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problem_constants.f90
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problem_constants.f90
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!> \file
!> \author Chris Bradley
!> \brief This module handles all problem wide constants.
!>
!> \section LICENSE
!>
!> Version: MPL 1.1/GPL 2.0/LGPL 2.1
!>
!> The contents of this file are subject to the Mozilla Public License
!> Version 1.1 (the "License"); you may not use this file except in
!> compliance with the License. You may obtain a copy of the License at
!> http://www.mozilla.org/MPL/
!>
!> Software distributed under the License is distributed on an "AS IS"
!> basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
!> License for the specific language governing rights and limitations
!> under the License.
!>
!> The Original Code is OpenCMISS
!>
!> The Initial Developer of the Original Code is University of Auckland,
!> Auckland, New Zealand, the University of Oxford, Oxford, United
!> Kingdom and King's College, London, United Kingdom. Portions created
!> by the University of Auckland, the University of Oxford and King's
!> College, London are Copyright (C) 2007-2010 by the University of
!> Auckland, the University of Oxford and King's College, London.
!> All Rights Reserved.
!>
!> Contributor(s):
!>
!> Alternatively, the contents of this file may be used under the terms of
!> either the GNU General Public License Version 2 or later (the "GPL"), or
!> the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
!> in which case the provisions of the GPL or the LGPL are applicable instead
!> of those above. If you wish to allow use of your version of this file only
!> under the terms of either the GPL or the LGPL, and not to allow others to
!> use your version of this file under the terms of the MPL, indicate your
!> decision by deleting the provisions above and replace them with the notice
!> and other provisions required by the GPL or the LGPL. If you do not delete
!> the provisions above, a recipient may use your version of this file under
!> the terms of any one of the MPL, the GPL or the LGPL.
!>
!> This module handles all problem wide constants.
MODULE PROBLEM_CONSTANTS
USE KINDS
IMPLICIT NONE
!Module parameters
!Problem Classes
INTEGER(INTG), PARAMETER :: PROBLEM_NO_CLASS=0
INTEGER(INTG), PARAMETER :: PROBLEM_ELASTICITY_CLASS=1
INTEGER(INTG), PARAMETER :: PROBLEM_FLUID_MECHANICS_CLASS=2
INTEGER(INTG), PARAMETER :: PROBLEM_ELECTROMAGNETICS_CLASS=3
INTEGER(INTG), PARAMETER :: PROBLEM_CLASSICAL_FIELD_CLASS=4
INTEGER(INTG), PARAMETER :: PROBLEM_BIOELECTRICS_CLASS=5
INTEGER(INTG), PARAMETER :: PROBLEM_MODAL_CLASS=6
INTEGER(INTG), PARAMETER :: PROBLEM_FITTING_CLASS=7
INTEGER(INTG), PARAMETER :: PROBLEM_OPTIMISATION_CLASS=8
INTEGER(INTG), PARAMETER :: PROBLEM_MULTI_PHYSICS_CLASS=9
!Problem types
INTEGER(INTG), PARAMETER :: PROBLEM_NO_TYPE=0
!Elasticity class
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_ELASTICITY_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_ELASTICITY_CONTACT_TYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_CONTACT_TYPE=4
!Fluid mechanics class
INTEGER(INTG), PARAMETER :: PROBLEM_STOKES_EQUATION_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_NAVIER_STOKES_EQUATION_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_DARCY_EQUATION_TYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_DARCY_PRESSURE_EQUATION_TYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_POISEUILLE_EQUATION_TYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_BURGERS_EQUATION_TYPE=6
!Electromagnetics class
INTEGER(INTG), PARAMETER :: PROBLEM_ELECTROSTATIC_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_MAGNETOSTATIC_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_MAXWELLS_EQUATIONS_TYPE=3
!Classical field class
INTEGER(INTG), PARAMETER :: PROBLEM_LAPLACE_EQUATION_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_POISSON_EQUATION_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_HELMHOLTZ_EQUATION_TYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_WAVE_EQUATION_TYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_ADVECTION_EQUATION_TYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_DIFFUSION_EQUATION_TYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_ADVECTION_DIFFUSION_EQUATION_TYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_REACTION_DIFFUSION_EQUATION_TYPE=8
INTEGER(INTG), PARAMETER :: PROBLEM_BIHARMONIC_EQUATION_TYPE=9
INTEGER(INTG), PARAMETER :: PROBLEM_DATA_FITTING_TYPE=10
INTEGER(INTG), PARAMETER :: PROBLEM_FIBRE_FITTING_TYPE=11
INTEGER(INTG), PARAMETER :: PROBLEM_HJ_EQUATION_TYPE=12
!Bioelectrics class
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_EQUATION_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_BIDOMAIN_EQUATION_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_STRANG_SPLITTING_EQUATION_TYPE=3
!Modal class
