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test_detection_fixture.hh
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rAKA akantu
test_detection_fixture.hh
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/**
* @file test_detection_fixture.hh
*
* @author Mohit Pundir <mohit.pundir@epfl.ch>
*
* @date creation: Sat Feb 29 2020
* @date last modification: Sat Feb 29 2020
*
* @brief Contact detection test fixture
*
* @section LICENSE
*
* Copyright (©) 2016-2018 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 "contact_mechanics_mdoel.hh"
#include "solid_mechanics_model.hh"
#include "test_gtest_utils.hh"
/* -------------------------------------------------------------------------- */
#include <gtest/gtest.h>
#include <vector>
/* -------------------------------------------------------------------------- */
#ifndef __AKANTU_TEST_DETECTION_FIXTURE_HH__
#define __AKANTU_TEST_DETECTION_FIXTURE_HH__
using
namespace
akantu
;
template
<::
akantu
::
AnalysisMethod
t
>
using
analysis_method_t
std
::
integral_constant
<::
akantu
::
AnalysisMethod
,
t
>
;
class
StrainIncrement
:
public
BC
::
Functor
{
public
:
StrainIncrement
(
const
Matrix
<
Real
>
&
strain
,
BC
::
Axis
dir
)
:
strain_inc
(
strain
),
dir
(
dir
)
{}
void
operator
()(
UInt
/*node*/
,
Vector
<
bool
>
&
flags
,
Vector
<
Real
>
&
primal
,
const
Vector
<
Real
>
&
coord
)
const
{
if
(
std
::
abs
(
coord
(
dir
))
<
1e-8
)
{
return
;
}
flags
.
set
(
true
);
primal
+=
strain_inc
*
coord
;
}
static
const
BC
::
Functor
::
Type
type
=
BC
::
Functor
::
_dirichlet
;
private
:
Matrix
<
Real
>
strain_inc
;
BC
::
Axis
dir
;
};
template
<
typename
param_
>
class
TestCMMDFixture
:
public
::
testing
::
Test
{
public
:
static
constexpr
ElementType
type_1
=
std
::
tuple_element_t
<
1
,
param_
>::
value
;
static
constexpr
ElementType
type_2
=
std
::
tuple_element_t
<
2
,
param_
>::
value
;
void
Setup
()
override
{
mesh
=
std
::
make_unique
<
Mesh
>
(
this
->
dim
);
if
(
Communicator
::
getStaticCommunicator
().
whoAmI
()
==
0
)
{
ASSERT_NO_THROW
({
mesh
->
read
(
this
->
mesh_name
);
});
}
mesh
->
distribute
();
}
void
TearDown
()
override
{
solid
.
reset
(
nullptr
);
contact
.
reset
(
nullptr
);
mesh
.
reset
(
nullptr
);
}
void
createModel
()
{
solid
=
std
::
make_unique
<
SolidmechanicsModel
>
(
*
mesh
);
solid
->
initFull
(
_analysis_method
=
this
->
analysis_method
);
contact
=
std
::
make_unique
<
ContactMechanicsModel
>
(
*
mesh
);
contact
->
initFull
(
_analysis_method
=
this
->
detection_type
);
auto
&&
surface_selector
=
std
::
make_shared
<
PhysicalSurfaceSelector
>
(
*
mesh
);
contact
->
getContactDetector
().
setSurfaceSelector
(
surface_selector
);
}
void
setInitialCondition
(
const
Matrix
<
Real
>
&
strain
)
{
for
(
auto
&&
data
:
zip
(
make_view
(
this
->
mesh
->
getNodes
(),
this
->
dim
),
make_view
(
this
->
solid
->
getDisplacement
(),
this
->
dim
)))
{
const
auto
&
pos
=
std
::
get
<
0
>
(
data
);
auto
&
disp
=
std
::
get
<
1
>
(
data
);
disp
=
strain
*
pos
;
}
}
void
steps
(
const
Matrix
<
Real
>
&
strain
)
{
StrainIncrement
functor
((
1.
/
300
)
*
strain
,
this
->
dim
==
1
?
