/*
* Copyright (c) 2006 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2013 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2006 The Technical University of Chemnitz. All
* rights reserved.
*
* Author(s): Torsten Hoefler <htor@cs.indiana.edu>
*
* Copyright (c) 2012 Oracle and/or its affiliates. All rights reserved.
*
*/
#include "nbc_internal.h"
#include "ompi/mca/coll/base/coll_tags.h"
#include "ompi/op/op.h"
#include "ompi/mca/pml/pml.h"
/* only used in this file */
static inline int NBC_Start_round(NBC_Handle *handle);
/* #define NBC_TIMING */
#ifdef NBC_TIMING
static double Isend_time=0, Irecv_time=0, Wait_time=0, Test_time=0;
void NBC_Reset_times() {
Isend_time=Irecv_time=Wait_time=Test_time=0;
}
void NBC_Print_times(double div) {
printf("*** NBC_TIMES: Isend: %lf, Irecv: %lf, Wait: %lf, Test: %lf\n", Isend_time*1e6/div, Irecv_time*1e6/div, Wait_time*1e6/div, Test_time*1e6/div);
}
#endif
/* allocates a new schedule array */
int NBC_Sched_create(NBC_Schedule* schedule) {
int *ptr;
*schedule=malloc(2*sizeof(int));
if(*schedule == NULL) { return NBC_OOR; }
/* initialize the schedule */
ptr = (int*) *schedule;
ptr[0] = 2 * sizeof(int); /* initial total size of the schedule */
ptr[1] = 0; /* initial round-schedule has num=(int)0 and no actions */
/* The schedule's final end=(char)0 delimiter won't be added until NBC_Sched_commit(). */
return NBC_OK;
}
/* this function puts a send into the schedule */
int NBC_Sched_send(void* buf, char tmpbuf, int count, MPI_Datatype datatype, int dest, NBC_Schedule *schedule) {
int size;
char* ptr;
NBC_Fn_type type = SEND;
NBC_Args_send send_args;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule is %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_send));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* store the passed arguments */
send_args.buf=buf;
send_args.tmpbuf=tmpbuf;
send_args.count=count;
send_args.datatype=datatype;
send_args.dest=dest;
/* append to the round-schedule */
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,type);
NBC_PUT_BYTES(ptr,send_args);
/* increase number of elements in round-schedule */
NBC_INC_NUM_ROUND(*schedule);
NBC_DEBUG(10, "adding send - ends at byte %i\n", (int)(size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_send)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(NBC_Fn_type)+sizeof(NBC_Args_send));
return NBC_OK;
}
/* this function puts a receive into the schedule */
int NBC_Sched_recv(void* buf, char tmpbuf, int count, MPI_Datatype datatype, int source, NBC_Schedule *schedule) {
int size;
char* ptr;
NBC_Fn_type type = RECV;
NBC_Args_recv recv_args;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule is %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_recv));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* store the passed arguments */
recv_args.buf=buf;
recv_args.tmpbuf=tmpbuf;
recv_args.count=count;
recv_args.datatype=datatype;
recv_args.source=source;
/* append to the round-schedule */
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,type);
NBC_PUT_BYTES(ptr,recv_args);
/* increase number of elements in round-schedule */
NBC_INC_NUM_ROUND(*schedule);
NBC_DEBUG(10, "adding receive - ends at byte %i\n", (int)(size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_recv)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(NBC_Fn_type)+sizeof(NBC_Args_recv));
return NBC_OK;
}
/* this function puts an operation into the schedule */
int NBC_Sched_op(void *buf3, char tmpbuf3, void* buf1, char tmpbuf1, void* buf2, char tmpbuf2, int count, MPI_Datatype datatype, MPI_Op op, NBC_Schedule *schedule) {
