1 /*High level handling of collective algorithms*/
2 /* Copyright (c) 2009-2019. The SimGrid Team.
3 * All rights reserved. */
5 /* This program is free software; you can redistribute it and/or modify it
6 * under the terms of the license (GNU LGPL) which comes with this package. */
11 #include "private.hpp"
14 /** @brief MPI collective description */
16 #define COLL_DEFS(cat, ret, args, args2) \
17 static void _XBT_CONCAT(set_, cat)(const std::string& name); \
18 static s_mpi_coll_description_t _XBT_CONCAT3(mpi_coll_, cat, _description)[]; \
19 static int(*cat) args;
21 #define COLL_SIG(cat, ret, args, args2)\
24 #define COLL_DESCRIPTION(cat, ret, args, name) \
26 _XBT_STRINGIFY(name) \
27 , _XBT_STRINGIFY(cat) " " _XBT_STRINGIFY(name) " collective", (void*)_XBT_CONCAT4(Coll_, cat, _, name)::cat \
30 #define COLL_PROTO(cat, ret, args, name) \
31 class _XBT_CONCAT4(Coll_, cat, _, name) : public Coll { \
33 static ret cat(COLL_UNPAREN args); \
36 #define COLL_UNPAREN(...) __VA_ARGS__
38 #define COLL_APPLY(action, sig, name) action(sig, name)
41 #define COLL_NOTHING(...)
43 #define COLL_GATHER_SIG gather, int, \
44 (const void *send_buff, int send_count, MPI_Datatype send_type, \
45 void *recv_buff, int recv_count, MPI_Datatype recv_type, \
46 int root, MPI_Comm comm)
47 #define COLL_ALLGATHER_SIG allgather, int, \
48 (const void *send_buff, int send_count, MPI_Datatype send_type, \
49 void *recv_buff, int recv_count, MPI_Datatype recv_type, \
51 #define COLL_ALLGATHERV_SIG allgatherv, int, \
52 (const void *send_buff, int send_count, MPI_Datatype send_type, \
53 void *recv_buff, const int *recv_count, const int *recv_disps, \
54 MPI_Datatype recv_type, MPI_Comm comm)
55 #define COLL_ALLTOALL_SIG alltoall, int, \
56 (const void *send_buff, int send_count, MPI_Datatype send_type, \
57 void *recv_buff, int recv_count, MPI_Datatype recv_type, \
59 #define COLL_ALLTOALLV_SIG alltoallv, int, \
60 (const void *send_buff, const int *send_counts, const int *send_disps, MPI_Datatype send_type, \
61 void *recv_buff, const int *recv_counts, const int *recv_disps, MPI_Datatype recv_type, \
63 #define COLL_BCAST_SIG bcast, int, \
64 (void *buf, int count, MPI_Datatype datatype, \
65 int root, MPI_Comm comm)
66 #define COLL_REDUCE_SIG reduce, int, \
67 (const void *buf, void *rbuf, int count, MPI_Datatype datatype, \
68 MPI_Op op, int root, MPI_Comm comm)
69 #define COLL_ALLREDUCE_SIG allreduce, int, \
70 (const void *sbuf, void *rbuf, int rcount, \
71 MPI_Datatype dtype, MPI_Op op, MPI_Comm comm)
72 #define COLL_REDUCE_SCATTER_SIG reduce_scatter, int, \
73 (const void *sbuf, void *rbuf, const int *rcounts,\
74 MPI_Datatype dtype,MPI_Op op,MPI_Comm comm)
75 #define COLL_SCATTER_SIG scatter, int, \
76 (const void *sendbuf, int sendcount, MPI_Datatype sendtype,\
77 void *recvbuf, int recvcount, MPI_Datatype recvtype,\
78 int root, MPI_Comm comm)
79 #define COLL_BARRIER_SIG barrier, int, \
85 struct s_mpi_coll_description_t {
87 std::string description;
93 static XBT_PUBLIC void coll_help(const char* category, s_mpi_coll_description_t* table);
