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py_aka_common.cc
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Fri, Jul 5, 00:56
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rAKA akantu
py_aka_common.cc
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/* -------------------------------------------------------------------------- */
#include "aka_common.hh"
/* -------------------------------------------------------------------------- */
#include <pybind11/operators.h>
#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
/* -------------------------------------------------------------------------- */
#include "integration_point.hh"
#include "mesh.hh"
#include "parameter_registry.hh"
#include "parser.hh"
/* -------------------------------------------------------------------------- */
namespace
py
=
pybind11
;
namespace
akantu
{
/* -------------------------------------------------------------------------- */
__attribute__
((
visibility
(
"default"
)))
void
register_enums
(
py
::
module
&
mod
)
{
py
::
enum_
<
SpatialDirection
>
(
mod
,
"SpatialDirection"
)
.
value
(
"_x"
,
_x
)
.
value
(
"_y"
,
_y
)
.
value
(
"_z"
,
_z
)
.
export_values
();
py
::
enum_
<
AnalysisMethod
>
(
mod
,
"AnalysisMethod"
)
.
value
(
"_static"
,
_static
)
.
value
(
"_implicit_dynamic"
,
_implicit_dynamic
)
.
value
(
"_explicit_lumped_mass"
,
_explicit_lumped_mass
)
.
value
(
"_explicit_lumped_capacity"
,
_explicit_lumped_capacity
)
.
value
(
"_explicit_consistent_mass"
,
_explicit_consistent_mass
)
.
export_values
();
py
::
enum_
<
NonLinearSolverType
>
(
mod
,
"NonLinearSolverType"
)
.
value
(
"_nls_linear"
,
_nls_linear
)
.
value
(
"_nls_newton_raphson"
,
_nls_newton_raphson
)
.
value
(
"_nls_newton_raphson_modified"
,
_nls_newton_raphson_modified
)
.
value
(
"_nls_lumped"
,
_nls_lumped
)
.
value
(
"_nls_auto"
,
_nls_auto
)
.
export_values
();
py
::
enum_
<
TimeStepSolverType
>
(
mod
,
"TimeStepSolverType"
)
.
value
(
"_tsst_static"
,
_tsst_static
)
.
value
(
"_tsst_dynamic"
,
_tsst_dynamic
)
.
value
(
"_tsst_dynamic_lumped"
,
_tsst_dynamic_lumped
)
.
value
(
"_tsst_not_defined"
,
_tsst_not_defined
)
.
export_values
();
py
::
enum_
<
IntegrationSchemeType
>
(
mod
,
"IntegrationSchemeType"
)
.
value
(
"_ist_pseudo_time"
,
_ist_pseudo_time
)
.
value
(
"_ist_forward_euler"
,
_ist_forward_euler
)
.
value
(
"_ist_trapezoidal_rule_1"
,
_ist_trapezoidal_rule_1
)
.
value
(
"_ist_backward_euler"
,
_ist_backward_euler
)
.
value
(
"_ist_central_difference"
,
_ist_central_difference
)
.
value
(
"_ist_fox_goodwin"
,
_ist_fox_goodwin
)
.
value
(
"_ist_trapezoidal_rule_2"
,
_ist_trapezoidal_rule_2
)
.
value
(
"_ist_linear_acceleration"
,
_ist_linear_acceleration
)
.
value
(
"_ist_newmark_beta"
,
_ist_newmark_beta
)
.
value
(
"_ist_generalized_trapezoidal"
,
_ist_generalized_trapezoidal
)
.
export_values
();
py
::
enum_
<
SolveConvergenceCriteria
>
(
mod
,
"SolveConvergenceCriteria"
)
.
value
(
"_scc_residual"
,
_scc_residual
)
.
value
(
"_scc_solution"
,
_scc_solution
)
.
value
(
"_scc_residual_mass_wgh"
,
_scc_residual_mass_wgh
)
.
export_values
();
py
::
enum_
<
CohesiveMethod
>
(
mod
,
"CohesiveMethod"
)
.
value
(
"_intrinsic"
,
_intrinsic
)
.
value
(
"_extrinsic"
,
_extrinsic
)
.
export_values
();
py
::
enum_
<
GhostType
>
(
mod
,
"GhostType"
)
.
value
(
"_not_ghost"
,
_not_ghost
)
.
value
(
"_ghost"
,
_ghost
)
.
value
(
"_casper"
,
_casper
)
.
export_values
();
py
::
enum_
<
MeshIOType
>
(
mod
,
"MeshIOType"
)
.
value
(
"_miot_auto"
,
_miot_auto
)
.
value
(
"_miot_gmsh"
,
_miot_gmsh
)
.
value
(
"_miot_gmsh_struct"
,
_miot_gmsh_struct
)
.
value
(
"_miot_diana"
,
_miot_diana
)
.
value
(
"_miot_abaqus"
,
_miot_abaqus
)
.
export_values
();
py
::
enum_
<
ParameterAccessType
>
(
mod
,
"ParameterAccessType"
,
py
::
arithmetic
())
.
value
(
"_pat_internal"
,
_pat_internal
)
.
value
(
"_pat_writable"
,
_pat_writable
)
.
value
(
"_pat_readable"
,
_pat_readable
)
.
value
(
"_pat_modifiable"
,
_pat_modifiable
)
.
value
(
"_pat_parsable"
,
_pat_parsable
)
.
value
(
"_pat_parsmod"
,
_pat_parsmod
)
.
export_values
();
py
::
enum_
<
ModelType
>
(
mod
,
"ModelType"
)
.
value
(
"_model"
,
ModelType
::
_model
)
.
value
(
"_solid_mechanics_model"
,
ModelType
::
_solid_mechanics_model
)
.
value
(
"_solid_mechanics_model_cohesive"
,
ModelType
::
_solid_mechanics_model_cohesive
)
.
value
(
"_heat_transfer_model"
,
ModelType
::
_heat_transfer_model
)
.
value
(
"_structural_mechanics_model"
,
ModelType
::
_structural_mechanics_model
)
.
value
(
"_embedded_model"
,
ModelType
::
_embedded_model
)
.
export_values
();
py
::
enum_
<
ElementType
>
(
mod
,
"ElementType"
)
.
value
(
"_point_1"
,
_point_1
)
.
value
(
"_segment_2"
,
_segment_2
)
.
value
(
"_segment_3"
,
_segment_3
)
.
value
(
"_triangle_3"
,
_triangle_3
)
.
value
(
"_triangle_6"
,
_triangle_6
)
.
value
(
"_quadrangle_4"
,
_quadrangle_4
)
.
value
(
"_quadrangle_8"
,
_quadrangle_8
)
.
value
(
"_tetrahedron_4"
,
_tetrahedron_4
)
.
value
(
"_tetrahedron_10"
,
_tetrahedron_10
)
.
value
(
"_pentahedron_6"
,
_pentahedron_6
)
.
value
(
"_pentahedron_15"
,
_pentahedron_15
)
.
value
(
"_hexahedron_8"
,
_hexahedron_8
)
.
value
(
"_hexahedron_20"
,
_hexahedron_20
)
.
export_values
();
mod
.
def
(
"parseInput"
,
[](
const
std
::
string
&
input_file
)
{
getStaticParser
().
parse
(
input_file
);
},
"Parse an Akantu input file"
);
py
::
class_
<
IntegrationPoint
>
(
mod
,
"IntegrationPoint"
);
}
}
// namespace akantu
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