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_ELASTIC_MODAL_TYPE=1
!Multi physics class
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_DARCY_TYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_STOKES_TYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_NAVIER_STOKES_TYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_DIFFUSION_DIFFUSION_TYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_DIFFUSION_ADVECTION_DIFFUSION_TYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_MULTI_COMPARTMENT_TRANSPORT_TYPE=6 !<Problem type for the multi-compartment coupled transport, comprising either/or/both advection-diffusion & diffusion
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_FLUID_PRESSURE_TYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_BIOELECTRIC_FINITE_ELASTICITY_TYPE=8
!Problem subtypes
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SUBTYPE=0
!Elasticity class
! Linear elasticity - uses PROBLEM_NO_SUBTYPE=0
! Finite elasticity
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_FINITE_ELASTICITY_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_FINITE_ELASTICITY_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_FINITE_ELASTICITY_WITH_GROWTH_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_DYNAMIC_FINITE_ELASTICITY_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_WITH_ACTIVE_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_WITH_CELLML_SUBTYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_WITH_GROWTH_CELLML_SUBTYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_MULTISCALE_FINITE_ELASTICITY_SUBTYPE=8
! Linear elasticity subject to contact constraint
INTEGER(INTG), PARAMETER :: PROBLEM_LE_CONTACT_TRANSFORM_REPROJECT_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_LE_CONTACT_TRANSFORM_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_LE_CONTACT_REPROJECT_SUBTYPE=3
! Finite elasticity subject to contact constraint
INTEGER(INTG), PARAMETER :: PROBLEM_FE_CONTACT_TRANSFORM_REPROJECT_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_FE_CONTACT_TRANSFORM_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_FE_CONTACT_REPROJECT_SUBTYPE=6
!Fluid mechanics class
! Stokes equations
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_STOKES_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_LAPLACE_STOKES_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT_STOKES_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_OPTIMISED_STOKES_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_ALE_STOKES_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_PGM_STOKES_SUBTYPE=6
! INTEGER(INTG), PARAMETER :: PROBLEM_HJ_SUBTYPE=6
! Navier-Stokes equations
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_NAVIER_STOKES_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_LAPLACE_NAVIER_STOKES_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT_NAVIER_STOKES_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT_RBS_NAVIER_STOKES_SUBTYPE=9
INTEGER(INTG), PARAMETER :: PROBLEM_MULTISCALE_NAVIER_STOKES_SUBTYPE=10
INTEGER(INTG), PARAMETER :: PROBLEM_OPTIMISED_NAVIER_STOKES_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_ALE_NAVIER_STOKES_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_PGM_NAVIER_STOKES_SUBTYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_NAVIER_STOKES_SUBTYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT1D_NAVIER_STOKES_SUBTYPE=8
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED1D0D_NAVIER_STOKES_SUBTYPE=11
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT1D_ADV_NAVIER_STOKES_SUBTYPE=13
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED1D0D_ADV_NAVIER_STOKES_SUBTYPE=14
INTEGER(INTG), PARAMETER :: PROBLEM_STREE1D0D_NAVIER_STOKES_SUBTYPE=15
INTEGER(INTG), PARAMETER :: PROBLEM_STREE1D0D_ADV_NAVIER_STOKES_SUBTYPE=16
INTEGER(INTG), PARAMETER :: PROBLEM_CONSTITUTIVE_RBS_NAVIER_STOKES_SUBTYPE=17
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED3D0D_NAVIER_STOKES_SUBTYPE=18
! Darcy equation
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_DARCY_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_DARCY_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_ALE_DARCY_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_TRANSIENT_DARCY_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_PGM_DARCY_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_PGM_TRANSIENT_DARCY_SUBTYPE=6
! Poiseuille equation
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_POISEUILLE_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_DYNAMIC_POISEUILLE_SUBTYPE=2
! Burgers equation
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_BURGERS_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_DYNAMIC_BURGERS_SUBTYPE=2
!Electromagnetics class
!Classical field class
! Laplace equation
!!TODO: We don't really have two problem types here? Maybe a different type with nonlinear boundary conditions???
