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rAKA akantu
node_info_per_processor.cc
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/**
* @file node_info_per_processor.cc
*
* @author Nicolas Richart <nicolas.richart@epfl.ch>
*
* @date Fri Mar 11 15:49:43 2016
*
* @brief
*
* @section LICENSE
*
* Copyright (©) 2010-2011 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 "node_info_per_processor.hh"
#include "node_group.hh"
#include "node_synchronizer.hh"
#include "static_communicator.hh"
/* -------------------------------------------------------------------------- */
#include <algorithm>
/* -------------------------------------------------------------------------- */
namespace
akantu
{
/* -------------------------------------------------------------------------- */
NodeInfoPerProc
::
NodeInfoPerProc
(
NodeSynchronizer
&
synchronizer
,
UInt
message_cnt
,
UInt
root
)
:
MeshAccessor
(
synchronizer
.
getMesh
()),
synchronizer
(
synchronizer
),
comm
(
synchronizer
.
getCommunicator
()),
rank
(
comm
.
whoAmI
()),
nb_proc
(
comm
.
getNbProc
()),
root
(
root
),
mesh
(
synchronizer
.
getMesh
()),
spatial_dimension
(
synchronizer
.
getMesh
().
getSpatialDimension
()),
message_count
(
message_cnt
)
{}
/* -------------------------------------------------------------------------- */
template
<
class
CommunicationBuffer
>
void
NodeInfoPerProc
::
fillNodeGroupsFromBuffer
(
CommunicationBuffer
&
buffer
)
{
AKANTU_DEBUG_IN
();
std
::
vector
<
std
::
vector
<
std
::
string
>>
node_to_group
;
buffer
>>
node_to_group
;
AKANTU_DEBUG_ASSERT
(
node_to_group
.
size
()
==
mesh
.
getNbGlobalNodes
(),
"Not the good amount of nodes where transmitted"
);
const
auto
&
global_nodes
=
mesh
.
getGlobalNodesIds
();
auto
nbegin
=
global_nodes
.
begin
();
auto
nit
=
global_nodes
.
begin
();
auto
nend
=
global_nodes
.
end
();
for
(;
nit
!=
nend
;
++
nit
)
{
std
::
vector
<
std
::
string
>::
iterator
it
=
node_to_group
[
*
nit
].
begin
();
std
::
vector
<
std
::
string
>::
iterator
end
=
node_to_group
[
*
nit
].
end
();
for
(;
it
!=
end
;
++
it
)
{
mesh
.
getNodeGroup
(
*
it
).
add
(
nit
-
nbegin
,
false
);
}
}
GroupManager
::
const_node_group_iterator
ngi
=
mesh
.
node_group_begin
();
GroupManager
::
const_node_group_iterator
nge
=
mesh
.
node_group_end
();
for
(;
ngi
!=
nge
;
++
ngi
)
{
NodeGroup
&
ng
=
*
(
ngi
->
second
);
ng
.
optimize
();
}
AKANTU_DEBUG_OUT
();
}
/* -------------------------------------------------------------------------- */
void
NodeInfoPerProc
::
fillNodesType
()
{
AKANTU_DEBUG_IN
();
UInt
nb_nodes
=
mesh
.
getNbNodes
();
Array
<
NodeType
>
&
nodes_type
=
this
->
getNodesType
();
Array
<
UInt
>
nodes_set
(
nb_nodes
);
nodes_set
.
set
(
0
);
enum
NodeSet
{
NORMAL_SET
=
1
,
GHOST_SET
=
2
,
};
Array
<
bool
>
already_seen
(
nb_nodes
,
1
,
false
);
for
(
UInt
g
=
_not_ghost
;
g
<=
_ghost
;
++
g
)
{
GhostType
gt
=
(
GhostType
)
g
;
UInt
set
=
NORMAL_SET
;
if
(
gt
==
_ghost
)
set
=
GHOST_SET
;
already_seen
.
set
(
false
);
Mesh
::
type_iterator
it
=
mesh
.
firstType
(
_all_dimensions
,
gt
,
_ek_not_defined
);
Mesh
::
type_iterator
end
=
mesh
.
lastType
(
_all_dimensions
,
gt
,
_ek_not_defined
);
for
(;
it
!=
end
;
++
it
)
{
ElementType
type
=
*
it
;
UInt
nb_nodes_per_element
=
Mesh
::
getNbNodesPerElement
(
type
);
UInt
nb_element
=
mesh
.
getNbElement
(
type
,
gt
);
Array
<
UInt
>::
const_vector_iterator
conn_it
=
mesh
.
