
}
// Copy local data
for (int j = 0; j < sendCount[rank]; j++)
rbuf[myrecvoffset++] = sendBuf[mysendoffset++];
// Wait for messages to return.
try {
Teuchos::waitAll<int>(comm, Teuchos::arrayView(requests, nrecvranks));
}
Z2_THROW_OUTSIDE_ERROR(env);
delete [] requests;
}
else { // nprocs == 1; no communication needed
if (totalrecv && !rbuf)
throw std::bad_alloc();
for (int j = 0; j < sendCount[0]; j++)
rbuf[j] = sendBuf[j];
}
if (totalrecv)
recvBuf = ArrayRCP<T>(rbuf, 0, totalrecv, true);
else
recvBuf = Teuchos::null;
}
/* \brief Specialization for std::string.
For string of char. Number of chars in a string limited to SCHAR_MAX.
Send as chars: 1 char for length of string, then chars in string,
1 char for length of next string, and so on.
\todo error checking
*/
template <>
void AlltoAllv(const Comm<int> &comm,
const Environment &env,
const ArrayView<const std::string> &sendBuf,
const ArrayView<const int> &sendCount,
ArrayRCP<std::string> &recvBuf,
const ArrayView<int> &recvCount);
/* \brief Specialization for unsigned long long
*/
#ifdef HAVE_TPETRA_INT_LONG_LONG
template <>
void AlltoAllv(const Comm<int> &comm,
const Environment &env,
const ArrayView<const unsigned long long> &sendBuf,
const ArrayView<const int> &sendCount,
ArrayRCP<unsigned long long> &recvBuf,
const ArrayView<int> &recvCount);
#endif
/* \brief Specialization for unsigned short
*/
template <>
void AlltoAllv(const Comm<int> &comm,
const Environment &env,
const ArrayView<const unsigned short> &sendBuf,
const ArrayView<const int> &sendCount,
ArrayRCP<unsigned short> &recvBuf,
const ArrayView<int> &recvCount);
/* \brief For data type unsigned char (no Teuchos::DirectSerializationTraits)
*/
template <>
void AlltoAllv(const Comm<int> &comm,
const Environment &env,
const ArrayView<const unsigned char> &sendBuf,
const ArrayView<const int> &sendCount,
ArrayRCP<unsigned char> &recvBuf,
const ArrayView<int> &recvCount);
} // namespace Z2
#endif
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