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_LAPLACE_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_GENERALISED_LAPLACE_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_MOVING_MESH_LAPLACE_SUBTYPE=3
! Hamilton-Jacobi equation
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_HJ_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_GENERALISED_HJ_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_MOVING_MESH_HJ_SUBTYPE=3
! Poisson equation
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_POISSON_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_POISSON_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_PRESSURE_POISSON_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_PRESSURE_POISSON_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_ALE_PRESSURE_POISSON_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_FITTED_PRESSURE_POISSON_SUBTYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_EXTRACELLULAR_BIDOMAIN_POISSON_SUBTYPE=7
! Helmholtz equation
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_HELMHOLTZ_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_GENERALISED_HELMHOLTZ_SUBTYPE=3
! Wave equation
! Diffusion equation
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SOURCE_DIFFUSION_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_DIFFUSION_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_DIFFUSION_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SOURCE_ALE_DIFFUSION_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_ALE_DIFFUSION_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_ALE_DIFFUSION_SUBTYPE=6
! Reaction-diffusion equation
INTEGER(INTG), PARAMETER :: PROBLEM_CELLML_REAC_INTEG_REAC_DIFF_STRANG_SPLIT_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_CELLML_REAC_EVAL_REAC_DIFF_NO_SPLIT_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_CONSTANT_REAC_DIFF_NO_SPLIT_SUBTYPE=3
! Advection-diffusion equation
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SOURCE_ADVECTION_DIFFUSION_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_ADVECTION_DIFFUSION_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_ADVECTION_DIFFUSION_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SOURCE_ALE_ADVECTION_DIFFUSION_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_ALE_ADVECTION_DIFFUSION_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_ALE_ADVECTION_DIFFUSION_SUBTYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_ADVECTION_SUBTYPE=7
!Subtypes for steady-state advection-diffusion equation
INTEGER(INTG), PARAMETER :: PROBLEM_NO_SOURCE_STATIC_ADVEC_DIFF_SUBTYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_LINEAR_SOURCE_STATIC_ADVEC_DIFF_SUBTYPE=8
INTEGER(INTG), PARAMETER :: PROBLEM_NONLINEAR_SOURCE_STATIC_ADVEC_DIFF_SUBTYPE=9
!Bioelectric class
! Monodomain equation
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_GUDUNOV_SPLIT_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_STRANG_SPLIT_SUBTYPE=2
! Bidomain equation
INTEGER(INTG), PARAMETER :: PROBLEM_BIDOMAIN_GUDUNOV_SPLIT_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_BIDOMAIN_STRANG_SPLIT_SUBTYPE=2
!Monodomain Strang splitting type : specific cell models
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_BUENOOROVIO_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_TENTUSSCHER06_SUBTYPE=2
!Modal class
! Galerkin projection
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_FITTING_SUBTYPE=1
INTEGER(INTG), PARAMETER :: PROBLEM_STATIC_NONLINEAR_FITTING_SUBTYPE=2
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_DATA_FITTING_SUBTYPE=3
INTEGER(INTG), PARAMETER :: PROBLEM_GENERALISED_DATA_FITTING_SUBTYPE=4