int size;
char* ptr;
NBC_Fn_type type = OP;
NBC_Args_op op_args;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule is %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_op));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* store the passed arguments */
op_args.buf1=buf1;
op_args.buf2=buf2;
op_args.buf3=buf3;
op_args.tmpbuf1=tmpbuf1;
op_args.tmpbuf2=tmpbuf2;
op_args.tmpbuf3=tmpbuf3;
op_args.count=count;
op_args.op=op;
op_args.datatype=datatype;
/* append to the round-schedule */
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,type);
NBC_PUT_BYTES(ptr,op_args);
/* increase number of elements in round-schedule */
NBC_INC_NUM_ROUND(*schedule);
NBC_DEBUG(10, "adding op - ends at byte %i\n", (int)(size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_op)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(NBC_Fn_type)+sizeof(NBC_Args_op));
return NBC_OK;
}
/* this function puts a copy into the schedule */
int NBC_Sched_copy(void *src, char tmpsrc, int srccount, MPI_Datatype srctype, void *tgt, char tmptgt, int tgtcount, MPI_Datatype tgttype, NBC_Schedule *schedule) {
int size;
char* ptr;
NBC_Fn_type type = COPY;
NBC_Args_copy copy_args;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule is %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_copy));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* store the passed arguments */
copy_args.src=src;
copy_args.tmpsrc=tmpsrc;
copy_args.srccount=srccount;
copy_args.srctype=srctype;
copy_args.tgt=tgt;
copy_args.tmptgt=tmptgt;
copy_args.tgtcount=tgtcount;
copy_args.tgttype=tgttype;
/* append to the round-schedule */
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,type);
NBC_PUT_BYTES(ptr,copy_args);
/* increase number of elements in round-schedule */
NBC_INC_NUM_ROUND(*schedule);
NBC_DEBUG(10, "adding copy - ends at byte %i\n", (int)(size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_copy)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(NBC_Fn_type)+sizeof(NBC_Args_copy));
return NBC_OK;
}
/* this function puts a unpack into the schedule */
int NBC_Sched_unpack(void *inbuf, char tmpinbuf, int count, MPI_Datatype datatype, void *outbuf, char tmpoutbuf, NBC_Schedule *schedule) {
int size;
char* ptr;
NBC_Fn_type type = UNPACK;
NBC_Args_unpack unpack_args;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule is %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_unpack));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* store the passed arguments */
unpack_args.inbuf=inbuf;
unpack_args.tmpinbuf=tmpinbuf;
unpack_args.count=count;
unpack_args.datatype=datatype;
unpack_args.outbuf=outbuf;
unpack_args.tmpoutbuf=tmpoutbuf;
/* append to the round-schedule */
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,type);
NBC_PUT_BYTES(ptr,unpack_args);
/* increase number of elements in round-schedule */
NBC_INC_NUM_ROUND(*schedule);
NBC_DEBUG(10, "adding unpack - ends at byte %i\n", (int)(size+sizeof(NBC_Fn_type)+sizeof(NBC_Args_unpack)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(NBC_Fn_type)+sizeof(NBC_Args_unpack));
return NBC_OK;
}
/* this function ends a round of a schedule */
int NBC_Sched_barrier(NBC_Schedule *schedule) {
int size, num = 0;
char *ptr;
char delimiter = 1;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("round terminated at %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(char)+sizeof(int));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
ptr = (char*)*schedule + size;
NBC_PUT_BYTES(ptr,delimiter); /* round-schedule delimiter */