94 static XBT_PUBLIC int find_coll_description(s_mpi_coll_description_t* table, const std::string& name,
96 static void set_collectives();
98 // for each collective type, create the set_* prototype, the description array and the function pointer
99 COLL_APPLY(COLL_DEFS, COLL_GATHER_SIG, "")
100 COLL_APPLY(COLL_DEFS, COLL_ALLGATHER_SIG, "")
101 COLL_APPLY(COLL_DEFS, COLL_ALLGATHERV_SIG, "")
102 COLL_APPLY(COLL_DEFS, COLL_REDUCE_SIG, "")
103 COLL_APPLY(COLL_DEFS, COLL_ALLREDUCE_SIG, "")
104 COLL_APPLY(COLL_DEFS, COLL_REDUCE_SCATTER_SIG, "")
105 COLL_APPLY(COLL_DEFS, COLL_SCATTER_SIG, "")
106 COLL_APPLY(COLL_DEFS, COLL_BARRIER_SIG, "")
107 COLL_APPLY(COLL_DEFS, COLL_BCAST_SIG, "")
108 COLL_APPLY(COLL_DEFS, COLL_ALLTOALL_SIG, "")
109 COLL_APPLY(COLL_DEFS, COLL_ALLTOALLV_SIG, "")
111 // These fairly unused collectives only have one implementation in SMPI
112 static int gatherv(const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf, const int* recvcounts, const int* displs,
113 MPI_Datatype recvtype, int root, MPI_Comm comm);
114 static int scatterv(const void* sendbuf, const int* sendcounts, const int* displs, MPI_Datatype sendtype, void* recvbuf, int recvcount,
115 MPI_Datatype recvtype, int root, MPI_Comm comm);
116 static int scan(const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm);
117 static int exscan(const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm);
119 (const void* sendbuf, const int* sendcounts, const int* senddisps, const MPI_Datatype* sendtypes, void* recvbuf, const int* recvcounts,
120 const int* recvdisps, const MPI_Datatype* recvtypes, MPI_Comm comm);
123 static int ibarrier(MPI_Comm comm, MPI_Request* request, int external=1);
124 static int ibcast(void *buf, int count, MPI_Datatype datatype,
125 int root, MPI_Comm comm, MPI_Request* request, int external=1);
126 static int igather (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf, int recvcount,
127 MPI_Datatype recvtype, int root, MPI_Comm comm, MPI_Request *request, int external=1);
128 static int igatherv (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf,
129 const int* recvcounts, const int* displs, MPI_Datatype recvtype, int root, MPI_Comm comm, MPI_Request *request, int external=1);
130 static int iallgather (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf,
131 int recvcount, MPI_Datatype recvtype, MPI_Comm comm, MPI_Request *request, int external=1);
132 static int iallgatherv (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf,
133 const int* recvcounts, const int* displs, MPI_Datatype recvtype, MPI_Comm comm, MPI_Request *request, int external=1);
134 static int iscatter (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf,
135 int recvcount, MPI_Datatype recvtype, int root, MPI_Comm comm, MPI_Request *request, int external=1);
136 static int iscatterv (const void* sendbuf, const int* sendcounts, const int* displs, MPI_Datatype sendtype,
137 void* recvbuf, int recvcount, MPI_Datatype recvtype, int root, MPI_Comm comm, MPI_Request *request, int external=1);