INTEGER(INTG), PARAMETER :: PROBLEM_MAT_PROPERTIES_DATA_FITTING_SUBTYPE=5
INTEGER(INTG), PARAMETER :: PROBLEM_VECTOR_DATA_FITTING_SUBTYPE=6
INTEGER(INTG), PARAMETER :: PROBLEM_DIV_FREE_VECTOR_DATA_FITTING_SUBTYPE=7
INTEGER(INTG), PARAMETER :: PROBLEM_VECTOR_DATA_PRE_FITTING_SUBTYPE=8
INTEGER(INTG), PARAMETER :: PROBLEM_DIV_FREE_VECTOR_DATA_PRE_FITTING_SUBTYPE=9
INTEGER(INTG), PARAMETER :: PROBLEM_DATA_POINT_VECTOR_STATIC_FITTING_SUBTYPE=10
INTEGER(INTG), PARAMETER :: PROBLEM_DATA_POINT_VECTOR_QUASISTATIC_FITTING_SUBTYPE=11
! Multi physics (subtype numbers must be different from Darcy ones)
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_ELASTICITY_DARCY_SUBTYPE=101
INTEGER(INTG), PARAMETER :: PROBLEM_PGM_ELASTICITY_DARCY_SUBTYPE=102
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_ELASTICITY_TRANSIENT_DARCY_SUBTYPE=103
INTEGER(INTG), PARAMETER :: PROBLEM_QUASISTATIC_ELAST_TRANS_DARCY_MAT_SOLVE_SUBTYPE=104
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED_SOURCE_DIFFUSION_DIFFUSION_SUBTYPE=111
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED_SOURCE_ALE_DIFFUSION_DIFFUSION_SUBTYPE=112
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED_SOURCE_DIFFUSION_ADVEC_DIFFUSION_SUBTYPE=121
INTEGER(INTG), PARAMETER :: PROBLEM_COUPLED_SOURCE_ALE_DIFFUSION_ADVEC_DIFFUSION_SUBTYPE=122
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_MULTI_COMPARTMENT_TRANSPORT_SUBTYPE=131
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_ALE_MULTI_COMPARTMENT_TRANSPORT_SUBTYPE=132
INTEGER(INTG), PARAMETER :: PROBLEM_STANDARD_ELASTICITY_FLUID_PRESSURE_SUBTYPE=133
INTEGER(INTG), PARAMETER :: PROBLEM_GUDUNOV_MONODOMAIN_SIMPLE_ELASTICITY_SUBTYPE=141
INTEGER(INTG), PARAMETER :: PROBLEM_GUDUNOV_MONODOMAIN_1D3D_ELASTICITY_SUBTYPE=142
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_ELASTICITY_W_TITIN_SUBTYPE=143
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_ELASTICITY_VELOCITY_SUBTYPE=144
INTEGER(INTG), PARAMETER :: PROBLEM_MONODOMAIN_1D3D_ACTIVE_STRAIN_SUBTYPE=145
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_NAVIER_STOKES_ALE_SUBTYPE=151
INTEGER(INTG), PARAMETER :: PROBLEM_FINITE_ELASTICITY_RBS_NAVIER_STOKES_ALE_SUBTYPE=152
INTEGER(INTG), PARAMETER :: PROBLEM_GROWTH_FINITE_ELASTICITY_NAVIER_STOKES_ALE_SUBTYPE=153
INTEGER(INTG), PARAMETER :: PROBLEM_GROWTH_FINITE_ELASTICITY_RBS_NAVIER_STOKES_ALE_SUBTYPE=154
!> \addtogroup PROBLEM_CONSTANTS_SetupTypes PROBLEM_CONSTANTS::SetupTypes
!> \brief Setup type parameters
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_INITIAL_TYPE=1 !<Initial setup for a problem. \see PROBLEM_CONSTANTS_SetupTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_CONTROL_TYPE=2 !<Solver setup for a problem. \see PROBLEM_CONSTANTS_SetupTypes,PROBLEM_ROU
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_SOLVERS_TYPE=3 !<Solver setup for a problem. \see PROBLEM_CONSTANTS_SetupTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_SOLVER_EQUATIONS_TYPE=4 !<Solver equations setup for a problem. \see PROBLEM_CONSTANTS_SetupTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_CELLML_EQUATIONS_TYPE=5 !<CellML equations setup for a problem. \see PROBLEM_CONSTANTS_SetupTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_SetupActionTypes PROBLEM_CONSTANTS::SetupActionTypes
!> \brief Setup action type parameters
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_START_ACTION=1 !<Start setup action. \see PROBLEM_CONSTANTS_SetupActionTypes,CONSTANTS_ROUTINES
INTEGER(INTG), PARAMETER :: PROBLEM_SETUP_FINISH_ACTION=2 !<Finish setup action. \see PROBLEM_CONSTANTS_SetupActionTypes,CONSTANTS_ROUTINES
!>@}
!> \addtogroup PROBLEM_CONSTANTS_ControlLoopTypes PROBLEM_CONSTANTS::ControlLoopTypes
