/MultiPhysics/Poroelasticity/FiniteElasticityDarcy/IncompressibleElasticityDrivenDarcyIO/src/IncompressibleElasticityDrivenDarcyIOExample.f90
FORTRAN Modern | 1137 lines | 571 code | 184 blank | 382 comment | 0 complexity | fa0189050314fecf43370947ff8449ab MD5 | raw file
- !> \file
- !> \author Christian Michler, Adam Reeve
- !> \brief This is an example program to solve a coupled Finite Elastiticity Darcy equation using openCMISS calls.
- !>
- !> \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 and University of Oxford, Oxford, United
- !> Kingdom. Portions created by the University of Auckland and University
- !> of Oxford are Copyright (C) 2007 by the University of Auckland and
- !> the University of Oxford. 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.
- !>
- !> \example MultiPhysics/Poroelasticity/FiniteElasticityDarcy/IncompressibleElasticityDrivenDarcy/src/IncompressibleElasticityDrivenDarcyExample.f90
- !! Example program to solve coupled FiniteElasticityDarcy equations using OpenCMISS calls.
- !! \par Latest Builds:
- !! \li <a href='http://autotest.bioeng.auckland.ac.nz/opencmiss-build/logs_x86_64-linux/MultiPhysics/Poroelasticity/FiniteElasticityDarcy/IncompressibleElasticityDrivenDarcy/build-intel'>Linux Intel Build</a>
- !! \li <a href='http://autotest.bioeng.auckland.ac.nz/opencmiss-build/logs_x86_64-linux/MultiPhysics/Poroelasticity/FiniteElasticityDarcy/IncompressibleElasticityDrivenDarcy/build-intel'>Linux GNU Build</a>
- !!
- !<
- ! !
- ! ! This example considers a coupled Finite Elasticity Darcy problem
- ! !
- !> Main program
- PROGRAM FINITEELASTICITYDARCYIOEXAMPLE
- !
- !================================================================================================================================
- !
- !PROGRAM LIBRARIES
- USE OPENCMISS
- ! USE FLUID_MECHANICS_IO_ROUTINES
- USE IOSTUFF
- USE MPI
- #ifdef WIN32
- USE IFQWINCMISS
- #endif
- !
- !================================================================================================================================
- !
- !PROGRAM VARIABLES AND TYPES
- IMPLICIT NONE
- !Test program parameters
- REAL(CMISSDP), PARAMETER :: Y_DIM=1.0_CMISSDP
- REAL(CMISSDP), PARAMETER :: X_DIM=1.0_CMISSDP
- REAL(CMISSDP), PARAMETER :: Z_DIM=1.0_CMISSDP
- INTEGER(CMISSIntg), PARAMETER :: LinearBasisUserNumber=1
- INTEGER(CMISSIntg), PARAMETER :: QuadraticBasisUserNumber=2
- INTEGER(CMISSIntg), PARAMETER :: CubicBasisUserNumber=3
- INTEGER(CMISSIntg), PARAMETER :: CoordinateSystemUserNumber=1
- INTEGER(CMISSIntg), PARAMETER :: RegionUserNumber=2
- INTEGER(CMISSIntg), PARAMETER :: MeshUserNumber=3
- INTEGER(CMISSIntg), PARAMETER :: DecompositionUserNumber=4
- INTEGER(CMISSIntg), PARAMETER :: GeometricFieldUserNumber=5
- INTEGER(CMISSIntg), PARAMETER :: MaterialsFieldUserNumberDarcy=8
- INTEGER(CMISSIntg), PARAMETER :: EquationsSetUserNumberDarcy=12
- INTEGER(CMISSIntg), PARAMETER :: ProblemUserNumber=14
- INTEGER(CMISSIntg), PARAMETER :: EquationsSetFieldUserNumberDarcy=22
- INTEGER(CMISSIntg), PARAMETER :: ControlLoopSolidNumber=1
- INTEGER(CMISSIntg), PARAMETER :: ControlLoopFluidNumber=2
- INTEGER(CMISSIntg), PARAMETER :: ControlLoopSubiterationNumber=1
- INTEGER(CMISSIntg), PARAMETER :: SolverSolidIndex=1
- INTEGER(CMISSIntg), PARAMETER :: SolverDarcyIndex=1
- INTEGER(CMISSIntg), PARAMETER :: MaterialsFieldUserNumberDarcyPorosity=1
- INTEGER(CMISSIntg), PARAMETER :: MaterialsFieldUserNumberDarcyPermOverVis=2
- INTEGER(CMISSIntg), PARAMETER :: FieldGeometryNumberOfVariables=1
- INTEGER(CMISSIntg), PARAMETER :: FieldGeometryNumberOfComponents=3
- !Program types
- !Program variables
- INTEGER(CMISSIntg) :: NUMBER_GLOBAL_X_ELEMENTS,NUMBER_GLOBAL_Y_ELEMENTS,NUMBER_GLOBAL_Z_ELEMENTS
- ! INTEGER(CMISSIntg) :: MPI_IERROR
- INTEGER(CMISSIntg) :: NumberOfComputationalNodes,NumberOfDomains,ComputationalNodeNumber
- INTEGER(CMISSIntg) :: NUMBER_OF_DIMENSIONS
- INTEGER(CMISSIntg) :: MAXIMUM_ITERATIONS
- INTEGER(CMISSIntg) :: RESTART_VALUE
- INTEGER(CMISSIntg) :: EQUATIONS_DARCY_OUTPUT
- INTEGER(CMISSIntg) :: COMPONENT_NUMBER
- INTEGER(CMISSIntg) :: DYNAMIC_SOLVER_DARCY_OUTPUT_FREQUENCY
- INTEGER(CMISSIntg) :: DYNAMIC_SOLVER_DARCY_OUTPUT_TYPE
- INTEGER(CMISSIntg) :: LINEAR_SOLVER_DARCY_OUTPUT_TYPE
- INTEGER(CMISSIntg) :: LINEAR_SOLVER_MAT_PROPERTIES_OUTPUT_TYPE
- REAL(CMISSDP) :: GEOMETRY_TOLERANCE
- INTEGER(CMISSIntg) :: BASIS_XI_INTERPOLATION_SOLID
- REAL(CMISSDP) :: INITIAL_FIELD_DARCY(4)
- REAL(CMISSDP) :: DIVERGENCE_TOLERANCE
- REAL(CMISSDP) :: RELATIVE_TOLERANCE
- REAL(CMISSDP) :: ABSOLUTE_TOLERANCE
- REAL(CMISSDP) :: LINESEARCH_ALPHA
- REAL(CMISSDP) :: VALUE
- REAL(CMISSDP) :: POROSITY_PARAM_DARCY, PERM_OVER_VIS_PARAM_DARCY
- LOGICAL :: EXPORT_FIELD_IO
- LOGICAL :: LINEAR_SOLVER_DARCY_DIRECT_FLAG
- !CMISS variables
- !Regions
- TYPE(CMISSRegionType) :: Region
- TYPE(CMISSRegionType) :: WorldRegion
- !Coordinate systems
- TYPE(CMISSCoordinateSystemType) :: CoordinateSystem
- TYPE(CMISSCoordinateSystemType) :: WorldCoordinateSystem
- !Basis
- ! TYPE(CMISSBasisType) :: CubicBasis, QuadraticBasis, LinearBasis, Bases(2)
- TYPE(CMISSBasisType),allocatable :: Bases(:)
- !Meshes
- TYPE(CMISSMeshType) :: Mesh
- TYPE(CMISSGeneratedMeshType) :: GeneratedMesh
- !Decompositions
- TYPE(CMISSDecompositionType) :: Decomposition
- !Fields
- TYPE(CMISSFieldsType) :: Fields
- !Field types
- TYPE(CMISSFieldType) :: GeometricField
- TYPE(CMISSFieldType) :: MaterialsFieldDarcy
- TYPE(CMISSFieldType) :: EquationsSetFieldDarcy
- !Boundary conditions
- TYPE(CMISSBoundaryConditionsType) :: BoundaryConditionsDarcy
- !Equations sets
- TYPE(CMISSEquationsSetType) :: EquationsSetDarcy
- !Equations
- TYPE(CMISSEquationsType) :: EquationsDarcy
- !Problems
- TYPE(CMISSProblemType) :: Problem
- !Control loops
- TYPE(CMISSControlLoopType) :: ControlLoop
- !Solvers
- TYPE(CMISSSolverType) :: DynamicSolverDarcy
- TYPE(CMISSSolverType) :: LinearSolverDarcy
- ! TYPE(CMISSSolverType) :: LinearSolverSolid
- !Solver equations
- TYPE(CMISSSolverEquationsType) :: SolverEquationsDarcy
- ! nodes and elements
- TYPE(CMISSNodesType) :: Nodes
- TYPE(CMISSMeshElementsType),allocatable :: Elements(:)
- !Other variables
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face1Nodes(:),Face2Nodes(:)
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face3Nodes(:),Face4Nodes(:)
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face5Nodes(:),Face6Nodes(:)
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face7Nodes(:),Face8Nodes(:)
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face9Nodes(:),Face10Nodes(:)
- INTEGER(CMISSIntg),ALLOCATABLE,TARGET :: Face11Nodes(:),Face12Nodes(:)
- INTEGER(CMISSIntg) :: FaceXi(6)
- INTEGER(CMISSIntg) :: NN,NODE,NodeDomain
- REAL(CMISSDP) :: XCoord,YCoord,ZCoord
- LOGICAL :: X_FIXED,Y_FIXED !,X_OKAY,Y_OKAY
- #ifdef WIN32
- !Quickwin type
- LOGICAL :: QUICKWIN_STATUS=.FALSE.
