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rAKA akantu
communicator.hh
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/**
* @file static_communicator.hh
*
* @author Nicolas Richart <nicolas.richart@epfl.ch>
*
* @date creation: Fri Jun 18 2010
* @date last modification: Tue Jan 19 2016
*
* @brief Class handling the parallel communications
*
* @section LICENSE
*
* Copyright (©) 2010-2012, 2014, 2015 EPFL (Ecole Polytechnique Fédérale de
* Lausanne) Laboratory (LSMS - Laboratoire de Simulation en Mécanique des
* Solides)
*
* Akantu is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free
* Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* Akantu is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
* A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
* details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Akantu. If not, see <http://www.gnu.org/licenses/>.
*
*/
/* -------------------------------------------------------------------------- */
#include "aka_array.hh"
#include "aka_common.hh"
#include "aka_event_handler_manager.hh"
#include "communication_buffer.hh"
#include "communication_request.hh"
#include "communicator_event_handler.hh"
/* -------------------------------------------------------------------------- */
#ifndef __AKANTU_STATIC_COMMUNICATOR_HH__
#define __AKANTU_STATIC_COMMUNICATOR_HH__
namespace
akantu
{
namespace
debug
{
class
CommunicationException
:
public
Exception
{
public
:
CommunicationException
()
:
Exception
(
"An exception happen during a communication process."
)
{}
};
}
// namespace debug
/// @enum SynchronizerOperation reduce operation that the synchronizer can
/// perform
enum
class
SynchronizerOperation
{
_sum
,
_min
,
_max
,
_prod
,
_land
,
_band
,
_lor
,
_bor
,
_lxor
,
_bxor
,
_min_loc
,
_max_loc
,
_null
};
enum
class
CommunicationMode
{
_auto
,
_synchronous
,
_ready
};
namespace
{
int
_any_source
=
-
1
;
}
}
// namespace akantu
namespace
akantu
{
struct
CommunicatorInternalData
{
virtual
~
CommunicatorInternalData
()
=
default
;
};
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
class
Communicator
:
public
EventHandlerManager
<
CommunicatorEventHandler
>
{
struct
private_member
{};
/* ------------------------------------------------------------------------ */
/* Constructors/Destructors */
/* ------------------------------------------------------------------------ */
public
:
Communicator
(
int
&
argc
,
char
**&
argv
,
const
private_member
&
);
~
Communicator
()
override
;
/* ------------------------------------------------------------------------ */
/* Methods */
/* ------------------------------------------------------------------------ */
public
:
/* ------------------------------------------------------------------------ */
/* Point to Point */
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
receive
(
Array
<
T
>
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
receiveImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
sender
,
tag
);
}
template
<
typename
Tensor
>
inline
void
receive
(
Tensor
&
values
,
Int
sender
,
Int
tag
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
return
this
->
receiveImpl
(
values
.
storage
(),
values
.
size
(),
sender
,
tag
);
}
template
<
bool
is_static
>
inline
void
receive
(
CommunicationBufferTemplated
<
is_static
>
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
receiveImpl
(
values
.
storage
(),
values
.
size
(),
sender
,
tag
);
}
template
<
typename
T
>
inline
void
receive
(
T
&
values
,
Int
sender
,
Int
tag
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
return
this
->
receiveImpl
(
&
values
,
1
,
sender
,
tag
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
send
(
const
Array
<
T
>
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
{
return
this
->
sendImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
receiver
,
tag
,
mode
);
}
template
<
typename
Tensor
>
inline
void
send
(
const
Tensor
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
return
this
->
sendImpl
(
values
.
storage
(),
values
.
size
(),
receiver
,
tag
,
mode
);
}
template
<
bool
is_static
>
inline
void
send
(
const
CommunicationBufferTemplated
<
is_static
>
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
{
return
this
->
sendImpl
(
values
.
storage
(),
values
.
size
(),
receiver
,
tag
,
mode
);
}
template
<
typename
T
>
inline
void
send
(
const
T
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
return
this
->
sendImpl
(
&
values
,
1
,
receiver
,
tag
,
mode
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
CommunicationRequest
asyncSend
(
const
Array
<
T
>
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
{
return
this
->
asyncSendImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
receiver
,
tag
,
mode
);
}
template
<
typename
T
>
inline
CommunicationRequest
asyncSend
(
const
std
::
vector
<
T
>
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
{
return
this
->
asyncSendImpl
(
values
.
data
(),
values
.
size
(),
receiver
,
tag
,
mode
);
}
template
<
typename
Tensor
>
inline
CommunicationRequest
asyncSend
(
const
Tensor
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
return
this
->
asyncSendImpl
(
values
.
storage
(),
values
.
size
(),
receiver
,
tag
,
mode
);
}
template
<
bool
is_static
>
inline
CommunicationRequest
asyncSend
(
const
CommunicationBufferTemplated
<
is_static
>
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
{
return
this
->
asyncSendImpl
(
values
.
