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mesh_pbc.cc
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Sat, Nov 2, 12:43
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rAKA akantu
mesh_pbc.cc
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/**
* @file mesh_pbc.cc
*
* @author Guillaume Anciaux <guillaume.anciaux@epfl.ch>
* @author David Simon Kammer <david.kammer@epfl.ch>
*
* @date creation: Wed Feb 09 2011
* @date last modification: Fri Aug 01 2014
*
* @brief periodic boundary condition connectivity tweak
*
* @section LICENSE
*
* Copyright (©) 2010-2012, 2014 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 <map>
/* -------------------------------------------------------------------------- */
#include "mesh_utils.hh"
#include "element_group.hh"
/* -------------------------------------------------------------------------- */
__BEGIN_AKANTU__
/* -------------------------------------------------------------------------- */
/// class that sorts a set of nodes of same coordinates in 'dir' direction
class
CoordinatesComparison
{
public
:
CoordinatesComparison
(
const
UInt
dimension
,
const
UInt
dirx
,
const
UInt
diry
,
Real
normalization
,
Real
tolerance
,
Real
*
coords
)
:
dim
(
dimension
),
dir_x
(
dirx
),
dir_y
(
diry
),
normalization
(
normalization
),
tolerance
(
tolerance
),
coordinates
(
coords
){}
// answers the question whether n2 is larger or equal to n1
bool
operator
()
(
UInt
n1
,
UInt
n2
){
Real
p1_x
=
coordinates
[
dim
*
n1
+
dir_x
];
Real
p2_x
=
coordinates
[
dim
*
n2
+
dir_x
];
Real
diff_x
=
p1_x
-
p2_x
;
if
(
dim
==
2
||
std
::
abs
(
diff_x
)
/
normalization
>
tolerance
)
return
diff_x
>
0.0
?
false
:
true
;
else
if
(
dim
>
2
){
Real
p1_y
=
coordinates
[
dim
*
n1
+
dir_y
];
Real
p2_y
=
coordinates
[
dim
*
n2
+
dir_y
];
Real
diff_y
=
p1_y
-
p2_y
;
return
diff_y
>
0
?
false
:
true
;
}
return
true
;
}
private
:
UInt
dim
;
UInt
dir_x
;
UInt
dir_y
;
Real
normalization
;
Real
tolerance
;
Real
*
coordinates
;
};
/* -------------------------------------------------------------------------- */
// void MeshUtils::tweakConnectivityForPBC(Mesh & mesh,
// bool flag_x,
// bool flag_y,
// bool flag_z){
// std::map<UInt,UInt> pbc_pair;
// mesh.computeBoundingBox();
// mesh.pbc_directions[0] = flag_x;
// mesh.pbc_directions[1] = flag_y;
// mesh.pbc_directions[2] = flag_z;
// if (flag_x) computePBCMap(mesh,0,pbc_pair);
// if (flag_y) computePBCMap(mesh,1,pbc_pair);
// if (flag_z) computePBCMap(mesh,2,pbc_pair);
// {
// std::map<UInt,UInt>::iterator it = pbc_pair.begin();
// std::map<UInt,UInt>::iterator end = pbc_pair.end();
// Real * coords = mesh.nodes->values;
// UInt dim = mesh.getSpatialDimension();
// while(it != end){
// UInt i1 = (*it).first;
// UInt i2 = (*it).second;
// AKANTU_DEBUG_INFO("pairing " << i1 << "("
// << coords[dim*i1] << "," << coords[dim*i1+1] << ","
// << coords[dim*i1+2]
// << ") with"
// << i2 << "("
// << coords[dim*i2] << "," << coords[dim*i2+1] << ","
// << coords[dim*i2+2]
// << ")");
// ++it;
// }
// }
// //allocate and initialize list of reversed elements
// mesh.initElementTypeMapArray<UInt>Array(mesh.reversed_elements_pbc,1,0,mesh.id,"reversed");
// // now loop over the elements to change the connectivity of some elements
// const Mesh::ConnectivityTypeList & type_list = mesh.getConnectivityTypeList();
