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generated_mesh_routines.f90
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generated_mesh_routines.f90
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!> \file
!> \author Chris Bradley
!> \brief This module handles all generated mesh routines.
!>
!> \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): Chris Bradley, Jack Lee
!>
!> 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 generated mesh routines.
MODULE GENERATED_MESH_ROUTINES
USE BaseRoutines
USE BasisRoutines
USE ComputationEnvironment
USE CONSTANTS
USE COORDINATE_ROUTINES
USE FIELD_ROUTINES
USE FieldAccessRoutines
USE GeneratedMeshAccessRoutines
USE INPUT_OUTPUT
USE ISO_VARYING_STRING
USE KINDS
USE MATHS
USE MESH_ROUTINES
USE NODE_ROUTINES
USE STRINGS
USE TYPES
#include "macros.h"
IMPLICIT NONE
PRIVATE
!Module parameters
!> \addtogroup GENERATED_MESH_ROUTINES_GeneratedMeshTypes GENERATED_MESH_ROUTINES::GeneratedMeshTypes
!> \brief Generated mesh types.
!> \see GENERATED_MESH_ROUTINES,OPENCMISS_GeneratedMeshTypes
!>@{
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_MESH_TYPE=1 !<A regular generated mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshTypes,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_POLAR_MESH_TYPE=2 !<A polar generated mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshTypes,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_FRACTAL_TREE_MESH_TYPE=3 !<A fractal tree generated mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshTypes,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_CYLINDER_MESH_TYPE=4 !<A cylinder generated mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshTypes,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_ELLIPSOID_MESH_TYPE=5 !<An ellipsoid generated mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshTypes,GENERATED_MESH_ROUTINES
!>@}
!> \addtogroup GENERATED_MESH_ROUTINES_GeneratedMeshCylinderSurfaces GENERATED_MESH_ROUTINES::GeneratedMeshCylinderSurfaces
!> \brief Generated mesh cylinder type surface types.
!>@{
INTEGER(INTG), PARAMETER :: GENERATED_MESH_CYLINDER_INNER_SURFACE=1 !<Inner surface of the cylinder. \see GENERATED_MESH_ROUTINES_GeneratedMeshCylinderSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_CYLINDER_OUTER_SURFACE=2 !<Outer surface of the cylinder. \see GENERATED_MESH_ROUTINES_GeneratedMeshCylinderSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_CYLINDER_TOP_SURFACE=3 !<Top surface of the cylinder. \see GENERATED_MESH_ROUTINES_GeneratedMeshCylinderSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_CYLINDER_BOTTOM_SURFACE=4 !<Bottom surface of the cylinder. \see GENERATED_MESH_ROUTINES_GeneratedMeshCylinderSurfaces,GENERATED_MESH_ROUTINES
!>@}
!> \addtogroup GENERATED_MESH_ROUTINES_GeneratedMeshEllipsoidSurfaces GENERATED_MESH_ROUTINES::GeneratedMeshEllipsoidSurfaces
!> \brief Generated mesh ellipsoid type surface types.
!>@{
INTEGER(INTG), PARAMETER :: GENERATED_MESH_ELLIPSOID_INNER_SURFACE=5 !<Inner surface of the ellipsoid. \see GENERATED_MESH_ROUTINES_GeneratedMeshEllipsoidSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_ELLIPSOID_OUTER_SURFACE=6 !<Outer surface of the ellipsoid. \see GENERATED_MESH_ROUTINES_GeneratedMeshEllipsoidSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_ELLIPSOID_TOP_SURFACE=7 !<Top surface of the ellipsoid. \see GENERATED_MESH_ROUTINES_GeneratedMeshEllipsoidSurfaces,GENERATED_MESH_ROUTINES
!>@}
!> \addtogroup GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces GENERATED_MESH_ROUTINES::GeneratedMeshRegularSurfaces
!> \brief Generated mesh regular type surface types.
!>@{
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_LEFT_SURFACE=8 !<Left surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_RIGHT_SURFACE=9 !<Right surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_TOP_SURFACE=10 !<Top surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_BOTTOM_SURFACE=11 !<Bottom surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_FRONT_SURFACE=12 !<Front surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
INTEGER(INTG), PARAMETER :: GENERATED_MESH_REGULAR_BACK_SURFACE=13 !<Back surface of the regular mesh. \see GENERATED_MESH_ROUTINES_GeneratedMeshRegularSurfaces,GENERATED_MESH_ROUTINES
!>@}
!Module types
!Interfaces
!>Starts the process of creating a generated mesh
INTERFACE GENERATED_MESH_CREATE_START
MODULE PROCEDURE GENERATED_MESH_CREATE_START_INTERFACE
MODULE PROCEDURE GENERATED_MESH_CREATE_START_REGION
END INTERFACE !GENERATED_MESH_CREATE_START
!>Initialises the generated meshes for a region or interface.