- TYPE(WINDOWCONFIG) :: QUICKWIN_WINDOW_CONFIG
- #endif
- !Generic CMISS variables
- INTEGER(CMISSIntg) :: EquationsSetIndex
- INTEGER(CMISSIntg) :: Err
- INTEGER(CMISSIntg) :: DIAG_LEVEL_LIST(5)
- ! CHARACTER(LEN=255) :: DIAG_ROUTINE_LIST(8) !,TIMING_ROUTINE_LIST(1)
- CHARACTER(LEN=255) :: DIAG_ROUTINE_LIST(1) !,TIMING_ROUTINE_LIST(1)
- !
- !--------------------------------------------------------------------------------------------------------------------------------
- !
- !Program variables and types (finite elasticity part)
- !Test program parameters
- INTEGER(CMISSIntg) :: SolidMeshComponenetNumber
- INTEGER(CMISSIntg), PARAMETER :: FieldGeometrySolidUserNumber=1
- INTEGER(CMISSIntg), PARAMETER :: FieldGeometrySolidNumberOfVariables=1
- INTEGER(CMISSIntg), PARAMETER :: FieldGeometrySolidNumberOfComponents=3
- INTEGER(CMISSIntg), PARAMETER :: FieldFibreSolidUserNumber=2
- INTEGER(CMISSIntg), PARAMETER :: FieldFibreSolidNumberOfVariables=1
- INTEGER(CMISSIntg), PARAMETER :: FieldFibreSolidNumberOfComponents=3
- INTEGER(CMISSIntg), PARAMETER :: FieldMaterialSolidUserNumber=3
- INTEGER(CMISSIntg), PARAMETER :: FieldMaterialSolidNumberOfVariables=1
- INTEGER(CMISSIntg), PARAMETER :: FieldMaterialSolidNumberOfComponents=3
- INTEGER(CMISSIntg), PARAMETER :: FieldDependentSolidUserNumber=4
- INTEGER(CMISSIntg), PARAMETER :: FieldDependentSolidNumberOfVariables=4
- INTEGER(CMISSIntg), PARAMETER :: FieldDependentSolidNumberOfComponents=4
- INTEGER(CMISSIntg), PARAMETER :: FieldDependentFluidNumberOfComponents=4 !(u,v,w,m)
- INTEGER(CMISSIntg), PARAMETER :: EquationSetSolidUserNumber=1
- INTEGER(CMISSIntg), PARAMETER :: EquationsSetFieldSolidUserNumber=25
- INTEGER(CMISSIntg), PARAMETER :: SolidDisplMeshComponentNumber=1
- INTEGER(CMISSIntg), PARAMETER :: SolidLagrMultMeshComponentNumber=2
- INTEGER(CMISSIntg), PARAMETER :: SolidGeometryMeshComponentNumber=SolidDisplMeshComponentNumber
- INTEGER(CMISSIntg), PARAMETER :: DarcyVelMeshComponentNumber=SolidLagrMultMeshComponentNumber
- INTEGER(CMISSIntg), PARAMETER :: DarcyMassIncreaseMeshComponentNumber=SolidLagrMultMeshComponentNumber
- ! INTEGER(CMISSIntg), PARAMETER :: DarcyGeometryMeshComponentNumber=SolidDisplMeshComponentNumber
- INTEGER(CMISSIntg), PARAMETER :: GeneratedMeshUserNumber=32
- !Program types
- !Program variables
- REAL(CMISSDP) :: DYNAMIC_SOLVER_DARCY_START_TIME
- REAL(CMISSDP) :: DYNAMIC_SOLVER_DARCY_STOP_TIME
- REAL(CMISSDP) :: DYNAMIC_SOLVER_DARCY_THETA
- REAL(CMISSDP) :: DYNAMIC_SOLVER_DARCY_TIME_INCREMENT
- !CMISS variables
- TYPE(CMISSBoundaryConditionsType) :: BoundaryConditionsSolid
- TYPE(CMISSEquationsType) :: EquationsSolid
- TYPE(CMISSEquationsSetType) :: EquationsSetSolid
- TYPE(CMISSFieldType) :: GeometricFieldSolid,FibreFieldSolid,MaterialFieldSolid
- TYPE(CMISSFieldType) :: DependentFieldSolid,EquationsSetFieldSolid
- TYPE(CMISSSolverType) :: SolverSolid
- TYPE(CMISSSolverEquationsType) :: SolverEquationsSolid
- !End - Program variables and types (finite elasticity part)
- !
- !--------------------------------------------------------------------------------------------------------------------------------
- !
- #ifdef WIN32
- !Initialise QuickWin
- QUICKWIN_WINDOW_CONFIG%TITLE="General Output" !Window title
- QUICKWIN_WINDOW_CONFIG%NUMTEXTROWS=-1 !Max possible number of rows
- QUICKWIN_WINDOW_CONFIG%MODE=QWIN$SCROLLDOWN
- !Set the window parameters
- QUICKWIN_STATUS=SETWINDOWCONFIG(QUICKWIN_WINDOW_CONFIG)
- !If attempt fails set with system estimated values
- IF(.NOT.QUICKWIN_STATUS) QUICKWIN_STATUS=SETWINDOWCONFIG(QUICKWIN_WINDOW_CONFIG)
- #endif
- !
- !================================================================================================================================
- !