139 (const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, int root, MPI_Comm comm, MPI_Request *request, int external=1);
140 static int iallreduce
141 (const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm, MPI_Request *request, int external=1);
143 (const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm, MPI_Request *request, int external=1);
145 (const void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm, MPI_Request *request, int external=1);
146 static int ireduce_scatter
147 (const void* sendbuf, void* recvbuf, const int* recvcounts, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm, MPI_Request *request, int external=1);
148 static int ireduce_scatter_block
149 (const void* sendbuf, void* recvbuf, int recvcount, MPI_Datatype datatype, MPI_Op op, MPI_Comm comm, MPI_Request *request, int external=1);
150 static int ialltoall (const void* sendbuf, int sendcount, MPI_Datatype sendtype, void* recvbuf,
151 int recvcount, MPI_Datatype recvtype, MPI_Comm comm, MPI_Request *request, int external=1);
152 static int ialltoallv
153 (const void* sendbuf, const int* sendcounts, const int* senddisps, MPI_Datatype sendtype, void* recvbuf, const int* recvcounts,
154 const int* recvdisps, MPI_Datatype recvtype, MPI_Comm comm, MPI_Request *request, int external=1);
155 static int ialltoallw
156 (const void* sendbuf, const int* sendcounts, const int* senddisps, const MPI_Datatype* sendtypes, void* recvbuf, const int* recvcounts,
157 const int* recvdisps, const MPI_Datatype* recvtypes, MPI_Comm comm, MPI_Request *request, int external=1);
160 static void (*smpi_coll_cleanup_callback)();
165 // for each collective type, create a function member
166 COLL_APPLY(COLL_SIG, COLL_GATHER_SIG, "")
167 COLL_APPLY(COLL_SIG, COLL_ALLGATHER_SIG, "")
168 COLL_APPLY(COLL_SIG, COLL_ALLGATHERV_SIG, "")
169 COLL_APPLY(COLL_SIG, COLL_REDUCE_SIG, "")
170 COLL_APPLY(COLL_SIG, COLL_ALLREDUCE_SIG, "")
171 COLL_APPLY(COLL_SIG, COLL_REDUCE_SCATTER_SIG, "")
172 COLL_APPLY(COLL_SIG, COLL_SCATTER_SIG, "")
173 COLL_APPLY(COLL_SIG, COLL_BARRIER_SIG, "")
174 COLL_APPLY(COLL_SIG, COLL_BCAST_SIG, "")
175 COLL_APPLY(COLL_SIG, COLL_ALLTOALL_SIG, "")
176 COLL_APPLY(COLL_SIG, COLL_ALLTOALLV_SIG, "")
183 #define COLL_GATHERS(action, COLL_sep) \
184 COLL_APPLY(action, COLL_GATHER_SIG, default) COLL_sep \
185 COLL_APPLY(action, COLL_GATHER_SIG, ompi) COLL_sep \
186 COLL_APPLY(action, COLL_GATHER_SIG, ompi_basic_linear) COLL_sep \
187 COLL_APPLY(action, COLL_GATHER_SIG, ompi_binomial) COLL_sep \
188 COLL_APPLY(action, COLL_GATHER_SIG, ompi_linear_sync) COLL_sep \
189 COLL_APPLY(action, COLL_GATHER_SIG, mpich) COLL_sep \
190 COLL_APPLY(action, COLL_GATHER_SIG, mvapich2) COLL_sep \
191 COLL_APPLY(action, COLL_GATHER_SIG, mvapich2_two_level) COLL_sep \
192 COLL_APPLY(action, COLL_GATHER_SIG, impi) COLL_sep \
193 COLL_APPLY(action, COLL_GATHER_SIG, automatic)
195 COLL_GATHERS(COLL_PROTO, COLL_NOsep)
201 #define COLL_ALLGATHERS(action, COLL_sep) \
202 COLL_APPLY(action, COLL_ALLGATHER_SIG, default) COLL_sep \
203 COLL_APPLY(action, COLL_ALLGATHER_SIG, 2dmesh) COLL_sep \