INTERFACE GENERATED_MESHES_INITIALISE
MODULE PROCEDURE GENERATED_MESHES_INITIALISE_INTERFACE
MODULE PROCEDURE GENERATED_MESHES_INITIALISE_REGION
END INTERFACE !GENERATED_MESHES_INITIALISE
INTERFACE GeneratedMesh_BasisGet
MODULE PROCEDURE GENERATED_MESH_BASIS_GET
END INTERFACE GeneratedMesh_BasisGet
PUBLIC GENERATED_MESH_REGULAR_MESH_TYPE,GENERATED_MESH_POLAR_MESH_TYPE
PUBLIC GENERATED_MESH_FRACTAL_TREE_MESH_TYPE,GENERATED_MESH_CYLINDER_MESH_TYPE
PUBLIC GENERATED_MESH_ELLIPSOID_MESH_TYPE
PUBLIC GENERATED_MESH_CYLINDER_INNER_SURFACE,GENERATED_MESH_CYLINDER_OUTER_SURFACE
PUBLIC GENERATED_MESH_CYLINDER_TOP_SURFACE,GENERATED_MESH_CYLINDER_BOTTOM_SURFACE
PUBLIC GENERATED_MESH_ELLIPSOID_INNER_SURFACE,GENERATED_MESH_ELLIPSOID_OUTER_SURFACE
PUBLIC GENERATED_MESH_ELLIPSOID_TOP_SURFACE
PUBLIC GENERATED_MESH_REGULAR_LEFT_SURFACE,GENERATED_MESH_REGULAR_RIGHT_SURFACE
PUBLIC GENERATED_MESH_REGULAR_TOP_SURFACE,GENERATED_MESH_REGULAR_BOTTOM_SURFACE
PUBLIC GENERATED_MESH_REGULAR_FRONT_SURFACE,GENERATED_MESH_REGULAR_BACK_SURFACE
PUBLIC GENERATED_MESHES_INITIALISE,GENERATED_MESHES_FINALISE
PUBLIC GENERATED_MESH_BASE_VECTORS_SET
PUBLIC GENERATED_MESH_COORDINATE_SYSTEM_GET
PUBLIC GENERATED_MESH_CREATE_START,GENERATED_MESH_CREATE_FINISH
PUBLIC GENERATED_MESH_DESTROY
PUBLIC GENERATED_MESH_BASIS_SET,GENERATED_MESH_EXTENT_SET,GENERATED_MESH_NUMBER_OF_ELEMENTS_SET,GENERATED_MESH_ORIGIN_SET, &
& GENERATED_MESH_TYPE_SET,GeneratedMesh_GeometricParametersCalculate
PUBLIC GENERATED_MESH_BASIS_GET,GENERATED_MESH_EXTENT_GET,GENERATED_MESH_NUMBER_OF_ELEMENTS_GET,GENERATED_MESH_ORIGIN_GET,&
& GENERATED_MESH_TYPE_GET
PUBLIC GeneratedMesh_BasisGet
PUBLIC GENERATED_MESH_REGION_GET
PUBLIC GENERATED_MESH_SURFACE_GET
CONTAINS
!
!================================================================================================================================
!
!>Gets the basis of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshBasisGet
SUBROUTINE GENERATED_MESH_BASIS_GET(GENERATED_MESH,BASES,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to get the bases of
TYPE(BASIS_PTR_TYPE), POINTER :: BASES(:) !<On return, the bases of mesh to generate
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(VARYING_STRING) :: LOCAL_ERROR
INTEGER(INTG) :: basis_idx,NUM_BASES
ENTERS("GENERATED_MESH_BASIS_GET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(GENERATED_MESH%GENERATED_MESH_FINISHED) THEN
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%REGULAR_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASES)) THEN
NUM_BASES=SIZE(GENERATED_MESH%REGULAR_MESH%BASES)
ALLOCATE(BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
BASES(basis_idx)%PTR=>GENERATED_MESH%REGULAR_MESH%BASES(basis_idx)%PTR
ENDDO
ELSE
CALL FlagError("Generated mesh bases are not allocated.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Generated mesh regular mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%CYLINDER_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASES)) THEN
NUM_BASES=SIZE(GENERATED_MESH%CYLINDER_MESH%BASES)
ALLOCATE(BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
BASES(basis_idx)%PTR=>GENERATED_MESH%CYLINDER_MESH%BASES(basis_idx)%PTR
ENDDO
ELSE
CALL FlagError("Generated mesh bases are not allocated.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Generated mesh cylinder mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%ELLIPSOID_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASES)) THEN
NUM_BASES=SIZE(GENERATED_MESH%ELLIPSOID_MESH%BASES)
ALLOCATE(BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
BASES(basis_idx)%PTR=>GENERATED_MESH%ELLIPSOID_MESH%BASES(basis_idx)%PTR
ENDDO
ELSE
CALL FlagError("Generated mesh bases are not allocated.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Generated mesh ellipsoid mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE DEFAULT
LOCAL_ERROR="The generated mesh generated type of "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))//" is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ELSE
CALL FlagError("Generated mesh has not been finished.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Generated mesh is already associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_BASIS_GET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_BASIS_GET",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_BASIS_GET
!
!================================================================================================================================
!