- NUMBER_GLOBAL_X_ELEMENTS=1
- NUMBER_GLOBAL_Y_ELEMENTS=1
- NUMBER_GLOBAL_Z_ELEMENTS=3
- IF(NUMBER_GLOBAL_Z_ELEMENTS==0)THEN
- NUMBER_OF_DIMENSIONS=2
- ELSE
- NUMBER_OF_DIMENSIONS=3
- ENDIF
- !PROBLEM CONTROL PANEL
- ! BASIS_XI_INTERPOLATION_SOLID=CMISS_BASIS_LINEAR_LAGRANGE_INTERPOLATION
- BASIS_XI_INTERPOLATION_SOLID=CMISS_BASIS_QUADRATIC_LAGRANGE_INTERPOLATION
- !Set geometric tolerance
- GEOMETRY_TOLERANCE = 1.0E-12_CMISSDP
- !Set initial values
- INITIAL_FIELD_DARCY(1)=0.0_CMISSDP
- INITIAL_FIELD_DARCY(2)=0.0_CMISSDP
- INITIAL_FIELD_DARCY(3)=0.0_CMISSDP
- INITIAL_FIELD_DARCY(4)=0.0_CMISSDP
- !Set material parameters
- POROSITY_PARAM_DARCY=0.1_CMISSDP
- PERM_OVER_VIS_PARAM_DARCY=1.0_CMISSDP
- !Set output parameter
- !(NoOutput/ProgressOutput/TimingOutput/SolverOutput/SolverMatrixOutput)
- DYNAMIC_SOLVER_DARCY_OUTPUT_TYPE=CMISS_SOLVER_PROGRESS_OUTPUT
- LINEAR_SOLVER_DARCY_OUTPUT_TYPE=CMISS_SOLVER_SOLVER_OUTPUT
- !(NoOutput/TimingOutput/MatrixOutput/ElementOutput)
- EQUATIONS_DARCY_OUTPUT=CMISS_EQUATIONS_NO_OUTPUT
- !Set time parameter
- DYNAMIC_SOLVER_DARCY_START_TIME=0.0_CMISSDP
- DYNAMIC_SOLVER_DARCY_TIME_INCREMENT=1.0e-3_CMISSDP
- DYNAMIC_SOLVER_DARCY_STOP_TIME=2_CMISSIntg * DYNAMIC_SOLVER_DARCY_TIME_INCREMENT
- DYNAMIC_SOLVER_DARCY_THETA=1.0_CMISSDP !2.0_CMISSDP/3.0_CMISSDP
- !Set result output parameter
- DYNAMIC_SOLVER_DARCY_OUTPUT_FREQUENCY=1
- !Set solver parameters
- LINEAR_SOLVER_DARCY_DIRECT_FLAG=.TRUE.
- RELATIVE_TOLERANCE=1.0E-10_CMISSDP !default: 1.0E-05_CMISSDP
- ABSOLUTE_TOLERANCE=1.0E-10_CMISSDP !default: 1.0E-10_CMISSDP
- DIVERGENCE_TOLERANCE=1.0E5_CMISSDP !default: 1.0E5
- MAXIMUM_ITERATIONS=10000_CMISSIntg !default: 100000
- RESTART_VALUE=30_CMISSIntg !default: 30
- LINESEARCH_ALPHA=1.0_CMISSDP
- !
- !================================================================================================================================
- !
- !INITIALISE OPENCMISS
- CALL CMISSInitialise(WorldCoordinateSystem,WorldRegion,Err)
- CALL CMISSErrorHandlingModeSet(CMISS_ERRORS_TRAP_ERROR,Err)
- !
- !================================================================================================================================
- !
- !Set diagnostics
- DIAG_LEVEL_LIST(1)=1
- DIAG_LEVEL_LIST(2)=2
- DIAG_LEVEL_LIST(3)=3
- DIAG_LEVEL_LIST(4)=4
- DIAG_LEVEL_LIST(5)=5
- DIAG_ROUTINE_LIST(1)="WRITE_IP_INFO"
- ! DIAG_ROUTINE_LIST(2)="FINITE_ELASTICITY_GAUSS_CAUCHY_TENSOR"
- !CMISS_ALL_DIAG_TYPE/CMISS_IN_DIAG_TYPE/CMISS_FROM_DIAG_TYPE
- CALL CMISSDiagnosticsSetOn(CMISS_IN_DIAG_TYPE,DIAG_LEVEL_LIST,"Diagnostics",DIAG_ROUTINE_LIST,Err)
- !CMISS_ALL_TIMING_TYPE/CMISS_IN_TIMING_TYPE/CMISS_FROM_TIMING_TYPE
- !TIMING_ROUTINE_LIST(1)="PROBLEM_FINITE_ELEMENT_CALCULATE"
- !CALL TIMING_SET_ON(IN_TIMING_TYPE,.TRUE.,"",TIMING_ROUTINE_LIST,ERR,ERROR,*999)
- !
- !================================================================================================================================
- !
- !Get the number of computational nodes and this computational node number
- CALL CMISSComputationalNumberOfNodesGet(NumberOfComputationalNodes,Err)
- CALL CMISSComputationalNodeNumberGet(ComputationalNodeNumber,Err)
- NumberOfDomains = NumberOfComputationalNodes
- write(*,*) "NumberOfDomains = ",NumberOfDomains
- !
- !================================================================================================================================
- !
- !COORDINATE SYSTEM
- CALL CMISSCoordinateSystem_Initialise(CoordinateSystem,Err)
- CALL CMISSCoordinateSystem_CreateStart(CoordinateSystemUserNumber,CoordinateSystem,Err)
- CALL CMISSCoordinateSystem_DimensionSet(CoordinateSystem,NUMBER_OF_DIMENSIONS,Err)
- CALL CMISSCoordinateSystem_CreateFinish(CoordinateSystem,Err)
- !
- !================================================================================================================================
- !
- !REGION
- !For a volume-coupled problem, solid and fluid are based in the same region
- CALL CMISSRegion_Initialise(Region,Err)
- CALL CMISSRegion_CreateStart(RegionUserNumber,WorldRegion,Region,Err)
- CALL CMISSRegion_CoordinateSystemSet(Region,CoordinateSystem,Err)
- CALL CMISSRegion_CreateFinish(Region,Err)
- !
- !================================================================================================================================
- !
- call READ_MESH('input/example-mesh-3els',MeshUserNumber,Region, Mesh,Bases,Nodes,Elements)
- ! !BASES
- ! !Define basis functions
- ! CALL CMISSBasis_Initialise(LinearBasis,Err)
- ! CALL CMISSBasis_CreateStart(LinearBasisUserNumber,LinearBasis,Err)
- ! CALL CMISSBasis_QuadratureNumberOfGaussXiSet(LinearBasis, &
- ! & (/CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME/),Err)
- ! !CALL CMISSBasis_QuadratureLocalFaceGaussEvaluateSet(LinearBasis,.true.,Err)
- ! CALL CMISSBasis_CreateFinish(LinearBasis,Err)
- !
- ! CALL CMISSBasis_Initialise(QuadraticBasis,Err)
- ! CALL CMISSBasis_CreateStart(QuadraticBasisUserNumber,QuadraticBasis,Err)
- ! CALL CMISSBasis_InterpolationXiSet(QuadraticBasis,(/CMISS_BASIS_QUADRATIC_LAGRANGE_INTERPOLATION, &
- ! & CMISS_BASIS_QUADRATIC_LAGRANGE_INTERPOLATION,CMISS_BASIS_QUADRATIC_LAGRANGE_INTERPOLATION/),Err)
- ! CALL CMISSBasis_QuadratureNumberOfGaussXiSet(QuadraticBasis, &
- ! & (/CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME/),Err)
- ! !CALL CMISSBasis_QuadratureLocalFaceGaussEvaluateSet(QuadraticBasis,.true.,Err)
- ! CALL CMISSBasis_CreateFinish(QuadraticBasis,Err)
- !
- ! CALL CMISSBasis_Initialise(CubicBasis,Err)
- ! CALL CMISSBasis_CreateStart(CubicBasisUserNumber,CubicBasis,Err)
- ! CALL CMISSBasis_InterpolationXiSet(CubicBasis,(/CMISS_BASIS_CUBIC_LAGRANGE_INTERPOLATION, &
- ! & CMISS_BASIS_CUBIC_LAGRANGE_INTERPOLATION,CMISS_BASIS_CUBIC_LAGRANGE_INTERPOLATION/),Err)
- ! CALL CMISSBasis_QuadratureNumberOfGaussXiSet(CubicBasis, &
- ! & (/CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME,CMISS_BASIS_HIGH_QUADRATURE_SCHEME/),Err)
- ! !CALL CMISSBasis_QuadratureLocalFaceGaussEvaluateSet(CubicBasis,.true.,Err) !Enable 3D interpolation on faces
- ! CALL CMISSBasis_CreateFinish(CubicBasis,Err)
- !
- ! !LinearBasis/QuadraticBasis/CubicBasis
- ! Bases(1)=QuadraticBasis
- ! Bases(2)=LinearBasis
- !