// Mesh::ConnectivityTypeList::const_iterator it;
// for(it = type_list.begin(); it != type_list.end(); ++it) {
// ElementType type = *it;
// UInt nb_elem = mesh.getNbElement(type);
// UInt nb_nodes_per_elem = mesh.getNbNodesPerElement(type);
// UInt * conn = mesh.getConnectivityPointer(type)->values;
// UInt index = 0;
// Array<UInt> & list = *(mesh.reversed_elements_pbc[type]);
// for (UInt el = 0; el < nb_elem; el++) {
// UInt flag_should_register_elem = false;
// for (UInt k = 0; k < nb_nodes_per_elem; ++k,++index){
// if (pbc_pair.count(conn[index])){
// flag_should_register_elem = true;
// AKANTU_DEBUG_INFO("elem list size " << list.getSize());
// AKANTU_DEBUG_INFO("node " << conn[index] +1
// << " switch to "
// << pbc_pair[conn[index]]+1);
// // for (UInt toto = 0; toto < 3; ++toto) {
// // AKANTU_DEBUG_INFO("dir " << toto << " coords "
// // << mesh.nodes->values[conn[index]*3+toto]
// // << " switch to "
// // << mesh.nodes->values[pbc_pair[conn[index]]*3+toto]);
// // }
// std::stringstream str_temp;
// str_temp << "initial elem(" << el << ") is ";
// for (UInt l = 0 ; l < nb_nodes_per_elem ; ++ l){
// str_temp << conn[el*nb_nodes_per_elem+l]+1 << " ";
// }
// AKANTU_DEBUG_INFO(str_temp.str());
// conn[index] = pbc_pair[conn[index]];
// }
// }
// if (flag_should_register_elem) list.push_back(el);
// }
// }
// }
/* -------------------------------------------------------------------------- */
void
MeshUtils
::
computePBCMap
(
const
Mesh
&
mymesh
,
const
UInt
dir
,
std
::
map
<
UInt
,
UInt
>
&
pbc_pair
){
Array
<
UInt
>
selected_left
;
Array
<
UInt
>
selected_right
;
Real
*
coords
=
mymesh
.
nodes
->
storage
();
const
UInt
nb_nodes
=
mymesh
.
nodes
->
getSize
();
const
UInt
dim
=
mymesh
.
getSpatialDimension
();
if
(
dim
<=
dir
)
return
;
AKANTU_DEBUG_INFO
(
"min "
<<
mymesh
.
lower_bounds
[
dir
]);
AKANTU_DEBUG_INFO
(
"max "
<<
mymesh
.
upper_bounds
[
dir
]);
for
(
UInt
i
=
0
;
i
<
nb_nodes
;
++
i
)
{
AKANTU_DEBUG_TRACE
(
"treating "
<<
coords
[
dim
*
i
+
dir
]);
if
(
Math
::
are_float_equal
(
coords
[
dim
*
i
+
dir
],
mymesh
.
lower_bounds
[
dir
])){
AKANTU_DEBUG_TRACE
(
"pushing node "
<<
i
<<
" on the left side"
);
selected_left
.
push_back
(
i
);
}
else
if
(
Math
::
are_float_equal
(
coords
[
dim
*
i
+
dir
],
mymesh
.
upper_bounds
[
dir
])){
selected_right
.
push_back
(
i
);
AKANTU_DEBUG_TRACE
(
"pushing node "
<<
i
<<
" on the right side"
);
}
}
AKANTU_DEBUG_INFO
(
"found "
<<
selected_left
.
getSize
()
<<
" and "
<<
selected_right
.
getSize
()
<<
" nodes at each boundary for direction "
<<
dir
);
// match pairs
MeshUtils
::
matchPBCPairs
(
mymesh
,
dir
,
selected_left
,
selected_right
,
pbc_pair
);
}
/* -------------------------------------------------------------------------- */
void
MeshUtils
::
computePBCMap
(
const
Mesh
&
mymesh
,
const
SurfacePair
&
surface_pair
,
std
::
map
<
UInt
,
UInt
>
&
pbc_pair
)
{
Array
<
UInt
>
selected_first
;
Array
<
UInt
>
selected_second
;
// find nodes on surfaces
const
ElementGroup
&
first_surf
=
mymesh
.
getElementGroup
(
surface_pair
.
first
);
const
ElementGroup
&
second_surf
=
mymesh
.
getElementGroup
(
surface_pair
.
second
);
// if this surface pair is not on this proc
if
(
first_surf
.
getNbNodes
()
==
0
||
second_surf
.
getNbNodes
()
==
0
)
{
AKANTU_DEBUG_WARNING
(
"computePBCMap has at least one surface without any nodes. I will ignore it."