!> \brief Control loop type parameters
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: PROBLEM_CONTROL_SIMPLE_TYPE=1 !<Simple, one iteration control loop. \see PROBLEM_CONSTANTS_ControlLoopTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_CONTROL_FIXED_LOOP_TYPE=2 !<Fixed iteration control loop. \see PROBLEM_CONSTANTS_ControlLoopTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_CONTROL_TIME_LOOP_TYPE=3 !<Time control loop. \see PROBLEM_CONSTANTS_ControlLoopTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_CONTROL_WHILE_LOOP_TYPE=4 !<While control loop. \see PROBLEM_CONSTANTS_ControlLoopTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_CONTROL_LOAD_INCREMENT_LOOP_TYPE=5 !<Load increment control loop. \see PROBLEM_CONSTANTS_ControlLoopTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_LinearityTypes PROBLEM_CONSTANTS::LinearityTypes
!> \brief Setup type parameters
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: PROBLEM_SOLVER_LINEAR=1 !<Linear problem. \see PROBLEM_CONSTANTS_LinearityTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: PROBLEM_SOLVER_NONLINEAR=2 !<Nonlinear problem. \see PROBLEM_CONSTANTS_LinearityTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_EquationsLinearityTypes PROBLEM_CONSTANTS::EquationsLinearityTypes
!> \brief The solver equations linearity types
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_LINEAR=1 !<Solver equations are linear \see PROBLEM_CONSTANTS_EquationLinearityTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_NONLINEAR=2 !<Solver equations are nonlinear \see PROBLEM_CONSTANTS_EquationLinearityTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_EquationsTimeDependenceTypes PROBLEM_CONSTANTS::EquationsTimeDependenceTypes
!> \brief The solver equations time dependence types
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_STATIC=1 !<Solver equations are static \see PROBLEM_CONSTANTS_EquationTimeDependenceTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_QUASISTATIC=2 !<Solver equations are quasistatic \see PROBLEM_CONSTANTS_EquationTimeDependenceTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_FIRST_ORDER_DYNAMIC=3 !<Solver equations are first order dynamic \see PROBLEM_CONSTANTS_EquationTimeDependenceTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: SOLVER_EQUATIONS_SECOND_ORDER_DYNAMIC=4 !<Solver equations are second order dynamic \see PROBLEM_CONSTANTS_EquationTimeDependenceTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_CellMLEquationsLinearityTypes OpenCMISS::Iron::CellMLEquationsLinearityTypes
!> \brief The CellML equations linearity types
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: CELLML_EQUATIONS_LINEAR=1 !<CellML equations are linear \see PROBLEM_CONSTANTS_CellMLEquationLinearityTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: CELLML_EQUATIONS_NONLINEAR=2 !<CellML equations are nonlinear \see PROBLEM_CONSTANTS_CellMLEquationLinearityTypes,PROBLEM_CONSTANTS
!>@}
!> \addtogroup PROBLEM_CONSTANTS_CellMLEquationsTimeDependenceTypes OpenCMISS:Iron::CellMLEquationsTimeDependenceTypes
!> \brief The CellML equations time dependence types
!> \see PROBLEM_CONSTANTS
!>@{
INTEGER(INTG), PARAMETER :: CELLML_EQUATIONS_STATIC=1 !<CellML equations are static \see PROBLEM_CONSTANTS_CellMLEquationTimeDependenceTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: CELLML_EQUATIONS_QUASISTATIC=2 !<CellML equations are quasistatic \see PROBLEM_CONSTANTS_CellMLEquationTimeDependenceTypes,PROBLEM_CONSTANTS
INTEGER(INTG), PARAMETER :: CELLML_EQUATIONS_DYNAMIC=3 !<CellML equations are dynamic \see PROBLEM_CONSTANTS_CellMLEquationTimeDependenceTypes,PROBLEM_CONSTANTS
!>@}
END MODULE PROBLEM_CONSTANTS