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rAKA akantu
aka_common.hh
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/**
* Copyright (©) 2010-2023 EPFL (Ecole Polytechnique Fédérale de Lausanne)
* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
*
* This file is part of Akantu
*
* 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/>.
*/
/* -------------------------------------------------------------------------- */
#ifndef AKANTU_COMMON_HH_
#define AKANTU_COMMON_HH_
#include "aka_compatibilty_with_cpp_standard.hh"
/* -------------------------------------------------------------------------- */
#if defined(WIN32)
#define __attribute__(x)
#endif
/* -------------------------------------------------------------------------- */
#include "aka_config.hh"
#include "aka_error.hh"
#include "aka_safe_enum.hh"
/* -------------------------------------------------------------------------- */
#include <boost/preprocessor.hpp>
#include <limits>
#include <list>
#include <memory>
#include <string>
#include <type_traits>
#include <unordered_map>
/* -------------------------------------------------------------------------- */
namespace
akantu
{
/* -------------------------------------------------------------------------- */
/* Constants */
/* -------------------------------------------------------------------------- */
namespace
{
[[
gnu
::
unused
]]
constexpr
Int
_all_dimensions
{
std
::
numeric_limits
<
Int
>::
max
()};
#ifdef AKANTU_NDEBUG
[[
gnu
::
unused
]]
constexpr
Real
REAL_INIT_VALUE
{
0.
};
#else
[[
gnu
::
unused
]]
constexpr
Real
REAL_INIT_VALUE
{
std
::
numeric_limits
<
Real
>::
quiet_NaN
()};
#endif
}
// namespace
using
dim_1_t
=
std
::
integral_constant
<
Int
,
1
>
;
using
dim_2_t
=
std
::
integral_constant
<
Int
,
2
>
;
using
dim_3_t
=
std
::
integral_constant
<
Int
,
3
>
;
using
AllSpatialDimensions
=
std
::
tuple
<
dim_1_t
,
dim_2_t
,
dim_3_t
>
;
/* --------------------------------------------------------------------------
*/
/* Common types */
/* --------------------------------------------------------------------------
*/
using
ID
=
std
::
string
;
}
// namespace akantu
/* -------------------------------------------------------------------------- */
#include "aka_enum_macros.hh"
/* -------------------------------------------------------------------------- */
#include "aka_element_classes_info.hh"
/* -------------------------------------------------------------------------- */
namespace
akantu
{
/* -------------------------------------------------------------------------- */
/* Mesh/FEM/Model types */
/* -------------------------------------------------------------------------- */
/// small help to use names for directions
enum
SpatialDirection
{
_x
=
0
,
_y
=
1
,
_z
=
2
};
/// enum MeshIOType type of mesh reader/writer
enum
MeshIOType
{
_miot_auto
,
///< Auto guess of the reader to use based on the extension
_miot_gmsh
,
///< Gmsh files
_miot_gmsh_struct
,
///< Gsmh reader with reintpretation of elements has
/// structures elements
_miot_diana
,
///< TNO Diana mesh format
_miot_abaqus
///< Abaqus mesh format
};
/// enum MeshEventHandlerPriority defines relative order of execution of
/// events
enum
EventHandlerPriority
{
_ehp_highest
=
0
,
_ehp_mesh
=
5
,
_ehp_fe_engine
=
9
,
_ehp_synchronizer
=
10
,
_ehp_dof_manager
=
20
,
_ehp_model
=
94
,
_ehp_non_local_manager
=
100
,
_ehp_lowest
=
100
};
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_MODEL_TYPES \
(model) \
(solid_mechanics_model) \
(solid_mechanics_model_cohesive) \
(heat_transfer_model) \
(structural_mechanics_model) \
(embedded_model) \
(contact_mechanics_model) \
(coupler_solid_contact) \
(coupler_solid_cohesive_contact) \
(phase_field_model) \
(coupler_solid_phasefield)
// clang-format on
/// enum ModelType defines which type of physics is solved
AKANTU_CLASS_ENUM_DECLARE
(
ModelType
,
AKANTU_MODEL_TYPES
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
ModelType
,
AKANTU_MODEL_TYPES