!>Sets/changes the basis of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshBasisSet
SUBROUTINE GENERATED_MESH_BASIS_SET(GENERATED_MESH,BASES,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to set the basis of
TYPE(BASIS_PTR_TYPE) :: BASES(:) !<An array of pointers to the basis to generate the mesh with
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
INTEGER(INTG) :: COORDINATE_DIMENSION,basis_idx, NUM_BASES, NUM_XI, BASIS_TYPE
TYPE(COORDINATE_SYSTEM_TYPE), POINTER :: COORDINATE_SYSTEM
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_BASIS_SET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(GENERATED_MESH%GENERATED_MESH_FINISHED) THEN
CALL FlagError("Generated mesh has been finished.",ERR,ERROR,*999)
ELSE
NULLIFY(COORDINATE_SYSTEM)
CALL GENERATED_MESH_COORDINATE_SYSTEM_GET(GENERATED_MESH,COORDINATE_SYSTEM,ERR,ERROR,*999)
CALL COORDINATE_SYSTEM_DIMENSION_GET(COORDINATE_SYSTEM,COORDINATE_DIMENSION,ERR,ERROR,*999)
NUM_BASES=SIZE(BASES)
NUM_XI=BASES(1)%PTR%NUMBER_OF_XI
BASIS_TYPE=BASES(1)%PTR%TYPE
DO basis_idx=2,NUM_BASES
IF(BASES(basis_idx)%PTR%NUMBER_OF_XI /= NUM_XI) THEN
CALL FlagError("All bases must have the same number of xi.",ERR,ERROR,*999)
ENDIF
IF(BASES(basis_idx)%PTR%TYPE /= BASIS_TYPE) THEN
CALL FlagError("Using different basis types is not supported for generated meshes.",ERR,ERROR,*999)
ENDIF
ENDDO
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%REGULAR_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASE_VECTORS)) THEN
CALL FlagError("Can not reset the basis if base vectors have been specified.",ERR,ERROR,*999)
ELSE
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASES)) DEALLOCATE(GENERATED_MESH%REGULAR_MESH%BASES)
ALLOCATE(GENERATED_MESH%REGULAR_MESH%BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
IF(ASSOCIATED(BASES(basis_idx)%PTR)) THEN
IF(BASES(basis_idx)%PTR%NUMBER_OF_XI<=COORDINATE_DIMENSION) THEN
GENERATED_MESH%REGULAR_MESH%BASES(basis_idx)%PTR=>BASES(basis_idx)%PTR
ELSE
LOCAL_ERROR="The basis number of xi dimensions of "// &
& TRIM(NUMBER_TO_VSTRING(BASES(basis_idx)%PTR%NUMBER_OF_XI,"*",ERR,ERROR))// &
& " is invalid. The number of xi dimensions must be <= the number of coordinate dimensions of "// &
& TRIM(NUMBER_TO_VSTRING(COORDINATE_DIMENSION,"*",ERR,ERROR))
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ELSE
LOCAL_ERROR="The basis with index "//TRIM(NUMBER_TO_VSTRING(basis_idx,"*",ERR,ERROR))// &
& " is not associated."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ENDDO
ENDIF
ELSE
CALL FlagError("Regular generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%CYLINDER_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%CYLINDER_MESH%BASES)) DEALLOCATE(GENERATED_MESH%CYLINDER_MESH%BASES)
ALLOCATE(GENERATED_MESH%CYLINDER_MESH%BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
IF(ASSOCIATED(BASES(basis_idx)%PTR)) THEN
GENERATED_MESH%CYLINDER_MESH%BASES(basis_idx)%PTR=>BASES(basis_idx)%PTR
ELSE
LOCAL_ERROR="The basis with index "//TRIM(NUMBER_TO_VSTRING(basis_idx,"*",ERR,ERROR))// &
& " is not associated."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ENDDO
ELSE
CALL FlagError("Cylinder generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%ELLIPSOID_MESH)) THEN
IF(ALLOCATED(GENERATED_MESH%ELLIPSOID_MESH%BASES)) DEALLOCATE(GENERATED_MESH%ELLIPSOID_MESH%BASES)
ALLOCATE(GENERATED_MESH%ELLIPSOID_MESH%BASES(NUM_BASES),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate bases.",ERR,ERROR,*999)
DO basis_idx=1,NUM_BASES
IF(ASSOCIATED(BASES(basis_idx)%PTR)) THEN
GENERATED_MESH%ELLIPSOID_MESH%BASES(basis_idx)%PTR=>BASES(basis_idx)%PTR
ELSE
LOCAL_ERROR="The basis with index "//TRIM(NUMBER_TO_VSTRING(basis_idx,"*",ERR,ERROR))// &
& " is not associated."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ENDDO
ELSE
CALL FlagError("Ellpsoid generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE DEFAULT
LOCAL_ERROR="The generated mesh type of "//TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))// &
& " is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ENDIF
ELSE
CALL FlagError("Generated mesh is already associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_BASIS_SET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_BASIS_SET",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_BASIS_SET
!
!================================================================================================================================
!
