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rAKA akantu
mesher.c
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/*
Copyright 2008 Guillaume ANCIAUX (guillaume.anciaux@epfl.ch)
This file is part of ParaViewHelper.
ParaViewHelper is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
ParaViewHelper 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with ParaViewHelper. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
static
double
*
coordinates
;
static
int
*
connectivity
;
inline
int
compareCoords
(
double
*
c1
,
double
*
c2
){
double
tol
=
0.000001
;
double
x1
,
x2
,
y1
,
y2
,
z1
,
z2
;
x1
=
c1
[
0
];
x2
=
c2
[
0
];
if
(
fabs
(
x1
-
x2
)
>
tol
&&
x1
<
x2
)
return
-
1
;
if
(
fabs
(
x1
-
x2
)
>
tol
&&
x2
<
x1
)
return
1
;
y1
=
c1
[
1
];
y2
=
c2
[
1
];
if
(
fabs
(
y1
-
y2
)
>
tol
&&
y1
<
y2
)
return
-
1
;
if
(
fabs
(
y1
-
y2
)
>
tol
&&
y2
<
y1
)
return
1
;
z1
=
c1
[
2
];
z2
=
c2
[
2
];
if
(
fabs
(
z1
-
z2
)
>
tol
&&
z1
<
z2
)
return
-
1
;
if
(
fabs
(
z1
-
z2
)
>
tol
&&
z2
<
z1
)
return
1
;
return
0
;
}
inline
void
AddNode
(
double
*
coords
,
int
*
nb_node
,
double
x
,
double
y
,
double
z
){
coords
[
3
*
(
*
nb_node
)
+
0
]
=
x
;
coords
[
3
*
(
*
nb_node
)
+
1
]
=
y
;
coords
[
3
*
(
*
nb_node
)
+
2
]
=
z
;
(
*
nb_node
)
++
;
}
inline
void
AddMedianNode
(
double
*
coords
,
int
*
nb_node
,
int
n1
,
int
n2
){
coords
[
3
*
(
*
nb_node
)
+
0
]
=
(
coords
[
3
*
n1
+
0
]
+
coords
[
3
*
n2
+
0
])
/
2.
;
coords
[
3
*
(
*
nb_node
)
+
1
]
=
(
coords
[
3
*
n1
+
1
]
+
coords
[
3
*
n2
+
1
])
/
2.
;
coords
[
3
*
(
*
nb_node
)
+
2
]
=
(
coords
[
3
*
n1
+
2
]
+
coords
[
3
*
n2
+
2
])
/
2.
;
(
*
nb_node
)
++
;
}
inline
void
AddElement
(
int
*
countelements
,
int
*
indexes
,
int
n0
,
int
n1
,
int
n2
,
int
n3
,
int
n4
,
int
n5
,
int
n6
,
int
n7
,
int
n8
,
int
n9
){
connectivity
[
10
*
(
*
countelements
)
+
0
]
=
indexes
[
n0
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
1
]
=
indexes
[
n1
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
2
]
=
indexes
[
n2
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
3
]
=
indexes
[
n3
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
4
]
=
indexes
[
n4
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
5
]
=
indexes
[
n5
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
6
]
=
indexes
[
n6
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
7
]
=
indexes
[
n7
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
8
]
=
indexes
[
n8
]
+
1
;
connectivity
[
10
*
(
*
countelements
)
+
9
]
=
indexes
[
n9
]
+
1
;
(
*
countelements
)
++
;
}
inline
int
AddInSorted
(
double
*
node_coords
,
double
*
coords_array
,
int
*
index_array
,
int
N
){
int
low
=
0
;
int
high
=
N
-
1
;
int
mid
=
0
;
int
i
=
0
;
if
(
N
==
0
){
coords_array
[
0
]
=
node_coords
[
0
];
coords_array
[
1
]
=
node_coords
[
1
];
coords_array
[
2
]
=
node_coords
[
2
];
index_array
[
0
]
=
-
1
;
return
0
;
}
while
(
low
<=
high
)
{
mid
=
(
low
+
high
)
/
2
;
switch
(
compareCoords
(
node_coords
,
coords_array
+
3
*
mid
)){
case