getConnectivity
(
type
,
gt
).
begin
(
nb_nodes_per_element
);
for
(
UInt
e
=
0
;
e
<
nb_element
;
++
e
,
++
conn_it
)
{
const
Vector
<
UInt
>
&
conn
=
*
conn_it
;
for
(
UInt
n
=
0
;
n
<
nb_nodes_per_element
;
++
n
)
{
AKANTU_DEBUG_ASSERT
(
conn
(
n
)
<
nb_nodes
,
"Node "
<<
conn
(
n
)
<<
" bigger than number of nodes "
<<
nb_nodes
);
if
(
!
already_seen
(
conn
(
n
)))
{
nodes_set
(
conn
(
n
))
+=
set
;
already_seen
(
conn
(
n
))
=
true
;
}
}
}
}
}
for
(
UInt
i
=
0
;
i
<
nb_nodes
;
++
i
)
{
if
(
nodes_set
(
i
)
==
NORMAL_SET
)
nodes_type
(
i
)
=
_nt_normal
;
else
if
(
nodes_set
(
i
)
==
GHOST_SET
)
nodes_type
(
i
)
=
_nt_pure_gost
;
else
if
(
nodes_set
(
i
)
==
(
GHOST_SET
+
NORMAL_SET
))
nodes_type
(
i
)
=
_nt_master
;
}
AKANTU_DEBUG_OUT
();
}
/* -------------------------------------------------------------------------- */
void
NodeInfoPerProc
::
fillCommunicationScheme
(
const
Array
<
UInt
>
&
master_info
)
{
AKANTU_DEBUG_IN
();
Communications
<
UInt
>
&
communications
=
this
->
synchronizer
.
getCommunications
();
{
// send schemes
auto
it
=
master_info
.
begin_reinterpret
(
2
,
master_info
.
getSize
()
/
2
);
auto
end
=
master_info
.
end_reinterpret
(
2
,
master_info
.
getSize
()
/
2
);
std
::
map
<
UInt
,
Array
<
UInt
>>
send_array_per_proc
;
for
(;
it
!=
end
;
++
it
)
{
const
Vector
<
UInt
>
&
send_info
=
*
it
;
send_array_per_proc
[
send_info
(
0
)].
push_back
(
send_info
(
1
));
}
for
(
auto
&
send_schemes
:
send_array_per_proc
)
{
auto
&
scheme
=
communications
.
createSendScheme
(
send_schemes
.
first
);
auto
&
sends
=
send_schemes
.
second
;
std
::
sort
(
sends
.
begin
(),
sends
.
end
());
std
::
transform
(
sends
.
begin
(),
sends
.
end
(),
sends
.
begin
(),
[
this
](
UInt
g
)
->
UInt
{
return
mesh
.
getNodeLocalId
(
g
);
});
scheme
.
copy
(
sends
);
}
}
{
// receive schemes
const
Array
<
NodeType
>
&
nodes_type
=
this
->
getNodesType
();
std
::
map
<
UInt
,
Array
<
UInt
>>
recv_array_per_proc
;
UInt
node
=
0
;
for
(
auto
&
node_type
:
nodes_type
)
{
if
(
Int
(
node_type
)
>=
0
)
{
recv_array_per_proc
[
node_type
].
push_back
(
mesh
.
getNodeGlobalId
(
node
));
}
++
node
;
}
for
(
auto
&
recv_schemes
:
recv_array_per_proc
)
{
auto
&
scheme
=
communications
.
createRecvScheme
(
recv_schemes
.
first
);
auto
&
recvs
=
recv_schemes
.
second
;
std
::
sort
(
recvs
.
begin
(),
recvs
.
end
());
std
::
transform
(
recvs
.
begin
(),
recvs
.
end
(),
recvs
.
begin
(),
[
this
](
UInt
g
)
->
UInt
{
return
mesh
.
getNodeLocalId
(
g
);
});
scheme
.
copy
(
recvs
);
}
}
AKANTU_DEBUG_OUT
();
}
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
MasterNodeInfoPerProc
::
MasterNodeInfoPerProc
(
NodeSynchronizer
&
synchronizer
,
UInt
message_cnt
,
UInt
root
)
:
NodeInfoPerProc
(
synchronizer
,
message_cnt
,
root
)
{
UInt
nb_global_nodes
=
this
->
mesh
.
getNbGlobalNodes
();
this
->
comm
.