!>Sets/changes the base vectors of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshBaseVectorsSet
SUBROUTINE GENERATED_MESH_BASE_VECTORS_SET(GENERATED_MESH,BASE_VECTORS,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to set the base vectors fo
REAL(DP), INTENT(IN) :: BASE_VECTORS(:,:) !<BASE_VECTORS(coordinate_idx,xi_idx). The base vectors for the generated mesh to set.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
INTEGER(INTG) :: COORDINATE_DIMENSION
TYPE(BASIS_TYPE), POINTER :: BASIS
TYPE(BASIS_PTR_TYPE), POINTER :: BASES(:)
TYPE(COORDINATE_SYSTEM_TYPE), POINTER :: COORDINATE_SYSTEM
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_BASE_VECTORS_SET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(GENERATED_MESH%GENERATED_MESH_FINISHED) THEN
CALL FlagError("Generated mesh has been finished.",ERR,ERROR,*999)
ELSE
NULLIFY(COORDINATE_SYSTEM)
CALL GENERATED_MESH_COORDINATE_SYSTEM_GET(GENERATED_MESH,COORDINATE_SYSTEM,ERR,ERROR,*999)
CALL COORDINATE_SYSTEM_DIMENSION_GET(COORDINATE_SYSTEM,COORDINATE_DIMENSION,ERR,ERROR,*999)
IF(SIZE(BASE_VECTORS,1)==COORDINATE_DIMENSION) THEN
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
IF(ASSOCIATED(GENERATED_MESH%REGULAR_MESH)) THEN
BASES=>GENERATED_MESH%REGULAR_MESH%BASES
IF(ASSOCIATED(BASES)) THEN
BASIS=>BASES(1)%PTR !Bases should all have same number of xi
IF(ASSOCIATED(BASIS)) THEN
IF(SIZE(BASE_VECTORS,2)==BASIS%NUMBER_OF_XI) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%BASE_VECTORS)) DEALLOCATE(GENERATED_MESH%REGULAR_MESH%BASE_VECTORS)
ALLOCATE(GENERATED_MESH%REGULAR_MESH%BASE_VECTORS(SIZE(BASE_VECTORS,1),SIZE(BASE_VECTORS,2)),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate base vectors.",ERR,ERROR,*999)
GENERATED_MESH%REGULAR_MESH%BASE_VECTORS=BASE_VECTORS
ELSE
LOCAL_ERROR="The size of the second dimension of base vectors of "// &
& TRIM(NUMBER_TO_VSTRING(SIZE(BASE_VECTORS,2),"*",ERR,ERROR))// &
& " is invalid. The second dimension size must match the number of mesh dimensions of "// &
& TRIM(NUMBER_TO_VSTRING(BASIS%NUMBER_OF_XI,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Bases are not associated.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("You must set the generated mesh basis before setting base vectors.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Regular generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE DEFAULT
LOCAL_ERROR="The generated mesh mesh type of "//TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))// &
& " is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ELSE
LOCAL_ERROR="The size of the first dimension of base vectors of "// &
& TRIM(NUMBER_TO_VSTRING(SIZE(BASE_VECTORS,1),"*",ERR,ERROR))// &
& " is invalid. The first dimension size must match the coordinate system dimension of "// &
& TRIM(NUMBER_TO_VSTRING(COORDINATE_DIMENSION,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ENDIF
ELSE
CALL FlagError("Generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_BASE_VECTORS_SET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_BASE_VECTORS_SET",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_BASE_VECTORS_SET
!
!================================================================================================================================
!
!>Returns the coordinate system for a generated mesh accounting for regions and interfaces
SUBROUTINE GENERATED_MESH_COORDINATE_SYSTEM_GET(GENERATED_MESH,COORDINATE_SYSTEM,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to get the coordinate system for
TYPE(COORDINATE_SYSTEM_TYPE), POINTER :: COORDINATE_SYSTEM !<On return, the generated meshes coordinate system. Must not be associated on entry.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(INTERFACE_TYPE), POINTER :: INTERFACE
TYPE(REGION_TYPE), POINTER :: REGION
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_COORDINATE_SYSTEM_GET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(ASSOCIATED(COORDINATE_SYSTEM)) THEN
CALL FlagError("Coordinate system is already associated.",ERR,ERROR,*999)
ELSE
NULLIFY(COORDINATE_SYSTEM)
REGION=>GENERATED_MESH%REGION
IF(ASSOCIATED(REGION)) THEN
COORDINATE_SYSTEM=>REGION%COORDINATE_SYSTEM
IF(.NOT.ASSOCIATED(COORDINATE_SYSTEM)) THEN
LOCAL_ERROR="The coordinate system is not associated for generated mesh number "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%USER_NUMBER,"*",ERR,ERROR))//" of region number "// &
& TRIM(NUMBER_TO_VSTRING(REGION%USER_NUMBER,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ELSE
NULLIFY(INTERFACE)
INTERFACE=>GENERATED_MESH%INTERFACE
IF(ASSOCIATED(INTERFACE)) THEN
COORDINATE_SYSTEM=>INTERFACE%COORDINATE_SYSTEM
IF(.NOT.ASSOCIATED(COORDINATE_SYSTEM)) THEN
LOCAL_ERROR="The coordinate system is not associated for generated mesh number "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%USER_NUMBER,"*",ERR,ERROR))//" of interface number "// &
& TRIM(NUMBER_TO_VSTRING(INTERFACE%USER_NUMBER,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ELSE
LOCAL_ERROR="The interface is not associated for generated mesh number "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%USER_NUMBER,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
ENDIF
ENDIF
ELSE
CALL FlagError("Generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_COORDINATE_SYSTEM_GET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_COORDINATE_SYSTEM_GET",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_COORDINATE_SYSTEM_GET
!
!================================================================================================================================
!
