// -*- c++ -*- // // Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana // University Research and Technology // Corporation. All rights reserved. // Copyright (c) 2004-2005 The University of Tennessee and The University // of Tennessee Research Foundation. All rights // reserved. // Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, // University of Stuttgart. All rights reserved. // Copyright (c) 2004-2005 The Regents of the University of California. // All rights reserved. // Copyright (c) 2006-2008 Cisco Systems, Inc. All rights reserved. // Copyright (c) 2007 Sun Microsystems, Inc. All rights reserved. // $COPYRIGHT$ // // Additional copyrights may follow // // $HEADER$ // // // Point-to-Point Communication // inline void MPI::Request::Wait(MPI::Status &status) { (void)MPI_Wait(&mpi_request, &status.mpi_status); } inline void MPI::Request::Wait() { (void)MPI_Wait(&mpi_request, MPI_STATUS_IGNORE); } inline void MPI::Request::Free() { (void)MPI_Request_free(&mpi_request); } inline bool MPI::Request::Test(MPI::Status &status) { int t; (void)MPI_Test(&mpi_request, &t, &status.mpi_status); return OPAL_INT_TO_BOOL(t); } inline bool MPI::Request::Test() { int t; (void)MPI_Test(&mpi_request, &t, MPI_STATUS_IGNORE); return OPAL_INT_TO_BOOL(t); } inline int MPI::Request::Waitany(int count, MPI::Request array[], MPI::Status& status) { int index, i; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = array[i]; } (void)MPI_Waitany(count, array_of_requests, &index, &status.mpi_status); for (i=0; i < count; i++) { array[i] = array_of_requests[i]; } delete [] array_of_requests; return index; } inline int MPI::Request::Waitany(int count, MPI::Request array[]) { int index, i; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = array[i]; } (void)MPI_Waitany(count, array_of_requests, &index, MPI_STATUS_IGNORE); for (i=0; i < count; i++) { array[i] = array_of_requests[i]; } delete [] array_of_requests; return index; //JGS, Waitany return value } inline bool MPI::Request::Testany(int count, MPI::Request array[], int& index, MPI::Status& status) { int i, flag; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = array[i]; } (void)MPI_Testany(count, array_of_requests, &index, &flag, &status.mpi_status); for (i=0; i < count; i++) { array[i] = array_of_requests[i]; } delete [] array_of_requests; return (bool)(flag != 0 ? true : false); } inline bool MPI::Request::Testany(int count, MPI::Request array[], int& index) { int i, flag; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = array[i]; } (void)MPI_Testany(count, array_of_requests, &index, &flag, MPI_STATUS_IGNORE); for (i=0; i < count; i++) { array[i] = array_of_requests[i]; } delete [] array_of_requests; return OPAL_INT_TO_BOOL(flag); } inline void MPI::Request::Waitall(int count, MPI::Request req_array[], MPI::Status stat_array[]) { int i; MPI_Request* array_of_requests = new MPI_Request[count]; MPI_Status* array_of_statuses = new MPI_Status[count]; for (i=0; i < count; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Waitall(count, array_of_requests, array_of_statuses); for (i=0; i < count; i++) { req_array[i] = array_of_requests[i]; stat_array[i] = array_of_statuses[i]; } delete [] array_of_requests; delete [] array_of_statuses; } inline void MPI::Request::Waitall(int count, MPI::Request req_array[]) { int i; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Waitall(count, array_of_requests, MPI_STATUSES_IGNORE); for (i=0; i < count; i++) { req_array[i] = array_of_requests[i]; } delete [] array_of_requests; } inline bool MPI::Request::Testall(int count, MPI::Request req_array[], MPI::Status stat_array[]) { int i, flag; MPI_Request* array_of_requests = new MPI_Request[count]; MPI_Status* array_of_statuses = new MPI_Status[count]; for (i=0; i < count; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Testall(count, array_of_requests, &flag, array_of_statuses); for (i=0; i < count; i++) { req_array[i] = array_of_requests[i]; stat_array[i] = array_of_statuses[i]; } delete [] array_of_requests; delete [] array_of_statuses; return OPAL_INT_TO_BOOL(flag); } inline bool MPI::Request::Testall(int count, MPI::Request req_array[]) { int i, flag; MPI_Request* array_of_requests = new MPI_Request[count]; for (i=0; i < count; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Testall(count, array_of_requests, &flag, MPI_STATUSES_IGNORE); for (i=0; i < count; i++) { req_array[i] = array_of_requests[i]; } delete [] array_of_requests; return OPAL_INT_TO_BOOL(flag); } inline int MPI::Request::Waitsome(int incount, MPI::Request req_array[], int array_of_indices[], MPI::Status stat_array[]) { int i, outcount; MPI_Request* array_of_requests = new MPI_Request[incount]; MPI_Status* array_of_statuses = new MPI_Status[incount]; for (i=0; i < incount; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Waitsome(incount, array_of_requests, &outcount, array_of_indices, array_of_statuses); for (i=0; i < incount; i++) { req_array[i] = array_of_requests[i]; stat_array[i] = array_of_statuses[i]; } delete [] array_of_requests; delete [] array_of_statuses; return outcount; } inline int MPI::Request::Waitsome(int incount, MPI::Request req_array[], int array_of_indices[]) { int i, outcount; MPI_Request* array_of_requests = new MPI_Request[incount]; for (i=0; i < incount; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Waitsome(incount, array_of_requests, &outcount, array_of_indices, MPI_STATUSES_IGNORE); for (i=0; i < incount; i++) { req_array[i] = array_of_requests[i]; } delete [] array_of_requests; return outcount; } inline int MPI::Request::Testsome(int incount, MPI::Request req_array[], int array_of_indices[], MPI::Status stat_array[]) { int i, outcount; MPI_Request* array_of_requests = new MPI_Request[incount]; MPI_Status* array_of_statuses = new MPI_Status[incount]; for (i=0; i < incount; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Testsome(incount, array_of_requests, &outcount, array_of_indices, array_of_statuses); for (i=0; i < incount; i++) { req_array[i] = array_of_requests[i]; stat_array[i] = array_of_statuses[i]; } delete [] array_of_requests; delete [] array_of_statuses; return outcount; } inline int MPI::Request::Testsome(int incount, MPI::Request req_array[], int array_of_indices[]) { int i, outcount; MPI_Request* array_of_requests = new MPI_Request[incount]; for (i=0; i < incount; i++) { array_of_requests[i] = req_array[i]; } (void)MPI_Testsome(incount, array_of_requests, &outcount, array_of_indices, MPI_STATUSES_IGNORE); for (i=0; i < incount; i++) { req_array[i] = array_of_requests[i]; } delete [] array_of_requests; return outcount; } inline void MPI::Request::Cancel(void) const { (void)MPI_Cancel(const_cast(&mpi_request)); } inline void MPI::Prequest::Start() { (void)MPI_Start(&mpi_request); } inline void MPI::Prequest::Startall(int count, MPI:: Prequest array_of_requests[]) { //convert the array of Prequests to an array of MPI_requests MPI_Request* mpi_requests = new MPI_Request[count]; int i; for (i=0; i < count; i++) { mpi_requests[i] = array_of_requests[i]; } (void)MPI_Startall(count, mpi_requests); for (i=0; i < count; i++) { array_of_requests[i].mpi_request = mpi_requests[i] ; } delete [] mpi_requests; } inline bool MPI::Request::Get_status(MPI::Status& status) const { int flag = 0; MPI_Status c_status; // Call the underlying MPI function rather than simply returning // status.mpi_status because we may have to invoke the generalized // request query function (void)MPI_Request_get_status(mpi_request, &flag, &c_status); if (flag) { status = c_status; } return OPAL_INT_TO_BOOL(flag); } inline bool MPI::Request::Get_status() const { int flag; // Call the underlying MPI function rather than simply returning // status.mpi_status because we may have to invoke the generalized // request query function (void)MPI_Request_get_status(mpi_request, &flag, MPI_STATUS_IGNORE); return OPAL_INT_TO_BOOL(flag); } inline MPI::Grequest MPI::Grequest::Start(Query_function *query_fn, Free_function *free_fn, Cancel_function *cancel_fn, void *extra) { MPI_Request grequest = 0; Intercept_data_t *new_extra = new MPI::Grequest::Intercept_data_t; new_extra->id_extra = extra; new_extra->id_cxx_query_fn = query_fn; new_extra->id_cxx_free_fn = free_fn; new_extra->id_cxx_cancel_fn = cancel_fn; (void) MPI_Grequest_start(ompi_mpi_cxx_grequest_query_fn_intercept, ompi_mpi_cxx_grequest_free_fn_intercept, ompi_mpi_cxx_grequest_cancel_fn_intercept, new_extra, &grequest); return(grequest); } inline void MPI::Grequest::Complete() { (void) MPI_Grequest_complete(mpi_request); }