broadcast
(
nb_global_nodes
,
this
->
root
);
}
/* -------------------------------------------------------------------------- */
void
MasterNodeInfoPerProc
::
synchronizeNodes
()
{
this
->
nodes_per_proc
.
resize
(
nb_proc
);
this
->
nb_nodes_per_proc
.
resize
(
nb_proc
);
Array
<
Real
>
local_nodes
(
0
,
spatial_dimension
);
Array
<
Real
>
&
nodes
=
this
->
getNodes
();
for
(
UInt
p
=
0
;
p
<
nb_proc
;
++
p
)
{
UInt
nb_nodes
=
0
;
// UInt * buffer;
Array
<
Real
>
*
nodes_to_send
;
Array
<
UInt
>
&
nodespp
=
nodes_per_proc
[
p
];
if
(
p
!=
root
)
{
nodes_to_send
=
new
Array
<
Real
>
(
0
,
spatial_dimension
);
AKANTU_DEBUG_INFO
(
"Receiving number of nodes from proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
p
,
0
,
Tag
::
_NB_NODES
));
comm
.
receive
(
nb_nodes
,
p
,
Tag
::
genTag
(
p
,
0
,
Tag
::
_NB_NODES
));
nodespp
.
resize
(
nb_nodes
);
this
->
nb_nodes_per_proc
(
p
)
=
nb_nodes
;
AKANTU_DEBUG_INFO
(
"Receiving list of nodes from proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
p
,
0
,
Tag
::
_NODES
));
comm
.
receive
(
nodespp
,
p
,
Tag
::
genTag
(
p
,
0
,
Tag
::
_NODES
));
}
else
{
Array
<
UInt
>
&
local_ids
=
this
->
getNodesGlobalIds
();
this
->
nb_nodes_per_proc
(
p
)
=
local_ids
.
getSize
();
nodespp
.
copy
(
local_ids
);
nodes_to_send
=
&
local_nodes
;
}
Array
<
UInt
>::
const_scalar_iterator
it
=
nodespp
.
begin
();
Array
<
UInt
>::
const_scalar_iterator
end
=
nodespp
.
end
();
/// get the coordinates for the selected nodes
for
(;
it
!=
end
;
++
it
)
{
Vector
<
Real
>
coord
(
nodes
.
storage
()
+
spatial_dimension
*
*
it
,
spatial_dimension
);
nodes_to_send
->
push_back
(
coord
);
}
if
(
p
!=
root
)
{
/// send them for distant processors
AKANTU_DEBUG_INFO
(
"Sending coordinates to proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_COORDINATES
));
comm
.
send
(
*
nodes_to_send
,
p
,
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_COORDINATES
));
delete
nodes_to_send
;
}
}
/// construct the local nodes coordinates
nodes
.
copy
(
local_nodes
);
}
/* -------------------------------------------------------------------------- */
void
MasterNodeInfoPerProc
::
synchronizeTypes
()
{
// <global_id, <proc, local_id> >
std
::
multimap
<
UInt
,
std
::
pair
<
UInt
,
UInt
>>
nodes_to_proc
;
std
::
vector
<
Array
<
NodeType
>>
nodes_type_per_proc
(
nb_proc
);
// arrays containing pairs of (proc, node)
std
::
vector
<
Array
<
UInt
>>
nodes_to_send_per_proc
(
nb_proc
);
for
(
UInt
p
=
0
;
p
<
nb_proc
;
++
p
)
{
nodes_type_per_proc
[
p
].
resize
(
nb_nodes_per_proc
(
p
));
}
this
->
fillNodesType
();
for
(
UInt
p
=
0
;
p
<
nb_proc
;
++
p
)
{
auto
&
nodes_types
=
nodes_type_per_proc
[
p
];
if
(
p
!=
root
)
{
AKANTU_DEBUG_INFO
(
"Receiving first nodes types from proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
this
->
message_count
,
Tag
::
_NODES_TYPE
));
comm
.
receive
(
nodes_types
,
p
,
Tag
::
genTag
(
p
,
0
,
Tag
::
_NODES_TYPE
));
}
else
{
nodes_types
.
copy
(
this
->
getNodesType
());
}
// stack all processors claiming to be master for a node
for
(
UInt
local_node
=
0
;
local_node
<
nb_nodes_per_proc
(
p
);
++
local_node
)
{
if
(
nodes_types
(
local_node
)
==
_nt_master
)
{
UInt
global_node
=
nodes_per_proc
[
p
](
local_node
);
nodes_to_proc
.
insert
(
std
::
make_pair
(
global_node
,
std
::
make_pair
(
p
,
local_node
)));
}
}
}
for
(
UInt
i
=
0
;
i
<
mesh
.
