/* * Copyright (c) 2011 Mellanox Technologies. All rights reserved. * Copyright (c) 2014 Research Organization for Information Science * and Technology (RIST). All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "coll_fca.h" /* * Initial query function that is invoked during MPI_INIT, allowing * this module to indicate what level of thread support it provides. */ int modular_pow(uint64_t base, uint64_t exponent, uint64_t modulus) { int result = 1; while(exponent>0) { if((exponent % 2) == 1) result = (result * base) % modulus; exponent = exponent >> 1; base = (base * base) % modulus; } return result; } int mca_coll_fca_init_query(bool enable_progress_threads, bool enable_mpi_threads) { return OMPI_SUCCESS; } static int have_remote_peers(ompi_group_t *group, size_t size, int *local_peers) { ompi_proc_t *proc; size_t i; int ret; *local_peers = 0; ret = 0; for (i = 0; i < size; ++i) { proc = ompi_group_peer_lookup(group, i); if (OPAL_PROC_ON_LOCAL_NODE(proc->super.proc_flags)) { ++*local_peers; } else { ret = 1; } } return ret; } static inline ompi_proc_t* __local_rank_lookup(ompi_communicator_t *comm, int rank) { return ompi_group_peer_lookup(comm->c_local_group, rank); } /** * Fills local rank information in fca_module. */ static int __get_local_ranks(mca_coll_fca_module_t *fca_module) { ompi_communicator_t *comm = fca_module->comm; ompi_proc_t* proc; int i, rank; /* Count the local ranks */ fca_module->num_local_procs = 0; for (rank = 0; rank < ompi_comm_size(comm); ++rank) { proc = __local_rank_lookup(comm, rank); if (OPAL_PROC_ON_LOCAL_NODE(proc->super.proc_flags)) { if (rank == fca_module->rank) { fca_module->local_proc_idx = fca_module->num_local_procs; } ++fca_module->num_local_procs; } } /* Make a list of local ranks */ fca_module->local_ranks = calloc(fca_module->num_local_procs, sizeof *fca_module->local_ranks); if (!fca_module->local_ranks) { FCA_ERROR("Failed to allocate memory for %d local ranks", fca_module->num_local_procs); return OMPI_ERROR; } i = 0; for (rank = 0; rank < ompi_comm_size(comm); ++rank) { proc = __local_rank_lookup(comm, rank); if (OPAL_PROC_ON_LOCAL_NODE(proc->super.proc_flags)) { fca_module->local_ranks[i++] = rank; } } FCA_MODULE_VERBOSE(fca_module, 3, "i am %d/%d", fca_module->local_proc_idx, fca_module->num_local_procs); return OMPI_SUCCESS; } static int __fca_comm_new(mca_coll_fca_module_t *fca_module) { ompi_communicator_t *comm = fca_module->comm; fca_comm_new_spec_t spec = {0,}; int info_size, all_info_size; void *all_info = NULL; void *my_info = NULL; int *rcounts = NULL; int *displs = NULL; int i, rc, ret, comm_size = ompi_comm_size(fca_module->comm); /* call fca_get_rank_info() on node managers only*/ if (fca_module->local_proc_idx == 0) { #if OMPI_FCA_VERSION >= 30 my_info = fca_get_rank_info(mca_coll_fca_component.fca_context, fca_module->rank, &info_size); #else my_info = fca_get_rank_info(mca_coll_fca_component.fca_context, &info_size); #endif if (!my_info) { FCA_ERROR("fca_get_rank_info returned NULL"); return OMPI_ERROR; } } else { info_size = 0; } FCA_MODULE_VERBOSE(fca_module, 1, "Info size: %d", info_size); /* Allocate gather buffer on the root rank */ if (fca_module->rank == 0) { rcounts = calloc(comm_size, sizeof *rcounts); } /* Get all rank info sizes using MPI_Gather */ rc = comm->c_coll.coll_gather(&info_size, 1, MPI_INT, rcounts, 1, MPI_INT, 0, comm, comm->c_coll.coll_gather_module); if (rc != OMPI_SUCCESS) return rc; /* Allocate buffer for gathering rank information on rank0 */ if (fca_module->rank == 0) { all_info_size = 0; displs = calloc(comm_size, sizeof *displs); for (i = 0; i < comm_size; ++i) { displs[i] = all_info_size; all_info_size += rcounts[i]; if (rcounts[i] > 0) ++spec.rank_count; FCA_MODULE_VERBOSE(fca_module, 1, "gatherv: rcounts[%d]=%d displs[%d]=%d", i, rcounts[i], i, displs[i]); } FCA_MODULE_VERBOSE(fca_module, 1, "Total rank_info size: %d", all_info_size); all_info = calloc(all_info_size, 1); } /* Send all node managers information to rank0 using MPI_Gatherv */ rc = comm->c_coll.coll_gatherv(my_info, info_size, MPI_BYTE, all_info, rcounts, displs, MPI_BYTE, 0, comm, comm->c_coll.coll_gather_module); if (rc != OMPI_SUCCESS) { FCA_ERROR("Failed to gather rank information to rank0: %d", rc); return rc; } /* Rank0 calls fca_comm_new() and fills fca_comm_spec filed */ if (fca_module->rank == 0) { spec.rank_info = all_info; spec.is_comm_world = comm == MPI_COMM_WORLD; free(displs); free(rcounts); #if OMPI_FCA_VERSION >= 30 spec.comm_size = comm_size; spec.comm_init_data = NULL; spec.comm_init_data_size = 0; #endif FCA_MODULE_VERBOSE(fca_module, 1, "starting fca_comm_new(), rank_count: %d", spec.rank_count); ret = fca_comm_new(mca_coll_fca_component.fca_context, &spec, &fca_module->fca_comm_desc); free(all_info); } /* Broadcast return value from rank0 to all other ranks */ rc = fca_module->previous_bcast(&ret, 1, MPI_INT, 0, comm, fca_module->previous_bcast_module); if (rc != OMPI_SUCCESS) { FCA_ERROR("Failed to broadcast comm_new return value from rank0: %d", rc); return rc; } /* Examine comm_new return value */ if (ret < 0) { FCA_ERROR("COMM_NEW failed: %s", fca_strerror(ret)); return OMPI_ERROR; } #if OMPI_FCA_VERSION >= 30 /* Send comm_ini_data_size to all ranks in comm */ rc = fca_module->previous_bcast(&spec.comm_init_data_size, 1, MPI_INT, 0, comm, fca_module->previous_bcast_module); if (OMPI_SUCCESS != rc) { FCA_ERROR("Failed to broadcast comm init data size value from rank0: %d", rc); return rc; } if (0 != fca_module->rank && NULL == (spec.comm_init_data = calloc(1, spec.comm_init_data_size))) { FCA_ERROR("Failed to allocate memory for comm init data."); return OMPI_ERROR; } /* Send comm_ini_data to all ranks in comm */ rc = fca_module->previous_scatter(spec.comm_init_data, spec.comm_init_data_size, MPI_BYTE, spec.comm_init_data, spec.comm_init_data_size, MPI_BYTE, 0, comm, fca_module->previous_scatter_module); if (OMPI_SUCCESS != rc) { FCA_ERROR("Failed to scatter comm_init sizes return value from rank0: %d", rc); return rc; } #endif /* Release allocate rank_info on node managers */ if (fca_module->local_proc_idx == 0) { fca_free_rank_info(my_info); } /* Pass fca_comm_desc to all ranks using MPI_Bcast */ rc = fca_module->previous_bcast(&fca_module->fca_comm_desc, sizeof(fca_module->fca_comm_desc), MPI_BYTE, 0, comm, fca_module->previous_bcast_module); if (rc != OMPI_SUCCESS) { FCA_ERROR("Failed to broadcast comm_desc from rank0: %d", rc); return rc; } FCA_MODULE_VERBOSE(fca_module, 1, "Received FCA communicator spec, comm_id %d", fca_module->fca_comm_desc.comm_id); #if OMPI_FCA_VERSION >= 30 /* allocate comm_init_spec */ FCA_MODULE_VERBOSE(fca_module, 1, "Starting COMM_INIT comm_id %d proc_idx %d num_procs %d", fca_module->fca_comm_desc.comm_id, fca_module->local_proc_idx, fca_module->num_local_procs); ret = mca_coll_fca_comm_init(mca_coll_fca_component.fca_context, fca_module->rank, comm_size, fca_module->local_proc_idx, fca_module->num_local_procs, &fca_module->fca_comm_desc, &fca_module->fca_comm, spec.comm_init_data); if (ret < 0) { FCA_ERROR("COMM_INIT failed: %s", fca_strerror(ret)); return OMPI_ERROR; } if (0 != fca_module->rank) { free(spec.comm_init_data); } #endif return OMPI_SUCCESS; } static int __create_fca_comm(mca_coll_fca_module_t *fca_module) { int rc, ret; int result = MPI_UNEQUAL; mca_coll_fca_c_cache_item_t *c_item = NULL, *c_item_new = NULL; mca_coll_fca_component_t *cm = &mca_coll_fca_component; int comm_size = ompi_comm_size(fca_module->comm); ompi_communicator_t *comm = fca_module->comm; opal_list_t *c_cache; struct timeval start, end, seq_start, seq_end, par_start, par_end; int act_deep; if(mca_coll_fca_component.fca_verbose == 10) { gettimeofday(&start, NULL); } if(mca_coll_fca_component.fca_enable_cache) { c_cache = &cm->c_cache; if(mca_coll_fca_component.fca_enable_hash){ int grank = ORTE_PROC_MY_NAME->vpid; int hash_index, part_of_hash_index; if(mca_coll_fca_component.fca_parallel_hash_calc == 1) { if(mca_coll_fca_component.fca_verbose == 10){ gettimeofday(&par_start, NULL); } part_of_hash_index = modular_pow(cm->fca_primes[grank % cm->fca_number_of_primes], grank, cm->fca_hash_size); rc = comm->c_coll.coll_allreduce(&part_of_hash_index, &hash_index, 1, MPI_INT, MPI_SUM, comm, comm->c_coll.coll_allreduce_module); if (rc != OMPI_SUCCESS) { FCA_ERROR("Failed to reduce hash_index: %d", rc); return rc; } if(mca_coll_fca_component.fca_verbose == 10){ gettimeofday(&par_end, NULL); mca_coll_fca_component.fca_work_time_parallel =+ par_end.tv_sec - par_start.tv_sec + 1e-6 * (par_end.tv_usec - par_start.tv_usec); } }else{ if(mca_coll_fca_component.fca_verbose == 10){ gettimeofday(&seq_start, NULL); } hash_index = 0; int q_counter = 0; int q_comm_size = ompi_comm_size (comm); for(q_counter = 0; q_counter < q_comm_size; q_counter++) { hash_index += modular_pow(cm->fca_primes[q_counter % cm->fca_number_of_primes], q_counter, cm->fca_hash_size); } if(mca_coll_fca_component.fca_verbose == 10){ gettimeofday(&seq_end, NULL); mca_coll_fca_component.fca_work_time_sequency =+ seq_end.tv_sec - seq_start.tv_sec + 1e-6 * (seq_end.tv_usec - seq_start.tv_usec); } } if(cm->fca_hash[hash_index % cm->fca_hash_size] != NULL) { c_cache = cm->fca_hash[hash_index % cm->fca_hash_size]; if(mca_coll_fca_component.fca_verbose == 10) { gettimeofday(&end, NULL); mca_coll_fca_component.fca_total_work_time =+ end.tv_sec - start.tv_sec + 1e-6 * (end.tv_usec - start.tv_usec); mca_coll_fca_component.fca_hash_hit += 1; } }else { if(mca_coll_fca_component.fca_verbose == 10) { mca_coll_fca_component.fca_hash_miss += 1; } c_cache = OBJ_NEW(opal_list_t); cm->fca_hash[hash_index % cm->fca_hash_size] = c_cache; } } act_deep = 0; for( c_item = (mca_coll_fca_c_cache_item_t *)opal_list_get_first(c_cache); c_item != (mca_coll_fca_c_cache_item_t *)opal_list_get_end(c_cache); c_item = (mca_coll_fca_c_cache_item_t *)opal_list_get_next((opal_list_item_t *) c_item)){ act_deep++; /* first check the size */ if( c_item && (comm_size == c_item->size)) { /* then we have a potential cache hit */ ompi_comm_compare(comm, c_item->comm, &result); if( MPI_CONGRUENT == result) { /* cache hit! Return the context and be done with it */ /* first bump the score */ ret = fca_comm_get_caps(c_item->fca_comm_wrap->fca_comm, &fca_module->fca_comm_caps); if (ret < 0) { FCA_ERROR("GET_COMM_CAPS failed: %s", fca_strerror(ret)); return OMPI_ERROR; } fca_module->fca_comm = c_item->fca_comm_wrap->fca_comm; if(mca_coll_fca_component.fca_verbose == 10) { gettimeofday(&end, NULL); mca_coll_fca_component.fca_total_work_time =+ end.tv_sec - start.tv_sec + 1e-6 * (end.tv_usec - start.tv_usec); mca_coll_fca_component.fca_cache_hit += 1; if(act_deep>mca_coll_fca_component.fca_max_deep_in_cache) mca_coll_fca_component.fca_max_deep_in_cache = act_deep; } return OMPI_SUCCESS; } } } } rc = __fca_comm_new(fca_module); if (OMPI_SUCCESS != rc) { return rc; } #if OMPI_FCA_VERSION < 30 /* allocate comm_init_spec */ FCA_MODULE_VERBOSE(fca_module, 1, "Starting COMM_INIT comm_id %d proc_idx %d num_procs %d", fca_module->fca_comm_desc.comm_id, fca_module->local_proc_idx, fca_module->num_local_procs); ret = mca_coll_fca_comm_init(mca_coll_fca_component.fca_context, fca_module->rank, ompi_comm_size(fca_module->comm), fca_module->local_proc_idx, fca_module->num_local_procs, &fca_module->fca_comm_desc, &fca_module->fca_comm); if (ret < 0) { FCA_ERROR("COMM_INIT failed: %s", fca_strerror(ret)); return OMPI_ERROR; } #endif /* get communicator capabilities */ ret = fca_comm_get_caps(fca_module->fca_comm, &fca_module->fca_comm_caps); if (ret < 0) { FCA_ERROR("GET_COMM_CAPS failed: %s", fca_strerror(ret)); return OMPI_ERROR; } /* by this point every rank in the communicator is set up */ FCA_MODULE_VERBOSE(fca_module, 1, "Initialized FCA communicator, comm_id %d", fca_module->fca_comm_desc.comm_id); if(mca_coll_fca_component.fca_enable_cache) { c_item_new = OBJ_NEW(mca_coll_fca_c_cache_item_t); c_item_new->fca_comm_wrap = OBJ_NEW(mca_coll_fca_comm_wrap_t); OBJ_RETAIN(comm); c_item_new->size = comm_size; c_item_new->comm = comm; c_item_new->fca_comm_wrap->fca_comm = fca_module->fca_comm; c_item_new->fca_comm_wrap->rank = fca_module->rank; c_item_new->fca_comm_wrap->comm_id = fca_module->fca_comm_desc.comm_id; opal_list_append(c_cache,(opal_list_item_t *) c_item_new); } if(mca_coll_fca_component.fca_verbose == 10) { gettimeofday(&end, NULL); mca_coll_fca_component.fca_total_work_time =+ end.tv_sec - start.tv_sec + 1e-6 * (end.tv_usec - start.tv_usec); mca_coll_fca_component.fca_cache_miss += 1; } return OMPI_SUCCESS; } static void __destroy_fca_comm(mca_coll_fca_module_t *fca_module) { int ret; fca_comm_destroy(fca_module->fca_comm); if (fca_module->rank == 0) { ret = fca_comm_end(mca_coll_fca_component.fca_context, fca_module->fca_comm_desc.comm_id); if (ret < 0) { FCA_ERROR("COMM_END failed: %s", fca_strerror(ret)); } } FCA_MODULE_VERBOSE(fca_module, 1, "Destroyed FCA communicator, comm_id %d", fca_module->fca_comm_desc.comm_id); } #define FCA_SAVE_PREV_COLL_API(__api) do {\ fca_module->previous_ ## __api = comm->c_coll.coll_ ## __api;\ fca_module->previous_ ## __api ## _module = comm->c_coll.coll_ ## __api ## _module;\ if (!comm->c_coll.coll_ ## __api || !comm->c_coll.coll_ ## __api ## _module) {\ FCA_VERBOSE(1, "(%d/%s): no underlying " # __api"; disqualifying myself",\ comm->c_contextid, comm->c_name);\ return OMPI_ERROR;\ }\ OBJ_RETAIN(fca_module->previous_ ## __api ## _module);\ } while(0) static int __save_coll_handlers(mca_coll_fca_module_t *fca_module) { ompi_communicator_t *comm = fca_module->comm; FCA_SAVE_PREV_COLL_API(barrier); FCA_SAVE_PREV_COLL_API(bcast); FCA_SAVE_PREV_COLL_API(reduce); FCA_SAVE_PREV_COLL_API(allreduce); FCA_SAVE_PREV_COLL_API(allgather); FCA_SAVE_PREV_COLL_API(allgatherv); FCA_SAVE_PREV_COLL_API(gather); FCA_SAVE_PREV_COLL_API(gatherv); FCA_SAVE_PREV_COLL_API(alltoall); FCA_SAVE_PREV_COLL_API(alltoallv); FCA_SAVE_PREV_COLL_API(alltoallw); FCA_SAVE_PREV_COLL_API(reduce_scatter); #if OMPI_FCA_VERSION >= 30 FCA_SAVE_PREV_COLL_API(scatter); #endif return OMPI_SUCCESS; } /* * Initialize module on the communicator */ static int mca_coll_fca_module_enable(mca_coll_base_module_t *module, struct ompi_communicator_t *comm) { mca_coll_fca_module_t *fca_module = (mca_coll_fca_module_t*) module; int rc; fca_module->comm = comm; fca_module->rank = ompi_comm_rank(comm); rc = mca_coll_fca_get_fca_lib(comm); if (rc != OMPI_SUCCESS) return rc; rc = __save_coll_handlers(fca_module); if (rc != OMPI_SUCCESS) return rc; rc = __get_local_ranks(fca_module); if (rc != OMPI_SUCCESS) return rc; rc = __create_fca_comm(fca_module); if (rc != OMPI_SUCCESS) return rc; FCA_MODULE_VERBOSE(fca_module, 1, "FCA Module initialized"); return OMPI_SUCCESS; } static int mca_coll_fca_ft_event(int state) { return OMPI_SUCCESS; } static void mca_coll_fca_module_clear(mca_coll_fca_module_t *fca_module) { fca_module->num_local_procs = 0; fca_module->local_ranks = NULL; fca_module->fca_comm = NULL; fca_module->previous_barrier = NULL; fca_module->previous_bcast = NULL; fca_module->previous_reduce = NULL; fca_module->previous_allreduce = NULL; fca_module->previous_allgather = NULL; fca_module->previous_allgatherv = NULL; fca_module->previous_gather = NULL; fca_module->previous_gatherv = NULL; fca_module->previous_alltoall = NULL; fca_module->previous_alltoallv = NULL; fca_module->previous_alltoallw = NULL; fca_module->previous_reduce_scatter = NULL; } static void mca_coll_fca_module_construct(mca_coll_fca_module_t *fca_module) { FCA_VERBOSE(5, "==>"); mca_coll_fca_module_clear(fca_module); } static void mca_coll_fca_module_destruct(mca_coll_fca_module_t *fca_module) { FCA_VERBOSE(5, "==>"); if(mca_coll_fca_component.fca_enable_cache == 0) { if (fca_module->fca_comm) { __destroy_fca_comm(fca_module); } } OBJ_RELEASE(fca_module->previous_barrier_module); OBJ_RELEASE(fca_module->previous_bcast_module); OBJ_RELEASE(fca_module->previous_reduce_module); OBJ_RELEASE(fca_module->previous_allreduce_module); OBJ_RELEASE(fca_module->previous_allgather_module); OBJ_RELEASE(fca_module->previous_allgatherv_module); OBJ_RELEASE(fca_module->previous_gather_module); OBJ_RELEASE(fca_module->previous_gatherv_module); OBJ_RELEASE(fca_module->previous_alltoall_module); OBJ_RELEASE(fca_module->previous_alltoallv_module); OBJ_RELEASE(fca_module->previous_alltoallw_module); OBJ_RELEASE(fca_module->previous_reduce_scatter_module); #if OMPI_FCA_VERSION >= 30 OBJ_RELEASE(fca_module->previous_scatter_module); #endif free(fca_module->local_ranks); mca_coll_fca_module_clear(fca_module); } /* * Invoked when there's a new communicator that has been created. * Look at the communicator and decide which set of functions and * priority we want to return. */ mca_coll_base_module_t * mca_coll_fca_comm_query(struct ompi_communicator_t *comm, int *priority) { mca_coll_base_module_t *module; int size = ompi_comm_size(comm); int local_peers = 0; mca_coll_fca_module_t *fca_module; *priority = 0; module = NULL; if (!mca_coll_fca_component.fca_enable) goto exit; if (size < mca_coll_fca_component.fca_np) goto exit; if (!have_remote_peers(comm->c_local_group, size, &local_peers) || OMPI_COMM_IS_INTER(comm)) goto exit; fca_module = OBJ_NEW(mca_coll_fca_module_t); if (!fca_module) goto exit; fca_module->super.coll_module_enable = mca_coll_fca_module_enable; fca_module->super.ft_event = mca_coll_fca_ft_event; fca_module->super.coll_allgather = mca_coll_fca_component.fca_enable_allgather? mca_coll_fca_allgather : NULL; fca_module->super.coll_allgatherv = mca_coll_fca_component.fca_enable_allgatherv? mca_coll_fca_allgatherv : NULL; fca_module->super.coll_allreduce = mca_coll_fca_component.fca_enable_allreduce? mca_coll_fca_allreduce : NULL; fca_module->super.coll_alltoall = mca_coll_fca_component.fca_enable_alltoall? mca_coll_fca_alltoall : NULL; fca_module->super.coll_alltoallv = mca_coll_fca_component.fca_enable_alltoallv? mca_coll_fca_alltoallv : NULL; fca_module->super.coll_alltoallw = mca_coll_fca_component.fca_enable_alltoallw? mca_coll_fca_alltoallw : NULL; fca_module->super.coll_barrier = mca_coll_fca_component.fca_enable_barrier? mca_coll_fca_barrier : NULL; fca_module->super.coll_bcast = mca_coll_fca_component.fca_enable_bcast? mca_coll_fca_bcast : NULL; fca_module->super.coll_exscan = NULL; fca_module->super.coll_gather = mca_coll_fca_component.fca_enable_gather? mca_coll_fca_gather : NULL; fca_module->super.coll_gatherv = mca_coll_fca_component.fca_enable_gatherv? mca_coll_fca_gatherv : NULL; fca_module->super.coll_reduce = mca_coll_fca_component.fca_enable_reduce? mca_coll_fca_reduce : NULL; fca_module->super.coll_reduce_scatter = mca_coll_fca_component.fca_enable_reduce_scatter? mca_coll_fca_reduce_scatter : NULL; fca_module->super.coll_scan = NULL; fca_module->super.coll_scatter = NULL; fca_module->super.coll_scatterv = NULL; *priority = mca_coll_fca_component.fca_priority; module = &fca_module->super; exit: FCA_VERBOSE(4, "Query FCA module for comm %p size %d rank %d local_peers=%d: priority=%d %s", (void *)comm, size, ompi_comm_rank(comm), local_peers, *priority, module ? "enabled" : "disabled"); return module; } OBJ_CLASS_INSTANCE(mca_coll_fca_module_t, mca_coll_base_module_t, mca_coll_fca_module_construct, mca_coll_fca_module_destruct); static void mca_coll_fca_comm_wrap_constructor(mca_coll_fca_comm_wrap_t *item) { item->fca_comm = NULL; item->comm_id = -1; item->rank = -1; } static void mca_coll_fca_comm_wrap_destruct(mca_coll_fca_comm_wrap_t *item) { int ret; if(item->fca_comm != NULL) { fca_comm_destroy(item->fca_comm); if (item->rank == 0) { ret = fca_comm_end(mca_coll_fca_component.fca_context, item->comm_id); if (ret < 0) { FCA_ERROR("COMM_END failed: %s", fca_strerror(ret)); } } } } OBJ_CLASS_INSTANCE(mca_coll_fca_comm_wrap_t, opal_object_t, mca_coll_fca_comm_wrap_constructor, mca_coll_fca_comm_wrap_destruct); static void mca_coll_fca_c_cache_item_construct(mca_coll_fca_c_cache_item_t *item) { item->comm = NULL; item->size = -1; /* item->fca_comm_wrap = OBJ_NEW(mca_coll_fca_comm_wrap_t); */ item->fca_comm_wrap = NULL; } static void mca_coll_fca_c_cache_item_destruct(mca_coll_fca_c_cache_item_t *item) { if(item->fca_comm_wrap != NULL) { OBJ_RELEASE(item->fca_comm_wrap); /* OBJ_RELEASE(item->comm); */ } } OBJ_CLASS_INSTANCE(mca_coll_fca_c_cache_item_t, opal_list_item_t, mca_coll_fca_c_cache_item_construct, mca_coll_fca_c_cache_item_destruct);