- ! !Start the creation of a generated mesh in the region
- ! CALL CMISSGeneratedMesh_Initialise(GeneratedMesh,Err)
- ! CALL CMISSGeneratedMesh_CreateStart(GeneratedMeshUserNumber,Region,GeneratedMesh,Err)
- ! CALL CMISSGeneratedMesh_TypeSet(GeneratedMesh,CMISS_GENERATED_MESH_REGULAR_MESH_TYPE,Err)
- ! CALL CMISSGeneratedMesh_BasisSet(GeneratedMesh,Bases,Err)
- ! IF(NUMBER_GLOBAL_Z_ELEMENTS==0) THEN
- ! CALL CMISSGeneratedMesh_ExtentSet(GeneratedMesh,(/X_DIM,Y_DIM/),Err)
- ! CALL CMISSGeneratedMesh_NumberOfElementsSet(GeneratedMesh,(/NUMBER_GLOBAL_X_ELEMENTS,NUMBER_GLOBAL_Y_ELEMENTS/),Err)
- ! ELSE
- ! CALL CMISSGeneratedMesh_ExtentSet(GeneratedMesh,(/X_DIM,Y_DIM,Z_DIM/),Err)
- ! CALL CMISSGeneratedMesh_NumberOfElementsSet(GeneratedMesh,(/NUMBER_GLOBAL_X_ELEMENTS,NUMBER_GLOBAL_Y_ELEMENTS, &
- ! & NUMBER_GLOBAL_Z_ELEMENTS/),Err)
- ! ENDIF
- ! CALL CMISSMesh_Initialise(Mesh,Err)
- ! CALL CMISSGeneratedMesh_CreateFinish(GeneratedMesh,MeshUserNumber,Mesh,Err)
- ! -------------------------------------------------------------------------------
-
- !GEOMETRIC FIELD
- !Create a decomposition:
- CALL CMISSDecomposition_Initialise(Decomposition,Err)
- CALL CMISSDecomposition_CreateStart(DecompositionUserNumber,Mesh,Decomposition,Err)
- !Set the decomposition to be a general decomposition with the specified number of domains
- CALL CMISSDecomposition_TypeSet(Decomposition,CMISS_DECOMPOSITION_CALCULATED_TYPE,Err)
- CALL CMISSDecomposition_NumberOfDomainsSet(Decomposition,NumberOfDomains,Err)
- CALL CMISSDecomposition_CreateFinish(Decomposition,Err)
- CALL CMISSField_Initialise(GeometricField,Err)
- CALL CMISSField_CreateStart(GeometricFieldUserNumber,Region,GeometricField,Err)
- CALL CMISSField_MeshDecompositionSet(GeometricField,Decomposition,Err)
- CALL CMISSField_TypeSet(GeometricField,CMISS_FIELD_GEOMETRIC_TYPE,Err)
- CALL CMISSField_NumberOfVariablesSet(GeometricField,FieldGeometryNumberOfVariables,Err)
- CALL CMISSField_NumberOfComponentsSet(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,3,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,1,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,2,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,3,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_CreateFinish(GeometricField,Err)
- CALL READ_NODES('input/example-nodes-3els',GeometricField)
- ! CALL CMISSGeneratedMesh_GeometricParametersCalculate(GeneratedMesh,GeometricField,Err)
- !--------------------------------------------------------------------------------------------------------------------------------
- ! Solid
- !Create a decomposition
- !Create a field to put the geometry (defualt is geometry)
- SolidMeshComponenetNumber = SolidGeometryMeshComponentNumber
- CALL CMISSField_Initialise(GeometricFieldSolid,Err)
- CALL CMISSField_CreateStart(FieldGeometrySolidUserNumber,Region,GeometricFieldSolid,Err)
- CALL CMISSField_MeshDecompositionSet(GeometricFieldSolid,Decomposition,Err)
- CALL CMISSField_TypeSet(GeometricFieldSolid,CMISS_FIELD_GEOMETRIC_TYPE,Err)
- CALL CMISSField_NumberOfVariablesSet(GeometricFieldSolid,FieldGeometrySolidNumberOfVariables,Err)
- CALL CMISSField_NumberOfComponentsSet(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,FieldGeometrySolidNumberOfComponents,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,SolidMeshComponenetNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,2,SolidMeshComponenetNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,3,SolidMeshComponenetNumber,Err)
- CALL CMISSField_CreateFinish(GeometricFieldSolid,Err)
- !Set the mesh component to be used by the field components.
- CALL READ_NODES('input/example-nodes-3els',GeometricFieldSolid)
- ! CALL CMISSGeneratedMesh_GeometricParametersCalculate(GeneratedMesh,GeometricFieldSolid,Err)
- !Create a fibre field and attach it to the geometric field
- CALL CMISSField_Initialise(FibreFieldSolid,Err)
- CALL CMISSField_CreateStart(FieldFibreSolidUserNumber,Region,FibreFieldSolid,Err)
- CALL CMISSField_TypeSet(FibreFieldSolid,CMISS_FIELD_FIBRE_TYPE,Err)
- CALL CMISSField_MeshDecompositionSet(FibreFieldSolid,Decomposition,Err)
- CALL CMISSField_GeometricFieldSet(FibreFieldSolid,GeometricFieldSolid,Err)
- CALL CMISSField_NumberOfVariablesSet(FibreFieldSolid,FieldFibreSolidNumberOfVariables,Err)
- CALL CMISSField_NumberOfComponentsSet(FibreFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,FieldFibreSolidNumberOfComponents,Err)
- CALL CMISSField_ComponentMeshComponentSet(FibreFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(FibreFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,2,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(FibreFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,3,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_CreateFinish(FibreFieldSolid,Err)
- ! end Solid
- !--------------------------------------------------------------------------------------------------------------------------------
- !
- !================================================================================================================================
- !
- !EQUATIONS SETS
- !Create the equations set for ALE Darcy
- CALL CMISSField_Initialise(EquationsSetFieldDarcy,Err)
- CALL CMISSEquationsSet_Initialise(EquationsSetDarcy,Err)
- CALL CMISSEquationsSet_CreateStart(EquationsSetUserNumberDarcy,Region,GeometricField,CMISS_EQUATIONS_SET_FLUID_MECHANICS_CLASS, &
- & CMISS_EQUATIONS_SET_DARCY_EQUATION_TYPE,CMISS_EQUATIONS_SET_INCOMPRESS_ELASTICITY_DRIVEN_DARCY_SUBTYPE,&
- & EquationsSetFieldUserNumberDarcy,EquationsSetFieldDarcy,EquationsSetDarcy,Err)
- CALL CMISSEquationsSet_CreateFinish(EquationsSetDarcy,Err)
- !Create the equations set for the solid
- CALL CMISSField_Initialise(EquationsSetFieldSolid,Err)
- CALL CMISSEquationsSet_Initialise(EquationsSetSolid,Err)
- CALL CMISSEquationsSet_CreateStart(EquationSetSolidUserNumber,Region,FibreFieldSolid,CMISS_EQUATIONS_SET_ELASTICITY_CLASS, &
- & CMISS_EQUATIONS_SET_FINITE_ELASTICITY_TYPE,CMISS_EQUATIONS_SET_INCOMPRESS_ELASTICITY_DRIVEN_DARCY_SUBTYPE,&
- & EquationsSetFieldSolidUserNumber,EquationsSetFieldSolid,EquationsSetSolid,Err)
- CALL CMISSEquationsSet_CreateFinish(EquationsSetSolid,Err)
- !--------------------------------------------------------------------------------------------------------------------------------
- ! Solid Materials Field
- !Create a material field and attach it to the geometric field
- CALL CMISSField_Initialise(MaterialFieldSolid,Err)
- !
- CALL CMISSField_CreateStart(FieldMaterialSolidUserNumber,Region,MaterialFieldSolid,Err)
- !
- CALL CMISSField_TypeSet(MaterialFieldSolid,CMISS_FIELD_MATERIAL_TYPE,Err)
- CALL CMISSField_MeshDecompositionSet(MaterialFieldSolid,Decomposition,Err)
- CALL CMISSField_GeometricFieldSet(MaterialFieldSolid,GeometricFieldSolid,Err)
- CALL CMISSField_NumberOfVariablesSet(MaterialFieldSolid,FieldMaterialSolidNumberOfVariables,Err)
- CALL CMISSField_NumberOfComponentsSet(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,FieldMaterialSolidNumberOfComponents,Err)
- CALL CMISSField_ComponentMeshComponentSet(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,2,SolidGeometryMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,3,SolidGeometryMeshComponentNumber,Err)
- !