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
ModelType
,
AKANTU_MODEL_TYPES
)
#else
enum
class
ModelType
{
model
,
solid_mechanics_model
,
solid_mechanics_model_cohesive
,
heat_transfer_model
,
structural_mechanics_model
,
embedded_model
,
};
#endif
/// enum AnalysisMethod type of solving method used to solve the equation of
/// motion
enum
AnalysisMethod
{
_static
=
0
,
_implicit_dynamic
=
1
,
_explicit_lumped_mass
=
2
,
_explicit_lumped_capacity
=
2
,
_explicit_consistent_mass
=
3
,
_explicit_contact
=
4
,
_implicit_contact
=
5
};
/// enum DOFSupportType defines which kind of dof that can exists
enum
DOFSupportType
{
_dst_nodal
,
_dst_generic
};
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_NON_LINEAR_SOLVER_TYPES \
(linear) \
(newton_raphson) \
(newton_raphson_modified) \
(lumped) \
(gmres) \
(bfgs) \
(cg) \
(newton_raphson_contact) \
(auto)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
NonLinearSolverType
,
AKANTU_NON_LINEAR_SOLVER_TYPES
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
NonLinearSolverType
,
AKANTU_NON_LINEAR_SOLVER_TYPES
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
NonLinearSolverType
,
AKANTU_NON_LINEAR_SOLVER_TYPES
)
#else
/// Type of non linear resolution available in akantu
enum
class
NonLinearSolverType
{
_linear
,
///< No non linear convergence loop
_newton_raphson
,
///< Regular Newton-Raphson
_newton_raphson_modified
,
///< Newton-Raphson with initial tangent
_lumped
,
///< Case of lumped mass or equivalent matrix
_gmres
,
_bfgs
,
_cg
,
_newton_raphson_contact
,
///< Regular Newton-Raphson modified
/// for contact problem
_auto
,
///< This will take a default value that make sense in case of
/// model::getNewSolver
};
#endif
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_TIME_STEP_SOLVER_TYPE \
(static) \
(dynamic) \
(dynamic_lumped) \
(not_defined)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
TimeStepSolverType
,
AKANTU_TIME_STEP_SOLVER_TYPE
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
TimeStepSolverType
,
AKANTU_TIME_STEP_SOLVER_TYPE
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
TimeStepSolverType
,
AKANTU_TIME_STEP_SOLVER_TYPE
)
#else
/// Type of time stepping solver
enum
class
TimeStepSolverType
{
_static
,
///< Static solution
_dynamic
,
///< Dynamic solver
_dynamic_lumped
,
///< Dynamic solver with lumped mass
_not_defined
,
///< For not defined cases
};
#endif
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_INTEGRATION_SCHEME_TYPE \
(pseudo_time) \
(forward_euler) \
(trapezoidal_rule_1) \
(backward_euler) \
(central_difference) \
(fox_goodwin) \
(trapezoidal_rule_2) \
(linear_acceleration) \
(newmark_beta) \
(generalized_trapezoidal)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
IntegrationSchemeType
,
AKANTU_INTEGRATION_SCHEME_TYPE
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
IntegrationSchemeType
,
AKANTU_INTEGRATION_SCHEME_TYPE
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
IntegrationSchemeType
,
AKANTU_INTEGRATION_SCHEME_TYPE
)
#else
/// Type of integration scheme
enum
class
IntegrationSchemeType
{
_pseudo_time
,
///< Pseudo Time
_forward_euler
,
///< GeneralizedTrapezoidal(0)
_trapezoidal_rule_1
,
///< GeneralizedTrapezoidal(1/2)
_backward_euler
,
///< GeneralizedTrapezoidal(1)
_central_difference
,
///< NewmarkBeta(0, 1/2)
_fox_goodwin
,
///< NewmarkBeta(1/6, 1/2)
_trapezoidal_rule_2
,
///< NewmarkBeta(1/2, 1/2)
_linear_acceleration
,
///< NewmarkBeta(1/3, 1/2)
_newmark_beta
,
///< generic NewmarkBeta with user defined
/// alpha and beta
_generalized_trapezoidal
///< generic GeneralizedTrapezoidal with user
/// defined alpha
};
#endif
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_SOLVE_CONVERGENCE_CRITERIA \
(residual) \
(solution) \
(residual_mass_wgh)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
SolveConvergenceCriteria
,
AKANTU_SOLVE_CONVERGENCE_CRITERIA
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
SolveConvergenceCriteria
,