-
1
:
high
=
mid
-
1
;
break
;
case
1
:
low
=
mid
+
1
;
break
;
case
0
:
return
mid
;
break
;
//such a node as already been inserted
default:
fprintf
(
stderr
,
"AAAAAAAAARRRRRRRRRRG !! should not append
\n
"
);
}
}
mid
=
(
low
+
high
)
/
2
;
if
(
compareCoords
(
coords_array
+
3
*
mid
,
node_coords
)
==-
1
)
++
mid
;
//shift all elements to insert at the right place the element we want
double
*
c1
=
coords_array
+
3
*
mid
;
double
*
c2
;
int
*
i1
=
index_array
+
mid
;
int
*
i2
;
for
(
i
=
N
-
1
;
i
>=
mid
;
--
i
){
c1
=
coords_array
+
3
*
i
;
c2
=
c1
+
3
;
i1
=
index_array
+
i
;
i2
=
i1
+
1
;
c2
[
0
]
=
c1
[
0
];
c2
[
1
]
=
c1
[
1
];
c2
[
2
]
=
c1
[
2
];
*
i2
=
*
i1
;
}
c1
[
0
]
=
node_coords
[
0
];
c1
[
1
]
=
node_coords
[
1
];
c1
[
2
]
=
node_coords
[
2
];
*
i1
=
-
1
;
return
mid
;
}
inline
void
AddNodesInGlobal
(
double
*
coords
,
int
size
,
int
*
global_size
,
double
*
sorted_coordinates
,
int
*
sorted_indexes
,
int
*
indexes
){
// int size2 = *global_size;
int
i
;
double
c
[
3
];
for
(
i
=
0
;
i
<
size
;
++
i
){
//speedup search in sorted list to see if node already exists
c
[
0
]
=
coords
[
3
*
i
];
c
[
1
]
=
coords
[
3
*
i
+
1
];
c
[
2
]
=
coords
[
3
*
i
+
2
];
// if (c[0] == .5 && c[1] == 1 && c[2] == 1) debug_flag = 1;
int
ind
=
AddInSorted
(
c
,
sorted_coordinates
,
sorted_indexes
,
*
global_size
);
if
(
sorted_indexes
[
ind
]
==
-
1
)
{
//node does not already exist
coordinates
[
3
*
(
*
global_size
)]
=
coords
[
3
*
i
];
coordinates
[
3
*
(
*
global_size
)
+
1
]
=
coords
[
3
*
i
+
1
];
coordinates
[
3
*
(
*
global_size
)
+
2
]
=
coords
[
3
*
i
+
2
];
indexes
[
i
]
=
(
*
global_size
);
sorted_indexes
[
ind
]
=
(
*
global_size
);
(
*
global_size
)
++
;
}
else
{
//node already exist
indexes
[
i
]
=
sorted_indexes
[
ind
];
}
/* fprintf(stderr,"rnodes: start\n"); */
/* for (j = 0 ; j < *global_size ; ++j){ */
/* fprintf(stderr,"(%e,%e,%e,%d)[%d]\n", */
/* sorted_coordinates[3*j],sorted_coordinates[3*j+1],sorted_coordinates[3*j+2], */
/* sorted_indexes[j],j); */
/* } */
/* fprintf(stderr,"end\n"); */
}
}
void
write_mesh_UNV
(
const
char
*
outputfile
,
int
nodes
,
int
elements
){
int
i
;
FILE
*
op
=
fopen
(
outputfile
,
"w"
);
//nodal values (not used at present time)
int
exp_coord_sys_num
=
0
;
int
disp_coord_sys_num
=
0
;
int
color
=
0
;
//element values
int
fe_descriptor_id
=
111
;
int
phys_prop_tab_num
=
2
;
int
mat_prop_tab_num
=
1
;
int
n_nodes
=
4
;
//start of node block
fprintf
(
op
,
" -1
\n
2411
\n
"
);
for
(
i
=
0
;
i
<
nodes
;
i
++
){
fprintf
(
op
,
" %d %d %d %d
\n
"
,
i
,
exp_coord_sys_num
,
disp_coord_sys_num
,
color
);
fprintf
(
op
,
" %.15e %.15e %.15e
\n
"
,
coordinates
[
3
*
i
+
0
],
coordinates
[
3
*
i
+
1
],
coordinates
[
3
*
i
+
2
]);
}
//end of node block
fprintf
(
op
,
" -1
\n
"
);
//start of element block
fprintf
(
op
,
" -1
\n
2412
\n
"
);
color
=
7
;
for
(
i
=
0
;
i
<
elements
;
i
++
){
fprintf
(
op
,
" %d %d %d %d %d %d
\n
"
,
i
,
fe_descriptor_id
,
phys_prop_tab_num
,
mat_prop_tab_num
,
color
,
n_nodes
);
fprintf