- CALL CMISSField_CreateFinish(MaterialFieldSolid,Err)
- !Set material parameters
- CALL CMISSField_ComponentValuesInitialise(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1, &
- & 2.0_CMISSDP,Err)
- ! CALL CMISSField_ComponentValuesInitialise(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,2.0e3_CMISSDP,Err)
- CALL CMISSField_ComponentValuesInitialise(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,2, &
- & 6.0_CMISSDP,Err)
- ! CALL CMISSField_ComponentValuesInitialise(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,2,33.0_CMISSDP,Err)
- CALL CMISSField_ComponentValuesInitialise(MaterialFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,3, &
- & 10.0_CMISSDP,Err)
- CALL CMISSEquationsSet_MaterialsCreateStart(EquationsSetSolid,FieldMaterialSolidUserNumber,MaterialFieldSolid,Err)
- CALL CMISSEquationsSet_MaterialsCreateFinish(EquationsSetSolid,Err)
- ! end Solid
- !--------------------------------------------------------------------------------------------------------------------------------
- !
- !================================================================================================================================
- !
- !DEPENDENT FIELDS
- !--------------------------------------------------------------------------------------------------------------------------------
- ! Solid
- !Create a dependent field with four variables (U, DelUDelN = solid, V, DelVDelN = Darcy) and four components
- CALL CMISSField_Initialise(DependentFieldSolid,Err)
- !
- CALL CMISSField_CreateStart(FieldDependentSolidUserNumber,Region,DependentFieldSolid,Err)
- !
- CALL CMISSField_TypeSet(DependentFieldSolid,CMISS_FIELD_GENERAL_TYPE,Err)
- CALL CMISSField_MeshDecompositionSet(DependentFieldSolid,Decomposition,Err)
- CALL CMISSField_GeometricFieldSet(DependentFieldSolid,GeometricFieldSolid,Err)
- CALL CMISSField_DependentTypeSet(DependentFieldSolid,CMISS_FIELD_DEPENDENT_TYPE,Err)
- CALL CMISSField_NumberOfVariablesSet(DependentFieldSolid,FieldDependentSolidNumberOfVariables,Err)
- CALL CMISSField_VariableTypesSet(DependentFieldSolid,(/CMISS_FIELD_U_VARIABLE_TYPE, &
- & CMISS_FIELD_DELUDELN_VARIABLE_TYPE,CMISS_FIELD_V_VARIABLE_TYPE,CMISS_FIELD_DELVDELN_VARIABLE_TYPE/),Err)
- CALL CMISSField_NumberOfComponentsSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,FieldDependentSolidNumberOfComponents,Err)
- CALL CMISSField_NumberOfComponentsSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE, &
- & FieldDependentSolidNumberOfComponents,Err)
- CALL CMISSField_NumberOfComponentsSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,FieldDependentFluidNumberOfComponents,Err)
- CALL CMISSField_NumberOfComponentsSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE, &
- & FieldDependentFluidNumberOfComponents,Err)
- !
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,SolidDisplMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,2,SolidDisplMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,3,SolidDisplMeshComponentNumber,Err)
- CALL CMISSField_ComponentInterpolationSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,4, &
- & CMISS_FIELD_NODE_BASED_INTERPOLATION, &
- & Err)
- ! CALL CMISSField_ComponentInterpolationSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,4,CMISS_FIELD_ELEMENT_BASED_INTERPOLATION,Err)
- ! CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,4,SolidMeshComponenetNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,4,SolidLagrMultMeshComponentNumber,Err)
- !
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,1, &
- & SolidDisplMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,2, &
- & SolidDisplMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,3, &
- & SolidDisplMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentInterpolationSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,4, &
- & CMISS_FIELD_NODE_BASED_INTERPOLATION,Err)
- ! CALL CMISSField_ComponentInterpolationSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,4, &
- ! & CMISS_FIELD_ELEMENT_BASED_INTERPOLATION,Err)
- ! CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,4,SolidMeshComponenetNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELUDELN_VARIABLE_TYPE,4, &
- & SolidLagrMultMeshComponentNumber, &
- & Err)
- !For this equation type, MESH_COMPONENT_NUMBER_PRESSURE is actually the mass increase component as the pressure is taken from the solid equations
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,DarcyVelMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,2,DarcyVelMeshComponentNumber,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,3,DarcyVelMeshComponentNumber,Err)
- ! CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,4,MESH_COMPONENT_NUMBER_PRESSURE,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,4, &
- & DarcyMassIncreaseMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE,1,DarcyVelMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE,2,DarcyVelMeshComponentNumber, &
- & Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE,3,DarcyVelMeshComponentNumber, &
- & Err)
- ! CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE,4,MESH_COMPONENT_NUMBER_PRESSURE,Err)
- CALL CMISSField_ComponentMeshComponentSet(DependentFieldSolid,CMISS_FIELD_DELVDELN_VARIABLE_TYPE,4, &
- & DarcyMassIncreaseMeshComponentNumber,Err)
- CALL CMISSField_CreateFinish(DependentFieldSolid,Err)
- !
- CALL CMISSEquationsSet_DependentCreateStart(EquationsSetSolid,FieldDependentSolidUserNumber,DependentFieldSolid,Err)
- CALL CMISSEquationsSet_DependentCreateFinish(EquationsSetSolid,Err)
- ! end Solid
- !--------------------------------------------------------------------------------------------------------------------------------
- !Create the equations set dependent field variables for ALE Darcy
- CALL CMISSEquationsSet_DependentCreateStart(EquationsSetDarcy,FieldDependentSolidUserNumber, & ! ??? UserNumber ???
- & DependentFieldSolid,Err)
- CALL CMISSEquationsSet_DependentCreateFinish(EquationsSetDarcy,Err)
- !Initialise dependent field (velocity components,mass increase)
- DO COMPONENT_NUMBER=1,NUMBER_OF_DIMENSIONS+1
- CALL CMISSField_ComponentValuesInitialise(DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE, &
- & COMPONENT_NUMBER,INITIAL_FIELD_DARCY(COMPONENT_NUMBER),Err)
- ENDDO
- !
- !================================================================================================================================
- !
- call READ_FIELD('input/example-field-darcy',MaterialsFieldUserNumberDarcy,Region,GeometricField,MaterialsFieldDarcy)
- CALL CMISSEquationsSet_MaterialsCreateStart(EquationsSetDarcy,MaterialsFieldUserNumberDarcy,MaterialsFieldDarcy,Err)
- CALL CMISSEquationsSet_MaterialsCreateFinish(EquationsSetDarcy,Err)
- ! !MATERIALS FIELDS
- !
- ! !Create the equations set materials field variables for ALE Darcy
- ! CALL CMISSField_Initialise(MaterialsFieldDarcy,Err)
- ! CALL CMISSEquationsSet_MaterialsCreateStart(EquationsSetDarcy,MaterialsFieldUserNumberDarcy, &
- ! & MaterialsFieldDarcy,Err)
- ! !Finish the equations set materials field variables
- ! CALL CMISSEquationsSet_MaterialsCreateFinish(EquationsSetDarcy,Err)
- ! CALL CMISSField_ComponentValuesInitialise(MaterialsFieldDarcy,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE, &
- ! & MaterialsFieldUserNumberDarcyPorosity,POROSITY_PARAM_DARCY,Err)
- ! CALL CMISSField_ComponentValuesInitialise(MaterialsFieldDarcy,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE, &
- ! & MaterialsFieldUserNumberDarcyPermOverVis,PERM_OVER_VIS_PARAM_DARCY,Err)
- !
- !================================================================================================================================
- !