AKANTU_SOLVE_CONVERGENCE_CRITERIA
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
SolveConvergenceCriteria
,
AKANTU_SOLVE_CONVERGENCE_CRITERIA
)
#else
/// enum SolveConvergenceCriteria different convergence criteria
enum
class
SolveConvergenceCriteria
{
_residual
,
///< Use residual to test the convergence
_solution
,
///< Use solution to test the convergence
_residual_mass_wgh
///< Use residual weighted by inv. nodal mass to
///< testb
};
#endif
/// enum CohesiveMethod type of insertion of cohesive elements
enum
CohesiveMethod
{
_intrinsic
,
_extrinsic
};
/// @enum MatrixType type of sparse matrix used
enum
MatrixType
{
_unsymmetric
,
_symmetric
,
_mt_not_defined
};
/// @enum Type of contact detection
enum
DetectionType
{
_explicit
,
_implicit
};
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_CONTACT_STATE \
(no_contact) \
(stick) \
(slip)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
ContactState
,
AKANTU_CONTACT_STATE
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
ContactState
,
AKANTU_CONTACT_STATE
)
AKANTU_CLASS_ENUM_INPUT_STREAM
(
ContactState
,
AKANTU_CONTACT_STATE
)
#else
/// @enum no contact or stick or slip state
enum
class
ContactState
{
_no_contact
=
0
,
_stick
=
1
,
_slip
=
2
,
};
#endif
/* -------------------------------------------------------------------------- */
/* Ghosts handling */
/* -------------------------------------------------------------------------- */
/// @enum CommunicatorType type of communication method to use
enum
CommunicatorType
{
_communicator_mpi
,
_communicator_dummy
};
#if !defined(DOXYGEN)
// clang-format off
#define AKANTU_SYNCHRONIZATION_TAG \
(whatever) \
(update) \
(ask_nodes) \
(size) \
(smm_mass) \
(smm_for_gradu) \
(smm_boundary) \
(smm_uv) \
(smm_res) \
(smm_stress) \
(smm_gradu) \
(smmc_facets) \
(smmc_facets_conn) \
(smmc_facets_stress) \
(smmc_damage) \
(giu_global_conn) \
(ce_groups) \
(ce_insertion_order) \
(gm_clusters) \
(diffusion) \
(diffusion_gradient) \
(htm_phi) \
(htm_gradient_phi) \
(pfm_damage) \
(csp_damage) \
(csp_strain) \
(mnl_for_average) \
(mnl_weight) \
(nh_criterion) \
(test) \
(user_1) \
(user_2) \
(constitutive_law_id) \
(clh_init_cl) \
(for_dump) \
(cf_nodal) \
(cf_incr) \
(solver_solution)
// clang-format on
AKANTU_CLASS_ENUM_DECLARE
(
SynchronizationTag
,
AKANTU_SYNCHRONIZATION_TAG
)
AKANTU_CLASS_ENUM_OUTPUT_STREAM
(
SynchronizationTag
,
AKANTU_SYNCHRONIZATION_TAG
)
#else
/// @enum SynchronizationTag type of synchronizations
enum
class
SynchronizationTag
{
//--- Generic tags ---
_whatever
,
_update
,
_ask_nodes
,
_size
,
//--- SolidMechanicsModel tags ---
_smm_mass
,
///< synchronization of the SolidMechanicsModel.mass
_smm_for_gradu
,
///< synchronization of the
/// SolidMechanicsModel.displacement
_smm_boundary
,
///< synchronization of the boundary, forces, velocities
/// and displacement
_smm_uv
,
///< synchronization of the nodal velocities and displacement
_smm_res
,
///< synchronization of the nodal residual
_smm_stress
,
///< synchronization of the stresses to compute the
///< internal
/// forces
_smm_gradu
,
///< synchronization of the gradu to compute the
///< strain
_smmc_facets
,
///< synchronization of facet data to setup facet synch
_smmc_facets_conn
,
///< synchronization of facet global connectivity
_smmc_facets_stress
,
///< synchronization of facets' stress to setup
///< facet
/// synch
_smmc_damage
,
///< synchronization of damage
// --- GlobalIdsUpdater tags ---
_giu_global_conn
,
///< synchronization of global connectivities
// --- CohesiveElementInserter tags ---
_ce_groups
,
///< synchronization of cohesive element insertion depending
/// on facet groups
_ce_insertion_order
,
///< synchronization of the order of insertion of
/// cohesive elements
// --- GroupManager tags ---
_gm_clusters
,
///< synchronization of clusters
// --- HeatTransfer tags ---
_htm_temperature
,
///< synchronization of the nodal temperature
_htm_gradient_temperature
,