);
return
;
}
// copy nodes from element group
selected_first
.
copy
(
first_surf
.
getNodeGroup
().
getNodes
());
selected_second
.
copy
(
second_surf
.
getNodeGroup
().
getNodes
());
// coordinates
const
Array
<
Real
>
&
coords
=
mymesh
.
getNodes
();
const
UInt
dim
=
mymesh
.
getSpatialDimension
();
// variables to find min and max of surfaces
Real
first_max
[
3
],
first_min
[
3
];
Real
second_max
[
3
],
second_min
[
3
];
for
(
UInt
i
=
0
;
i
<
dim
;
++
i
)
{
first_min
[
i
]
=
std
::
numeric_limits
<
Real
>::
max
();
second_min
[
i
]
=
std
::
numeric_limits
<
Real
>::
max
();
first_max
[
i
]
=
-
std
::
numeric_limits
<
Real
>::
max
();
second_max
[
i
]
=
-
std
::
numeric_limits
<
Real
>::
max
();
}
// find min and max of surface nodes
for
(
Array
<
UInt
>::
scalar_iterator
it
=
selected_first
.
begin
();
it
!=
selected_first
.
end
();
++
it
)
{
for
(
UInt
i
=
0
;
i
<
dim
;
++
i
)
{
if
(
first_min
[
i
]
>
coords
(
*
it
,
i
))
first_min
[
i
]
=
coords
(
*
it
,
i
);
if
(
first_max
[
i
]
<
coords
(
*
it
,
i
))
first_max
[
i
]
=
coords
(
*
it
,
i
);
}
}
for
(
Array
<
UInt
>::
scalar_iterator
it
=
selected_second
.
begin
();
it
!=
selected_second
.
end
();
++
it
)
{
for
(
UInt
i
=
0
;
i
<
dim
;
++
i
)
{
if
(
second_min
[
i
]
>
coords
(
*
it
,
i
))
second_min
[
i
]
=
coords
(
*
it
,
i
);
if
(
second_max
[
i
]
<
coords
(
*
it
,
i
))
second_max
[
i
]
=
coords
(
*
it
,
i
);
}
}
// find direction of pbc
Int
first_dir
=
-
1
;
#ifndef AKANTU_NDEBUG
Int
second_dir
=
-
2
;
#endif
for
(
UInt
i
=
0
;
i
<
dim
;
++
i
)
{
if
(
Math
::
are_float_equal
(
first_min
[
i
],
first_max
[
i
]))
{
first_dir
=
i
;
}
#ifndef AKANTU_NDEBUG
if
(
Math
::
are_float_equal
(
second_min
[
i
],
second_max
[
i
]))
{
second_dir
=
i
;
}
#endif
}
AKANTU_DEBUG_ASSERT
(
first_dir
==
second_dir
,
"Surface pair has not same direction. Surface "
<<
surface_pair
.
first
<<
" dir="
<<
first_dir
<<
" ; Surface "
<<
surface_pair
.
second
<<
" dir="
<<
second_dir
);
UInt
dir
=
first_dir
;
// match pairs
if
(
first_min
[
dir
]
<
second_min
[
dir
])
MeshUtils
::
matchPBCPairs
(
mymesh
,
dir
,
selected_first
,
selected_second
,
pbc_pair
);
else
MeshUtils
::
matchPBCPairs
(
mymesh
,
dir
,
selected_second
,
selected_first
,
pbc_pair
);
}
/* -------------------------------------------------------------------------- */
void
MeshUtils
::
matchPBCPairs
(
const
Mesh
&
mymesh
,
const
UInt
dir
,
Array
<
UInt
>
&
selected_left
,
Array
<
UInt
>
&
selected_right
,
std
::
map
<
UInt
,
UInt
>
&
pbc_pair
)
{
// tolerance is that large because most meshers generate points coordinates
// with single precision only (it is the case of GMSH for instance)
Real
tolerance
=
1e-7
;
Real
*
coords
=
mymesh
.
nodes
->
storage
();
const
UInt
dim
=
mymesh
.
getSpatialDimension
();
Real
normalization
=
mymesh
.
upper_bounds
[
dir
]
-
mymesh
.
lower_bounds
[
dir
];
AKANTU_DEBUG_ASSERT
(
std
::
abs
(
normalization
)
>
Math
::
getTolerance
(),
"In matchPBCPairs: The normalization is zero. "
<<
"Did you compute the bounding box of the mesh?"