NBC_PUT_BYTES(ptr,num); /* initialize num=0 for next round-schedule */
NBC_DEBUG(10, "ending round at byte %i\n", (int)(size+sizeof(char)+sizeof(int)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(char)+sizeof(int));
return NBC_OK;
}
/* this function ends a schedule */
int NBC_Sched_commit(NBC_Schedule *schedule) {
int size;
/* get size of actual schedule */
NBC_GET_SIZE(*schedule, size);
/*printf("schedule terminated at %i bytes\n", size);*/
*schedule = (NBC_Schedule)realloc(*schedule, size+sizeof(char));
if(*schedule == NULL) { printf("Error in realloc()\n"); return NBC_OOR; }
/* add the barrier char (0) because this is the last round */
*(char*)((char*)*schedule+size)=0;
NBC_DEBUG(10, "closing schedule %p at byte %i\n", *schedule, (int)(size+sizeof(char)));
/* increase size of schedule */
NBC_INC_SIZE(*schedule, sizeof(char));
return NBC_OK;
}
/* finishes a request
*
* to be called *only* from the progress thread !!! */
static inline int NBC_Free(NBC_Handle* handle) {
#ifdef NBC_CACHE_SCHEDULE
/* do not free schedule because it is in the cache */
handle->schedule = NULL;
#else
if(handle->schedule != NULL) {
/* free schedule */
free((void*)*(handle->schedule));
free((void*)handle->schedule);
handle->schedule = NULL;
}
#endif
/* if the nbc_I<collective> attached some data */
/* problems with schedule cache here, see comment (TODO) in
* nbc_internal.h */
if(NULL != handle->tmpbuf) {
free((void*)handle->tmpbuf);
handle->tmpbuf = NULL;
}
return NBC_OK;
}
/* progresses a request
*
* to be called *only* from the progress thread !!! */
int NBC_Progress(NBC_Handle *handle) {
int flag, res, ret=NBC_CONTINUE;
long size;
char *delim;
/* the handle is done if there is no schedule attached */
if(handle->schedule != NULL) {
if((handle->req_count > 0) && (handle->req_array != NULL)) {
NBC_DEBUG(50, "NBC_Progress: testing for %i requests\n", handle->req_count);
#ifdef NBC_TIMING
Test_time -= MPI_Wtime();
#endif
res = ompi_request_test_all(handle->req_count, handle->req_array, &flag, MPI_STATUSES_IGNORE);
if(res != OMPI_SUCCESS) { printf("MPI Error in MPI_Testall() (%i)\n", res); ret=res; goto error; }
#ifdef NBC_TIMING
Test_time += MPI_Wtime();
#endif
} else {
flag = 1; /* we had no open requests -> proceed to next round */
}
/* a round is finished */
if(flag) {
/* adjust delim to start of current round */
NBC_DEBUG(5, "NBC_Progress: going in schedule %p to row-offset: %li\n", *handle->schedule, handle->row_offset);
delim = (char*)*handle->schedule + handle->row_offset;
NBC_DEBUG(10, "delim: %p\n", delim);
NBC_GET_ROUND_SIZE(delim, size);
NBC_DEBUG(10, "size: %li\n", size);
/* adjust delim to end of current round -> delimiter */
delim = delim + size;
if(handle->req_array != NULL) {
/* free request array */
free((void*)handle->req_array);
handle->req_array = NULL;
}
handle->req_count = 0;
if(*delim == 0) {
/* this was the last round - we're done */
NBC_DEBUG(5, "NBC_Progress last round finished - we're done\n");
res = NBC_Free(handle);
if((NBC_OK != res)) { printf("Error in NBC_Free() (%i)\n", res); ret=res; goto error; }
return NBC_OK;
} else {
NBC_DEBUG(5, "NBC_Progress round finished - goto next round\n");
/* move delim to start of next round */
delim = delim+1;
/* initializing handle for new virgin round */
handle->row_offset = (long)delim - (long)*handle->schedule;
/* kick it off */
res = NBC_Start_round(handle);
if(NBC_OK != res) { printf("Error in NBC_Start_round() (%i)\n", res); ret=res; goto error; }
}
}
} else {
ret= NBC_OK;
}
error:
return ret;
}