- !EQUATIONS SET EQUATIONS
- !Darcy
- CALL CMISSEquations_Initialise(EquationsDarcy,Err)
- CALL CMISSEquationsSet_EquationsCreateStart(EquationsSetDarcy,EquationsDarcy,Err)
- CALL CMISSEquations_SparsityTypeSet(EquationsDarcy,CMISS_EQUATIONS_SPARSE_MATRICES,Err)
- CALL CMISSEquations_OutputTypeSet(EquationsDarcy,EQUATIONS_DARCY_OUTPUT,Err)
- CALL CMISSEquationsSet_EquationsCreateFinish(EquationsSetDarcy,Err)
- !Solid
- CALL CMISSEquations_Initialise(EquationsSolid,Err)
- CALL CMISSEquationsSet_EquationsCreateStart(EquationsSetSolid,EquationsSolid,Err)
- CALL CMISSEquations_SparsityTypeSet(EquationsSolid,CMISS_EQUATIONS_SPARSE_MATRICES,Err)
- CALL CMISSEquations_OutputTypeSet(EquationsSolid,CMISS_EQUATIONS_NO_OUTPUT,Err)
- CALL CMISSEquationsSet_EquationsCreateFinish(EquationsSetSolid,Err)
- !
- !================================================================================================================================
- !
- !--------------------------------------------------------------------------------------------------------------------------------
- ! Solid
- !Initialise dependent field from undeformed geometry and displacement bcs and set hydrostatic pressure
- CALL CMISSField_ParametersToFieldParametersComponentCopy(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE, &
- & CMISS_FIELD_VALUES_SET_TYPE, &
- & 1,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,Err)
- CALL CMISSField_ParametersToFieldParametersComponentCopy(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE, &
- & CMISS_FIELD_VALUES_SET_TYPE, &
- & 2,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,2,Err)
- CALL CMISSField_ParametersToFieldParametersComponentCopy(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE, &
- & CMISS_FIELD_VALUES_SET_TYPE, &
- & 3,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,3,Err)
- CALL CMISSField_ComponentValuesInitialise(DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,4, &
- & 0.0_CMISSDP, &
- & Err)
- !
- !================================================================================================================================
- !
- !PROBLEMS
- CALL CMISSProblem_Initialise(Problem,Err)
- CALL CMISSControlLoop_Initialise(ControlLoop,Err)
- CALL CMISSProblem_CreateStart(ProblemUserNumber,Problem,Err)
- CALL CMISSProblem_SpecificationSet(Problem,CMISS_PROBLEM_MULTI_PHYSICS_CLASS,CMISS_PROBLEM_FINITE_ELASTICITY_DARCY_TYPE, &
- & CMISS_PROBLEM_QUASISTATIC_ELASTICITY_TRANSIENT_DARCY_SUBTYPE,Err)
- CALL CMISSProblem_CreateFinish(Problem,Err)
- CALL CMISSProblem_ControlLoopCreateStart(Problem,Err)
- CALL CMISSProblem_ControlLoopGet(Problem,CMISS_CONTROL_LOOP_NODE,ControlLoop,Err)
- ! CALL CMISSControlLoop_MaximumIterationsSet(ControlLoop,2,Err)
- CALL CMISSControlLoop_TimesSet(ControlLoop,DYNAMIC_SOLVER_DARCY_START_TIME,DYNAMIC_SOLVER_DARCY_STOP_TIME, &
- & DYNAMIC_SOLVER_DARCY_TIME_INCREMENT,Err)
- CALL CMISSControlLoop_TimeOutputSet(ControlLoop,DYNAMIC_SOLVER_DARCY_OUTPUT_FREQUENCY,Err)
- ! CALL CMISSControlLoop_OutputTypeSet(ControlLoop,CMISS_CONTROL_LOOP_PROGRESS_OUTPUT,Err)
- CALL CMISSProblem_ControlLoopCreateFinish(Problem,Err)
- !
- !================================================================================================================================
- !
- !SOLVERS
- CALL CMISSSolver_Initialise(SolverSolid,Err)
- CALL CMISSSolver_Initialise(DynamicSolverDarcy,Err)
- CALL CMISSSolver_Initialise(LinearSolverDarcy,Err)
- CALL CMISSProblem_SolversCreateStart(Problem,Err)
- ! Solid
- CALL CMISSProblem_SolverGet(Problem,(/ControlLoopSubiterationNumber,ControlLoopSolidNumber,CMISS_CONTROL_LOOP_NODE/), &
- & SolverSolidIndex,SolverSolid,Err)
- CALL CMISSSolver_OutputTypeSet(SolverSolid,CMISS_SOLVER_PROGRESS_OUTPUT,Err)
- ! CALL CMISSSolver_NewtonJacobianCalculationTypeSet(SolverSolid,CMISS_SOLVER_NEWTON_JACOBIAN_FD_CALCULATED,Err)
- CALL CMISSSolver_NewtonJacobianCalculationTypeSet(SolverSolid,CMISS_SOLVER_NEWTON_JACOBIAN_EQUATIONS_CALCULATED,Err)
- CALL CMISSSolver_NewtonAbsoluteToleranceSet(SolverSolid,ABSOLUTE_TOLERANCE,Err)
- CALL CMISSSolver_NewtonRelativeToleranceSet(SolverSolid,RELATIVE_TOLERANCE,Err)
- CALL CMISSSolver_NewtonMaximumIterationsSet(SolverSolid,MAXIMUM_ITERATIONS,Err)
- ! CALL CMISSSolverNonLinearTypeSet(SolverSolid,CMISS_SOLVER_NONLINEAR_NEWTON,Err)
- ! CALL CMISSSolver_LibraryTypeSet(SolverSolid,CMISS_SOLVER_PETSC_LIBRARY,Err)
- ! CALL CMISSSolver_NewtonLinearSolverGet(SolverSolid,LinearSolverSolid,Err)
- ! CALL CMISSSolver_LinearTypeSet(LinearSolverSolid,CMISS_SOLVER_LINEAR_DIRECT_SOLVE_TYPE,Err)
- !Darcy
- CALL CMISSProblem_SolverGet(Problem,(/ControlLoopSubiterationNumber,ControlLoopFluidNumber,CMISS_CONTROL_LOOP_NODE/), &
- & SolverDarcyIndex,DynamicSolverDarcy,Err)
- CALL CMISSSolver_OutputTypeSet(DynamicSolverDarcy,DYNAMIC_SOLVER_DARCY_OUTPUT_TYPE,Err)
- CALL CMISSSolver_DynamicThetaSet(DynamicSolverDarcy,DYNAMIC_SOLVER_DARCY_THETA,Err)
- ! CALL CMISSSolverDynamicDynamicSet(DynamicSolverDarcy,.TRUE.,Err)
- CALL CMISSSolver_DynamicLinearSolverGet(DynamicSolverDarcy,LinearSolverDarcy,Err)
- IF(LINEAR_SOLVER_DARCY_DIRECT_FLAG) THEN
- CALL CMISSSolver_LinearTypeSet(LinearSolverDarcy,CMISS_SOLVER_LINEAR_DIRECT_SOLVE_TYPE,Err)
- CALL CMISSSolver_LibraryTypeSet(LinearSolverDarcy,CMISS_SOLVER_MUMPS_LIBRARY,Err)
- ELSE
- CALL CMISSSolver_LinearTypeSet(LinearSolverDarcy,CMISS_SOLVER_LINEAR_ITERATIVE_SOLVE_TYPE,Err)
- CALL CMISSSolver_LinearIterativeMaximumIterationsSet(LinearSolverDarcy,MAXIMUM_ITERATIONS,Err)
- CALL CMISSSolver_LinearIterativeDivergenceToleranceSet(LinearSolverDarcy,DIVERGENCE_TOLERANCE,Err)
- CALL CMISSSolver_LinearIterativeRelativeToleranceSet(LinearSolverDarcy,RELATIVE_TOLERANCE,Err)
- CALL CMISSSolver_LinearIterativeAbsoluteToleranceSet(LinearSolverDarcy,ABSOLUTE_TOLERANCE,Err)
- CALL CMISSSolver_LinearIterativeGMRESRestartSet(LinearSolverDarcy,RESTART_VALUE,Err)
- ENDIF
- CALL CMISSProblem_SolversCreateFinish(Problem,Err)
- !
