Dune Core Modules (2.10.0)

communication.hh
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1// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
2// vi: set et ts=4 sw=2 sts=2:
3// SPDX-FileCopyrightInfo: Copyright © DUNE Project contributors, see file LICENSE.md in module root
4// SPDX-License-Identifier: LicenseRef-GPL-2.0-only-with-DUNE-exception
5#ifndef DUNE_COMMON_PARALLEL_COMMUNICATION_HH
6#define DUNE_COMMON_PARALLEL_COMMUNICATION_HH
14#include <iostream>
15#include <complex>
16#include <algorithm>
17#include <vector>
18
21#include <dune/common/parallel/future.hh>
22
42namespace Dune
43{
44
45 /* define some type that definitely differs from MPI_Comm */
46 struct No_Comm {};
47
52 inline bool operator==(const No_Comm&, const No_Comm&)
53 {
54 return true;
55 }
56
61 inline bool operator!=(const No_Comm&, const No_Comm&)
62 {
63 return false;
64 }
65
98 template<typename Communicator>
100 {
101 public:
104 {}
105
110 Communication (const Communicator&)
111 {}
112
114 int rank () const
115 {
116 return 0;
117 }
118
120 operator No_Comm() const
121 {
122 return {};
123 }
124
126 int size () const
127 {
128 return 1;
129 }
130
134 template<class T>
135 int send([[maybe_unused]] const T& data,
136 [[maybe_unused]] int dest_rank,
137 [[maybe_unused]] int tag)
138 {
139 DUNE_THROW(ParallelError, "This method is not supported in sequential programs");
140 }
141
145 template<class T>
146 PseudoFuture<T> isend([[maybe_unused]] const T&& data,
147 [[maybe_unused]] int dest_rank,
148 [[maybe_unused]] int tag)
149 {
150 DUNE_THROW(ParallelError, "This method is not supported in sequential programs");
151 }
152
156 template<class T>
157 T recv([[maybe_unused]] T&& data,
158 [[maybe_unused]] int source_rank,
159 [[maybe_unused]] int tag,
160 [[maybe_unused]] void* status = 0)
161 {
162 DUNE_THROW(ParallelError, "This method is not supported in sequential programs");
163 }
164
168 template<class T>
169 PseudoFuture<T> irecv([[maybe_unused]] T&& data,
170 [[maybe_unused]] int source_rank,
171 [[maybe_unused]] int tag)
172 {
173 DUNE_THROW(ParallelError, "This method is not supported in sequential programs");
174 }
175
176 template<class T>
177 T rrecv([[maybe_unused]] T&& data,
178 [[maybe_unused]] int source_rank,
179 [[maybe_unused]] int tag,
180 [[maybe_unused]] void* status = 0) const
181 {
182 DUNE_THROW(ParallelError, "This method is not supported in sequential programs");
183 }
187 template<typename T>
188 T sum (const T& in) const
189 {
190 return in;
191 }
192
198 template<typename T>
199 int sum ([[maybe_unused]] T* inout, [[maybe_unused]] int len) const
200 {
201 return 0;
202 }
203
207 template<typename T>
208 T prod (const T& in) const
209 {
210 return in;
211 }
212
218 template<typename T>
219 int prod ([[maybe_unused]] T* inout, [[maybe_unused]] int len) const
220 {
221 return 0;
222 }
223
227 template<typename T>
228 T min (const T& in) const
229 {
230 return in;
231 }
232
238 template<typename T>
239 int min ([[maybe_unused]] T* inout, [[maybe_unused]] int len) const
240 {
241 return 0;
242 }
243
247 template<typename T>
248 T max (const T& in) const
249 {
250 return in;
251 }
252
258 template<typename T>
259 int max ([[maybe_unused]] T* inout, [[maybe_unused]] int len) const
260 {
261 return 0;
262 }
263
267 int barrier () const
268 {
269 return 0;
270 }
271
276 {
277 return {true}; // return a valid future
278 }
279
283 template<typename T>
284 int broadcast ([[maybe_unused]] T* inout,
285 [[maybe_unused]] int len,
286 [[maybe_unused]] int root) const
287 {
288 return 0;
289 }
290
294 template<class T>
295 PseudoFuture<T> ibroadcast(T&& data, int root) const{
296 return {std::forward<T>(data)};
297 }
298
299
312 template<typename T>
313 int gather (const T* in, T* out, int len, [[maybe_unused]] int root) const // note out must have same size as in
314 {
315 for (int i=0; i<len; i++)
316 out[i] = in[i];
