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test_model_solver_dynamic.cc
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rAKA akantu
test_model_solver_dynamic.cc
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/**
* @file test_dof_manager_default.cc
*
* @author Nicolas Richart <nicolas.richart@epfl.ch>
*
* @date Wed Feb 24 12:28:44 2016
*
* @brief Test default dof manager
*
* @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 "data_accessor.hh"
#include "dof_manager.hh"
#include "dof_manager_default.hh"
#include "element_synchronizer.hh"
#include "mesh.hh"
#include "mesh_accessor.hh"
#include "model_solver.hh"
#include "non_linear_solver.hh"
#include "sparse_matrix.hh"
#include "static_communicator.hh"
#include "synchronizer_registry.hh"
/* -------------------------------------------------------------------------- */
#include "test_model_solver_my_model.hh"
/* -------------------------------------------------------------------------- */
#include <fstream>
/* -------------------------------------------------------------------------- */
#ifndef EXPLICIT
#define EXPLICIT true
#endif
using
namespace
akantu
;
static
void
genMesh
(
Mesh
&
mesh
,
UInt
nb_nodes
);
/* -------------------------------------------------------------------------- */
int
main
(
int
argc
,
char
*
argv
[])
{
initialize
(
argc
,
argv
);
UInt
prank
=
StaticCommunicator
::
getStaticCommunicator
().
whoAmI
();
UInt
global_nb_nodes
=
21
;
UInt
max_steps
=
200
;
Real
time_step
=
0.001
;
Mesh
mesh
(
1
);
Real
F
=
-
9.81
;
bool
_explicit
=
EXPLICIT
;
if
(
prank
==
0
)
genMesh
(
mesh
,
global_nb_nodes
);
mesh
.
distribute
();
MyModel
model
(
F
,
mesh
,
_explicit
);
if
(
!
_explicit
)
{
model
.
getNewSolver
(
"dynamic"
,
_tsst_dynamic
,
_nls_newton_raphson
);
model
.
setIntegrationScheme
(
"dynamic"
,
"disp"
,
_ist_trapezoidal_rule_2
,
IntegrationScheme
::
_displacement
);
}
else
{
model
.
getNewSolver
(
"dynamic"
,
_tsst_dynamic_lumped
,
_nls_lumped
);
model
.
setIntegrationScheme
(
"dynamic"
,
"disp"
,
_ist_central_difference
,
IntegrationScheme
::
_acceleration
);
}
model
.
setTimeStep
(
time_step
);
// #if EXPLICIT == true
// std::ofstream output("output_dynamic_explicit.csv");
// #else
// std::ofstream output("output_dynamic_implicit.csv");
// #endif
if
(
prank
==
0
)
{
std
::
cout
<<
std
::
scientific
;
std
::
cout
<<
std
::
setw
(
14
)
<<
"time"
<<
","
<<
std
::
setw
(
14
)
<<
"wext"
<<
","
<<
std
::
setw
(
14
)
<<
"epot"
<<
","
<<
std
::
setw
(
14
)
<<
"ekin"
<<
","
<<
std
::
setw
(
14
)
<<
"total"
<<
std
::
endl
;
}
Real
wext
=
0.
;
model
.
getDOFManager
().
clearResidual
();
model
.
assembleResidual
();
Real
epot
=
model
.
getPotentialEnergy
();
Real
ekin
=
model
.
getKineticEnergy
();
Real
einit
=
ekin
+
epot
;
Real
etot
=
ekin
+
epot
-
wext
-
einit
;
if
(
prank
==
0
)
{
std
::
cout
<<
std
::
setw
(
14
)
<<
0.
<<
","
<<
std
::
setw
(
14
)
<<
wext
<<
","
<<
std
::
setw
(
14
)
<<
epot
<<
","
<<
std
::
setw
(
14
)
<<
ekin
<<
","
<<
std
::
setw
(
14
)
<<
etot
<<
std
::
endl
;
}
#if EXPLICIT == false
NonLinearSolver
&
solver
=
model
.
getDOFManager
().
getNonLinearSolver
(
"dynamic"
);
solver
.
set
(
"max_iterations"
,
2
);
#endif
for
(
UInt
i
=
1
;
i
<
max_steps
+
1
;
++
i
)
{
model
.
solveStep
();
#if EXPLICIT == false
int
nb_iter
=
solver
.
get
(
"nb_iterations"
);
Real
error
=
solver
.
get
(
"error"
);
bool
converged
=
solver
.
get
(
"converged"
);
if
(
prank
==
0
)
std
::
cerr
<<
error
<<
" "
<<
nb_iter
<<
" -> "
<<
converged
<<
std
::
endl
;
#endif
epot
=
model
.
getPotentialEnergy
();
ekin
=
model
.
getKineticEnergy
();
wext
+=
model
.
getExternalWorkIncrement
();
etot
=
ekin
+
epot
-
wext
-
einit
;
if
(
prank
==
0
)
{
std
::
cout
<<
std
::
setw
(
14
)
<<
time_step
*
i
<<
","
<<
std
::
setw
(
14
)
<<
wext
<<
","
<<
std
::
setw
(
14
)
<<
epot
<<
","
<<
std
::
setw
(
14
)
<<
ekin
<<
","
<<
std
::
setw
(
14
)
<<
etot
<<
std
::
endl
;
}
if
(
std
::
abs
(
etot
)
>
1e1
)
{
AKANTU_DEBUG_ERROR
(
"The total energy of the system is not conserved!"
);
}
}
// output.close();
finalize
();
return
EXIT_SUCCESS
;
}
/* -------------------------------------------------------------------------- */
void
genMesh
(
Mesh
&
mesh
,
UInt
nb_nodes
)
{
MeshAccessor
mesh_accessor
(
mesh
);
Array
<
Real
>
&
nodes
=
mesh_accessor
.
getNodes
();
Array
<
UInt
>
&
conn
=
mesh_accessor
.
getConnectivity
(
_segment_2
);
nodes
.
resize
(
nb_nodes
);
for
(
UInt
n
=
0
;
n
<
nb_nodes
;
++
n
)
{
nodes
(
n
,
_x
)
=
n
*
(
1.
/
(
nb_nodes
-
1
));
}
conn
.
resize
(
nb_nodes
-
1
);
for
(
UInt
n
=
0
;
n
<
nb_nodes
-
1
;
++
n
)
{
conn
(
n
,
0
)
=
n
;
conn
(
n
,
1
)
=
n
+
1
;
}
}
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