- !================================================================================================================================
- !
- !SOLVER EQUATIONS
- CALL CMISSSolver_Initialise(SolverSolid,Err)
- CALL CMISSSolver_Initialise(LinearSolverDarcy,Err)
- CALL CMISSSolverEquations_Initialise(SolverEquationsSolid,Err)
- CALL CMISSSolverEquations_Initialise(SolverEquationsDarcy,Err)
- CALL CMISSProblem_SolverEquationsCreateStart(Problem,Err)
- !
- !Get the finite elasticity solver equations
- CALL CMISSProblem_SolverGet(Problem,(/ControlLoopSubiterationNumber,ControlLoopSolidNumber,CMISS_CONTROL_LOOP_NODE/), &
- & SolverSolidIndex,SolverSolid,Err)
- CALL CMISSSolver_SolverEquationsGet(SolverSolid,SolverEquationsSolid,Err)
- CALL CMISSSolverEquations_SparsityTypeSet(SolverEquationsSolid,CMISS_SOLVER_SPARSE_MATRICES,Err)
- CALL CMISSSolverEquations_EquationsSetAdd(SolverEquationsSolid,EquationsSetSolid,EquationsSetIndex,Err)
- !
- !Get the Darcy solver equations
- CALL CMISSProblem_SolverGet(Problem,(/ControlLoopSubiterationNumber,ControlLoopFluidNumber,CMISS_CONTROL_LOOP_NODE/), &
- & SolverDarcyIndex,LinearSolverDarcy,Err)
- CALL CMISSSolver_SolverEquationsGet(LinearSolverDarcy,SolverEquationsDarcy,Err)
- CALL CMISSSolverEquations_SparsityTypeSet(SolverEquationsDarcy,CMISS_SOLVER_SPARSE_MATRICES,Err)
- CALL CMISSSolverEquations_EquationsSetAdd(SolverEquationsDarcy,EquationsSetDarcy,EquationsSetIndex,Err)
- !
- CALL CMISSProblem_SolverEquationsCreateFinish(Problem,Err)
- !
- !================================================================================================================================
- !
- !------------------------------------
- ! ASSIGN BOUNDARY CONDITIONS - SOLID (absolute nodal parameters)
- !Solid is computed in absolute position, rather than displacement. Thus BCs for absolute position
- CALL CMISSBoundaryConditions_Initialise(BoundaryConditionsSolid,Err)
- CALL CMISSSolverEquations_BoundaryConditionsCreateStart(SolverEquationsSolid,BoundaryConditionsSolid,Err)
- ! !Get surfaces
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_FRONT_SURFACE, &
- ! & Face1Nodes,FaceXi(1),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_BACK_SURFACE, &
- ! & Face2Nodes,FaceXi(2),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_RIGHT_SURFACE, &
- ! & Face3Nodes,FaceXi(3),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_LEFT_SURFACE, &
- ! & Face4Nodes,FaceXi(4),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_TOP_SURFACE, &
- ! & Face5Nodes,FaceXi(5),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,SolidDisplMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_BOTTOM_SURFACE, &
- ! & Face6Nodes,FaceXi(6),Err)
- ! ! write(*,'("Face1Nodes=[",100I3,"]")') Face1Nodes
- ! ! write(*,'("Face2Nodes=[",100I3,"]")') Face2Nodes
- ! ! write(*,'("Face3Nodes=[",100I3,"]")') Face3Nodes
- ! ! write(*,'("Face4Nodes=[",100I3,"]")') Face4Nodes
- ! ! write(*,'("Face5Nodes=[",100I3,"]")') Face5Nodes
- ! ! write(*,'("Face6Nodes=[",100I3,"]")') Face6Nodes
- ! ! write(*,'("FaceXi=[",100I3,"]")') FaceXi
- !
- allocate(Face1Nodes(21),Face2Nodes(21),Face3Nodes(21),Face4Nodes(21),Face5Nodes(9),Face6Nodes(9))
- Face1Nodes=[ 1, 17, 2, 22, 23, 24, 5, 31, 6, 36, 37, 38, 9, 45, 10, 50, 51, 52, 13, 59, 14]
- Face2Nodes=[ 3, 21, 4, 28, 29, 30, 7, 35, 8, 42, 43, 44, 11, 49, 12, 56, 57, 58, 15, 63, 16]
- Face3Nodes=[ 2, 20, 4, 24, 27, 30, 6, 34, 8, 38, 41, 44, 10, 48, 12, 52, 55, 58, 14, 62, 16]
- Face4Nodes=[ 1, 18, 3, 22, 25, 28, 5, 32, 7, 36, 39, 42, 9, 46, 11, 50, 53, 56, 13, 60, 15]
- Face5Nodes=[ 13, 59, 14, 60, 61, 62, 15, 63, 16]
- Face6Nodes=[ 1, 17, 2, 18, 19, 20, 3, 21, 4]
- FaceXi=[ -2, 2, 1, -1, 3, -3]
- ! Fix the bottom in z direction
- DO NN=1,SIZE(Face6Nodes,1)
- NODE=Face6Nodes(NN)
- CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- IF(NodeDomain==ComputationalNodeNumber) THEN
- CALL CMISSField_ParameterSetGetNode(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,1,NODE,3, &
- & ZCoord,Err)
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,3, &
- & CMISS_BOUNDARY_CONDITION_FIXED,ZCoord,Err)
- WRITE(*,*) "FIXING NODE",NODE,"AT BOTTOM IN Z DIRECTION"
- ENDIF
- ENDDO
- ! Fix the top in z direction
- DO NN=1,SIZE(Face5Nodes,1)
- NODE=Face5Nodes(NN)
- CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- IF(NodeDomain==ComputationalNodeNumber) THEN
- CALL CMISSField_ParameterSetGetNode(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,1,NODE,3, &
- & ZCoord,Err)
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,3, &
- & CMISS_BOUNDARY_CONDITION_FIXED,ZCoord,Err)
- WRITE(*,*) "FIXING NODE",NODE,"AT TOP IN Z DIRECTION"
- ENDIF
- ENDDO
- !Fix more nodes at the bottom to stop free body motion
- X_FIXED=.FALSE.
- Y_FIXED=.FALSE.
- DO NN=1,SIZE(Face6Nodes,1)
- NODE=Face6Nodes(NN)
- CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- IF(NodeDomain==ComputationalNodeNumber) THEN
- CALL CMISSField_ParameterSetGetNode(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,1,NODE,1, &
- & XCoord,Err)
- CALL CMISSField_ParameterSetGetNode(GeometricFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,1,NODE,2, &
- & YCoord,Err)
- !Fix Origin displacement in x and y (z already fixed)
- IF(ABS(XCoord)<1.0E-6_CMISSDP.AND.ABS(YCoord)<1.0E-6_CMISSDP) THEN
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,1, &
- & CMISS_BOUNDARY_CONDITION_FIXED,XCoord,Err)
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,2, &
- & CMISS_BOUNDARY_CONDITION_FIXED,YCoord,Err)
- WRITE(*,*) "FIXING ORIGIN NODE",NODE,"IN X AND Y DIRECTION"
- X_FIXED=.TRUE.
- Y_FIXED=.TRUE.
- ENDIF
- !Fix nodal displacements at (X_DIM,0) in y
- IF(ABS(XCoord - X_DIM)<1.0E-6_CMISSDP .AND. ABS(YCoord)<1.0E-6_CMISSDP) THEN
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,2, &
- & CMISS_BOUNDARY_CONDITION_FIXED,YCoord,Err)
- WRITE(*,*) "FIXING NODES",NODE,"AT (X_DIM,0) IN Y DIRECTION"
- Y_FIXED=.TRUE.
- ENDIF
- !Fix nodal displacements at (0,Y_DIM) in x
- IF(ABS(XCoord)<1.0E-6_CMISSDP .AND. ABS(YCoord - Y_DIM)<1.0E-6_CMISSDP) THEN
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsSolid,DependentFieldSolid,CMISS_FIELD_U_VARIABLE_TYPE,1,1,NODE,1, &
- & CMISS_BOUNDARY_CONDITION_FIXED,XCoord,Err)
- WRITE(*,*) "FIXING NODES",NODE,"AT (0,Y_DIM) IN X DIRECTION"
- X_FIXED=.TRUE.