(
op
,
" %d %d %d %d
\n
"
,
connectivity
[
10
*
i
+
0
]
-
1
,
connectivity
[
10
*
i
+
1
]
-
1
,
connectivity
[
10
*
i
+
2
]
-
1
,
connectivity
[
10
*
i
+
3
]
-
1
);
}
//end of element block
fprintf
(
op
,
"-1
\n
"
);
fclose
(
op
);
}
void
BuildGridMesh
(
double
**
pos
,
int
**
conn
,
int
*
nodes
,
int
*
elements
,
double
L
,
double
D
,
double
W
,
double
NL
,
double
ND
,
double
NW
)
{
int
i
,
j
,
k
;
int
countnodes
,
countelements
;
int
nstart
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
;
double
lcube
,
dcube
,
wcube
;
double
x0
,
y0
,
z0
;
// double tol = 0.00001;
lcube
=
L
/
NL
;
dcube
=
D
/
ND
;
wcube
=
W
/
NW
;
*
nodes
=
35
*
NL
*
ND
*
NW
;
/* 35 is the number of nodes per unit cube; node is overestimated but identical nodes will be removed later on */
*
elements
=
12
*
NL
*
ND
*
NW
;
*
pos
=
malloc
(
*
nodes
*
3
*
sizeof
(
double
));
coordinates
=
*
pos
;
double
*
sorted_coordinates
=
malloc
(
*
nodes
*
3
*
sizeof
(
double
));
int
*
sorted_indexes
=
malloc
(
*
nodes
*
sizeof
(
int
));
*
conn
=
malloc
(
*
elements
*
10
*
sizeof
(
int
));
connectivity
=
*
conn
;
// int global_size=0;
countnodes
=
0
;
countelements
=
0
;
for
(
i
=
0
;
i
<
NW
;
i
++
)
for
(
j
=
0
;
j
<
ND
;
j
++
)
for
(
k
=
0
;
k
<
NL
;
k
++
)
{
if
(
countelements
%
1000
==
0
)
fprintf
(
stderr
,
"building element %d/%d
\n
"
,
countelements
,
*
elements
);
x0
=
lcube
*
k
;
y0
=
dcube
*
j
;
z0
=
wcube
*
i
;
double
temp_coords
[
3
*
35
];
int
indexes
[
35
];
int
cpt
=
0
;
/* Base corner nodes */
nstart
=
countnodes
+
1
;
AddNode
(
temp_coords
,
&
cpt
,
x0
,
y0
,
z0
);
AddNode
(
temp_coords
,
&
cpt
,
x0
+
lcube
,
y0
,
z0
);
AddNode
(
temp_coords
,
&
cpt
,
x0
+
lcube
,
y0
+
dcube
,
z0
);
AddNode
(
temp_coords
,
&
cpt
,
x0
,
y0
+
dcube
,
z0
);
/* Top corner nodes */
AddNode
(
temp_coords
,
&
cpt
,
x0
,
y0
,
z0
+
wcube
);
AddNode
(
temp_coords
,
&
cpt
,
x0
+
lcube
,
y0
,
z0
+
wcube
);
AddNode
(
temp_coords
,
&
cpt
,
x0
+
lcube
,
y0
+
dcube
,
z0
+
wcube
);
AddNode
(
temp_coords
,
&
cpt
,
x0
,
y0
+
dcube
,
z0
+
wcube
);
/* Mid node */
n1
=
0
;
n2
=
6
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
/* Mid nodes on the faces */
n1
=
0
;
n2
=
1
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
1
;
n2
=
2
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
2
;
n2
=
3
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
0
;
n2
=
3
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
4
;
n2
=
5
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
5
;
n2
=
6
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
6
;
n2
=
7
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
7
;
n2
=
4
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
0
;
n2
=
4
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
1
;
n2
=
5
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
2
;
n2
=
6
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
3
;
n2
=
7
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
/* Mid nodes on the diagonals of the faces */
n1
=
4
;
n2
=
1