!>Finishes the creation of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshCreateFinish
SUBROUTINE GENERATED_MESH_CREATE_FINISH(GENERATED_MESH,MESH_USER_NUMBER,MESH,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to finish the creation of
INTEGER(INTG), INTENT(IN) :: MESH_USER_NUMBER !<The mesh's user number
TYPE(MESH_TYPE), POINTER :: MESH !<On exit, a pointer to the generated mesh. Must not be associated on entry
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_CREATE_FINISH",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(GENERATED_MESH%GENERATED_MESH_FINISHED) THEN
CALL FlagError("Generated mesh has already been finished.",ERR,ERROR,*999)
ELSE
IF(ASSOCIATED(MESH)) THEN
CALL FlagError("Mesh is already associated.",ERR,ERROR,*999)
ELSE
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
CALL GENERATED_MESH_REGULAR_CREATE_FINISH(GENERATED_MESH,MESH_USER_NUMBER,ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
CALL GENERATED_MESH_CYLINDER_CREATE_FINISH(GENERATED_MESH,MESH_USER_NUMBER,ERR,ERROR,*999)
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
CALL GENERATED_MESH_ELLIPSOID_CREATE_FINISH(GENERATED_MESH,MESH_USER_NUMBER,ERR,ERROR,*999)
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implmented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE DEFAULT
LOCAL_ERROR="The generated mesh mesh type of "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))//" is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
!Return the pointers
MESH=>GENERATED_MESH%MESH
MESH%GENERATED_MESH=>GENERATED_MESH
GENERATED_MESH%GENERATED_MESH_FINISHED=.TRUE.
ENDIF
ENDIF
ELSE
CALL FlagError("Generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_CREATE_FINISH")
RETURN
999 ERRORSEXITS("GENERATED_MESH_CREATE_FINISH",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_CREATE_FINISH
!
!================================================================================================================================
!
!>Starts the creation of a generic generated mesh.
SUBROUTINE GENERATED_MESH_CREATE_START_GENERIC(generatedMeshes,USER_NUMBER,GENERATED_MESH,ERR,ERROR,*)
!Argument variables
TYPE(GeneratedMeshesType), POINTER :: generatedMeshes !<A pointer to the generated meshes
INTEGER(INTG), INTENT(IN) :: USER_NUMBER !<The user number of the generated mesh to create
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<On exit, a pointer to the created generated mesh. Must not be associated on entry.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
INTEGER(INTG) :: DUMMY_ERR,generated_mesh_idx
TYPE(GENERATED_MESH_TYPE), POINTER :: NEW_GENERATED_MESH
TYPE(GENERATED_MESH_PTR_TYPE), POINTER :: NEW_GENERATED_MESHES(:)
TYPE(VARYING_STRING) :: DUMMY_ERROR
NULLIFY(NEW_GENERATED_MESH)
NULLIFY(NEW_GENERATED_MESHES)
ENTERS("GENERATED_MESH_CREATE_START_GENERIC",ERR,ERROR,*997)
IF(ASSOCIATED(generatedMeshes)) THEN
IF(ASSOCIATED(GENERATED_MESH)) THEN
CALL FlagError("Generated mesh is already associated.",ERR,ERROR,*997)
ELSE
!Initialise generated mesh
CALL GENERATED_MESH_INITIALISE(NEW_GENERATED_MESH,ERR,ERROR,*999)
!Set default generated mesh values
NEW_GENERATED_MESH%USER_NUMBER=USER_NUMBER
NEW_GENERATED_MESH%GLOBAL_NUMBER=generatedMeshes%numberOfGeneratedMeshes+1
NEW_GENERATED_MESH%generatedMeshes=>generatedMeshes
!Add new generated mesh into list of generated meshes
ALLOCATE(NEW_GENERATED_MESHES(generatedMeshes%numberOfGeneratedMeshes+1),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate new generated meshes.",ERR,ERROR,*999)
DO generated_mesh_idx=1,generatedMeshes%numberOfGeneratedMeshes
NEW_GENERATED_MESHES(generated_mesh_idx)%PTR=>generatedMeshes%generatedMeshes(generated_mesh_idx)%PTR
ENDDO !generated_mesh_idx
NEW_GENERATED_MESHES(generatedMeshes%numberOfGeneratedMeshes+1)%PTR=>NEW_GENERATED_MESH
IF(ASSOCIATED(generatedMeshes%generatedMeshes)) DEALLOCATE(generatedMeshes%generatedMeshes)
generatedMeshes%generatedMeshes=>NEW_GENERATED_MESHES
generatedMeshes%numberOfGeneratedMeshes=generatedMeshes%numberOfGeneratedMeshes+1
!Return the pointer
GENERATED_MESH=>NEW_GENERATED_MESH
ENDIF
ELSE
CALL FlagError("Generated meshes is not associated.",ERR,ERROR,*997)
ENDIF
EXITS("GENERATED_MESH_CREATE_START_GENERIC")
RETURN
999 CALL GENERATED_MESH_FINALISE(NEW_GENERATED_MESH,DUMMY_ERR,DUMMY_ERROR,*998)
998 IF(ASSOCIATED(NEW_GENERATED_MESHES)) DEALLOCATE(NEW_GENERATED_MESHES)
NULLIFY(GENERATED_MESH)
997 ERRORSEXITS("GENERATED_MESH_CREATE_START_GENERIC",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_CREATE_START_GENERIC
!
!================================================================================================================================
!