204 COLL_APPLY(action, COLL_ALLGATHER_SIG, 3dmesh) COLL_sep \
205 COLL_APPLY(action, COLL_ALLGATHER_SIG, bruck) COLL_sep \
206 COLL_APPLY(action, COLL_ALLGATHER_SIG, GB) COLL_sep \
207 COLL_APPLY(action, COLL_ALLGATHER_SIG, loosely_lr) COLL_sep \
208 COLL_APPLY(action, COLL_ALLGATHER_SIG, NTSLR) COLL_sep \
209 COLL_APPLY(action, COLL_ALLGATHER_SIG, NTSLR_NB) COLL_sep \
210 COLL_APPLY(action, COLL_ALLGATHER_SIG, pair) COLL_sep \
211 COLL_APPLY(action, COLL_ALLGATHER_SIG, rdb) COLL_sep \
212 COLL_APPLY(action, COLL_ALLGATHER_SIG, rhv) COLL_sep \
213 COLL_APPLY(action, COLL_ALLGATHER_SIG, ring) COLL_sep \
214 COLL_APPLY(action, COLL_ALLGATHER_SIG, SMP_NTS) COLL_sep \
215 COLL_APPLY(action, COLL_ALLGATHER_SIG, smp_simple) COLL_sep \
216 COLL_APPLY(action, COLL_ALLGATHER_SIG, spreading_simple) COLL_sep \
217 COLL_APPLY(action, COLL_ALLGATHER_SIG, ompi) COLL_sep \
218 COLL_APPLY(action, COLL_ALLGATHER_SIG, ompi_neighborexchange) COLL_sep \
219 COLL_APPLY(action, COLL_ALLGATHER_SIG, mvapich2) COLL_sep \
220 COLL_APPLY(action, COLL_ALLGATHER_SIG, mvapich2_smp) COLL_sep \
221 COLL_APPLY(action, COLL_ALLGATHER_SIG, mpich) COLL_sep \
222 COLL_APPLY(action, COLL_ALLGATHER_SIG, impi) COLL_sep \
223 COLL_APPLY(action, COLL_ALLGATHER_SIG, automatic)
225 COLL_ALLGATHERS(COLL_PROTO, COLL_NOsep)
231 #define COLL_ALLGATHERVS(action, COLL_sep) \
232 COLL_APPLY(action, COLL_ALLGATHERV_SIG, default) COLL_sep \
233 COLL_APPLY(action, COLL_ALLGATHERV_SIG, GB) COLL_sep \
234 COLL_APPLY(action, COLL_ALLGATHERV_SIG, pair) COLL_sep \
235 COLL_APPLY(action, COLL_ALLGATHERV_SIG, ring) COLL_sep \
236 COLL_APPLY(action, COLL_ALLGATHERV_SIG, ompi) COLL_sep \
237 COLL_APPLY(action, COLL_ALLGATHERV_SIG, ompi_neighborexchange) COLL_sep \
238 COLL_APPLY(action, COLL_ALLGATHERV_SIG, ompi_bruck) COLL_sep \
239 COLL_APPLY(action, COLL_ALLGATHERV_SIG, mpich) COLL_sep \
240 COLL_APPLY(action, COLL_ALLGATHERV_SIG, mpich_rdb) COLL_sep \
241 COLL_APPLY(action, COLL_ALLGATHERV_SIG, mpich_ring) COLL_sep \
242 COLL_APPLY(action, COLL_ALLGATHERV_SIG, mvapich2) COLL_sep \
243 COLL_APPLY(action, COLL_ALLGATHERV_SIG, impi) COLL_sep \
244 COLL_APPLY(action, COLL_ALLGATHERV_SIG, automatic)
246 COLL_ALLGATHERVS(COLL_PROTO, COLL_NOsep)
252 #define COLL_ALLREDUCES(action, COLL_sep) \
253 COLL_APPLY(action, COLL_ALLREDUCE_SIG, default) COLL_sep \
254 COLL_APPLY(action, COLL_ALLREDUCE_SIG, lr) COLL_sep \
255 COLL_APPLY(action, COLL_ALLREDUCE_SIG, rab1) COLL_sep \
256 COLL_APPLY(action, COLL_ALLREDUCE_SIG, rab2) COLL_sep \
257 COLL_APPLY(action, COLL_ALLREDUCE_SIG, rab_rdb) COLL_sep \
258 COLL_APPLY(action, COLL_ALLREDUCE_SIG, rdb) COLL_sep \
259 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_binomial) COLL_sep \
260 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_binomial_pipeline) COLL_sep \
261 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_rdb) COLL_sep \
262 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_rsag) COLL_sep \
263 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_rsag_lr) COLL_sep \
264 COLL_APPLY(action, COLL_ALLREDUCE_SIG, smp_rsag_rab) COLL_sep \