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
6
;
n2
=
1
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
7
;
n2
=
2
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
7
;
n2
=
0
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
3
;
n2
=
1
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
7
;
n2
=
5
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
/* Joining the corner nodes to the central mid node n9 */
n1
=
0
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
1
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
2
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
3
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
4
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
5
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
6
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
n1
=
7
;
n2
=
8
;
AddMedianNode
(
temp_coords
,
&
cpt
,
n1
,
n2
);
//memcpy(coordinates+(nstart-1)*3,temp_coords,3*nb_nodes*sizeof(double));
AddNodesInGlobal
(
temp_coords
,
cpt
,
&
countnodes
,
sorted_coordinates
,
sorted_indexes
,
indexes
);
// countnodes += cpt;
/* CONNECTIVITY */
n0
=
0
;
n1
=
4
;
n2
=
1
;
n3
=
8
;
n4
=
17
;
n5
=
21
;
n6
=
9
;
n7
=
27
;
n8
=
31
;
n9
=
28
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
1
;
n1
=
4
;
n2
=
5
;
n3
=
8
;
n4
=
21
;
n5
=
13
;
n6
=
18
;
n7
=
28
;
n8
=
31
;
n9
=
32
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
1
;
n1
=
5
;
n2
=
6
;
n3
=
8
;
n4
=
18
;
n5
=
14
;
n6
=
22
;
n7
=
28
;
n8
=
32
;
n9
=
33
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
1
;
n1
=
6
;
n2
=
2
;
n3
=
8
;
n4
=
22
;
n5
=
19
;
n6
=
10
;
n7
=
28
;
n8
=
33
;
n9
=
29
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
2
;
n1
=
6
;
n2
=
7
;
n3
=
8
;
n4
=
19
;
n5
=
15
;
n6
=
23
;
n7
=
29
;
n8
=
33
;
n9
=
34
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
2
;
n1
=
7
;
n2
=
3
;
n3
=
8
;
n4
=
23
;
n5
=
20
;
n6
=
11
;
n7
=
29
;
n8
=
34
;
n9
=
30
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
3
;
n1
=
7
;
n2
=
0
;
n3
=
8
;
n4
=
20
;
n5
=
24
;
n6
=
12
;
n7
=
30
;
n8
=
34
;
n9
=
27
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
7
;
n1
=
4
;
n2
=
0
;
n3
=
8
;
n4
=
16
;
n5
=
17
;
n6
=
24
;
n7
=
34
;
n8
=
31
;
n9
=
27
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
4
;
n1
=
7
;
n2
=
5
;
n3
=
8
;
n4
=
16
;
n5
=
26
;
n6
=
13
;
n7
=
31
;
n8
=
34
;
n9
=
32
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
7
;
n1
=
6
;
n2
=
5
;
n3
=
8
;
n4
=
15
;
n5
=
14
;
n6
=
26
;
n7
=
34
;
n8
=
33
;
n9
=
32
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
0
;
n1
=
1
;
n2
=
3
;
n3
=
8
;
n4
=
9
;
n5
=
25
;
n6
=
12
;
n7
=
27
;
n8
=
28
;
n9
=
30
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
n0
=
1
;
n1
=
2
;
n2
=
3
;
n3
=
8
;
n4
=
10
;
n5
=
11
;
n6
=
25
;
n7
=
28
;
n8
=
29
;
n9
=
30
;
AddElement
(
&
countelements
,
indexes
,
n0
,
n1
,
n2
,
n3
,
n4
,
n5
,
n6
,
n7
,
n8
,
n9
);
}
*
nodes
=
countnodes
;
// write_mesh_UNV("cube.unv",*nodes,*elements);
}
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