!>Starts the creation of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshCreateFinish
SUBROUTINE GENERATED_MESH_CREATE_START_INTERFACE(USER_NUMBER,INTERFACE,GENERATED_MESH,ERR,ERROR,*)
!Argument variables
INTEGER(INTG), INTENT(IN) :: USER_NUMBER !<The user number of the generated mesh to create
TYPE(INTERFACE_TYPE), POINTER :: INTERFACE !<A pointer to the interface to create the generated mesh on
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<On exit, a pointer to the created generated mesh. Must not be associated on entry.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_CREATE_START_INTERFACE",ERR,ERROR,*999)
IF(ASSOCIATED(INTERFACE)) THEN
IF(ASSOCIATED(GENERATED_MESH)) THEN
CALL FlagError("Generated mesh is already associated.",ERR,ERROR,*999)
ELSE
NULLIFY(GENERATED_MESH)
CALL GENERATED_MESH_USER_NUMBER_FIND(USER_NUMBER,INTERFACE,GENERATED_MESH,ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
LOCAL_ERROR="The specified user number of "//TRIM(NUMBER_TO_VSTRING(USER_NUMBER,"*",ERR,ERROR))// &
& " has already been used for a generated mesh."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ELSE
IF(ASSOCIATED(INTERFACE%generatedMeshes)) THEN
CALL GENERATED_MESH_CREATE_START_GENERIC(INTERFACE%generatedMeshes,USER_NUMBER,GENERATED_MESH,ERR,ERROR,*999)
GENERATED_MESH%INTERFACE=>INTERFACE
ELSE
CALL FlagError("Interface generated meshes is not associated.",ERR,ERROR,*999)
ENDIF
ENDIF
ENDIF
ELSE
CALL FlagError("Interface is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_CREATE_START_INTERFACE")
RETURN
999 ERRORSEXITS("GENERATED_MESH_CREATE_START_INTERFACE",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_CREATE_START_INTERFACE
!
!================================================================================================================================
!
!>Starts the creation of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshCreateFinish
SUBROUTINE GENERATED_MESH_CREATE_START_REGION(USER_NUMBER,REGION,GENERATED_MESH,ERR,ERROR,*)
!Argument variables
INTEGER(INTG), INTENT(IN) :: USER_NUMBER !<The user number of the generated mesh to create
TYPE(REGION_TYPE), POINTER :: REGION !<A pointer to the region to create the generated mesh on
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<On exit, a pointer to the created generated mesh. Must not be associated on entry.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_CREATE_START_REGION",ERR,ERROR,*999)
IF(ASSOCIATED(REGION)) THEN
IF(ASSOCIATED(GENERATED_MESH)) THEN
CALL FlagError("Generated mesh is already associated.",ERR,ERROR,*999)
ELSE
NULLIFY(GENERATED_MESH)
CALL GENERATED_MESH_USER_NUMBER_FIND(USER_NUMBER,REGION,GENERATED_MESH,ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
LOCAL_ERROR="The specified user number of "//TRIM(NUMBER_TO_VSTRING(USER_NUMBER,"*",ERR,ERROR))// &
& " has already been used for a generated mesh."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ELSE
IF(ASSOCIATED(REGION%generatedMeshes)) THEN
CALL GENERATED_MESH_CREATE_START_GENERIC(REGION%generatedMeshes,USER_NUMBER,GENERATED_MESH,ERR,ERROR,*999)
GENERATED_MESH%REGION=>REGION
ELSE
CALL FlagError("Region generated meshes is not associated.",ERR,ERROR,*999)
ENDIF
ENDIF
ENDIF
ELSE
CALL FlagError("Region is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_CREATE_START_REGION")
RETURN
999 ERRORSEXITS("GENERATED_MESH_CREATE_START_REGION",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_CREATE_START_REGION
!
!================================================================================================================================
!
!>Destroys a generated mesh. \see OPENCMISS::CMISSGeneratedMeshCreateDestroy
SUBROUTINE GENERATED_MESH_DESTROY(GENERATED_MESH,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to destroy
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
INTEGER(INTG) :: generated_mesh_idx,generated_mesh_position
TYPE(GENERATED_MESH_PTR_TYPE), POINTER :: NEW_GENERATED_MESHES(:)
TYPE(GeneratedMeshesType), POINTER :: generatedMeshes
ENTERS("GENERATED_MESH_DESTROY",ERR,ERROR,*998)
IF(ASSOCIATED(GENERATED_MESH)) THEN
generatedMeshes=>GENERATED_MESH%generatedMeshes
IF(ASSOCIATED(generatedMeshes)) THEN
IF(ASSOCIATED(generatedMeshes%generatedMeshes)) THEN
generated_mesh_position=GENERATED_MESH%GLOBAL_NUMBER
CALL GENERATED_MESH_FINALISE(GENERATED_MESH,ERR,ERROR,*999)
!Remove the generated mesh from the list of generated meshes
IF(generatedMeshes%numberOfGeneratedMeshes>1) THEN
ALLOCATE(NEW_GENERATED_MESHES(generatedMeshes%numberOfGeneratedMeshes-1),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate new generated meshes.",ERR,ERROR,*999)
DO generated_mesh_idx=1,generatedMeshes%numberOfGeneratedMeshes
IF(generated_mesh_idx<generated_mesh_position) THEN
NEW_GENERATED_MESHES(generated_mesh_idx)%PTR=>generatedMeshes%generatedMeshes(generated_mesh_idx)%PTR
ELSE IF(generated_mesh_idx>generated_mesh_position) THEN
generatedMeshes%generatedMeshes(generated_mesh_idx)%PTR%GLOBAL_NUMBER=generatedMeshes% &
& generatedMeshes(generated_mesh_idx)%PTR%GLOBAL_NUMBER-1
NEW_GENERATED_MESHES(generated_mesh_idx-1)%PTR=>generatedMeshes%generatedMeshes(generated_mesh_idx)%PTR
ENDIF
ENDDO !generated_mesh_idx
DEALLOCATE(generatedMeshes%generatedMeshes)
generatedMeshes%generatedMeshes=>NEW_GENERATED_MESHES
generatedMeshes%numberOfGeneratedMeshes=generatedMeshes%numberOfGeneratedMeshes-1
ELSE
DEALLOCATE(generatedMeshes%generatedMeshes)
generatedMeshes%numberOfGeneratedMeshes=0
ENDIF
ELSE
CALL FlagError("Generated meshes are not associated",ERR,ERROR,*998)
ENDIF
ELSE
CALL FlagError("Generated mesh generated meshes is not associated.",ERR,ERROR,*998)
ENDIF
ELSE
CALL FlagError("Generated mesh is not associated",ERR,ERROR,*998)
END IF
EXITS("GENERATED_MESH_DESTROY")
RETURN
999 IF(ASSOCIATED(NEW_GENERATED_MESHES)) DEALLOCATE(NEW_GENERATED_MESHES)
998 ERRORSEXITS("GENERATED_MESH_DESTROY",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_DESTROY
!