265 COLL_APPLY(action, COLL_ALLREDUCE_SIG, redbcast) COLL_sep \
266 COLL_APPLY(action, COLL_ALLREDUCE_SIG, ompi) COLL_sep \
267 COLL_APPLY(action, COLL_ALLREDUCE_SIG, ompi_ring_segmented) COLL_sep \
268 COLL_APPLY(action, COLL_ALLREDUCE_SIG, mpich) COLL_sep \
269 COLL_APPLY(action, COLL_ALLREDUCE_SIG, mvapich2) COLL_sep \
270 COLL_APPLY(action, COLL_ALLREDUCE_SIG, mvapich2_rs) COLL_sep \
271 COLL_APPLY(action, COLL_ALLREDUCE_SIG, mvapich2_two_level) COLL_sep \
272 COLL_APPLY(action, COLL_ALLREDUCE_SIG, impi) COLL_sep \
273 COLL_APPLY(action, COLL_ALLREDUCE_SIG, rab) COLL_sep \
274 COLL_APPLY(action, COLL_ALLREDUCE_SIG, automatic)
276 COLL_ALLREDUCES(COLL_PROTO, COLL_NOsep)
282 #define COLL_ALLTOALLS(action, COLL_sep) \
283 COLL_APPLY(action, COLL_ALLTOALL_SIG, default) COLL_sep \
284 COLL_APPLY(action, COLL_ALLTOALL_SIG, 2dmesh) COLL_sep \
285 COLL_APPLY(action, COLL_ALLTOALL_SIG, 3dmesh) COLL_sep \
286 COLL_APPLY(action, COLL_ALLTOALL_SIG, basic_linear) COLL_sep \
287 COLL_APPLY(action, COLL_ALLTOALL_SIG, bruck) COLL_sep \
288 COLL_APPLY(action, COLL_ALLTOALL_SIG, pair) COLL_sep \
289 COLL_APPLY(action, COLL_ALLTOALL_SIG, pair_rma) COLL_sep \
290 COLL_APPLY(action, COLL_ALLTOALL_SIG, pair_light_barrier) COLL_sep \
291 COLL_APPLY(action, COLL_ALLTOALL_SIG, pair_mpi_barrier) COLL_sep \
292 COLL_APPLY(action, COLL_ALLTOALL_SIG, pair_one_barrier) COLL_sep \
293 COLL_APPLY(action, COLL_ALLTOALL_SIG, rdb) COLL_sep \
294 COLL_APPLY(action, COLL_ALLTOALL_SIG, ring) COLL_sep \
295 COLL_APPLY(action, COLL_ALLTOALL_SIG, ring_light_barrier) COLL_sep \
296 COLL_APPLY(action, COLL_ALLTOALL_SIG, ring_mpi_barrier) COLL_sep \
297 COLL_APPLY(action, COLL_ALLTOALL_SIG, ring_one_barrier) COLL_sep \
298 COLL_APPLY(action, COLL_ALLTOALL_SIG, mvapich2) COLL_sep \
299 COLL_APPLY(action, COLL_ALLTOALL_SIG, mvapich2_scatter_dest) COLL_sep \
300 COLL_APPLY(action, COLL_ALLTOALL_SIG, ompi) COLL_sep \
301 COLL_APPLY(action, COLL_ALLTOALL_SIG, mpich) COLL_sep \
302 COLL_APPLY(action, COLL_ALLTOALL_SIG, impi) COLL_sep \
303 COLL_APPLY(action, COLL_ALLTOALL_SIG, automatic)
305 COLL_ALLTOALLS(COLL_PROTO, COLL_NOsep)
311 #define COLL_ALLTOALLVS(action, COLL_sep) \
312 COLL_APPLY(action, COLL_ALLTOALLV_SIG, default) COLL_sep \
313 COLL_APPLY(action, COLL_ALLTOALLV_SIG, bruck) COLL_sep \
314 COLL_APPLY(action, COLL_ALLTOALLV_SIG, pair) COLL_sep \
315 COLL_APPLY(action, COLL_ALLTOALLV_SIG, pair_light_barrier) COLL_sep \
316 COLL_APPLY(action, COLL_ALLTOALLV_SIG, pair_mpi_barrier) COLL_sep \
317 COLL_APPLY(action, COLL_ALLTOALLV_SIG, pair_one_barrier) COLL_sep \
318 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ring) COLL_sep \
319 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ring_light_barrier) COLL_sep \
320 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ring_mpi_barrier) COLL_sep \
321 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ring_one_barrier) COLL_sep \
322 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ompi) COLL_sep \
323 COLL_APPLY(action, COLL_ALLTOALLV_SIG, mpich) COLL_sep \