storage
(),
values
.
size
(),
receiver
,
tag
,
mode
);
}
template
<
typename
T
>
inline
CommunicationRequest
asyncSend
(
const
T
&
values
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
return
this
->
asyncSendImpl
(
&
values
,
1
,
receiver
,
tag
,
mode
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
CommunicationRequest
asyncReceive
(
Array
<
T
>
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
asyncReceiveImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
sender
,
tag
);
}
template
<
typename
T
>
inline
CommunicationRequest
asyncReceive
(
std
::
vector
<
T
>
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
asyncReceiveImpl
(
values
.
data
(),
values
.
size
(),
sender
,
tag
);
}
template
<
typename
Tensor
,
typename
=
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>>
inline
CommunicationRequest
asyncReceive
(
Tensor
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
asyncReceiveImpl
(
values
.
storage
(),
values
.
size
(),
sender
,
tag
);
}
template
<
bool
is_static
>
inline
CommunicationRequest
asyncReceive
(
CommunicationBufferTemplated
<
is_static
>
&
values
,
Int
sender
,
Int
tag
)
const
{
return
this
->
asyncReceiveImpl
(
values
.
storage
(),
values
.
size
(),
sender
,
tag
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
void
probe
(
Int
sender
,
Int
tag
,
CommunicationStatus
&
status
)
const
;
template
<
typename
T
>
bool
asyncProbe
(
Int
sender
,
Int
tag
,
CommunicationStatus
&
status
)
const
;
/* ------------------------------------------------------------------------ */
/* Collectives */
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
allReduce
(
Array
<
T
>
&
values
,
const
SynchronizerOperation
&
op
)
const
{
this
->
allReduceImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
op
);
}
template
<
typename
Tensor
>
inline
void
allReduce
(
Tensor
&
values
,
const
SynchronizerOperation
&
op
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
this
->
allReduceImpl
(
values
.
storage
(),
values
.
size
(),
op
);
}
template
<
typename
T
>
inline
void
allReduce
(
T
&
values
,
const
SynchronizerOperation
&
op
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
this
->
allReduceImpl
(
&
values
,
1
,
op
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
allGather
(
Array
<
T
>
&
values
)
const
{
AKANTU_DEBUG_ASSERT
(
UInt
(
psize
)
==
values
.
size
(),
"The array size is not correct"
);
this
->
allGatherImpl
(
values
.
storage
(),
values
.
getNbComponent
());
}
template
<
typename
Tensor
,
typename
=
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>>
inline
void
allGather
(
Tensor
&
values
)
const
{
AKANTU_DEBUG_ASSERT
(
UInt
(
psize
)
==
values
.
size
(),
"The vector size is not correct"
);
this
->
allGatherImpl
(
values
.
storage
(),
1
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
allGatherV
(
Array
<
T
>
&
values
,
const
Array
<
Int
>
&
sizes
)
const
{
this
->
allGatherVImpl
(
values
.
storage
(),
sizes
.
storage
());
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
reduce
(
Array
<
T
>
&
values
,
const
SynchronizerOperation
&
op
,
int
root
=
0
)
const
{
this
->
reduceImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
op
,
root
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
Tensor
>
inline
void
gather
(
Tensor
&
values
,
int
root
=
0
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
this
->
gatherImpl
(
values
.
storage
(),
values
.
getNbComponent
(),
root
);
}
template
<
typename
T
>
inline
void
gather
(
T
values
,
int
root
=
0
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
this
->
gatherImpl
(
&
values
,
1
,
root
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
Tensor
,
typename
T
>
inline
void
gather
(
Tensor
&
values
,
Array
<
T
>
&
gathered
,
std
::
enable_if_t
<
is_tensor
<
Tensor
>::
value
>
*
=
nullptr
)
const
{
AKANTU_DEBUG_ASSERT
(
values
.
size
()
==
gathered
.
getNbComponent
(),
"The array size is not correct"
);
gathered
.
resize
(
psize
);
this
->
gatherImpl
(
values
.
data
(),
values
.
size
(),
gathered
.
storage
(),
gathered
.
getNbComponent
());
}
template
<
typename
T
>
inline
void
gather
(
T
values
,
Array
<
T
>
&
gathered
,
std
::
enable_if_t
<
std
::
is_arithmetic
<
T
>::
value
>
*
=
nullptr
)
const
{
this
->
gatherImpl
(
&
values
,
1
,
gathered
.
storage
(),
1
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
gatherV
(
Array
<
T
>
&
values
,
const
Array
<
Int
>
&
sizes
,
int
root
=
0
)
const
{
this
->
gatherVImpl
(
values
.
storage
(),
sizes
.
storage
(),
root
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
inline
void
broadcast
(
Array
<
T
>
&
values
,
int
root
=
0
)
const
{
this
->
broadcastImpl
(
values
.
storage
(),
values
.