!================================================================================================================================
!
!>Gets the extent of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshExtentGet
SUBROUTINE GENERATED_MESH_EXTENT_GET(GENERATED_MESH,EXTENT,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to get the type of
REAL(DP), INTENT(OUT) :: EXTENT(:) !<On return, maximum extent per axis, or inner & outer radii and length of cylinder
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_EXTENT_GET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
IF(SIZE(EXTENT,1)>=SIZE(GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT,1)) THEN
EXTENT=GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT
ELSE
LOCAL_ERROR="The size of EXTENT is too small. The supplied size is "// &
& TRIM(NUMBER_TO_VSTRING(SIZE(EXTENT,1),"*",ERR,ERROR))//" and it needs to be >= "// &
& TRIM(NUMBER_TO_VSTRING(SIZE(GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT,1),"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
IF(SIZE(EXTENT,1)>=3) THEN
EXTENT=GENERATED_MESH%CYLINDER_MESH%CYLINDER_EXTENT
ELSE
LOCAL_ERROR="The size of EXTENT is too small. The supplied size is "// &
& TRIM(NUMBER_TO_VSTRING(SIZE(EXTENT,1),"*",ERR,ERROR))//" and it needs to be 3."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
EXTENT=GENERATED_MESH%ELLIPSOID_MESH%ELLIPSOID_EXTENT
CASE DEFAULT
LOCAL_ERROR="The generated mesh mesh type of "//TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))// &
& " is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ELSE
CALL FlagError("Generated mesh is not associated",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_EXTENT_GET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_EXTENT_GET",ERR,ERROR)
RETURN
END SUBROUTINE GENERATED_MESH_EXTENT_GET
!
!================================================================================================================================
!
!>Sets/changes the extent of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshExtentSet
SUBROUTINE GENERATED_MESH_EXTENT_SET(GENERATED_MESH,EXTENT,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to set the type of
REAL(DP), INTENT(IN) :: EXTENT(:) !<The extent of the generated mesh (MAXIMUM for regular type, CYLINDER for cylinder type)
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
INTEGER(INTG) :: COORDINATE_DIMENSION
REAL(DP) :: norm
TYPE(COORDINATE_SYSTEM_TYPE), POINTER :: COORDINATE_SYSTEM
TYPE(VARYING_STRING) :: LOCAL_ERROR
ENTERS("GENERATED_MESH_EXTENT_SET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
IF(GENERATED_MESH%GENERATED_MESH_FINISHED) THEN
CALL FlagError("Generated mesh has been finished.",ERR,ERROR,*999)
ELSE
NULLIFY(COORDINATE_SYSTEM)
CALL GENERATED_MESH_COORDINATE_SYSTEM_GET(GENERATED_MESH,COORDINATE_SYSTEM,ERR,ERROR,*999)
CALL COORDINATE_SYSTEM_DIMENSION_GET(COORDINATE_SYSTEM,COORDINATE_DIMENSION,ERR,ERROR,*999)
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
IF(SIZE(EXTENT,1)==COORDINATE_DIMENSION) THEN
IF(ASSOCIATED(GENERATED_MESH%REGULAR_MESH)) THEN
CALL L2Norm(extent,norm,err,error,*999)
IF(norm>ZERO_TOLERANCE) THEN
IF(ALLOCATED(GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT)) &
& DEALLOCATE(GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT)
ALLOCATE(GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT(COORDINATE_DIMENSION),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate maximum extent.",ERR,ERROR,*999)
GENERATED_MESH%REGULAR_MESH%MAXIMUM_EXTENT=EXTENT
ELSE
CALL FlagError("The norm of the mesh extent is zero.",ERR,ERROR,*999)
ENDIF
ELSE
CALL FlagError("Regular generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
ELSE
LOCAL_ERROR="The extent size of "//TRIM(NUMBER_TO_VSTRING(SIZE(EXTENT,1),"*",ERR,ERROR))// &
& " is invalid. The extent size must match the coordinate system dimension of "// &
& TRIM(NUMBER_TO_VSTRING(COORDINATE_DIMENSION,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
IF(SIZE(EXTENT,1)==COORDINATE_DIMENSION) THEN
IF(ASSOCIATED(GENERATED_MESH%CYLINDER_MESH)) THEN