///< synchronization of the element gradient
/// temperature
// --- PhaseFieldModel tags ---
_pfm_damage
,
///< synchronization of the nodal damage
// --- CouplerSolidPhaseField tags ---
_csp_damage
,
///< synchronization of the damage from phase
/// model to solid model
_csp_strain
,
///< synchronization of the strain from solid
/// model to phase model
// --- LevelSet tags ---
_htm_phi
,
///< synchronization of the nodal level set value phi
_htm_gradient_phi
,
///< synchronization of the element gradient phi
//--- Material non local ---
_mnl_for_average
,
///< synchronization of data to average in non local
/// material
_mnl_weight
,
///< synchronization of data for the weight computations
// --- NeighborhoodSynchronization tags ---
_nh_criterion
,
// --- General tags ---
_test
,
///< Test tag
_user_1
,
///< tag for user simulations
_user_2
,
///< tag for user simulations
_constitutive_law_id
,
///< synchronization of the material ids
_clh_init_cl
,
///< synchronization of the data to initialize materials
_for_dump
,
///< everything that needs to be synch before dump
// --- Contact & Friction ---
_cf_nodal
,
///< synchronization of disp, velo, and current position
_cf_incr
,
///< synchronization of increment
// --- Solver tags ---
_solver_solution
///< synchronization of the solution obained with the
/// PETSc solver
};
#endif
/// @enum GhostType type of ghost
enum
GhostType
{
_not_ghost
=
0
,
_ghost
=
1
,
_casper
// not used but a real cute ghost
};
/// Define the flag that can be set to a node
enum
class
NodeFlag
:
std
::
uint8_t
{
_normal
=
0x00
,
_distributed
=
0x01
,
_master
=
0x03
,
_slave
=
0x05
,
_pure_ghost
=
0x09
,
_shared_mask
=
0x0F
,
_periodic
=
0x10
,
_periodic_master
=
0x30
,
_periodic_slave
=
0x50
,
_periodic_mask
=
0xF0
,
_local_master_mask
=
0xCC
,
// ~(_master & _periodic_mask)
};
inline
NodeFlag
operator
&
(
const
NodeFlag
&
a
,
const
NodeFlag
&
b
)
{
using
under
=
std
::
underlying_type_t
<
NodeFlag
>
;
return
NodeFlag
(
under
(
a
)
&
under
(
b
));
}
inline
NodeFlag
operator
|
(
const
NodeFlag
&
a
,
const
NodeFlag
&
b
)
{
using
under
=
std
::
underlying_type_t
<
NodeFlag
>
;
return
NodeFlag
(
under
(
a
)
|
under
(
b
));
}
inline
NodeFlag
&
operator
|=
(
NodeFlag
&
a
,
const
NodeFlag
&
b
)
{
a
=
a
|
b
;
return
a
;
}
inline
NodeFlag
&
operator
&=
(
NodeFlag
&
a
,
const
NodeFlag
&
b
)
{
a
=
a
&
b
;
return
a
;
}
inline
NodeFlag
operator
~
(
const
NodeFlag
&
a
)
{
using
under
=
std
::
underlying_type_t
<
NodeFlag
>
;
return
NodeFlag
(
~
under
(
a
));
}
std
::
ostream
&
operator
<<
(
std
::
ostream
&
stream
,
NodeFlag
flag
);
}
// namespace akantu
AKANTU_ENUM_HASH
(
GhostType
)
namespace
akantu
{
/* -------------------------------------------------------------------------- */
struct
GhostType_def
{
using
type
=
GhostType
;
static
const
type
_begin_
=
_not_ghost
;
static
const
type
_end_
=
_casper
;
};
using
ghost_type_t
=
safe_enum
<
GhostType_def
>
;
namespace
{
constexpr
ghost_type_t
ghost_types
{
_casper
};
}
/// standard output stream operator for GhostType
// inline std::ostream & operator<<(std::ostream & stream, GhostType type);
/* -------------------------------------------------------------------------- */
/* Global defines */
/* -------------------------------------------------------------------------- */
#define AKANTU_MIN_ALLOCATION 2000
#define AKANTU_INDENT ' '
#define AKANTU_INCLUDE_INLINE_IMPL
/* -------------------------------------------------------------------------- */
#define AKANTU_SET_MACRO(name, variable, type) \
inline void set##name(type variable) { this->variable = variable; }
#define AKANTU_GET_MACRO(name, variable, type) \
[[nodiscard]] inline auto get##name() const -> type { return variable; }
#define AKANTU_GET_MACRO_AUTO(name, variable) \
[[nodiscard]] inline decltype(auto) get##name() const { return (variable); }
#define AKANTU_GET_MACRO_AUTO_NOT_CONST(name, variable) \
inline decltype(auto) get##name() { return (variable); }
