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rAKA akantu
mesh_accessor.hh
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/**
* Copyright (©) 2015-2023 EPFL (Ecole Polytechnique Fédérale de Lausanne)
* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
*
* This file is part of Akantu
*
* 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 "mesh.hh"
/* -------------------------------------------------------------------------- */
#ifndef AKANTU_MESH_ACCESSOR_HH_
#define AKANTU_MESH_ACCESSOR_HH_
namespace
akantu
{
class
NodeSynchronizer
;
class
ElementSynchronizer
;
class
MeshGlobalDataUpdater
;
}
// namespace akantu
namespace
akantu
{
class
MeshAccessor
{
/* ------------------------------------------------------------------------ */
/* Constructors/Destructors */
/* ------------------------------------------------------------------------ */
public
:
explicit
MeshAccessor
(
Mesh
&
mesh
)
:
_mesh
(
mesh
)
{}
virtual
~
MeshAccessor
()
=
default
;
/* ------------------------------------------------------------------------ */
/* Accessors */
/* ------------------------------------------------------------------------ */
public
:
/// get the global number of nodes
inline
UInt
getNbGlobalNodes
()
const
{
return
this
->
_mesh
.
nb_global_nodes
;
}
/// set the global number of nodes
inline
void
setNbGlobalNodes
(
Int
nb_global_nodes
)
{
this
->
_mesh
.
nb_global_nodes
=
nb_global_nodes
;
}
/// set the mesh as being distributed
inline
void
setDistributed
()
{
this
->
_mesh
.
is_distributed
=
true
;
}
/// get a pointer to the nodes_global_ids Array<UInt> and create it if
/// necessary
inline
auto
&
getNodesGlobalIds
()
{
return
this
->
_mesh
.
getNodesGlobalIdsPointer
();
}
/// get a pointer to the nodes_type Array<Int> and create it if necessary
inline
auto
&
getNodesFlags
()
{
return
this
->
_mesh
.
getNodesFlags
();
}
/// get a pointer to the nodes_type Array<Int> and create it if necessary
inline
void
setNodePrank
(
UInt
node
,
Int
prank
)
{
this
->
_mesh
.
nodes_prank
[
node
]
=
prank
;
}
/// get a pointer to the coordinates Array
inline
auto
&
getNodes
()
{
return
this
->
_mesh
.
getNodesPointer
();
}
/// get a pointer to the coordinates Array
inline
auto
getNodesSharedPtr
()
{
return
this
->
_mesh
.
nodes
;
}
/// get the connectivities
inline
auto
&
getConnectivities
()
{
return
this
->
_mesh
.
connectivities
;
}
/// get the connectivity Array for the given type and create it
/// if necessary
inline
auto
&
getConnectivity
(
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
return
this
->
_mesh
.
getConnectivityPointer
(
type
,
ghost_type
);
}
/// resize the connectivity (use carefully)
inline
void
resizeConnectivity
(
Int
new_size
,
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
this
->
getConnectivity
(
type
,
ghost_type
).
resize
(
new_size
,
Idx
(
-
1
));
}
/// resize the nodes (use carefully)
inline
void
resizeNodes
(
Int
new_size
)
{
this
->
getNodes
().
resize
(
new_size
);
}
/// get the connectivity for the given element
inline
decltype
(
auto
)
getConnectivity
(
const
Element
&
element
)
{
return
this
->
_mesh
.
getConnectivityNC
(
element
);
}
/// get the ghost element counter
inline
auto
&
getGhostsCounters
(
ElementType
type
,
GhostType
ghost_type
=
_ghost
)
{
return
this
->
_mesh
.
getGhostsCounters
(
type
,
ghost_type
);
}
/// get the element_to_subelement Array for the given type and
/// create it if necessary
inline
auto
&
getElementToSubelement
(
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
return
this
->
_mesh
.
getElementToSubelementPointer
(
type
,
ghost_type
);
}
inline
decltype
(
auto
)
getElementToSubelementNC
(
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
return
this
->
_mesh
.
getElementToSubelementNC
(
type
,
ghost_type
);
}
/// get the subelement_to_element Array for the given type and
/// create it if necessary
inline
auto
&
getSubelementToElement
(
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
return
this
->
_mesh
.
getSubelementToElementPointer
(
type
,
ghost_type
);
}
inline
decltype
(
auto
)
getSubelementToElementNC
(
ElementType
type
,
GhostType
ghost_type
=
_not_ghost
)
{
return
this
->
_mesh
.
getSubelementToElementNC
(
type
,
ghost_type
);
}
/// get the element_to_subelement, creates it if necessary
inline
decltype
(
auto
)
getElementToSubelement
()
{
return
this
->
_mesh
.
getElementToSubelementNC
();
}
/// get subelement_to_element, creates it if necessary
inline
decltype
(
auto
)
getSubelementToElement
()
{
return
this
->
_mesh
.
getSubelementToElementNC
();
}
/// get a pointer to the element_to_subelement Array for element and
/// create it if necessary
inline
decltype
(
auto
)
getElementToSubelement
(
const
Element
&
element
)
{
return
this
->
_mesh
.
getElementToSubelementNC
(
element
);
}
/// get a pointer to the subelement_to_element Array for the given element and
/// create it if necessary
inline
decltype
(
auto
)
getSubelementToElement
(
const
Element
&
element
)
{
return
this
->
_mesh
.
getSubelementToElementNC
(
element
);
}
template
<
typename
T
>
inline
auto
&
getData
(
const
std
::
string
&
data_name
,
ElementType
el_type
,
GhostType
ghost_type
=
_not_ghost
,
Int
nb_component
=
1
,
bool
size_to_nb_element
=
true
,
bool
resize_with_parent
=
false
)
{
return
this
->
_mesh
.
getDataPointer
<
T
>
(
data_name
,
el_type
,
ghost_type
,
nb_component
,
size_to_nb_element
,
resize_with_parent
);
}
/// get the node synchonizer
auto
&
getNodeSynchronizer
()
{
return
*
this
->
_mesh
.
node_synchronizer
;
}
/// get the element synchonizer
auto
&
getElementSynchronizer
()
{
return
*
this
->
_mesh
.
element_synchronizer
;
}
decltype
(
auto
)
updateGlobalData
(
NewNodesEvent
&
nodes_event
,
NewElementsEvent
&
elements_event
)
{
return
this
->
_mesh
.
updateGlobalData
(
nodes_event
,
elements_event
);
}
void
registerGlobalDataUpdater
(
std
::
unique_ptr
<
MeshGlobalDataUpdater
>
&&
global_data_updater
)
{
this
->
_mesh
.
registerGlobalDataUpdater
(
std
::
forward
<
std
::
unique_ptr
<
MeshGlobalDataUpdater
>>
(
global_data_updater
));
}
/* ------------------------------------------------------------------------ */
void
makeReady
()
{
this
->
_mesh
.
makeReady
();
}
/* ------------------------------------------------------------------------ */
void
addPeriodicSlave
(
Idx
slave
,
Idx
master
)
{
this
->
_mesh
.
addPeriodicSlave
(
slave
,
master
);
}
void
markMeshPeriodic
()
{
for
(
Idx
s
:
arange
(
this
->
_mesh
.
spatial_dimension
))
{
this
->
_mesh
.
is_periodic
|=
1
<<
s
;
}
}
void
wipePeriodicInfo
()
{
this
->
_mesh
.
wipePeriodicInfo
();
}
private
:
Mesh
&
_mesh
;
};
}
// namespace akantu
#endif
/* AKANTU_MESH_ACCESSOR_HH_ */
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