static inline int NBC_Start_round(NBC_Handle *handle) {
int num; /* number of operations */
int i, res, ret=NBC_OK;
char* ptr;
NBC_Fn_type type;
NBC_Args_send sendargs;
NBC_Args_recv recvargs;
NBC_Args_op opargs;
NBC_Args_copy copyargs;
NBC_Args_unpack unpackargs;
NBC_Schedule myschedule;
void *buf1, *buf2, *buf3;
/* get round-schedule address */
myschedule = (NBC_Schedule*)((char*)*handle->schedule + handle->row_offset);
ptr = (char*) myschedule;
NBC_GET_BYTES(ptr,num);
NBC_DEBUG(10, "start_round round at address %p : posting %i operations\n", myschedule, num);
for (i=0; i<num; i++) {
NBC_GET_BYTES(ptr,type);
switch(type) {
case SEND:
NBC_DEBUG(5," SEND (offset %li) ", (long)ptr-(long)myschedule);
NBC_GET_BYTES(ptr,sendargs);
NBC_DEBUG(5,"*buf: %p, count: %i, type: %lu, dest: %i, tag: %i)\n", sendargs.buf, sendargs.count, (unsigned long)sendargs.datatype, sendargs.dest, handle->tag);
/* get an additional request */
handle->req_count++;
/* get buffer */
if(sendargs.tmpbuf) {
buf1=(char*)handle->tmpbuf+(long)sendargs.buf;
} else {
buf1=sendargs.buf;
}
#ifdef NBC_TIMING
Isend_time -= MPI_Wtime();
#endif
handle->req_array = (MPI_Request*)realloc((void*)handle->req_array, (handle->req_count)*sizeof(MPI_Request));
NBC_CHECK_NULL(handle->req_array);
res = MCA_PML_CALL(isend(buf1, sendargs.count, sendargs.datatype, sendargs.dest, handle->tag, MCA_PML_BASE_SEND_STANDARD, handle->comm, handle->req_array+handle->req_count-1));
if(OMPI_SUCCESS != res) { printf("Error in MPI_Isend(%lu, %i, %lu, %i, %i, %lu) (%i)\n", (unsigned long)buf1, sendargs.count, (unsigned long)sendargs.datatype, sendargs.dest, handle->tag, (unsigned long)handle->comm, res); ret=res; goto error; }
#ifdef NBC_TIMING
Isend_time += MPI_Wtime();
#endif
break;
case RECV:
NBC_DEBUG(5, " RECV (offset %li) ", (long)ptr-(long)myschedule);
NBC_GET_BYTES(ptr,recvargs);
NBC_DEBUG(5, "*buf: %p, count: %i, type: %lu, source: %i, tag: %i)\n", recvargs.buf, recvargs.count, (unsigned long)recvargs.datatype, recvargs.source, handle->tag);
/* get an additional request - TODO: req_count NOT thread safe */
handle->req_count++;
/* get buffer */
if(recvargs.tmpbuf) {
buf1=(char*)handle->tmpbuf+(long)recvargs.buf;
} else {
buf1=recvargs.buf;
}
#ifdef NBC_TIMING
Irecv_time -= MPI_Wtime();
#endif
handle->req_array = (MPI_Request*)realloc((void*)handle->req_array, (handle->req_count)*sizeof(MPI_Request));
NBC_CHECK_NULL(handle->req_array);
res = MCA_PML_CALL(irecv(buf1, recvargs.count, recvargs.datatype, recvargs.source, handle->tag, handle->comm, handle->req_array+handle->req_count-1));
if(OMPI_SUCCESS != res) { printf("Error in MPI_Irecv(%lu, %i, %lu, %i, %i, %lu) (%i)\n", (unsigned long)buf1, recvargs.count, (unsigned long)recvargs.datatype, recvargs.source, handle->tag, (unsigned long)handle->comm, res); ret=res; goto error; }
#ifdef NBC_TIMING
Irecv_time += MPI_Wtime();
#endif
break;
case OP:
NBC_DEBUG(5, " OP (offset %li) ", (long)ptr-(long)myschedule);
NBC_GET_BYTES(ptr,opargs);
NBC_DEBUG(5, "*buf1: %p, buf2: %p, count: %i, type: %lu)\n", opargs.buf1, opargs.buf2, opargs.count, (unsigned long)opargs.datatype);
/* get buffers */
if(opargs.tmpbuf1) {
buf1=(char*)handle->tmpbuf+(long)opargs.buf1;
} else {
buf1=opargs.buf1;
}
if(opargs.tmpbuf2) {
buf2=(char*)handle->tmpbuf+(long)opargs.buf2;
} else {
buf2=opargs.buf2;
}
if(opargs.tmpbuf3) {
buf3=(char*)handle->tmpbuf+(long)opargs.buf3;
} else {
buf3=opargs.buf3;
}
ompi_3buff_op_reduce(opargs.op, buf1, buf2, buf3, opargs.count, opargs.datatype);
break;
case COPY:
NBC_DEBUG(5, " COPY (offset %li) ", (long)ptr-(long)myschedule);