ALLOCATE(GENERATED_MESH%CYLINDER_MESH%CYLINDER_EXTENT(SIZE(EXTENT)),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate maximum extent.",ERR,ERROR,*999)
GENERATED_MESH%CYLINDER_MESH%CYLINDER_EXTENT=EXTENT
ELSE
CALL FlagError("Cylinder generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
ELSE
LOCAL_ERROR="The extent size of "//TRIM(NUMBER_TO_VSTRING(SIZE(EXTENT,1),"*",ERR,ERROR))// &
& " is invalid. The extent size must match the coordinate system dimension of "// &
& TRIM(NUMBER_TO_VSTRING(COORDINATE_DIMENSION,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
IF((SIZE(EXTENT,1)-1)==COORDINATE_DIMENSION) THEN
IF(ASSOCIATED(GENERATED_MESH%ELLIPSOID_MESH)) THEN
ALLOCATE(GENERATED_MESH%ELLIPSOID_MESH%ELLIPSOID_EXTENT(SIZE(EXTENT)),STAT=ERR)
IF(ERR/=0) CALL FlagError("Could not allocate maximum extent.",ERR,ERROR,*999)
GENERATED_MESH%ELLIPSOID_MESH%ELLIPSOID_EXTENT=EXTENT
ELSE
CALL FlagError("Ellipsoid generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
ELSE
LOCAL_ERROR="The extent size of "//TRIM(NUMBER_TO_VSTRING(SIZE(EXTENT,1),"*",ERR,ERROR))// &
& " is invalid. The extent size must be equal one plus the coordinate system dimension of "// &
& TRIM(NUMBER_TO_VSTRING(COORDINATE_DIMENSION,"*",ERR,ERROR))//"."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
ENDIF
CASE DEFAULT
LOCAL_ERROR="The generated mesh mesh type of "// &
& TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))// &
& " is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ENDIF
ELSE
CALL FlagError("Generated mesh is not associated.",ERR,ERROR,*999)
ENDIF
EXITS("GENERATED_MESH_EXTENT_SET")
RETURN
999 ERRORSEXITS("GENERATED_MESH_EXTENT_SET",ERR,ERROR)
RETURN 1
END SUBROUTINE GENERATED_MESH_EXTENT_SET
!
!================================================================================================================================
!
!>Get one of the surfaces of a generated mesh. \see OPENCMISS::CMISSGeneratedMeshSurfaceGet
SUBROUTINE GENERATED_MESH_SURFACE_GET(GENERATED_MESH,MESH_COMPONENT,SURFACE_TYPE,SURFACE_NODES,NORMAL_XI,ERR,ERROR,*)
!Argument variables
TYPE(GENERATED_MESH_TYPE), POINTER :: GENERATED_MESH !<A pointer to the generated mesh to get the type of
INTEGER(INTG), INTENT(IN) :: MESH_COMPONENT !<The mesh component to get the surface for.
INTEGER(INTG), INTENT(IN) :: SURFACE_TYPE !<The surface you are interested in
INTEGER(INTG), ALLOCATABLE, INTENT(OUT) :: SURFACE_NODES (:) !<The nodes on the specified surface
INTEGER(INTG), INTENT(OUT) :: NORMAL_XI !<The normal outward pointing xi direction
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Local Variables
TYPE(GENERATED_MESH_ELLIPSOID_TYPE), POINTER :: ELLIPSOID_MESH
TYPE(GENERATED_MESH_CYLINDER_TYPE), POINTER :: CYLINDER_MESH
TYPE(GENERATED_MESH_REGULAR_TYPE), POINTER :: REGULAR_MESH
TYPE(VARYING_STRING) :: LOCAL_ERROR
! INTEGER(INTG), ALLOCATABLE :: NODES(:)
ENTERS("GENERATED_MESH_SURFACE_GET",ERR,ERROR,*999)
IF(ASSOCIATED(GENERATED_MESH)) THEN
SELECT CASE(GENERATED_MESH%GENERATED_TYPE)
CASE(GENERATED_MESH_REGULAR_MESH_TYPE)
REGULAR_MESH=>GENERATED_MESH%REGULAR_MESH
CALL GENERATED_MESH_REGULAR_SURFACE_GET(REGULAR_MESH,MESH_COMPONENT,SURFACE_TYPE,SURFACE_NODES,NORMAL_XI,ERR,ERROR,*999)
CASE(GENERATED_MESH_POLAR_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_FRACTAL_TREE_MESH_TYPE)
CALL FlagError("Not implemented.",ERR,ERROR,*999)
CASE(GENERATED_MESH_CYLINDER_MESH_TYPE)
CYLINDER_MESH=>GENERATED_MESH%CYLINDER_MESH
CALL GENERATED_MESH_CYLINDER_SURFACE_GET(CYLINDER_MESH,MESH_COMPONENT,SURFACE_TYPE,SURFACE_NODES,NORMAL_XI,ERR,ERROR,*999)
CASE(GENERATED_MESH_ELLIPSOID_MESH_TYPE)
ELLIPSOID_MESH=>GENERATED_MESH%ELLIPSOID_MESH
CALL GENERATED_MESH_ELLIPSOID_SURFACE_GET(ELLIPSOID_MESH,MESH_COMPONENT,SURFACE_TYPE,SURFACE_NODES,NORMAL_XI, &
& ERR,ERROR,*999)
CASE DEFAULT
LOCAL_ERROR="The generated mesh mesh type of "//TRIM(NUMBER_TO_VSTRING(GENERATED_MESH%GENERATED_TYPE,"*",ERR,ERROR))// &
& " is invalid."
CALL FlagError(LOCAL_ERROR,ERR,ERROR,*999)
END SELECT
ELSE
CALL FlagError("Generated mesh is not associated",ERR,ERROR,*999)
ENDIF