size
()
*
values
.
getNbComponent
(),
root
);
}
template
<
bool
is_static
>
inline
void
broadcast
(
CommunicationBufferTemplated
<
is_static
>
&
values
,
int
root
=
0
)
const
{
this
->
broadcastImpl
(
values
.
storage
(),
values
.
size
(),
root
);
}
template
<
typename
T
>
inline
void
broadcast
(
T
&
values
,
int
root
=
0
)
const
{
this
->
broadcastImpl
(
&
values
,
1
,
root
);
}
/* ------------------------------------------------------------------------ */
void
barrier
()
const
;
CommunicationRequest
asyncBarrier
()
const
;
/* ------------------------------------------------------------------------ */
/* Request handling */
/* ------------------------------------------------------------------------ */
bool
test
(
CommunicationRequest
&
request
)
const
;
bool
testAll
(
std
::
vector
<
CommunicationRequest
>
&
request
)
const
;
void
wait
(
CommunicationRequest
&
request
)
const
;
void
waitAll
(
std
::
vector
<
CommunicationRequest
>
&
requests
)
const
;
UInt
waitAny
(
std
::
vector
<
CommunicationRequest
>
&
requests
)
const
;
inline
void
freeCommunicationRequest
(
CommunicationRequest
&
request
)
const
;
inline
void
freeCommunicationRequest
(
std
::
vector
<
CommunicationRequest
>
&
requests
)
const
;
template
<
typename
T
,
typename
MsgProcessor
,
typename
TagGen
>
inline
void
receiveAnyNumber
(
std
::
vector
<
CommunicationRequest
>
&
send_requests
,
Array
<
T
>
receive_buffer
,
MsgProcessor
&&
processor
,
TagGen
&&
tag_gen
)
const
;
protected
:
template
<
typename
T
>
void
sendImpl
(
const
T
*
buffer
,
Int
size
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
;
template
<
typename
T
>
void
receiveImpl
(
T
*
buffer
,
Int
size
,
Int
sender
,
Int
tag
)
const
;
template
<
typename
T
>
CommunicationRequest
asyncSendImpl
(
const
T
*
buffer
,
Int
size
,
Int
receiver
,
Int
tag
,
const
CommunicationMode
&
mode
=
CommunicationMode
::
_auto
)
const
;
template
<
typename
T
>
CommunicationRequest
asyncReceiveImpl
(
T
*
buffer
,
Int
size
,
Int
sender
,
Int
tag
)
const
;
template
<
typename
T
>
void
allReduceImpl
(
T
*
values
,
int
nb_values
,
const
SynchronizerOperation
&
op
)
const
;
template
<
typename
T
>
void
allGatherImpl
(
T
*
values
,
int
nb_values
)
const
;
template
<
typename
T
>
void
allGatherVImpl
(
T
*
values
,
int
*
nb_values
)
const
;
template
<
typename
T
>
void
reduceImpl
(
T
*
values
,
int
nb_values
,
const
SynchronizerOperation
&
op
,
int
root
=
0
)
const
;
template
<
typename
T
>
void
gatherImpl
(
T
*
values
,
int
nb_values
,
int
root
=
0
)
const
;
template
<
typename
T
>
void
gatherImpl
(
T
*
values
,
int
nb_values
,
T
*
gathered
,
int
nb_gathered
=
0
)
const
;
template
<
typename
T
>
void
gatherVImpl
(
T
*
values
,
int
*
nb_values
,
int
root
=
0
)
const
;
template
<
typename
T
>
void
broadcastImpl
(
T
*
values
,
int
nb_values
,
int
root
=
0
)
const
;
/* ------------------------------------------------------------------------ */
/* Accessors */
/* ------------------------------------------------------------------------ */
public
:
Int
getNbProc
()
const
{
return
psize
;
};
Int
whoAmI
()
const
{
return
prank
;
};
static
Communicator
&
getStaticCommunicator
();
static
Communicator
&
getStaticCommunicator
(
int
&
argc
,
char
**&
argv
);
int
getMaxTag
()
const
;
int
getMinTag
()
const
;
AKANTU_GET_MACRO
(
CommunicatorData
,
(
*
communicator_data
),
decltype
(
auto
));
/* ------------------------------------------------------------------------ */
/* Class Members */
/* ------------------------------------------------------------------------ */
private
:
static
std
::
unique_ptr
<
Communicator
>
static_communicator
;
protected
:
Int
prank
{
0
};
Int
psize
{
1
};
std
::
unique_ptr
<
CommunicatorInternalData
>
communicator_data
;
};
inline
std
::
ostream
&
operator
<<
(
std
::
ostream
&
stream
,
const
CommunicationRequest
&
_this
)
{
_this
.
printself
(
stream
);
return
stream
;
}
}
// namespace akantu
#include "communicator_inline_impl.hh"
#endif
/* __AKANTU_STATIC_COMMUNICATOR_HH__ */
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