- ENDIF
- ENDIF
- ENDDO
- ! CALL MPI_REDUCE(X_FIXED,X_OKAY,1,MPI_LOGICAL,MPI_LOR,0,MPI_COMM_WORLD,MPI_IERROR)
- ! CALL MPI_REDUCE(Y_FIXED,Y_OKAY,1,MPI_LOGICAL,MPI_LOR,0,MPI_COMM_WORLD,MPI_IERROR)
- ! IF(ComputationalNodeNumber==0) THEN
- ! IF(.NOT.(X_OKAY.AND.Y_OKAY)) THEN
- ! WRITE(*,*) "Free body motion could not be prevented!"
- ! CALL CMISSFinalise(Err)
- ! STOP
- ! ENDIF
- ! ENDIF
- CALL CMISSSolverEquations_BoundaryConditionsCreateFinish(SolverEquationsSolid,Err)
- !------------------------------------
- !------------------------------------
- ! ASSIGN BOUNDARY CONDITIONS - FLUID
- CALL CMISSBoundaryConditions_Initialise(BoundaryConditionsDarcy,Err)
- CALL CMISSSolverEquations_BoundaryConditionsCreateStart(SolverEquationsDarcy,BoundaryConditionsDarcy,Err)
- ! !Get surfaces
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_FRONT_SURFACE, &
- ! & Face7Nodes,FaceXi(1),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_BACK_SURFACE, &
- ! & Face8Nodes,FaceXi(2),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_RIGHT_SURFACE, &
- ! & Face9Nodes,FaceXi(3),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_LEFT_SURFACE, &
- ! & Face10Nodes,FaceXi(4),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_TOP_SURFACE, &
- ! & Face11Nodes,FaceXi(5),Err)
- ! CALL CMISSGeneratedMesh_SurfaceGet(GeneratedMesh,DarcyVelMeshComponentNumber,CMISS_GENERATED_MESH_REGULAR_BOTTOM_SURFACE, &
- ! & Face12Nodes,FaceXi(6),Err)
- ! ! write(*,'("Face7Nodes=[",100I3,"]")') Face7Nodes
- ! ! write(*,'("Face8Nodes=[",100I3,"]")') Face8Nodes
- ! ! write(*,'("Face9Nodes=[",100I3,"]")') Face9Nodes
- ! ! write(*,'("Face10Nodes=[",100I3,"]")') Face10Nodes
- ! ! write(*,'("Face11Nodes=[",100I3,"]")') Face11Nodes
- ! ! write(*,'("Face12Nodes=[",100I3,"]")') Face12Nodes
- ! ! write(*,'("FaceXi=[",100I3,"]")') FaceXi
- allocate(Face7Nodes(8),Face8Nodes(8),Face9Nodes(8),Face10Nodes(8),Face11Nodes(4),Face12Nodes(4))
- Face7Nodes=[ 1, 2, 5, 6, 9, 10, 13, 14]
- Face8Nodes=[ 3, 4, 7, 8, 11, 12, 15, 16]
- Face9Nodes=[ 2, 4, 6, 8, 10, 12, 14, 16]
- Face10Nodes=[ 1, 3, 5, 7, 9, 11, 13, 15]
- Face11Nodes=[ 13, 14, 15, 16]
- Face12Nodes=[ 1, 2, 3, 4]
- FaceXi=[ -2, 2, 1, -1, 3, -3]
- ! At the top impose Darcy velocity in z direction
- DO NN=1,SIZE(Face11Nodes,1)
- NODE=Face11Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = -2.0_CMISSDP
- COMPONENT_NUMBER = 3
- write(*,*)'Marker 0'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED INFLOW AT NODE",NODE,"IN Z DIRECTION"
- ! CALL CMISSField_ParameterSetGetNode(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,NODE,1,XCoord,Err)
- ! CALL CMISSField_ParameterSetGetNode(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,NODE,2,YCoord,Err)
- ! CALL CMISSField_ParameterSetGetNode(GeometricField,CMISS_FIELD_U_VARIABLE_TYPE,CMISS_FIELD_VALUES_SET_TYPE,1,NODE,3,ZCoord,Err)
- ! WRITE(*,*) "XCoord, YCoord, ZCoord = ",XCoord, YCoord, ZCoord
- ! ENDIF
- ENDDO
- !All other faces are impermeable
- DO NN=1,SIZE(Face7Nodes,1)
- NODE=Face7Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = 0.0_CMISSDP
- COMPONENT_NUMBER = 1
- write(*,*)'Marker 1'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED IMPERMEABLE WALL AT NODE",NODE,"IN X DIRECTION"
- ! ENDIF
- ENDDO
- DO NN=1,SIZE(Face8Nodes,1)
- NODE=Face8Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = 0.0_CMISSDP
- COMPONENT_NUMBER = 1
- write(*,*)'Marker 2'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED IMPERMEABLE WALL AT NODE",NODE,"IN X DIRECTION"
- ! ENDIF
- ENDDO
- DO NN=1,SIZE(Face9Nodes,1)
- NODE=Face9Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = 0.0_CMISSDP
- COMPONENT_NUMBER = 2
- write(*,*)'Marker 3'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED IMPERMEABLE WALL AT NODE",NODE,"IN Y DIRECTION"
- ! ENDIF
- ENDDO
- DO NN=1,SIZE(Face10Nodes,1)
- NODE=Face10Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = 0.0_CMISSDP
- COMPONENT_NUMBER = 2
- write(*,*)'Marker 4'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED IMPERMEABLE WALL AT NODE",NODE,"IN Y DIRECTION"
- ! ENDIF
- ENDDO
- DO NN=1,SIZE(Face12Nodes,1)
- NODE=Face12Nodes(NN)
- ! CALL CMISSDecomposition_NodeDomainGet(Decomposition,NODE,1,NodeDomain,Err)
- ! IF(NodeDomain==ComputationalNodeNumber) THEN
- VALUE = 0.0_CMISSDP
- COMPONENT_NUMBER = 3
- write(*,*)'Marker 5'
- CALL CMISSBoundaryConditions_SetNode(BoundaryConditionsDarcy,DependentFieldSolid,CMISS_FIELD_V_VARIABLE_TYPE,1,1,NODE, &
- & COMPONENT_NUMBER, &
- & CMISS_BOUNDARY_CONDITION_FIXED,VALUE,Err)
- WRITE(*,*) "SPECIFIED IMPERMEABLE WALL AT NODE",NODE,"IN Z DIRECTION"
- ! ENDIF
- ENDDO
- CALL CMISSSolverEquations_BoundaryConditionsCreateFinish(SolverEquationsDarcy,Err)
- !
- !================================================================================================================================
- !
- !RUN SOLVERS
- !Turn of PETSc error handling
- !CALL PETSC_ERRORHANDLING_SET_ON(ERR,ERROR,*999)
- !Solve the problem
- WRITE(*,'(A)') "Solving problem..."
- CALL CMISSProblem_Solve(Problem,Err)
- WRITE(*,'(A)') "Problem solved!"
- !
- !================================================================================================================================
- !
- !OUTPUT
- EXPORT_FIELD_IO=.FALSE.
- IF(EXPORT_FIELD_IO) THEN
- WRITE(*,'(A)') "Exporting fields..."
- CALL CMISSFields_Initialise(Fields,Err)
- CALL CMISSFields_Create(Region,Fields,Err)
- CALL CMISSFields_NodesExport(Fields,"FiniteElasticityDarcy","FORTRAN",Err)
- CALL CMISSFields_ElementsExport(Fields,"FiniteElasticityDarcy","FORTRAN",Err)
- CALL CMISSFields_Finalise(Fields,Err)
- WRITE(*,'(A)') "Field exported!"
- ENDIF
- !Finialise CMISS
- ! CALL CMISSFinalise(Err)
- WRITE(*,'(A)') "Program successfully completed."
- STOP
- END PROGRAM FINITEELASTICITYDARCYIOEXAMPLE