// -*- c++ -*- // // Copyright (c) 2006 Los Alamos National Security, LLC. All rights // reserved. // Copyright (c) 2007-2008 Sun Microsystems, Inc. All rights reserved. // Copyright (c) 2007-2009 Cisco Systems, Inc. All rights reserved. // $COPYRIGHT$ // // Additional copyrights may follow // // $HEADER$ // // do not include ompi_config.h because it kills the free/malloc defines #include "mpi.h" #include "ompi/mpi/cxx/mpicxx.h" #include "ompi/communicator/communicator.h" #include "ompi/attribute/attribute.h" #include "ompi/errhandler/errhandler.h" void MPI::Win::Free() { (void) MPI_Win_free(&mpi_win); } // This function needs some internal OMPI types, so it's not inlined MPI::Errhandler MPI::Win::Create_errhandler(MPI::Win::Errhandler_function* function) { MPI_Errhandler c_errhandler = ompi_errhandler_create(OMPI_ERRHANDLER_TYPE_WIN, (ompi_errhandler_generic_handler_fn_t*) function, OMPI_ERRHANDLER_LANG_CXX); c_errhandler->eh_cxx_dispatch_fn = (ompi_errhandler_cxx_dispatch_fn_t*) ompi_mpi_cxx_win_errhandler_invoke; return c_errhandler; } int MPI::Win::do_create_keyval(MPI_Win_copy_attr_function* c_copy_fn, MPI_Win_delete_attr_function* c_delete_fn, Copy_attr_function* cxx_copy_fn, Delete_attr_function* cxx_delete_fn, void* extra_state, int &keyval) { int ret, count = 0; ompi_attribute_fn_ptr_union_t copy_fn; ompi_attribute_fn_ptr_union_t delete_fn; keyval_intercept_data_t *cxx_extra_state; // If both the callbacks are C, then do the simple thing -- no // need for all the C++ machinery. if (NULL != c_copy_fn && NULL != c_delete_fn) { copy_fn.attr_win_copy_fn = (MPI_Win_internal_copy_attr_function*) c_copy_fn; delete_fn.attr_win_delete_fn = c_delete_fn; ret = ompi_attr_create_keyval(COMM_ATTR, copy_fn, delete_fn, &keyval, extra_state, 0, NULL); if (MPI_SUCCESS != ret) { return OMPI_ERRHANDLER_INVOKE(MPI_COMM_WORLD, ret, "MPI::Win::Create_keyval"); } } // If either callback is C++, then we have to use the C++ // callbacks for both, because we have to generate a new // extra_state. And since we only get one extra_state (i.e., we // don't get one extra_state for the copy callback and another // extra_state for the delete callback), we have to use the C++ // callbacks for both (and therefore translate the C++-special // extra_state into the user's original extra_state). cxx_extra_state = (keyval_intercept_data_t*) malloc(sizeof(keyval_intercept_data_t)); if (NULL == cxx_extra_state) { return OMPI_ERRHANDLER_INVOKE(MPI_COMM_WORLD, MPI_ERR_NO_MEM, "MPI::Win::Create_keyval"); } cxx_extra_state->c_copy_fn = c_copy_fn; cxx_extra_state->cxx_copy_fn = cxx_copy_fn; cxx_extra_state->c_delete_fn = c_delete_fn; cxx_extra_state->cxx_delete_fn = cxx_delete_fn; cxx_extra_state->extra_state = extra_state; // Error check. Must have exactly 2 non-NULL function pointers. if (NULL != c_copy_fn) { ++count; } if (NULL != c_delete_fn) { ++count; } if (NULL != cxx_copy_fn) { ++count; } if (NULL != cxx_delete_fn) { ++count; } if (2 != count) { free(cxx_extra_state); return OMPI_ERRHANDLER_INVOKE(MPI_COMM_WORLD, MPI_ERR_ARG, "MPI::Win::Create_keyval"); } // We do not call MPI_Win_create_keyval() here because we need to // pass in a special destructor to the backend keyval creation // that gets invoked when the keyval's reference count goes to 0 // and is finally destroyed (i.e., clean up some caching/lookup // data here in the C++ bindings layer). This destructor is // *only* used in the C++ bindings, so it's not set by the C // MPI_Comm_create_keyval(). Hence, we do all the work here (and // ensure to set the destructor atomicly when the keyval is // created). copy_fn.attr_win_copy_fn = (MPI_Win_internal_copy_attr_function*) ompi_mpi_cxx_win_copy_attr_intercept; delete_fn.attr_win_delete_fn = ompi_mpi_cxx_win_delete_attr_intercept; ret = ompi_attr_create_keyval(WIN_ATTR, copy_fn, delete_fn, &keyval, cxx_extra_state, 0, cxx_extra_state); if (OMPI_SUCCESS != ret) { return OMPI_ERRHANDLER_INVOKE(MPI_COMM_WORLD, ret, "MPI::Win::Create_keyval"); } return MPI_SUCCESS; }