324 COLL_APPLY(action, COLL_ALLTOALLV_SIG, ompi_basic_linear) COLL_sep \
325 COLL_APPLY(action, COLL_ALLTOALLV_SIG, mvapich2) COLL_sep \
326 COLL_APPLY(action, COLL_ALLTOALLV_SIG, impi) COLL_sep \
327 COLL_APPLY(action, COLL_ALLTOALLV_SIG, automatic)
329 COLL_ALLTOALLVS(COLL_PROTO, COLL_NOsep)
335 #define COLL_BCASTS(action, COLL_sep) \
336 COLL_APPLY(action, COLL_BCAST_SIG, default) COLL_sep \
337 COLL_APPLY(action, COLL_BCAST_SIG, arrival_pattern_aware) COLL_sep \
338 COLL_APPLY(action, COLL_BCAST_SIG, arrival_pattern_aware_wait) COLL_sep \
339 COLL_APPLY(action, COLL_BCAST_SIG, arrival_scatter) COLL_sep \
340 COLL_APPLY(action, COLL_BCAST_SIG, binomial_tree) COLL_sep \
341 COLL_APPLY(action, COLL_BCAST_SIG, flattree) COLL_sep \
342 COLL_APPLY(action, COLL_BCAST_SIG, flattree_pipeline) COLL_sep \
343 COLL_APPLY(action, COLL_BCAST_SIG, NTSB) COLL_sep \
344 COLL_APPLY(action, COLL_BCAST_SIG, NTSL) COLL_sep \
345 COLL_APPLY(action, COLL_BCAST_SIG, NTSL_Isend) COLL_sep \
346 COLL_APPLY(action, COLL_BCAST_SIG, scatter_LR_allgather) COLL_sep \
347 COLL_APPLY(action, COLL_BCAST_SIG, scatter_rdb_allgather) COLL_sep \
348 COLL_APPLY(action, COLL_BCAST_SIG, SMP_binary) COLL_sep \
349 COLL_APPLY(action, COLL_BCAST_SIG, SMP_binomial) COLL_sep \
350 COLL_APPLY(action, COLL_BCAST_SIG, SMP_linear) COLL_sep \
351 COLL_APPLY(action, COLL_BCAST_SIG, ompi) COLL_sep \
352 COLL_APPLY(action, COLL_BCAST_SIG, ompi_split_bintree) COLL_sep \
353 COLL_APPLY(action, COLL_BCAST_SIG, ompi_pipeline) COLL_sep \
354 COLL_APPLY(action, COLL_BCAST_SIG, mpich) COLL_sep \
355 COLL_APPLY(action, COLL_BCAST_SIG, mvapich2) COLL_sep \
356 COLL_APPLY(action, COLL_BCAST_SIG, mvapich2_inter_node) COLL_sep \
357 COLL_APPLY(action, COLL_BCAST_SIG, mvapich2_intra_node) COLL_sep \
358 COLL_APPLY(action, COLL_BCAST_SIG, mvapich2_knomial_intra_node) COLL_sep \
359 COLL_APPLY(action, COLL_BCAST_SIG, impi) COLL_sep \
360 COLL_APPLY(action, COLL_BCAST_SIG, automatic)
362 COLL_BCASTS(COLL_PROTO, COLL_NOsep)
368 #define COLL_REDUCES(action, COLL_sep) \
369 COLL_APPLY(action, COLL_REDUCE_SIG, default) COLL_sep \
370 COLL_APPLY(action, COLL_REDUCE_SIG, arrival_pattern_aware) COLL_sep \
371 COLL_APPLY(action, COLL_REDUCE_SIG, binomial) COLL_sep \
372 COLL_APPLY(action, COLL_REDUCE_SIG, flat_tree) COLL_sep \
373 COLL_APPLY(action, COLL_REDUCE_SIG, NTSL) COLL_sep \
374 COLL_APPLY(action, COLL_REDUCE_SIG, scatter_gather) COLL_sep \
375 COLL_APPLY(action, COLL_REDUCE_SIG, ompi) COLL_sep \
376 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_chain) COLL_sep \
377 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_pipeline) COLL_sep \
378 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_basic_linear) COLL_sep \
379 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_in_order_binary) COLL_sep \
380 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_binary) COLL_sep \
381 COLL_APPLY(action, COLL_REDUCE_SIG, ompi_binomial) COLL_sep \
382 COLL_APPLY(action, COLL_REDUCE_SIG, mpich) COLL_sep \
383 COLL_APPLY(action, COLL_REDUCE_SIG, mvapich2) COLL_sep \