NBC_GET_BYTES(ptr,copyargs);
NBC_DEBUG(5, "*src: %lu, srccount: %i, srctype: %lu, *tgt: %lu, tgtcount: %i, tgttype: %lu)\n", (unsigned long)copyargs.src, copyargs.srccount, (unsigned long)copyargs.srctype, (unsigned long)copyargs.tgt, copyargs.tgtcount, (unsigned long)copyargs.tgttype);
/* get buffers */
if(copyargs.tmpsrc) {
buf1=(char*)handle->tmpbuf+(long)copyargs.src;
} else {
buf1=copyargs.src;
}
if(copyargs.tmptgt) {
buf2=(char*)handle->tmpbuf+(long)copyargs.tgt;
} else {
buf2=copyargs.tgt;
}
res = NBC_Copy(buf1, copyargs.srccount, copyargs.srctype, buf2, copyargs.tgtcount, copyargs.tgttype, handle->comm);
if(res != NBC_OK) { printf("NBC_Copy() failed (code: %i)\n", res); ret=res; goto error; }
break;
case UNPACK:
NBC_DEBUG(5, " UNPACK (offset %li) ", (long)ptr-(long)myschedule);
NBC_GET_BYTES(ptr,unpackargs);
NBC_DEBUG(5, "*src: %lu, srccount: %i, srctype: %lu, *tgt: %lu\n", (unsigned long)unpackargs.inbuf, unpackargs.count, (unsigned long)unpackargs.datatype, (unsigned long)unpackargs.outbuf);
/* get buffers */
if(unpackargs.tmpinbuf) {
buf1=(char*)handle->tmpbuf+(long)unpackargs.inbuf;
} else {
buf1=unpackargs.outbuf;
}
if(unpackargs.tmpoutbuf) {
buf2=(char*)handle->tmpbuf+(long)unpackargs.outbuf;
} else {
buf2=unpackargs.outbuf;
}
res = NBC_Unpack(buf1, unpackargs.count, unpackargs.datatype, buf2, handle->comm);
if(res != NBC_OK) { printf("NBC_Unpack() failed (code: %i)\n", res); ret=res; goto error; }
break;
default:
printf("NBC_Start_round: bad type %li at offset %li\n", (long)type, (long)ptr-(long)myschedule);
ret=NBC_BAD_SCHED;
goto error;
}
}
/* check if we can make progress - not in the first round, this allows us to leave the
* initialization faster and to reach more overlap
*
* threaded case: calling progress in the first round can lead to a
* deadlock if NBC_Free is called in this round :-( */
if(handle->row_offset != sizeof(int)) {
res = NBC_Progress(handle);
if((NBC_OK != res) && (NBC_CONTINUE != res)) { printf("Error in NBC_Progress() (%i)\n", res); ret=res; goto error; }
}
error:
return ret;
}
int NBC_Init_handle(struct ompi_communicator_t *comm, ompi_coll_libnbc_request_t **request, ompi_coll_libnbc_module_t *comminfo)
{
int tmp_tag;
bool need_register = false;
ompi_coll_libnbc_request_t *handle;
OMPI_COLL_LIBNBC_REQUEST_ALLOC(comm, handle);
if (NULL == handle) return OMPI_ERR_OUT_OF_RESOURCE;
*request = handle;
handle->tmpbuf = NULL;
handle->req_count = 0;
handle->req_array = NULL;
handle->comm = comm;
handle->schedule = NULL;
/* first int is the schedule size */
handle->row_offset = sizeof(int);
/******************** Do the tag and shadow comm administration ... ***************/
OPAL_THREAD_LOCK(&comminfo->mutex);
tmp_tag = comminfo->tag--;
if (tmp_tag == (-1 * mca_pml.pml_max_tag)) {
tmp_tag = comminfo->tag = MCA_COLL_BASE_TAG_NONBLOCKING_BASE;
NBC_DEBUG(2,"resetting tags ...\n");
}
if (true != comminfo->comm_registered) {
comminfo->comm_registered = true;
need_register = true;
}
OPAL_THREAD_UNLOCK(&comminfo->mutex);
handle->tag=comminfo->tag;
/* register progress */
if (need_register) {
int32_t tmp =
OPAL_THREAD_ADD32(&mca_coll_libnbc_component.active_comms, 1);
if (tmp == 1) {
opal_progress_register(ompi_coll_libnbc_progress);
}
}
handle->comm=comm;
/*printf("got comminfo: %lu tag: %i\n", comminfo, comminfo->tag);*/
/******************** end of tag and shadow comm administration ... ***************/
handle->comminfo = comminfo;
NBC_DEBUG(3, "got tag %i\n", handle->tag);
return NBC_OK;
}
int NBC_Init_comm(MPI_Comm comm, NBC_Comminfo *comminfo) {