#define AKANTU_GET_MACRO_NOT_CONST(name, variable, type) \
[[nodiscard]] inline auto get##name() -> type { return variable; }
#define AKANTU_GET_MACRO_DEREF_PTR(name, ptr) \
[[nodiscard]] inline const auto & get##name() const { \
if (not(ptr)) { \
AKANTU_EXCEPTION("The member " << #ptr << " is not initialized"); \
} \
return (*(ptr)); \
}
#define AKANTU_GET_MACRO_DEREF_PTR_NOT_CONST(name, ptr) \
[[nodiscard]] inline decltype(auto) get##name() { \
if (not(ptr)) { \
AKANTU_EXCEPTION("The member " << #ptr << " is not initialized"); \
} \
return (*(ptr)); \
}
#define AKANTU_GET_MACRO_BY_SUPPORT_TYPE(name, variable, type, support, con) \
[[nodiscard]] inline auto get##name(const support & el_type, \
GhostType ghost_type = _not_ghost) \
con->con Array<type> & { \
return variable(el_type, ghost_type); \
}
// NOLINT
#define AKANTU_GET_MACRO_BY_ELEMENT_TYPE(name, variable, type) \
AKANTU_GET_MACRO_BY_SUPPORT_TYPE(name, variable, type, ElementType, )
#define AKANTU_GET_MACRO_BY_ELEMENT_TYPE_CONST(name, variable, type) \
AKANTU_GET_MACRO_BY_SUPPORT_TYPE(name, variable, type, ElementType, const)
#define AKANTU_GET_MACRO_BY_GEOMETRIE_TYPE(name, variable, type) \
AKANTU_GET_MACRO_BY_SUPPORT_TYPE(name, variable, type, GeometricalType, )
#define AKANTU_GET_MACRO_BY_GEOMETRIE_TYPE_CONST(name, variable, type) \
AKANTU_GET_MACRO_BY_SUPPORT_TYPE(name, variable, type, GeometricalType, const)
/* -------------------------------------------------------------------------- */
/// initialize the static part of akantu
void
initialize
(
int
&
argc
,
char
**&
argv
);
/// initialize the static part of akantu and read the global input_file
void
initialize
(
const
std
::
string
&
input_file
,
int
&
argc
,
char
**&
argv
);
/* -------------------------------------------------------------------------- */
/// finilize correctly akantu and clean the memory
void
finalize
();
/* -------------------------------------------------------------------------- */
/// Read an new input file
void
readInputFile
(
const
std
::
string
&
input_file
);
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
/* string manipulation */
/* -------------------------------------------------------------------------- */
[[
nodiscard
]]
inline
auto
to_lower
(
const
std
::
string
&
str
)
->
std
::
string
;
/* -------------------------------------------------------------------------- */
[[
nodiscard
]]
inline
auto
trim
(
const
std
::
string
&
to_trim
)
->
std
::
string
;
[[
nodiscard
]]
inline
auto
trim
(
const
std
::
string
&
to_trim
,
char
c
)
->
std
::
string
;
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
/// give a string representation of the a human readable size in bit
template
<
typename
T
>
auto
printMemorySize
(
UInt
size
)
->
std
::
string
;
/* -------------------------------------------------------------------------- */
}
// namespace akantu
/* -------------------------------------------------------------------------- */
/* Type traits */
/* -------------------------------------------------------------------------- */
namespace
aka
{
/* ------------------------------------------------------------------------ */
template
<
typename
T
>
using
is_scalar
=
std
::
is_arithmetic
<
T
>
;
/* ------------------------------------------------------------------------ */
template
<
typename
R
,
typename
T
,
std
::
enable_if_t
<
std
::
is_reference_v
<
T
>>
*
=
nullptr
>
[[
nodiscard
]]
auto
is_of_type
(
T
&&
t
)
->
bool
{
// NOLINT(cppcoreguidelines-missing-std-forward)
return
(
dynamic_cast
<
std
::
add_pointer_t
<
std
::
conditional_t
<
std
::
is_const_v
<
std
::
remove_reference_t
<
T
>>
,
std
::
add_const_t
<
R
>
,
R
>>>
(
&
t
)
!=
nullptr
);
}
/* -------------------------------------------------------------------------- */
template
<
typename
R
,
typename
T
>
[[
nodiscard
]]
auto
is_of_type
(
std
::
unique_ptr
<
T
>
&
t
)
->
bool
{
return
(
dynamic_cast
<
std
::
add_pointer_t
<
std
::
conditional_t
<
std
::
is_const_v
<
T
>
,
std
::
add_const_t
<
R
>
,
R
>>>
(
t
.