317 return 0;
318 }
319
323 template<class TIN, class TOUT = std::vector<TIN>>
324 PseudoFuture<TOUT> igather(TIN&& data_in, TOUT&& data_out, int root){
325 *(data_out.begin()) = std::forward<TIN>(data_in);
326 return {std::forward<TOUT>(data_out)};
327 }
328
329
349 template<typename T>
350 int gatherv (const T* in,
351 int sendDataLen,
352 T* out,
353 [[maybe_unused]] int* recvDataLen,
354 int* displ,
355 [[maybe_unused]] int root) const
356 {
357 for (int i=*displ; i<sendDataLen; i++)
358 out[i] = in[i];
359 return 0;
360 }
361
375 template<typename T>
376 int scatter (const T* sendData, T* recvData, int len, [[maybe_unused]] int root) const // note out must have same size as in
377 {
378 for (int i=0; i<len; i++)
379 recvData[i] = sendData[i];
380 return 0;
381 }
382
386 template<class TIN, class TOUT = TIN>
387 PseudoFuture<TOUT> iscatter(TIN&& data_in, TOUT&& data_out, int root){
388 data_out = *(std::forward<TIN>(data_in).begin());
389 return {std::forward<TOUT>(data_out)};
390 }
391
410 template<typename T>
411 int scatterv (const T* sendData,int* sendDataLen, int* displ, T* recvData,
412 [[maybe_unused]] int recvDataLen, [[maybe_unused]] int root) const
413 {
414 for (int i=*displ; i<*sendDataLen; i++)
415 recvData[i] = sendData[i];
416 return 0;
417 }
418
432 template<typename T>
433 int allgather(const T* sbuf, int count, T* rbuf) const
434 {
435 for(const T* end=sbuf+count; sbuf < end; ++sbuf, ++rbuf)
436 *rbuf=*sbuf;
437 return 0;
438 }
439
444 template<class TIN, class TOUT = TIN>
445 PseudoFuture<TOUT> iallgather(TIN&& data_in, TOUT&& data_out){
446 return {std::forward<TOUT>(data_out)};
447 }
448
465 template<typename T>
466 int allgatherv (const T* in, int sendDataLen, T* out, [[maybe_unused]] int* recvDataLen, int* displ) const
467 {
468 for (int i=*displ; i<sendDataLen; i++)
469 out[i] = in[i];
470 return 0;
471 }
472
485 template<typename BinaryFunction, typename Type>
486 int allreduce([[maybe_unused]] Type* inout, [[maybe_unused]] int len) const
487 {
488 return 0;
489 }
490
495 template<class BinaryFunction, class TIN, class TOUT = TIN>
496 PseudoFuture<TOUT> iallreduce(TIN&& data_in, TOUT&& data_out){
497 data_out = std::forward<TIN>(data_in);
498 return {std::forward<TOUT>(data_out)};
499 }
500
505 template<class BinaryFunction, class T>
507 return {std::forward<T>(data)};
508 }
509
510
524 template<typename BinaryFunction, typename Type>
525 int allreduce(const Type* in, Type* out, int len) const
526 {
527 std::copy(in, in+len, out);
528 return 0;
529 }
530
531 };
532
538 template<class T>
540 [[deprecated("CollectiveCommunication is deprecated. Use Communication instead.")]]
542}
543
544#endif // DUNE_COMMON_PARALLEL_COMMUNICATION_HH
helper classes to provide unique types for standard functions
Collective communication interface and sequential default implementation.
Definition: communication.hh:100
PseudoFuture< TOUT > iallreduce(TIN &&data_in, TOUT &&data_out)
Compute something over all processes nonblocking.
Definition: communication.hh:496
int send(const T &data, int dest_rank, int tag)
Sends the data to the dest_rank.
Definition: communication.hh:135
int allreduce(const Type *in, Type *out, int len) const
Compute something over all processes for each component of an array and return the result in every pr...
Definition: communication.hh:525
T max(const T &in) const
Compute the maximum of the argument over all processes and return the result in every process....
Definition: communication.hh:248
int rank() const
Return rank, is between 0 and size()-1.
Definition: communication.hh:114
T sum(const T &in) const
Compute the sum of the argument over all processes and return the result in every process....
Definition: communication.hh:188
int scatterv(const T *sendData, int *sendDataLen, int *displ, T *recvData, int recvDataLen, int root) const
Scatter arrays of variable length from a root to all other tasks.