384 COLL_APPLY(action, COLL_REDUCE_SIG, mvapich2_knomial) COLL_sep \
385 COLL_APPLY(action, COLL_REDUCE_SIG, mvapich2_two_level) COLL_sep \
386 COLL_APPLY(action, COLL_REDUCE_SIG, impi) COLL_sep \
387 COLL_APPLY(action, COLL_REDUCE_SIG, rab) COLL_sep \
388 COLL_APPLY(action, COLL_REDUCE_SIG, automatic)
390 COLL_REDUCES(COLL_PROTO, COLL_NOsep)
396 #define COLL_REDUCE_SCATTERS(action, COLL_sep) \
397 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, default) COLL_sep \
398 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, ompi) COLL_sep \
399 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, ompi_basic_recursivehalving) COLL_sep \
400 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, ompi_ring) COLL_sep \
401 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, mpich) COLL_sep \
402 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, mpich_pair) COLL_sep \
403 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, mpich_rdb) COLL_sep \
404 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, mpich_noncomm) COLL_sep \
405 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, mvapich2) COLL_sep \
406 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, impi) COLL_sep \
407 COLL_APPLY(action, COLL_REDUCE_SCATTER_SIG, automatic)
409 COLL_REDUCE_SCATTERS(COLL_PROTO, COLL_NOsep)
415 #define COLL_SCATTERS(action, COLL_sep) \
416 COLL_APPLY(action, COLL_SCATTER_SIG, default) COLL_sep \
417 COLL_APPLY(action, COLL_SCATTER_SIG, ompi) COLL_sep \
418 COLL_APPLY(action, COLL_SCATTER_SIG, ompi_basic_linear) COLL_sep \
419 COLL_APPLY(action, COLL_SCATTER_SIG, ompi_binomial) COLL_sep \
420 COLL_APPLY(action, COLL_SCATTER_SIG, mpich) COLL_sep \
421 COLL_APPLY(action, COLL_SCATTER_SIG, mvapich2) COLL_sep \
422 COLL_APPLY(action, COLL_SCATTER_SIG, mvapich2_two_level_binomial) COLL_sep \
423 COLL_APPLY(action, COLL_SCATTER_SIG, mvapich2_two_level_direct) COLL_sep \
424 COLL_APPLY(action, COLL_SCATTER_SIG, impi) COLL_sep \
425 COLL_APPLY(action, COLL_SCATTER_SIG, automatic)
427 COLL_SCATTERS(COLL_PROTO, COLL_NOsep)
433 #define COLL_BARRIERS(action, COLL_sep) \
434 COLL_APPLY(action, COLL_BARRIER_SIG, default) COLL_sep \
435 COLL_APPLY(action, COLL_BARRIER_SIG, ompi) COLL_sep \
436 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_basic_linear) COLL_sep \
437 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_two_procs) COLL_sep \
438 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_tree) COLL_sep \
439 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_bruck) COLL_sep \
440 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_recursivedoubling) COLL_sep \
441 COLL_APPLY(action, COLL_BARRIER_SIG, ompi_doublering) COLL_sep \
442 COLL_APPLY(action, COLL_BARRIER_SIG, mpich_smp) COLL_sep \
443 COLL_APPLY(action, COLL_BARRIER_SIG, mpich) COLL_sep \
444 COLL_APPLY(action, COLL_BARRIER_SIG, mvapich2_pair) COLL_sep \
445 COLL_APPLY(action, COLL_BARRIER_SIG, mvapich2) COLL_sep \
446 COLL_APPLY(action, COLL_BARRIER_SIG, impi) COLL_sep \
447 COLL_APPLY(action, COLL_BARRIER_SIG, automatic)
449 COLL_BARRIERS(COLL_PROTO, COLL_NOsep)