getNbGlobalNodes
();
++
i
)
{
auto
it_range
=
nodes_to_proc
.
equal_range
(
i
);
if
(
it_range
.
first
==
nodes_to_proc
.
end
()
||
it_range
.
first
->
first
!=
i
)
continue
;
// pick the first processor out of the multi-map as the actual master
UInt
master_proc
=
(
it_range
.
first
)
->
second
.
first
;
for
(
auto
it_node
=
it_range
.
first
;
it_node
!=
it_range
.
second
;
++
it_node
)
{
UInt
proc
=
it_node
->
second
.
first
;
UInt
node
=
it_node
->
second
.
second
;
if
(
proc
!=
master_proc
)
{
// store the info on all the slaves for a given master
nodes_type_per_proc
[
proc
](
node
)
=
NodeType
(
master_proc
);
nodes_to_send_per_proc
[
master_proc
].
push_back
(
proc
);
nodes_to_send_per_proc
[
master_proc
].
push_back
(
i
);
}
}
}
std
::
vector
<
CommunicationRequest
>
requests_send_type
;
std
::
vector
<
CommunicationRequest
>
requests_send_master_info
;
for
(
UInt
p
=
0
;
p
<
nb_proc
;
++
p
)
{
if
(
p
!=
root
)
{
AKANTU_DEBUG_INFO
(
"Sending nodes types to proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES_TYPE
));
requests_send_type
.
push_back
(
comm
.
asyncSend
(
nodes_type_per_proc
[
p
],
p
,
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES_TYPE
)));
auto
&
nodes_to_send
=
nodes_to_send_per_proc
[
p
];
/// push back an element to avoid a send of size 0
nodes_to_send
.
push_back
(
-
1
);
AKANTU_DEBUG_INFO
(
"Sending nodes master info to proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
1
,
Tag
::
_NODES_TYPE
));
requests_send_master_info
.
push_back
(
comm
.
asyncSend
(
nodes_to_send
,
p
,
Tag
::
genTag
(
this
->
rank
,
1
,
Tag
::
_NODES_TYPE
)));
}
else
{
this
->
getNodesType
().
copy
(
nodes_type_per_proc
[
p
]);
this
->
fillCommunicationScheme
(
nodes_to_send_per_proc
[
root
]);
}
}
comm
.
waitAll
(
requests_send_type
);
comm
.
freeCommunicationRequest
(
requests_send_type
);
requests_send_type
.
clear
();
comm
.
waitAll
(
requests_send_master_info
);
comm
.
freeCommunicationRequest
(
requests_send_master_info
);
}
/* -------------------------------------------------------------------------- */
void
MasterNodeInfoPerProc
::
synchronizeGroups
()
{
AKANTU_DEBUG_IN
();
UInt
nb_total_nodes
=
mesh
.
getNbGlobalNodes
();
DynamicCommunicationBuffer
buffer
;
typedef
std
::
vector
<
std
::
vector
<
std
::
string
>>
NodeToGroup
;
NodeToGroup
node_to_group
;
node_to_group
.
resize
(
nb_total_nodes
);
GroupManager
::
const_node_group_iterator
ngi
=
mesh
.
node_group_begin
();
GroupManager
::
const_node_group_iterator
nge
=
mesh
.
node_group_end
();
for
(;
ngi
!=
nge
;
++
ngi
)
{
NodeGroup
&
ng
=
*
(
ngi
->
second
);
std
::
string
name
=
ngi
->
first
;
NodeGroup
::
const_node_iterator
nit
=
ng
.
begin
();
NodeGroup
::
const_node_iterator
nend
=
ng
.
end
();
for
(;
nit
!=
nend
;
++
nit
)
{
node_to_group
[
*
nit
].
push_back
(
name
);
}
nit
=
ng
.
begin
();
if
(
nit
!=
nend
)
ng
.
empty
();
}
buffer
<<
node_to_group
;
std
::
vector
<
CommunicationRequest
>
requests
;
for
(
UInt
p
=
0
;
p
<
nb_proc
;
++
p
)
{
if
(
p
==
this
->
rank
)
continue
;
AKANTU_DEBUG_INFO
(
"Sending node groups to proc "
<<
p
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
p
,
Tag
::
_NODE_GROUP
));
requests
.
push_back
(
comm
.
asyncSend
(
buffer
,
p
,
Tag
::
genTag
(
this
->
rank
,
p
,
Tag
::
_NODE_GROUP
)));
}
this
->
fillNodeGroupsFromBuffer
(
buffer
);
comm
.