);
UInt
dir_x
=
UInt
(
-
1
)
,
dir_y
=
UInt
(
-
1
);
if
(
dim
==
3
){
if
(
dir
==
0
){
dir_x
=
1
;
dir_y
=
2
;
}
else
if
(
dir
==
1
){
dir_x
=
0
;
dir_y
=
2
;
}
else
if
(
dir
==
2
){
dir_x
=
0
;
dir_y
=
1
;
}
}
else
if
(
dim
==
2
){
if
(
dir
==
0
){
dir_x
=
1
;
}
else
if
(
dir
==
1
){
dir_x
=
0
;
}
}
CoordinatesComparison
compare_nodes
(
dim
,
dir_x
,
dir_y
,
normalization
,
tolerance
,
coords
);
std
::
sort
(
selected_left
.
begin
(),
selected_left
.
end
(),
compare_nodes
);
std
::
sort
(
selected_right
.
begin
(),
selected_right
.
end
(),
compare_nodes
);
Array
<
UInt
>::
scalar_iterator
it_left
=
selected_left
.
begin
();
Array
<
UInt
>::
scalar_iterator
end_left
=
selected_left
.
end
();
Array
<
UInt
>::
scalar_iterator
it_right
=
selected_right
.
begin
();
Array
<
UInt
>::
scalar_iterator
end_right
=
selected_right
.
end
();
while
((
it_left
!=
end_left
)
&&
(
it_right
!=
end_right
)
){
UInt
i1
=
*
it_left
;
UInt
i2
=
*
it_right
;
AKANTU_DEBUG_TRACE
(
"do I pair? "
<<
i1
<<
"("
<<
coords
[
dim
*
i1
]
<<
","
<<
coords
[
dim
*
i1
+
1
]
<<
","
<<
coords
[
dim
*
i1
+
2
]
<<
") with"
<<
i2
<<
"("
<<
coords
[
dim
*
i2
]
<<
","
<<
coords
[
dim
*
i2
+
1
]
<<
","
<<
coords
[
dim
*
i2
+
2
]
<<
") in direction "
<<
dir
);
Real
dx
=
0.0
;
Real
dy
=
0.0
;
if
(
dim
>=
2
)
dx
=
coords
[
dim
*
i1
+
dir_x
]
-
coords
[
dim
*
i2
+
dir_x
];
if
(
dim
==
3
)
dy
=
coords
[
dim
*
i1
+
dir_y
]
-
coords
[
dim
*
i2
+
dir_y
];
if
(
fabs
(
dx
*
dx
+
dy
*
dy
)
/
normalization
<
tolerance
)
{
//then i match these pairs
if
(
pbc_pair
.
count
(
i2
)){
i2
=
pbc_pair
[
i2
];
}
pbc_pair
[
i1
]
=
i2
;
AKANTU_DEBUG_TRACE
(
"pairing "
<<
i1
<<
"("
<<
coords
[
dim
*
i1
]
<<
","
<<
coords
[
dim
*
i1
+
1
]
<<
","
<<
coords
[
dim
*
i1
+
2
]
<<
") with"
<<
i2
<<
"("
<<
coords
[
dim
*
i2
]
<<
","
<<
coords
[
dim
*
i2
+
1
]
<<
","
<<
coords
[
dim
*
i2
+
2
]
<<
") in direction "
<<
dir
);
++
it_left
;
++
it_right
;
}
else
if
(
compare_nodes
(
i1
,
i2
))
{
++
it_left
;
}
else
{
++
it_right
;
}
}
AKANTU_DEBUG_INFO
(
"found "
<<
pbc_pair
.
size
()
<<
" pairs for direction "
<<
dir
);
}
__END_AKANTU__
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