comminfo->tag= MCA_COLL_BASE_TAG_NONBLOCKING_BASE;
#ifdef NBC_CACHE_SCHEDULE
/* initialize the NBC_ALLTOALL SchedCache tree */
comminfo->NBC_Dict[NBC_ALLTOALL] = hb_tree_new((dict_cmp_func)NBC_Alltoall_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_ALLTOALL] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_ALLTOALL]);
comminfo->NBC_Dict_size[NBC_ALLTOALL] = 0;
/* initialize the NBC_ALLGATHER SchedCache tree */
comminfo->NBC_Dict[NBC_ALLGATHER] = hb_tree_new((dict_cmp_func)NBC_Allgather_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_ALLGATHER] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_ALLGATHER]);
comminfo->NBC_Dict_size[NBC_ALLGATHER] = 0;
/* initialize the NBC_ALLREDUCE SchedCache tree */
comminfo->NBC_Dict[NBC_ALLREDUCE] = hb_tree_new((dict_cmp_func)NBC_Allreduce_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_ALLREDUCE] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_ALLREDUCE]);
comminfo->NBC_Dict_size[NBC_ALLREDUCE] = 0;
/* initialize the NBC_BARRIER SchedCache tree - is not needed -
* schedule is hung off directly */
comminfo->NBC_Dict_size[NBC_BARRIER] = 0;
/* initialize the NBC_BCAST SchedCache tree */
comminfo->NBC_Dict[NBC_BCAST] = hb_tree_new((dict_cmp_func)NBC_Bcast_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_BCAST] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_BCAST]);
comminfo->NBC_Dict_size[NBC_BCAST] = 0;
/* initialize the NBC_GATHER SchedCache tree */
comminfo->NBC_Dict[NBC_GATHER] = hb_tree_new((dict_cmp_func)NBC_Gather_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_GATHER] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_GATHER]);
comminfo->NBC_Dict_size[NBC_GATHER] = 0;
/* initialize the NBC_REDUCE SchedCache tree */
comminfo->NBC_Dict[NBC_REDUCE] = hb_tree_new((dict_cmp_func)NBC_Reduce_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_REDUCE] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_REDUCE]);
comminfo->NBC_Dict_size[NBC_REDUCE] = 0;
/* initialize the NBC_SCAN SchedCache tree */
comminfo->NBC_Dict[NBC_SCAN] = hb_tree_new((dict_cmp_func)NBC_Scan_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_SCAN] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_SCAN]);
comminfo->NBC_Dict_size[NBC_SCAN] = 0;
/* initialize the NBC_SCATTER SchedCache tree */
comminfo->NBC_Dict[NBC_SCATTER] = hb_tree_new((dict_cmp_func)NBC_Scatter_args_compare, NBC_SchedCache_args_delete_key_dummy, NBC_SchedCache_args_delete);
if(comminfo->NBC_Dict[NBC_SCATTER] == NULL) { printf("Error in hb_tree_new()\n"); return OMPI_ERROR;; }
NBC_DEBUG(1, "added tree at address %lu\n", (unsigned long)comminfo->NBC_Dict[NBC_SCATTER]);
comminfo->NBC_Dict_size[NBC_SCATTER] = 0;
#endif
return OMPI_SUCCESS;
}
int NBC_Start(NBC_Handle *handle, NBC_Schedule *schedule) {
int res;
handle->schedule = schedule;
/* kick off first round */
res = NBC_Start_round(handle);
if((NBC_OK != res)) { printf("Error in NBC_Start_round() (%i)\n", res); return res; }
opal_list_append(&mca_coll_libnbc_component.active_requests, &(handle->super.super.super));
return NBC_OK;
}
#ifdef NBC_CACHE_SCHEDULE
void NBC_SchedCache_args_delete_key_dummy(void *k) {
/* do nothing because the key and the data element are identical :-)
* both (the single one :) is freed in NBC_<COLLOP>_args_delete() */
}
void NBC_SchedCache_args_delete(void *entry) {
struct NBC_dummyarg *tmp;
tmp = (struct NBC_dummyarg*)entry;
/* free taglistentry */
free((void*)*(tmp->schedule));
/* the schedule pointer itself is also malloc'd */
free((void*)tmp->schedule);
free((void*)tmp);
}
#endif