waitAll
(
requests
);
comm
.
freeCommunicationRequest
(
requests
);
requests
.
clear
();
AKANTU_DEBUG_OUT
();
}
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
SlaveNodeInfoPerProc
::
SlaveNodeInfoPerProc
(
NodeSynchronizer
&
synchronizer
,
UInt
message_cnt
,
UInt
root
)
:
NodeInfoPerProc
(
synchronizer
,
message_cnt
,
root
)
{
UInt
nb_global_nodes
=
0
;
comm
.
broadcast
(
nb_global_nodes
,
root
);
this
->
setNbGlobalNodes
(
nb_global_nodes
);
}
/* -------------------------------------------------------------------------- */
void
SlaveNodeInfoPerProc
::
synchronizeNodes
()
{
AKANTU_DEBUG_INFO
(
"Sending list of nodes to proc "
<<
root
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NB_NODES
)
<<
" "
<<
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES
));
Array
<
UInt
>
&
local_ids
=
this
->
getNodesGlobalIds
();
Array
<
Real
>
&
nodes
=
this
->
getNodes
();
UInt
nb_nodes
=
local_ids
.
getSize
();
comm
.
send
(
nb_nodes
,
root
,
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NB_NODES
));
comm
.
send
(
local_ids
,
root
,
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES
));
/* --------<<<<-COORDINATES---------------------------------------------- */
nodes
.
resize
(
nb_nodes
);
AKANTU_DEBUG_INFO
(
"Receiving coordinates from proc "
<<
root
<<
" "
<<
Tag
::
genTag
(
root
,
0
,
Tag
::
_COORDINATES
));
comm
.
receive
(
nodes
,
root
,
Tag
::
genTag
(
root
,
0
,
Tag
::
_COORDINATES
));
}
/* -------------------------------------------------------------------------- */
void
SlaveNodeInfoPerProc
::
synchronizeTypes
()
{
this
->
fillNodesType
();
Array
<
NodeType
>
&
nodes_types
=
this
->
getNodesType
();
AKANTU_DEBUG_INFO
(
"Sending first nodes types to proc "
<<
root
<<
""
<<
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES_TYPE
));
comm
.
send
(
nodes_types
,
root
,
Tag
::
genTag
(
this
->
rank
,
0
,
Tag
::
_NODES_TYPE
));
AKANTU_DEBUG_INFO
(
"Receiving nodes types from proc "
<<
root
<<
" "
<<
Tag
::
genTag
(
root
,
0
,
Tag
::
_NODES_TYPE
));
comm
.
receive
(
nodes_types
,
root
,
Tag
::
genTag
(
root
,
0
,
Tag
::
_NODES_TYPE
));
AKANTU_DEBUG_INFO
(
"Receiving nodes master info from proc "
<<
root
<<
" "
<<
Tag
::
genTag
(
root
,
1
,
Tag
::
_NODES_TYPE
));
CommunicationStatus
status
;
comm
.
probe
<
UInt
>
(
root
,
Tag
::
genTag
(
root
,
1
,
Tag
::
_NODES_TYPE
),
status
);
Array
<
UInt
>
nodes_master_info
(
status
.
getSize
());
comm
.
receive
(
nodes_master_info
,
root
,
Tag
::
genTag
(
root
,
1
,
Tag
::
_NODES_TYPE
));
nodes_master_info
.
resize
(
nodes_master_info
.
getSize
()
-
1
);
this
->
fillCommunicationScheme
(
nodes_master_info
);
}
/* -------------------------------------------------------------------------- */
void
SlaveNodeInfoPerProc
::
synchronizeGroups
()
{
AKANTU_DEBUG_IN
();
AKANTU_DEBUG_INFO
(
"Receiving node groups from proc "
<<
root
<<
" "
<<
Tag
::
genTag
(
root
,
this
->
rank
,
Tag
::
_NODE_GROUP
));
CommunicationStatus
status
;
comm
.
probe
<
char
>
(
root
,
Tag
::
genTag
(
root
,
this
->
rank
,
Tag
::
_NODE_GROUP
),
status
);
CommunicationBuffer
buffer
(
status
.
getSize
());
comm
.
receive
(
buffer
,
root
,
Tag
::
genTag
(
root
,
this
->
rank
,
Tag
::
_NODE_GROUP
));
this
->
fillNodeGroupsFromBuffer
(
buffer
);
AKANTU_DEBUG_OUT
();
}
}
// akantu
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