get
())
!=
nullptr
);
}
/* -------------------------------------------------------------------------- */
template
<
typename
R
,
typename
T
>
[[
nodiscard
]]
decltype
(
auto
)
as_type
(
const
std
::
shared_ptr
<
T
>
&
t
)
{
return
std
::
dynamic_pointer_cast
<
R
>
(
t
);
}
/* ------------------------------------------------------------------------ */
template
<
typename
R
,
typename
T
,
std
::
enable_if_t
<
std
::
is_reference_v
<
T
>>
*
=
nullptr
>
[[
nodiscard
]]
decltype
(
auto
)
as_type
(
T
&&
t
)
{
// NOLINT(cppcoreguidelines-missing-std-forward)
static_assert
(
disjunction
<
std
::
is_base_of
<
std
::
decay_t
<
T
>
,
std
::
decay_t
<
R
>>
,
// down-cast
std
::
is_base_of
<
std
::
decay_t
<
R
>
,
std
::
decay_t
<
T
>>
// up-cast
>::
value
,
"Type T and R are not valid for a as_type conversion"
);
return
dynamic_cast
<
std
::
add_lvalue_reference_t
<
std
::
conditional_t
<
std
::
is_const
<
std
::
remove_reference_t
<
T
>>::
value
,
std
::
add_const_t
<
R
>
,
R
>>>
(
t
);
}
/* -------------------------------------------------------------------------- */
template
<
typename
R
,
typename
T
,
std
::
enable_if_t
<
std
::
is_pointer
<
T
>::
value
>
*
=
nullptr
>
[[
nodiscard
]]
decltype
(
auto
)
as_type
(
T
&&
t
)
{
// NOLINT(cppcoreguidelines-missing-std-forward)
return
&
as_type
<
R
>
(
*
t
);
}
template
<
class
T
>
inline
constexpr
auto
decay_v
=
std
::
decay_t
<
T
>::
value
;
}
// namespace aka
#include "aka_common_inline_impl.hh"
#include "aka_fwd.hh"
namespace
akantu
{
/// get access to the internal argument parser
[[
nodiscard
]]
cppargparse
::
ArgumentParser
&
getStaticArgumentParser
();
/// get access to the internal input file parser
[[
nodiscard
]]
Parser
&
getStaticParser
();
/// get access to the user part of the internal input file parser
[[
nodiscard
]]
const
ParserSection
&
getUserParser
();
#define AKANTU_CURRENT_FUNCTION \
(std::string(__func__) + "():" + std::to_string(__LINE__))
}
// namespace akantu
/* -------------------------------------------------------------------------- */
#if AKANTU_INTEGER_SIZE == 4
#define AKANTU_HASH_COMBINE_MAGIC_NUMBER 0x9e3779b9
#elif AKANTU_INTEGER_SIZE == 8
#define AKANTU_HASH_COMBINE_MAGIC_NUMBER 0x9e3779b97f4a7c13LL
#endif
namespace
std
{
/**
* Hashing function for pairs based on hash_combine from boost The magic
* number is coming from the golden number @f[\phi = \frac{1 + \sqrt5}{2}@f]
* @f[\frac{2^32}{\phi} = 0x9e3779b9@f]
* http://stackoverflow.com/questions/4948780/magic-number-in-boosthash-combine
* http://burtleburtle.net/bob/hash/doobs.html
*/
template
<
typename
a
,
typename
b
>
struct
hash
<
std
::
pair
<
a
,
b
>>
{
hash
()
=
default
;
auto
operator
()(
const
std
::
pair
<
a
,
b
>
&
p
)
const
->
std
::
size_t
{
size_t
seed
=
ah
(
p
.
first
);
// NOLINTNEXTLINE(cppcoreguidelines-avoid-magic-numbers)
return
bh
(
p
.
second
)
+
AKANTU_HASH_COMBINE_MAGIC_NUMBER
+
(
seed
<<
6
)
+
(
seed
>>
2
);
}
private
:
const
hash
<
a
>
ah
{};
const
hash
<
b
>
bh
{};
};
}
// namespace std
#endif
// AKANTU_COMMON_HH_
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