Definition: communication.hh:411
int prod(T *inout, int len) const
Compute the product over all processes for each component of an array and return the result in every ...
Definition: communication.hh:219
T recv(T &&data, int source_rank, int tag, void *status=0)
Receives the data from the source_rank.
Definition: communication.hh:157
PseudoFuture< T > isend(const T &&data, int dest_rank, int tag)
Sends the data to the dest_rank nonblocking.
Definition: communication.hh:146
PseudoFuture< void > ibarrier() const
Nonblocking barrier.
Definition: communication.hh:275
int allreduce(Type *inout, int len) const
Compute something over all processes for each component of an array and return the result in every pr...
Definition: communication.hh:486
int size() const
Number of processes in set, is greater than 0.
Definition: communication.hh:126
int sum(T *inout, int len) const
Compute the sum over all processes for each component of an array and return the result in every proc...
Definition: communication.hh:199
int allgatherv(const T *in, int sendDataLen, T *out, int *recvDataLen, int *displ) const
Gathers data of variable length from all tasks and distribute it to all.
Definition: communication.hh:466
T min(const T &in) const
Compute the minimum of the argument over all processes and return the result in every process....
Definition: communication.hh:228
PseudoFuture< T > irecv(T &&data, int source_rank, int tag)
Receives the data from the source_rank nonblocking.
Definition: communication.hh:169
int gatherv(const T *in, int sendDataLen, T *out, int *recvDataLen, int *displ, int root) const
Gather arrays of variable size on root task.
Definition: communication.hh:350
PseudoFuture< T > ibroadcast(T &&data, int root) const
Distribute an array from the process with rank root to all other processes nonblocking.
Definition: communication.hh:295
int allgather(const T *sbuf, int count, T *rbuf) const
Gathers data from all tasks and distribute it to all.
Definition: communication.hh:433
int scatter(const T *sendData, T *recvData, int len, int root) const
Scatter array from a root to all other task.
Definition: communication.hh:376
int gather(const T *in, T *out, int len, int root) const
Gather arrays on root task.
Definition: communication.hh:313
PseudoFuture< T > iallreduce(T &&data)
Compute something over all processes nonblocking and in-place.
Definition: communication.hh:506
Communication(const Communicator &)
Constructor with a given communicator.
Definition: communication.hh:110
int max(T *inout, int len) const
Compute the maximum over all processes for each component of an array and return the result in every ...
Definition: communication.hh:259
T prod(const T &in) const
Compute the product of the argument over all processes and return the result in every process....
Definition: communication.hh:208
int broadcast(T *inout, int len, int root) const
Distribute an array from the process with rank root to all other processes.
Definition: communication.hh:284
PseudoFuture< TOUT > iscatter(TIN &&data_in, TOUT &&data_out, int root)
Scatter array from a root to all other task nonblocking.
Definition: communication.hh:387
int min(T *inout, int len) const
Compute the minimum over all processes for each component of an array and return the result in every ...
Definition: communication.hh:239
int barrier() const
Wait until all processes have arrived at this point in the program.
Definition: communication.hh:267
PseudoFuture< TOUT > igather(TIN &&data_in, TOUT &&data_out, int root)
Gather arrays on root task nonblocking.
Definition: communication.hh:324
PseudoFuture< TOUT > iallgather(TIN &&data_in, TOUT &&data_out)
Gathers data from all tasks and distribute it to all nonblocking.
Definition: communication.hh:445
Communication()
Construct default object.
Definition: communication.hh:103
Default exception if an error in the parallel communication of the program occurred.
Definition: exceptions.hh:287
A wrapper-class for a object which is ready immediately.
Definition: future.hh:124
A few common exception classes.
#define DUNE_THROW(E, m)
Definition: exceptions.hh:218
EnableIfInterOperable< T1, T2, bool >::type operator==(const ForwardIteratorFacade< T1, V1, R1, D > &lhs, const ForwardIteratorFacade< T2, V2, R2, D > &rhs)
Checks for equality.
Definition: iteratorfacades.hh:238
EnableIfInterOperable< T1, T2, bool >::type operator!=(const ForwardIteratorFacade< T1, V1, R1, D > &lhs, const ForwardIteratorFacade< T2, V2, R2, D > &rhs)
Checks for inequality.
Definition: iteratorfacades.hh:260
Dune namespace.
Definition: alignedallocator.hh:13
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