_x
:
_y
);
for
(
auto
_
[[
gnu
::
unused
]]
:
arange
(
nb_steps
))
{
this
->
solid
->
applyBC
(
functor
,
"loading"
);
this
->
solid
->
applyBC
(
functor
,
"fixed"
);
this
->
solid
->
solveStep
();
}
}
void
testImplicit
()
{
this
->
createModel
();
auto
&
mat_el
=
this
->
solid
->
getMaterial
(
"body"
);
SCOPED_TRACE
(
std
::
to_string
(
this
->
dim
)
+
"D - "
+
std
::
to_string
(
type_1
)
+
":"
+
std
::
to_string
(
type_2
));
if
(
this
->
dim
>
1
)
this
->
model
->
applyBC
(
BC
::
Dirichlet
::
FlagOnly
(
_y
),
"sides"
);
if
(
this
->
dim
>
2
)
this
->
model
->
applyBC
(
BC
::
Dirichlet
::
FlagOnly
(
_z
),
"sides"
);
Real
E
=
mat_el
.
get
(
"E"
);
Real
nu
=
mat_el
.
get
(
"nu"
);
Matrix
<
Real
>
strain
;
if
(
dim
==
1
)
{
strain
=
{{
1.
}};
}
else
if
(
dim
==
2
)
{
strain
=
{{
-
nu
,
0.
},
{
0.
,
1.
-
nu
}};
strain
*=
(
1.
+
nu
);
}
else
if
(
dim
==
3
)
{
strain
=
{{
-
nu
,
0.
,
0.
},
{
0.
,
1.
,
0.
},
{
0.
,
0.
,
-
nu
}};
}
this
->
setInitialCondition
((
1
-
1e-5
)
*
strain
);
this
->
steps
(
1e-2
*
strain
);
this
->
contact
->
search
();
}
void
testExplicit
()
{
this
->
createModel
();
auto
&
mat_el
=
this
->
solid
->
getMaterial
(
"body"
);
SCOPED_TRACE
(
std
::
to_string
(
this
->
dim
)
+
"D - "
+
std
::
to_string
(
type_1
)
+
":"
+
std
::
to_string
(
type_2
));
if
(
this
->
dim
>
1
)
this
->
model
->
applyBC
(
BC
::
Dirichlet
::
FlagOnly
(
_y
),
"sides"
);
if
(
this
->
dim
>
2
)
this
->
model
->
applyBC
(
BC
::
Dirichlet
::
FlagOnly
(
_z
),
"sides"
);
Real
E
=
mat_el
.
get
(
"E"
);
Real
nu
=
mat_el
.
get
(
"nu"
);
Matrix
<
Real
>
strain
;
if
(
dim
==
1
)
{
strain
=
{{
-
1.
}};
}
else
if
(
dim
==
2
)
{
strain
=
{{
-
nu
,
0.
},
{
0.
,
1.
-
nu
}};
strain
*=
(
1.
+
nu
);
}
else
if
(
dim
==
3
)
{
strain
=
{{
-
nu
,
0.
,
0.
},
{
0.
,
1.
,
0.
},
{
0.
,
0.
,
-
nu
}};
}
this
->
setInitialCondition
((
1
-
1e-5
)
*
strain
);
this
->
steps
(
1e-2
*
strain
);
this
->
contact
->
search
();
}
bool
checkGap
()
{
}
bool
checkNormal
()
{
}
bool
checkCovariantBasis
()
{
}
protected
:
std
::
unique_ptr
<
Mesh
>
mesh
;
std
::
unique_ptr
<
SolidMechanicsModel
>
solid
;
std
::
unique_ptr
<
ContactMechanicsModel
>
contact
;
std
::
string
mesh_name
{
std
::
to_string
(
detection_type
)
+
std
::
to_string
(
type_1
)
+
(
type_1
==
type_2
?
""
:
std
::
to_string
(
type_2
))
+
".msh"
};
AnalysisMethod
analysis_method
;
DetectionType
detection_type
;
};
/* -------------------------------------------------------------------------- */
using
element_types
=
gtest_list_t
<
std
::
tuple
<
std
::
tuple
<
_element_type_segment_2
,
_element_type_segement_2
>
,
std
::
tuple
<
_element_type_triangle_3
,
_element_type_triangle_3
>
,
std
::
tuple
<
_element_type_triangle_3
,
_element_type_quadrangle_4
>
,
std
::
tuple
<
_element_type_quadrangle_4
,
_element_type_quadrange_4
>
,
std
::
tuple
<
_element_type_tetrahedron_6
,
_element_type_tetrahedron_6
>
>>
;
TYPED_TEST_SUITE
(
TestCMMDFixture
,
detection_types
)
#endif
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